阅读说明：本技术 一种智能化建筑楼宇及其电力机电安装平台 (Intelligent building and electric power electromechanical installation platform thereof ) 是由 陈梓薇 于 2020-05-07 设计创作，主要内容包括：本发明涉及一种智能化建筑楼宇及其电力机电安装平台,包括：报警单元、照明单元、给排水单元、门禁单元和中控单元；报警单元包括烟雾探测器、温度探测器、计时器和报警控制器；照明单元包括亮度探测器、红外探测器、灯泡和照明控制器；给排水单元包括设置于生活给水管道的生活给水管道、消防给水管道、喷淋装置和给排水控制器；门禁单元包括身份识别单元、用户信息库、电力机电安装平台和门禁控制器；中控单元根据报警单元传回的报警信号切换至紧急模式,控制消防给水管道供水,疏通出入通道,关闭照明单元的供电；若未接收到报警单元传回的报警信号,通过给排水控制器控制生活给水管道供水。本发明具有安全性高的效果。(The invention relates to an intelligent building and an electric power and mechanical and electrical installation platform thereof, comprising: the system comprises an alarm unit, a lighting unit, a water supply and drainage unit, an access control unit and a central control unit; the alarm unit comprises a smoke detector, a temperature detector, a timer and an alarm controller; the lighting unit comprises a brightness detector, an infrared detector, a bulb and a lighting controller; the water supply and drainage unit comprises a life water supply pipeline, a fire-fighting water supply pipeline, a spraying device and a water supply and drainage controller which are arranged on the life water supply pipeline; the access control unit comprises an identity recognition unit, a user information base, an electric power electromechanical installation platform and an access control device; the central control unit is switched to an emergency mode according to an alarm signal transmitted back by the alarm unit, controls the fire-fighting water supply pipeline to supply water, dredges an access channel and turns off the power supply of the illumination unit; if the alarm signal sent back by the alarm unit is not received, the water supply of the domestic water supply pipeline is controlled by the water supply and drainage controller. The invention has the effect of high safety.)

1. The utility model provides an electric power electromechanical mounting platform which characterized in that: the device comprises a gate device (43) arranged at an access passage and a door lock device (44) for controlling the gate device (43) to open and close, wherein the gate device (43) comprises a vertical column (51) vertically arranged at two sides of the passage and a rotating rod (52) rotatably connected to the side wall of the vertical column (51) and capable of sliding back and forth along the length direction of the vertical column (51), a vertical pile (57) is vertically arranged on one side of the vertical column (51) away from the rotating rod (52), a first cross beam (53) is vertically connected to the top end of the rotating rod (52), a second cross beam (54) is vertically connected to the bottom of the rotating rod (52), a plurality of louver plates (55) are rotatably connected between the first cross beam (53) and the second cross beam (54), and a single door (56) is rotatably connected to one side of; the door lock device (44) comprises a first electromagnetic lock (441) arranged at one end of the first cross beam (53) far away from the upright post (51) and a second electromagnetic lock (442) arranged at the side of the single door (56); the side wall of the upright post (51) is fixedly connected with a first motor (511), the first motor (511) is fixedly connected with a first connecting rod (512), one end, far away from the first motor (511), of the first connecting rod (512) is hinged with a second connecting rod (513), and the second connecting rod (513) is hinged with the side wall of the first cross beam (53); stand (51) lateral wall fixedly connected with second motor (514), second motor (514) fixedly connected with third connecting rod (515), second motor (514) one end is kept away from in third connecting rod (515) articulates there is fourth connecting rod (516), fourth connecting rod (516) are articulated with single door (56) lateral wall.

2. An electrical and mechanical mounting platform according to claim 1, wherein: a groove (541) for embedding a second cross beam (54) is formed in the ground between the upright posts (51), a thumb cylinder (542) is fixedly connected to the bottom of the second cross beam (54), and a roller (543) is fixedly connected to the bottom of the thumb cylinder (542); the groove (541) is communicated with an arc-shaped avoiding groove (544) which can be used for the roller (543) to roll.

3. An electrical and mechanical mounting platform according to claim 1, wherein: first crossbeam (53) are close to second connecting rod (513) one side and are seted up along vertical groove (531) that stand (51) length direction extends, it is connected with anticreep piece (532) that can supply second connecting rod (513) articulated to slide in vertical groove (531).

4. An electrical and mechanical mounting platform according to claim 1, wherein: the first cross beam (53) and the second cross beam (54) are provided with a sliding cavity (6) extending along the length direction of the first cross beam (53), the sliding cavity (6) is connected with a plurality of sliding blocks (61) which slide back and forth along the direction close to or far away from the upright post (51) in a sliding way, the sliding blocks (61) are fixedly connected with two ends of the louver boards (55), the upright post (51) is provided with an inner cavity (62) extending along the length direction of the upright post (51), the inner cavity (62) is communicated with the sliding cavity (6), the side wall of the inner cavity (62) is rotatably connected with a wire winding rod (63) which is horizontally arranged, the outer wall of the winding rod (63) is fixedly connected with a steel wire rope (64), one end of the steel wire rope (64) far away from the winding rod (63) penetrates through the plurality of sliding blocks (61) to be fixedly connected with the push block, the winding rod (63) is provided with a driving mechanism which controls the winding rod (63) to rotate and has a self-locking function.

5. An electrical machine and electrical machine mounting platform according to claim 4, wherein: the side wall of each sliding block (61) is provided with a concave part, the inner wall of each concave part is fixedly connected with a spring, and one end of each spring extending out of each concave part is fixedly connected with the adjacent sliding block (61).

6. An electrical machine and electrical machine mounting platform according to claim 4, wherein: smooth chamber (6) and intercommunication department fixed connection of inner chamber (62) have locating lever (621) of horizontal setting, locating lever (621) rotate and are connected with fixed pulley (622), fixed pulley (622) are walked around in wire rope (64).

7. An intelligent building control system, comprising the electric power electromechanical installation platform as claimed in any one of claims 1 to 6, characterized by further comprising an alarm unit (1), a lighting unit (2), a water supply and drainage unit (3), an entrance guard unit (4) and a central control unit (5);

the alarm unit (1) comprises an alarm controller (16), and a smoke detector (11), a temperature detector (12) and a first timer module (13) which are connected with the alarm controller (16);

the lighting unit (2) comprises a lighting controller (24) and a brightness detector (21), an infrared detector (22) and a bulb (23) which are connected with the lighting controller (24);

the water supply and drainage unit (3) comprises a water supply and drainage controller (34), and a municipal water supply main pipeline, a living water supply pipeline (31) and a fire water supply pipeline (32) which are connected with the water supply and drainage controller (34), wherein the fire water supply pipeline (32) is connected with a spraying device (33);

the access control unit (4) comprises an access controller (45) and an identity recognition unit (41) connected with the access controller (45), and the identity recognition unit (41) is arranged on the electric power electromechanical mounting platform (8) and is connected with a user information base (42);

the central control unit (5) responds to an alarm signal transmitted back by the alarm unit (1), switches to an emergency mode, controls a fire-fighting water supply pipeline (32) to supply water through a water supply and drainage controller (34), the access controller (45) responds to the alarm signal to control a door lock device (44) to be in a normally open state, and the illumination controller (24) responds to the alarm signal to turn off the power supply of the illumination unit (2); if the central control unit (5) does not receive the alarm signal transmitted back by the alarm unit (1), the domestic water supply pipeline (31) is controlled to supply water through the water supply and drainage controller (34), the door lock device (44) is controlled to be in a normally closed state through the door access controller (45), and if the domestic water supply and drainage controller needs to control the opening and closing of the bulb (23) through the identity recognition unit (41) and the door access device (43) and the lighting controller (24) in response to the data signal transmitted back by the brightness detector (21).

8. The intelligent building control system of claim 7, wherein: the alarm unit (1) further comprises an alarm prompt lamp, a safe exit prompt lamp (14) and a public broadcast (15), wherein the alarm prompt lamp, the safe exit prompt lamp and the public broadcast are electrically connected with the alarm control.

9. The intelligent building control system of claim 7, wherein: the lighting unit (2) further comprises a second timer module (25) electrically connected to the lighting controller (24).

10. The intelligent building control system of claim 7, wherein: the identity recognition unit (41) comprises an image acquisition module (411), an ID card recognition module (412) and an intelligent switch (413) arranged in a guard room.

Technical Field

The invention relates to the technical field of building control, in particular to an intelligent building and an electric power and mechanical and electrical installation platform thereof.

Background

Along with the development of the times and the continuous improvement of information technology, the intelligent housing is rapidly developed in China in recent years, and the building management problem brought by the intelligent housing is more and more emphasized; the internet of things technology, namely a network formed by the mutual connection of objects, is generated on the basis of the internet technology and is an extension to the application of the internet technology; at present building control system, mostly with all equipment according to the functional partitioning module, central control room direct management has improved the convenience in the management to a certain extent, but too relies on manual monitoring, if nobody's in time control or the staff's of control reaction is not timely enough, perhaps because operating personnel's misoperation, still can cause the potential safety hazard.

The above prior art solutions have the following drawbacks: when a fire disaster occurs, the central control room sends instructions to the functional modules one by one to deal with the current emergency situation, if the reaction of workers is not timely enough or the operation is wrong, the continuous occurrence time of the fire disaster is prolonged, and great potential safety hazards exist.

Disclosure of Invention

Aiming at the defects in the prior art, the invention aims to provide an electric power electromechanical mounting platform which has the effect of high safety.

The above object of the present invention is achieved by the following technical solutions:

an electric power electromechanical installation platform comprises a gate device arranged at an access passage and a door lock device for controlling the opening and closing of the gate device, wherein the gate device comprises a stand column vertically arranged at two sides of the passage and a rotating rod rotatably connected to the side wall of the stand column and capable of sliding back and forth along the length direction of the stand column, a vertical pile is vertically arranged at one side of the stand column far away from the rotating rod, the top end of the rotating rod is vertically connected with a first cross beam, the bottom of the rotating rod is vertically connected with a second cross beam, a plurality of louver boards are rotatably connected between the first cross beam and the second cross beam, a single door is rotatably connected at one side of the stand column opposite to the rotating rod, the door lock device comprises a first electromagnetic lock arranged at one end of the first cross beam far away from the stand column and a second electromagnetic lock arranged at the side edge of, one end of the first connecting rod, which is far away from the first motor, is hinged with a second connecting rod, and the second connecting rod is hinged with the side wall of the first cross beam; stand lateral wall fixedly connected with second motor, second motor fixedly connected with third connecting rod, the third connecting rod is kept away from second motor one end and is articulated to have a fourth connecting rod, the fourth connecting rod is articulated with the single door lateral wall.

By adopting the technical scheme, in the prior art, the stop lever and the access control system are arranged at the access passage of the residential area to identify vehicles or people entering or exiting the residential area, but because the stop lever is not enough to completely block the access passage, people not in the residential area can enter or exit the residential area without permission, and potential safety hazards exist; the upright posts are positioned at two sides of the passage, the gate is formed among the first cross beam, the second cross beam and the plurality of louver boards, and the gate rotates around the rotating rod, so that two split gates are formed, personnel in a non-residential area can be prevented from entering the residential area without permission, and the safety of a home owner in the residential area is improved; meanwhile, the louver boards are light in weight, so that the overall load of the gate can be reduced, and the convenience of the gate in rotation is improved; the first motor and the second motor are arranged to respectively control the opening and closing of the gate and the single door, so that convenience when an owner enters and exits a residential area is improved, and meanwhile, the overall intelligence of an intelligent building is improved.

The present invention may be further configured to: the first cross beam and the second cross beam are provided with sliding cavities extending along the length direction of the first cross beam, the sliding cavities are connected with a plurality of sliding blocks which slide back and forth along the direction close to or far away from the upright posts in a sliding manner, the sliding blocks are fixedly connected to two ends of the louver board, and springs are fixedly connected between adjacent sliding blocks; the stand is provided with the inner chamber that extends along stand length direction, inner chamber and smooth chamber intercommunication, the inner chamber lateral wall rotates and is connected with the wire winding pole that the level set up, wire winding pole outer wall fixedly connected with wire rope, wire rope keeps away from wire winding pole one end and passes a plurality of slider fixedly connected with ejector pads, the wire winding pole is provided with the actuating mechanism that control wire winding pole rotates and have self-locking function.

By adopting the technical scheme, vehicles passing in and out of a residential area usually cannot exceed two meters, the driving piece is used for controlling the rotation of the winding rod, the pushing block is driven to slide along the direction close to the upright post, the spring is compressed, the sliding block is forced to slide along the direction close to the upright post, and the louver boards are driven to be stacked, so that the vehicles can pass through the louver boards; when the vehicle passes through, the driving part releases the self-locking state, the spring resets to force the sliding block to slide along the direction far away from the upright post, and the louver board resets; thereby improving the convenience when the vehicle passes through the gate.

The present invention may be further configured to: the first cross beam is provided with a vertical groove extending along the length direction of the stand column on one side close to the second connecting rod, and an anti-falling block for hinging the second connecting rod is connected in the vertical groove in a sliding manner.

Through adopting above-mentioned technical scheme, when the thumb jar upwards lifts the unilateral gate, the anticreep piece slides in erecting the inslot to when avoiding the gate to move up, first connecting rod and second connecting rod also rebound, thereby improve the convenience of gate when opening.

The present invention may be further configured to: the side wall of the sliding block is provided with a concave part, the spring is fixedly connected in the concave part, and one end of the spring, which extends out of the concave part, is fixedly connected with the adjacent sliding block.

Through adopting above-mentioned technical scheme, when the slider slided to the direction that is close to the stand, compress the spring in the concave part to shared space when reducing the shutter plate and being in the stacked state, thereby space when improving the vehicle and passing through the gate.

The present invention may be further configured to: a groove for embedding a second cross beam is formed in the ground between the stand columns, the bottom of the second cross beam is fixedly connected with a thumb cylinder, and the bottom of the thumb cylinder is fixedly connected with a roller; the groove is communicated with an arc-shaped avoiding groove for rolling the roller.

By adopting the technical scheme, the groove is formed for the second cross beam to be embedded, so that the stability of the vehicle passing through the gate is improved, the bumping is avoided, when the vehicle exceeding the height of the gate needs to pass through the gate, the first motor drives the first connecting rod and the second connecting rod, the gate is opened, the thumb cylinder lifts the second cross beam out of the groove, and when the gate is opened, the roller rolls along the avoiding groove; thereby improving the adaptability of the gate.

The present invention may be further configured to: the connecting part of the sliding cavity and the inner cavity is fixedly connected with a horizontally arranged positioning rod, the positioning rod is rotatably connected with a fixed pulley, and the steel wire rope bypasses the fixed pulley.

Through adopting above-mentioned technical scheme, wire rope twines in the wire winding pole outer wall around the fixed pulley to reduce wire rope and the friction of inner chamber inner wall when removing, thereby improved wire rope's life.

The invention also aims to provide an intelligent building control system which has the effect of high safety.

The second aim of the invention is realized by the following technical scheme:

an intelligent building control system comprises an electric power electromechanical installation platform, an alarm unit, a lighting unit, a water supply and drainage unit, an access control unit and a central control unit;

the alarm unit comprises an alarm controller, and a smoke detector, a temperature detector and a first timer module which are connected with the alarm controller;

the lighting unit comprises a lighting controller, and a brightness detector, an infrared detector and a bulb which are connected with the lighting controller;

the water supply and drainage unit comprises a water supply and drainage controller, and a municipal water supply main pipeline, a domestic water supply pipeline and a fire water supply pipeline which are connected with the water supply and drainage controller, wherein the fire water supply pipeline is connected with a spraying device;

the electric power machine electrical installation platform comprises an electric power machine electrical installation platform, an access control unit and an identity recognition unit, wherein the access control unit comprises an access controller and the identity recognition unit connected with the access controller;

the central control unit responds to an alarm signal sent back by the alarm unit, switches to an emergency mode, controls a fire-fighting water supply pipeline to supply water through the water supply and drainage controller, responds to the alarm signal by the entrance guard controller, controls the door lock device to be in a normally open state, and responds to the alarm signal by the illumination controller to close the power supply of the illumination unit; if the central control unit does not receive the alarm signal sent back by the alarm unit, the domestic water supply pipeline is controlled to supply water by the water supply and drainage controller, the door lock device is controlled to be in a normally closed state by the door control device, and if the door lock device is required, the data signal sent back by the brightness detector can be responded by the lighting controller to control the on and off of the bulb.

By adopting the technical scheme, when a fire disaster occurs, the temperature sensor and the temperature sensor are triggered in sequence, the central control unit responds to an alarm signal sent back by the alarm controller, the emergency mode is switched, and the emergency fire extinguishing scheme is started automatically, so that the time for the fire disaster to continuously occur is shortened, and the property loss of an owner is reduced; when no fire occurs, the domestic water supply pipeline is controlled to supply water through the water supply and drainage controller, the door lock device is controlled to be in a normally closed state through the access control controller, and if the door lock device is needed, the data signals sent back by the brightness detector are responded by the lighting controller to control the on and off of the bulb through the identity recognition unit and the gate device.

The present invention may be further configured to: the alarm unit also comprises an alarm prompt lamp, a safe exit prompt lamp and a public broadcast which are electrically connected with the alarm control.

By adopting the technical scheme, the central control unit receives the alarm signal sent back by the alarm controller, the alarm prompt lamp flashes, and the public broadcast and the safety exit prompt lamp are started through the alarm controller, so that people can be evacuated conveniently.

The present invention may be further configured to: the lighting unit also includes a second timer module electrically connected to the lighting controller.

By adopting the technical scheme, after the infrared sensor is triggered, the lighting controller starts the timer to start timing while starting the bulb lighting, if the timing of the timer is finished, the infrared detector does not transmit a data signal to the lighting controller, and the lighting controller closes the bulb, so that the energy-saving lighting is realized, and the service life of the bulb is prolonged.

The present invention may be further configured to: the identity recognition unit comprises an image acquisition module, an ID card recognition module and an intelligent switch arranged in a guard room.

By adopting the technical scheme, the visiting vehicle or the person can acquire the picture information through the image acquisition unit, store the picture information through the identity recognition unit and forward the picture information to the access controller, the access controller compares the picture information with the information in the user information base, and if the picture information is in accordance with the information in the user information base, the electromagnetic lock is controlled to open the gate; if the resident needs to enter or exit the residence in the event of meeting the needs of workers or other special people, the gate can be controlled to be opened through the intelligent switch of the entrance guard room, and therefore the overall safety of entering or exiting the residence is improved.

In summary, the invention includes at least one of the following beneficial technical effects:

the two oppositely-opened gates can prevent personnel in a non-residential area from entering the residential area without permission, so that the safety of a home owner in the residential area is improved; meanwhile, the louver boards are light in weight, so that the overall load of the gate can be reduced, and the convenience of the gate in rotation is improved; the first motor and the second motor are arranged to respectively control the opening and closing of the gate and the single door, so that the convenience of an owner when entering and exiting a residential area is improved, and the overall intelligence of an intelligent building is improved;

when a fire disaster occurs, the temperature sensor and the temperature sensor are triggered in sequence, the central control unit responds to an alarm signal sent back by the alarm controller, the emergency mode is switched, and the emergency fire extinguishing scheme is started automatically, so that the time for the fire disaster to occur continuously is shortened, and the property loss of an owner is reduced; when no fire occurs, the domestic water supply pipeline is controlled to supply water through the water supply and drainage controller, the door lock device is controlled to be in a normally closed state through the access control controller, and if the door lock device is needed, the data signals sent back by the brightness detector are responded by the lighting controller to control the on and off of the bulb through the identity recognition unit and the gate device.

Drawings

Fig. 1 is a block diagram of the overall structure of a control system;

FIG. 2 is a schematic diagram of the overall structure of the electromechanical mounting platform of the electric power machine;

FIG. 3 is an enlarged partial schematic view of portion A of FIG. 2;

FIG. 4 is a partial cross-sectional view of the electromechanical mounting platform of the electrical machine;

FIG. 5 is an enlarged partial view of portion B of FIG. 4;

FIG. 6 is a lighting unit workflow block diagram;

FIG. 7 is a block diagram of a water supply and drain unit workflow;

FIG. 8 is a block diagram of the access control unit workflow;

fig. 9 is a block diagram of the workflow of the emergency mode control system.

In the figure, 1, an alarm unit; 11. a smoke detector; 12. a temperature detector; 13. a first timer module; 14. a safety exit warning light; 15. public broadcasting; 16. an alarm controller; 17. a reservoir; 2. a lighting unit; 21. a brightness detector; 22. an infrared detector; 23. a bulb; 24. a lighting controller; 25. a second timer module; 3. a water supply and drainage unit; 31. a living water supply pipeline; 32. a fire service water supply pipeline; 33. a spraying device; 34. a water supply and drainage controller; 35. a municipal water supply pipeline; 4. an access control unit; 41. an identity recognition unit; 411. an image acquisition module; 412. an ID card identification module; 413. an intelligent switch; 42. a user information base; 43. a gate device; 44. a door lock device; 441. a first electromagnetic lock; 442. a second electromagnetic lock; 45. an access controller; 5. a central control unit; 51. a column; 511. a first motor; 512. a first link; 513. a second link; 514. a second motor; 515. a third link; 516. a fourth link; 52. rotating the rod; 53. a first cross member; 531. a vertical slot; 532. an anti-drop block; 54. a second cross member; 541. a groove; 542. a thumb cylinder; 543. a roller; 544. an avoidance groove; 55. a louver board; 56. a single door; 57. erecting a pile; 6. a slide chamber; 61. a slider; 62. an inner cavity; 621. positioning a rod; 622. a fixed pulley; 63. a wire winding rod; 64. a wire rope; 65. a spring; 66. a third motor; 67. a gear; 71. a first controller; 72. a second controller; 73. a third controller; 74. a fourth controller; 8. electric power electromechanical mounting platform.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

Referring to fig. 1, the intelligent building control system disclosed by the invention comprises: the intelligent control system comprises an alarm unit 1, a lighting unit 2, a water supply and drainage unit 3, an access control unit 4 for controlling the opening and closing of an access passage and a central control unit 5 for receiving and processing data signals transmitted back by the units.

The alarm unit 1 includes: a temperature detector 12, a smoke detector 11, a first timer module 13, a public address 15 and an alarm controller 16;

the output ends of the plurality of temperature detectors 12 are in communication connection with the alarm controller 16, are correspondingly arranged in each area in the building and are used for collecting the temperature in the area;

the output ends of the smoke detectors 11 are in communication connection with the alarm controller 16, and the smoke detectors are correspondingly arranged in each area in the building and used for collecting the smoke concentration in the area;

the first timer module 13 is electrically connected to the alarm controller 16 and is used for calculating the time interval between the temperature detector 12 and the smoke detector 11 which are successively transmitted back;

the public broadcasting 15, the input end is electrically connected with alarm controller 16, set up in every area in the building, is used for broadcasting and evacuating broadcasting and warning sound;

the alarm controller 16 is used for receiving the alarm signal sent back by the temperature detector 12, starting the first timer module 13 to start timing, and if the timing is finished, automatically storing and recording the alarm signal sent back by the smoke detector 11 into the system; if the alarm signal sent back by the smoke detector 11 is received before the timing is finished, the fire disaster in the area is judged to occur, the alarm signal is transmitted to the central control unit 5, and the public broadcast 15 is started.

The lighting unit 2 includes: the system comprises a brightness detector 21, an infrared detector 22, a bulb 23, a second timer module 25, a safety exit prompting lamp 14 and an illumination controller 24;

the output ends of the brightness detectors 21 are in communication connection with the lighting controller 24, are correspondingly arranged in each area in the building and are used for collecting the brightness in the area;

the infrared detectors 22 are in communication connection with the lighting controller 24, are correspondingly arranged in each area in the building and are used for detecting whether people enter the area;

a plurality of bulbs 23 electrically connected to the lighting controller 24, correspondingly disposed in each area of the building, for increasing the brightness in the area;

a second timer module 25 electrically connected to the illumination controller 24 for counting the time interval during which the infrared detector 22 is not triggered;

the input end of each safety exit prompting lamp 14 is in communication connection with the lighting controller 24, is correspondingly arranged on the side wall of each channel in the building and is used for pointing to a safety exit;

the illumination controller 24 is configured to receive a data signal sent back by the brightness detector 21, control the infrared sensor to switch from the sleep mode to the working mode, light the bulb 23 while starting the second timer module 25 to start timing if the infrared detector 22 is triggered, end timing of the second timer module 25, enable the infrared detector 22 to still detect that a person is in the area, continuously light the bulb 23 to illuminate, and turn off the bulb 23 if no person is detected in the area;

the water supply and drainage unit 3: a municipal water supply main pipe 35, a living water supply pipe 31, a fire water supply pipe 32, a spraying device 33 and a water supply and drainage controller 34;

a domestic water supply pipe 31 which is connected from the municipal water supply main pipe 35 and is used for supplying water for daily life;

a fire-fighting water supply pipe 32 which is connected from the municipal water supply main pipe 35 and is used for supplying water to the fire-fighting water supply pipe 32 in an emergency mode;

the spraying device 33 is connected out of the fire-fighting water supply pipeline 32, and the output end of the spraying device is correspondingly arranged in each area in the building and used for spraying and extinguishing fire;

and the water supply and drainage controller 34 is used for receiving the data signals transmitted by the central control unit 5 and controlling the municipal water supply pipeline 35 to be connected to the fire water supply pipeline 32 or the life water supply pipeline 31.

Entrance guard unit 4: the system comprises an identity recognition unit 41, a user information base 42, an intelligent switch 413, an electric power electromechanical installation platform 8 and an access controller 45; the electromechanical mounting platform 8 comprises a shutter device 43 provided in the access passage and a door lock device 44 for opening and closing the shutter device 43.

The identity recognition unit 41 comprises an image acquisition module 411, an ID card recognition module 412 and an intelligent switch 413 arranged in a guard room;

the image acquisition module 411 is arranged on the side wall of the upright post 51, the output end of the image acquisition module is in communication connection with the identity recognition unit 41, and the image acquisition module is used for acquiring image information of visiting vehicles or people;

a user information base 42 electrically connected to the identity recognition unit 41 for storing owner information;

the intelligent switch 413 is arranged in the guard room and used for controlling the on-off of the door lock device 44;

and the door access controller 45 is used for receiving the data signal transmitted by the identity recognition unit 41, recognizing whether the visiting vehicle or the person belongs to the owner in the residential area, judging whether the visiting vehicle is over high, and controlling the opening and closing of the door lock device 44.

The central control unit 5 is used for receiving the alarm signal sent back by the alarm controller 16, closing the life water supply pipeline 31 by the water supply and drainage controller 34 to supply water, so as to improve the water pressure of the fire water supply pipeline 32, enabling the fire water supply pipeline 32 to supply water to a spraying system, controlling the door lock device 44 to be in a normally open state by the door access controller 45, and starting the safety exit prompting lamp 14 by the illumination controller 24; when the spraying system sprays and reduces fire on the fire scene, the scene temperature is reduced, the temperature sensor is not triggered any more, the alarm controller 16 stops transmitting the alarm signal to the central control unit 5, and the central control unit is electrically connected with a memory 17 for recording data signals.

Referring to fig. 2 and 3, the gate device 43 includes a vertical column 51 vertically disposed at two sides of the access passage and a rotating rod 52 rotatably connected to a sidewall of the vertical column 51 and capable of sliding back and forth along a length direction of the vertical column 51, a first beam 53 is fixedly connected to a top end of the rotating rod 52, a second beam 54 is fixedly connected to a bottom end of the rotating rod, a sliding cavity 6 extending along the length direction of the first beam 53 is formed in each of the first beam 53 and the second beam 54, and a plurality of vertically disposed louvers 55 are rotatably connected between the first beam 53 and the second beam 54; two ends of the louver board 55 are fixedly connected with sliding blocks 61 capable of sliding back and forth in the direction close to or far away from the upright post 51 along the sliding cavity 6, the side walls of the sliding blocks 61 are provided with concave parts, the inner walls of the concave parts are fixedly connected with springs 65, and one ends of the springs 65 extending out of the concave parts are fixedly connected with the side walls of the adjacent sliding blocks 61.

One side of one upright post 51 back to the rotating rod 52 is hinged with a single door 56; a first motor 511 and a second motor 514 are fixedly connected to the side wall of the upright post 51, the first motor 511 is fixedly connected with a first connecting rod 512, one end, far away from the first motor 511, of the first connecting rod 512 is hinged with a second connecting rod 513, a vertical groove 531 extending along the length direction of the upright post 51 is formed in the side wall of the first cross beam 53, one end, far away from the first connecting rod 512, of the second connecting rod 513 is fixedly connected with an anti-falling block 532, and the anti-falling block 532 is located in the vertical groove 531; the second motor 514 is fixedly connected with a third connecting rod 515, one end of the third connecting rod 515, which is far away from the second motor 514, is hinged with a fourth connecting rod 516, and the fourth connecting rod 516 is hinged with the side wall of the single door 56.

Door lock device 44 comprises a first electromagnetic lock 441 fixedly connected to one end of first beam 53 far from upright 51, and a second electromagnetic lock 442 fixedly connected to one side of single door 56 near upright 57;

the input end of the first electromagnetic lock 441 is electrically connected with the first controller 71;

and a second electromagnetic lock 442 having an input electrically connected to the second controller 72.

Referring to fig. 4 and 5, an inner cavity 62 extending along the length direction of the upright 51 is formed in the upright 51, two horizontally arranged winding rods 63 are rotatably connected to the side wall of the inner cavity 62, the two winding rods 63 are arranged along the length extending direction of the upright 51, a gear 67 is fixedly connected to the tail end of each winding rod 63, and the gear 67 is fixedly connected with a third motor 66 for driving the gear 67 to rotate; a steel wire rope 64 surrounding the outer wall of the winding rod 63 is fixedly connected to the outer wall of the winding rod 63, and one end, far away from the winding rod 63, of the steel wire rope 64 penetrates through the inner cavity 62 and is fixedly connected with a push block capable of pushing the sliding block 61 to slide; two locating levers 621 are provided with to inner chamber 62 lateral wall fixed connection level, and locating lever 621 rotates and is connected with the fixed pulley 622 that can supply wire rope 64 to walk around to reduce wire rope 64 when sliding and the friction of inner chamber 62 lateral wall, thereby improve wire rope 64's life.

The end face of the first cross beam 53 far from the upright post 51 is fixedly connected with a first electromagnetic lock 441, two ends of the second cross beam 54 are fixedly connected with two thumb cylinders 542, the bottom of the thumb cylinder 542 far from one end of the upright post 51 is fixedly connected with a roller 543, a groove 541 which can be used for the second cross beam 54 and the roller 543 to be embedded simultaneously is formed in the ground between the two upright posts 51, and the groove 541 is communicated with an arc-shaped avoiding groove 544 which can be used for the roller 543 to roll.

Referring to fig. 6, the invention discloses a control method of an intelligent building control system, comprising the following steps:

initial state: the central control unit 55 is in the operating mode;

s1: when the temperature of the area in which the temperature detector 12 is located exceeds a set value, sending a data signal to the alarm controller 16;

s2: after the alarm controller 16 receives the data signal sent back by the temperature sensor, the first timer module 13 is started to start timing, and if the alarm controller 16 receives the data signal sent back by the smoke sensor before timing is finished, the alarm controller 16 sends an alarm signal to the central control unit 5; otherwise, recording the data in the storage 17; preventing the temperature detector 12 from false alarm caused by overhigh external environment temperature, and starting the public broadcast 15 to evacuate people;

s3: receiving an alarm signal sent back by the alarm controller 16, switching to an emergency mode, and simultaneously performing the following steps; the system automatically starts a corresponding emergency plan, so that property loss of an owner is reduced;

s4: the water supply and drainage controller 34 closes the living water supply pipeline 31 to supply water continuously to the fire water supply pipeline 32, and the spraying device 33 is started; the water supply of the life water supply pipeline 31 is closed to improve the water pressure of the fire-fighting water supply pipeline 32, and the spraying is started to further prevent the spread of fire, so that the property loss of an owner or the life safety of the owner is reduced;

s5: the first electromagnetic lock 441 and the second electromagnetic lock 442 are opened through the access controller 45, and the first motor 511 and the second motor 514 are started through the access controller 45, so that the gate and the single gate 56 are kept in a normally open state; people can be evacuated conveniently, and the trampling event caused by crowding of people can be prevented;

s6: the safety exit prompting lamp 14 is lightened through the illumination controller 24, and meanwhile, the power supply of other bulbs 23 is turned off through the illumination controller 24; the power supply of other bulbs 23 is turned off to prevent electric wires from being ignited in the spreading process of the fire, so that the harm caused by the fire is aggravated, and the safety exit prompt lamp 14 is turned on to facilitate crowd evacuation;

s7: when the open fire is extinguished in the fire scene, the temperature in the area is reduced, the temperature detector 12 is not triggered any more, the smoke concentration is reduced, the smoke detector 11 is not triggered any more, and when the alarm controller 16 does not send an alarm signal to the central control unit 5 any more, the working mode is switched.

Referring to fig. 7, if no fire occurs, the operation of the lighting unit 2:

initial state: the infrared detector 22 is in sleep mode;

s1: in a set time period, when the brightness in the area of the brightness detector 21 is lower than a set value, a data signal is sent to the illumination controller 24, otherwise, the bulb 23 is in a manual control state;

s2: receiving a data signal transmitted back by the brightness detector 21, and switching the infrared detector 22 to a working mode;

s3: when the infrared detector 22 has a sensing signal, a data signal is generated to the illumination controller 24;

s4: controlling the second timer module 25 to start timing and lighting the bulb 23;

s5: if the second timer module 25 finishes timing, the infrared detector 22 still has a sensing signal, and the bulb 23 is continuously turned on, otherwise, the bulb 23 is turned off.

Referring to fig. 8, in the case where no fire occurs, the municipal water supply main line simultaneously supplies water to the domestic water supply line 31 and the fire water supply line 32, and the fire water supply line 32 is connected to the shower unit 33.

Referring to fig. 9, the door access unit further includes a first controller 71, a second controller 72, a third controller 73, and a fourth controller 74;

the output end of the first controller 71 is electrically connected with the first motor 511, and the input end of the first controller is in communication connection with the entrance guard controller 45 and is used for controlling the on and off of the first motor 511;

the output end of the second controller 72 is electrically connected with the second motor 514, and the input end of the second controller is in communication connection with the entrance guard controller 45 and is used for controlling the on and off of the second motor 514;

the output end of the third controller 73 is electrically connected with the third motor 7566, and the input end of the third controller is in communication connection with the gate inhibition controller 45 and is used for controlling the on and off of the third motor 66;

the output end of the fourth controller 74 is electrically connected with the thumb cylinder 542, and the input end of the fourth controller is in communication connection with the gate controller 45 and is used for controlling the stroke of the thumb cylinder 542;

if no fire occurs, the working process of the access control unit 4 is as follows:

initial state: the first electromagnetic lock 441 and the second electromagnetic lock 442 are both in a locked state;

s1: the image acquisition module 411 acquires image information of a visiting vehicle or person and the ID card identification module 412 acquires visiting information and transmits the visiting information to the identity identification unit 41;

s2: the identity recognition unit 41 compares the image information or visiting information of the visiting with the user information base 42;

s3: if the comparison result is in line, the access controller 45 identifies the image information as a person/vehicle;

s4: if the person is a person, the second controller 72 is controlled to start the second motor 514 to open the single door 56, and the person resets through the rear single door 56;

s5: if yes, judging whether the visiting vehicle exceeds a limited height;

s6: if the height exceeds the limit height, the fourth controller 74 is controlled to drive the thumb cylinder 542 to lift upwards, the first controller 71 is controlled to start the first motor 511 to open the gate, and the vehicle is reset through the rear gate;

s7: if the height does not exceed the limited height, controlling a third controller 73 to start a third motor 66 to drive a winding rod 63 to rotate, withdrawing a steel wire rope 64, forcing the lily board to slide towards the direction close to the upright post 51, and resetting the lily board after the vehicle passes;

when a special person needs to enter the residential area, the concierge room can open the gate or single door 56 by controlling the second motor 514 and the third motor 66 through the second controller 72 and the third controller 73 using the intelligent switch 413.