CN112346484A

CN112346484A - Energy-saving monitoring method for glass curtain wall of intelligent building

Info

Publication number: CN112346484A
Application number: CN202011321388.7A
Authority: CN
Inventors: 朱启文; 周亚凤
Original assignee: Nanjing College of Information Technology
Current assignee: Nanjing College of Information Technology
Priority date: 2020-11-23
Filing date: 2020-11-23
Publication date: 2021-02-09
Anticipated expiration: 2040-11-23
Also published as: CN112346484B

Abstract

The invention discloses an energy-saving monitoring method for a glass curtain wall of an intelligent building, which comprises the following steps: a: a solar panel for supplying power to the information acquisition device of the glass curtain wall is arranged on the glass curtain wall; b: a pressure sensor for collecting the air pressure value of the airtight structure is arranged on the airtight structure between the glass mounting grooves, and pressure data collected by the pressure sensor is transmitted to the RS485 communication module; c: uploading the pressure data to a management system upper computer for evaluating the data, and sending an adjusting signal by the upper computer according to an evaluation result; d: an air pump for adjusting air pressure is arranged on the frame structure of the glass curtain wall.

Description

Energy-saving monitoring method for glass curtain wall of intelligent building

Technical Field

The invention relates to an energy-saving monitoring method for a glass curtain wall of an intelligent building, in particular to an energy-saving monitoring method which can realize monitoring and maintenance reminding of the curtain wall without substantially changing a curtain wall structure.

Background

At present, in many buildings, a glass curtain wall is directly used as a wall body, and the influence of the glass curtain wall on the environment is obviously greater than that of a common brick wall, so that the state of the glass curtain wall is one of monitoring key points of an intelligent building system; the glass curtain wall in the prior art is composed of a frame (such as aluminum alloy and the like) and glass arranged on the frame, the glass and the frame are connected and sealed through structural members and sealing glue, and the energy consumption of a building is directly influenced by the quality of the sealing effect.

Disclosure of Invention

The purpose of the invention is as follows: the invention aims to provide an energy-saving monitoring method for monitoring and reminding maintenance of a curtain wall without substantially changing a curtain wall structure; a second object of the present invention is to provide a supporting device for a glass curtain wall of an intelligent building.

The technical scheme is as follows: in order to achieve the purpose, the energy-saving monitoring method of the glass curtain wall of the intelligent building comprises the following steps of:

a: a solar panel for supplying power to the information acquisition device of the glass curtain wall is arranged on the glass curtain wall;

b: a pressure sensor for collecting the air pressure value of the airtight structure is arranged on the airtight structure between the glass mounting grooves, and the pressure data collected by the pressure sensor is transmitted to the communication module;

c: uploading the pressure data to a management system upper computer for evaluating the data, and sending an adjusting signal by the upper computer according to an evaluation result;

d: an air pump for adjusting air pressure is arranged on the frame structure of the glass curtain wall.

The support device for the glass curtain wall of the intelligent building comprises a base, wherein a motor is fixedly installed inside the base, a driving shaft is arranged inside the motor, a first ratchet mechanism and a second ratchet mechanism are respectively arranged on the surface of the driving shaft from bottom to top, a first connecting mechanism is arranged on the top surface of the second ratchet mechanism, a support plate is fixedly installed on the top surface of the first connecting mechanism, a first connecting block is welded on the top surface of the support plate, the first connecting block is rotatably connected with the fixed block through a shaft, the fixed block is rotatably connected with a second connecting block through a shaft, a solar panel main body is welded on the top surface of the fixed block, a support rod is welded on the bottom surface of the second connecting block, a lantern ring is integrally installed on the bottom surface of the support rod, a first reciprocating screw rod penetrates through a bolt at the axis of the lantern ring, and a conical gear set is arranged at one, one end of the conical gear set is connected with a second connecting mechanism, a large gear is fixed on the bottom surface of the second connecting mechanism, a gear ring is meshed at one end of the large gear, and the gear ring is fixedly installed on the upper surface of the base.

Furthermore, a pinion is connected to one end surface of the first ratchet mechanism in a meshed mode, a second reciprocating screw rod penetrates through the center of the pinion in a threaded mode, a first junction box is arranged on the bottom surface of the pinion, a connecting wire is connected to the surface of the first junction box in a sliding mode, a second junction box is connected to one end, away from the first junction box, of the connecting wire in a sliding mode, the second junction box is connected with a linkage gear through a shaft, and a tooth block is connected to one end of the linkage gear in a meshed mode.

Furthermore, a fixed shaft is fixedly mounted inside the second ratchet mechanism, a volute spiral spring is sleeved on the surface of one end of the fixed shaft, ratchets are fixedly sleeved on the surface of the volute spiral spring, one ends, far away from the volute spiral spring, of the ratchets are meshed with a driving gear, the center of the bottom surface of the driving gear is in key connection with a driving shaft, the second ratchet mechanism is consistent with the internal structure of the first ratchet mechanism, and the ratchets inside the second ratchet mechanism are opposite to the ratchets inside the first ratchet mechanism in distribution direction.

Furthermore, the second connecting mechanism comprises a sleeve, the second connecting mechanism is consistent with the internal structure of the first connecting mechanism, sliding grooves are formed in the surface of the sleeve at equal angles, a limiting rod is connected to the inside of the sliding grooves in a sliding mode, and a supporting shaft is integrally installed at one end, extending into the sleeve, of the limiting rod.

Furthermore, the upper ends of the second reciprocating screw rod and the tooth block extend into the limiting groove, the limiting groove is formed in the bottom surface of the supporting plate, and the upper ends of the second reciprocating screw rod and the tooth block are in a T-shaped structure.

Has the advantages that: compared with the prior art, the invention has the following remarkable advantages: 1. on the premise of not substantially changing the curtain wall structure, monitoring and maintenance reminding of the curtain wall can be realized; 2. the inclination angle of the solar panel main body can be adjusted, so that the solar panel main body can fully absorb solar energy; 3. the solar panel main body height adjusting device is beneficial to adjusting the height of the solar panel main body, and on the premise of fully absorbing solar energy, the follow-up maintenance work of descending the solar panel main body is facilitated, the maintenance work by ascending the height is avoided, and the safety of the whole maintenance work is improved.

Drawings

FIG. 1 is a schematic view of the overall front cross-sectional structure of the present invention;

FIG. 2 is a schematic view of the second ratchet mechanism according to the present invention;

FIG. 3 is a schematic view of a front cross-sectional connection structure of a second reciprocating screw and a first junction box according to the present invention;

FIG. 4 is a perspective view of the sleeve of the present invention;

FIG. 5 is a schematic top view of the second ratchet mechanism according to the present invention;

FIG. 6 is a schematic top view of a cross-sectional structure of the first connecting mechanism according to the present invention;

FIG. 7 is a schematic view of the bottom connection structure of the tooth block and the limiting groove of the present invention;

FIG. 8 is a schematic view of a top-view connection structure of a bull gear and a ring gear according to the present invention.

Detailed Description

The technical solutions in the embodiments of the present invention will be described below with reference to the drawings in the embodiments of the present invention.

As shown in fig. 1 to 8, the energy-saving monitoring method for the glass curtain wall of the intelligent building comprises the following steps:

b: a pressure sensor for collecting the air pressure value of the airtight structure is arranged on the airtight structure between the glass mounting grooves, and pressure data collected by the pressure sensor is transmitted to the RS485 communication module;

B, uploading the original pressure data obtained in the step b to a cloud end by an upper computer where the intelligent building management system is located, and calling the original pressure data by a safety supervision department and a curtain wall supplier; the curtain wall supplier adjusts the maintenance period according to the data, and uses the pressure data as the learning value of the maintenance period model for perfecting the maintenance period model; the safety supervision department inspects key inspection buildings according to the pressure data; the maintenance period model is based on a random forest model, a random forest model is constructed by taking pressure data as sample data, then the pressure data of the glass curtain walls are collected in the building where each glass curtain wall is located, the pressure data are judged by adopting the random forest model, and whether maintenance is needed or not is divided.

The supporting device for the glass curtain wall of the intelligent building comprises a base 1, a motor 2 and a solar panel main body 11, wherein the motor 2 is fixedly installed inside the base 1, a driving shaft 3 is arranged inside the motor 2, a first ratchet mechanism 4 and a second ratchet mechanism 5 are respectively arranged on the surface of the driving shaft 3 from bottom to top, a first connecting mechanism 6 is arranged on the top surface of the second ratchet mechanism 5, a supporting plate 7 is fixedly installed on the top surface of the first connecting mechanism 6, a first connecting block 8 is welded on the top surface of the supporting plate 7, the first connecting block 8 is rotatably connected with a fixed block 10 through a shaft, the fixed block 10 is rotatably connected with a second connecting block 9 through a shaft, the solar panel main body 11 is welded on the top surface of the fixed block 10, a supporting rod 12 is welded on the bottom surface of the second connecting block 9, a sleeve ring 13 is integrally installed on the bottom surface of the supporting rod 12, a first reciprocating screw rod 14, and one end of the first reciprocating screw rod 14 is provided with a bevel gear set 15, one end of the bevel gear set 15 is connected with a second connecting mechanism 16, a large gear 17 is fixed on the bottom surface of the second connecting mechanism 16, one end of the large gear 17 is meshed with a gear ring 18, and the gear ring 18 is fixedly arranged on the surface of the base 1.

A pinion 19 is connected to one end surface of the first ratchet mechanism 4 in a meshing manner, a second reciprocating screw rod 20 penetrates through the center of the pinion 19 in a threaded manner, a first junction box 21 is arranged on the bottom surface of the pinion 19, a connecting wire 22 is connected to the surface of the first junction box 21 in a sliding manner, a second junction box 23 is connected to one end, far away from the first junction box 21, of the connecting wire 22 in a sliding manner, a linkage gear 24 is connected to the second junction box 23 through a shaft, and a tooth block 25 is connected to one end of the linkage gear 24 in a meshing manner.

The second ratchet mechanism 5 comprises a driving gear 51, ratchet teeth 52, a spiral spring 53 and a fixed shaft 54, the fixed shaft 54 is fixedly installed inside the second ratchet mechanism 5, the spiral spring 53 is sleeved on one end surface of the fixed shaft 54, the ratchet teeth 52 are fixedly sleeved on the surface of the spiral spring 53, one end, far away from the spiral spring 53, of each ratchet tooth 52 is connected with the driving gear 51 in a meshed mode, the center of the bottom surface of the driving gear 51 is in key connection with the driving shaft 3, the second ratchet mechanism 5 and the first ratchet mechanism 4 are consistent in internal structure, the ratchet teeth 52 inside the second ratchet mechanism 5 are opposite to the distribution direction of the ratchet teeth 52 inside the first ratchet mechanism 4, when the first ratchet mechanism 4 rotates, the second ratchet mechanism 5 is in a rotation stopping state, and when the second ratchet mechanism 5 rotates, the first ratchet mechanism 4 is in a rotation stopping state.

Second coupling mechanism 16 includes sleeve 161, spout 162, gag lever post 163 and back shaft 164, and second coupling mechanism 16 is unanimous with first coupling mechanism 6 inner structure, and spout 162 has been seted up to the surface isogonism of sleeve 161, and the inside sliding connection of spout 162 has gag lever post 163, and the inside one end integration that gag lever post 163 stretched into sleeve 161 installs back shaft 164, has made things convenient for after the height control, and sleeve 161 keeps driving back shaft 164 to carry out rotation work through spout 162 and gag lever post 163 during rotatory.

The upper ends of the second reciprocating screw rod 20 and the tooth block 25 extend into the limiting groove 26, the limiting groove 26 is arranged on the bottom surface of the supporting plate 7, and the upper ends of the second reciprocating screw rod 20 and the tooth block 25 are in a T-shaped structure, so that the supporting plate 7 is driven to lift conveniently, and the phenomenon that the second reciprocating screw rod 20 and the tooth block 25 fall off is avoided.

The working principle of the embodiment is as follows: according to fig. 1 to 2, 4 to 6 and 8, firstly, the base 1 is placed at a proper position, then the motor 2 is started after being connected with an external power supply, and the motor 2 is controlled to rotate forward, the motor 2 drives the driving shaft 3 to rotate forward when rotating forward, so that the driving shaft 3 drives the driving gear 51 inside the second ratchet mechanism 5 to rotate forward, the second ratchet mechanism 5 drives the second ratchet mechanism 5 to rotate through the ratchet teeth 52 when rotating forward, at this time, the driving gear 51 inside the first ratchet mechanism 4 idles through the arrangement that the ratchet teeth 52 inside the first ratchet mechanism 4 and the ratchet teeth inside the second ratchet mechanism 5 are distributed in reverse direction, and at the same time, the second ratchet mechanism 5 drives the sleeve 161 inside the first ratchet mechanism 6 to rotate, so that the first connecting mechanism 6 drives the limiting rod 163 to rotate through the chute 162, so that the limiting rod 163 drives the supporting shaft 164 to rotate, so that the supporting shaft 164 drives the supporting plate 7 to rotate, therefore, the working of adjusting the sun-facing angle of the solar panel main body 11 is performed, meanwhile, the support plate 7 drives the second connecting mechanism 16 to rotate when rotating, the second connecting mechanism 16 is consistent with the internal structure of the first connecting mechanism 6, so that the second connecting mechanism 16 drives the gearwheel 17 to rotate around the base 1 by adopting the same operation mode as the first connecting mechanism 6, at the moment, under the meshing action of the gearwheel 17 and the gear ring 18, the gearwheel 17 simultaneously rotates, so that the gearwheel 17 drives the bevel gear set 15 to rotate through the second connecting mechanism 16, the bevel gear set 15 drives the first reciprocating screw rod 14 to rotate, so that the first reciprocating screw rod 14 drives the lantern ring 13 in threaded connection to slide when rotating, the lantern ring 13 drives the lower end of the support rod 12 to incline, and the upper end of the support rod 12 drives the solar panel main body 11 to incline through the second connecting block 9, the inclination angle of the solar panel main body 11 can be conveniently adjusted, so that the solar panel main body 11 can fully absorb solar energy;

according to fig. 1 to 8, when maintenance work needs to be performed on the solar panel main body 11, a worker controls the motor 2 to rotate in a reverse direction, so that the motor 2 drives the driving gear 51 in the first ratchet mechanism 4 to rotate in a reverse direction through the driving shaft 3, so that the driving gear 51 drives the first ratchet mechanism 4 to rotate in a reverse direction through the ratchet 52, and simultaneously the driving gear 51 in the second ratchet mechanism 5 idles, the first ratchet mechanism 4 drives the pinion 19 to rotate through the meshing connection when rotating, the pinion 19 drives the second reciprocating screw rod 20 connected through the screw thread to descend when rotating, and simultaneously the pinion 19 drives the first junction box 21 to rotate when rotating, so that the first junction box 21 drives the second junction box 23 to rotate through the connecting wire 22, the second junction box 23 drives the linkage gear 24 to rotate through the shaft when rotating, so that the linkage gear 24 drives the tooth block 25 to descend through the meshing connection, and then made things convenient for reciprocal lead screw 20 of second and tooth piece 25 to drive the both ends of backup pad 7 through spacing groove 26 in step and carried out descending work, made things convenient for and maintained the work to solar panel main part 11, need ascend a height the work when avoiding maintaining, improved the security of maintenance work.

The specific use method of the support device in the embodiment comprises the following steps: first, the base 1 is fixed in place. Two, connect external power source with motor 2 and start to control motor 2 and be corotation, make motor 2 drive second ratchet 5 rotatory through drive shaft 3, make second ratchet 5 drive backup pad 7 rotatory through first coupling mechanism 6, make backup pad 7 drive the solar panel main part 11 that the top set up and carry out the angle modulation that faces the sun. Third, backup pad 7 drives gear wheel 17 through second coupling mechanism 16 when rotatory and rotates around base 1, under the meshing through gear wheel 17 and ring gear 18 for gear wheel 17 carries out the rotation, makes gear wheel 17 drive conical gear set 15 through second coupling mechanism 16 and operates, thereby makes conical gear set 15 drive first reciprocal lead screw 14 rotatory, makes lantern ring 13 slide, thereby adjusts solar panel main part 11's inclination in step. And fourthly, controlling the motor 2 to rotate reversely, so that the motor 2 drives the first ratchet mechanism 4 to rotate through the driving shaft 3, the first ratchet mechanism 4 drives the pinion 19 to rotate, and the pinion 19 drives the second reciprocating screw rod 20 in threaded connection to slide. Fifth, pinion 19 drives first terminal box 21 rotatory when rotatory for first terminal box 21 passes through connecting wire 22 and stimulates second terminal box 23 rotatory, makes second terminal box 23 rotatory through axle drive linkage gear 24, thereby makes linkage gear 24 drive the tooth piece 25 and slides, makes the both ends of backup pad 7 go up and down simultaneously, conveniently adjusts the height of solar panel main part 11.

Claims

1. An energy-saving monitoring method for a glass curtain wall of an intelligent building is characterized by comprising the following steps: the method comprises the following steps:

2. The utility model provides an intelligent building's glass curtain wall's strutting arrangement, includes base (1), its characterized in that: the solar energy water heater is characterized in that a motor (2) is fixedly mounted inside the base (1), a driving shaft (3) is arranged inside the motor (2), a first ratchet mechanism (4) and a second ratchet mechanism (5) are respectively arranged from bottom to top on the surface of the driving shaft (3), a first connecting mechanism (6) is arranged on the top surface of the second ratchet mechanism (5), a supporting plate (7) is fixedly mounted on the top surface of the first connecting mechanism (6), a first connecting block (8) is welded on the top surface of the supporting plate (7), the first connecting block (8) is rotatably connected with a fixed block (10) through a shaft, the fixed block (10) is rotatably connected with a second connecting block (9) through a shaft, a solar panel main body (11) is welded on the top surface of the fixed block (10), a supporting rod (12) is welded on the bottom surface of the second connecting block (9), and a lantern ring (13) is integrally installed on the bottom, the axle center department bolt of the lantern ring (13) runs through and has first reciprocal lead screw (14), the one end of first reciprocal lead screw (14) is provided with bevel gear set (15), the one end of bevel gear set (15) is connected with second coupling mechanism (16), the bottom surface of second coupling mechanism (16) is fixed with gear wheel (17), the one end meshing of gear wheel (17) has ring gear (18), ring gear (18) fixed mounting is in base (1) upper surface.

3. The supporting device of glass curtain wall of intelligent building according to claim 2, characterized in that: the surface of one end of the first ratchet mechanism (4) is connected with a small gear (19) in a meshed mode, a second reciprocating screw rod (20) penetrates through the center of the small gear (19) in a threaded mode, a first junction box (21) is arranged on the bottom face of the small gear (19), a connecting line (22) is connected to the surface of the first junction box (21) in a sliding mode, one end, far away from the first junction box (21), of the connecting line (22) is connected with a second junction box (23) in a sliding mode, the second junction box (23) is connected with a linkage gear (24) through a shaft, and one end of the linkage gear (24) is connected with a toothed block (25).

4. The supporting device of glass curtain wall of intelligent building according to claim 2, characterized in that: the inside fixed mounting of second ratchet (5) has fixed axle (54), and the one end surface of fixed axle (54) cup joints spiral spring (53), the fixed cup joint in surface of spiral spring (53) has ratchet (52), and ratchet (52) keep away from the one end meshing of spiral spring (53) and be connected with drive gear (51), and the bottom surface center department of drive gear (51) is connected with drive shaft (3) key, second ratchet (5) are unanimous with first ratchet (4) inner structure, and ratchet (52) inside second ratchet (5) and ratchet (52) inside first ratchet (4) distribute the opposite direction.

5. The supporting device of glass curtain wall of intelligent building according to claim 2, characterized in that: the second connecting mechanism (16) comprises a sleeve (161), the second connecting mechanism (16) is consistent with the inner structure of the first connecting mechanism (6), sliding grooves (162) are formed in the surface of the sleeve (161) at equal angles, a limiting rod (163) is connected to the inside of each sliding groove (162) in a sliding mode, and a supporting shaft (164) is integrally installed at one end, extending into the sleeve (161), of each limiting rod (163).

6. The supporting device of glass curtain wall of intelligent building according to claim 2, characterized in that: the upper ends of the second reciprocating screw rod (20) and the tooth block (25) extend into the limiting groove (26), the limiting groove (26) is formed in the bottom surface of the supporting plate (7), and the upper ends of the second reciprocating screw rod (20) and the tooth block (25) are in a T-shaped structure.