CN216340300U - Energy-saving control terminal of glass curtain wall based on IoT sensing technology - Google Patents

Abstract

The utility model provides an energy-saving control terminal of a glass curtain wall based on an IoT sensing technology, which solves the problems of inconvenient adjustment of a data acquisition point and the like and comprises a sensing main body, wherein an MCU module is arranged in the sensing main body and connected with an actuator and a communication interface, a sensing module is arranged on the outer side of the sensing main body, an adsorption component fixed on the glass curtain wall is arranged on the sensing main body, and an adjusting component for adjusting the position of the sensing module is arranged between the sensing module and the sensing main body. The utility model has the advantages of comprehensive data acquisition, good structural stability and the like.

Description

Energy-saving control terminal of glass curtain wall based on IoT sensing technology

Technical Field

The utility model belongs to the technical field of sensing equipment, and particularly relates to an energy-saving control terminal of a glass curtain wall based on an IoT sensing technology.

Background

With the gradual increase of the requirement of reducing the energy consumption of the glass curtain wall, the energy-saving intelligent control system sensed by temperature and illumination is gradually applied, but the current control system only realizes energy saving through fuzzy energy-saving control. On one hand, the fuzzy control cannot quantize the energy-saving efficiency, and on the other hand, the fuzzy control cannot meet the requirements of different geographic environments and working environment scenes, so that the fuzzy control has great limitation. Therefore, data such as illumination temperature and the like need to be collected in detail, and energy-saving quantitative verification and centralized control are performed through technical means of the internet and the internet of things, so that energy-saving data can be obtained quantitatively. However, in the actual application process, the existing glass curtain wall sensing system is inconvenient to flexibly adjust the data acquisition points and cannot adapt to the complex data acquisition requirements.

In order to solve the defects of the prior art, people have long searched for and put forward various solutions. For example, chinese patent document discloses a remote monitoring method [202011320165.9] for a glass curtain wall, which includes the following steps: a solar panel for supplying power to the information acquisition device of the glass curtain wall is arranged on the glass curtain wall; an RFID label for identifying an object is arranged on the glass, and an RFID card reading circuit for automatically identifying the identified object is arranged at the corresponding position of the frame; a pressure sensor for collecting air pressure values is arranged in an air-tight structure between the glass mounting grooves; transmitting the data of the pressure sensor and the RFID card reading circuit to the MCU and pairing; the MCU uploads the paired data to a public network through a GPRS communication module; the glass curtain wall acquires data for monitoring from a public network; all monitoring data is generated for maintaining the database.

The scheme solves the problem of glass curtain wall data acquisition to a certain extent, but the scheme still has many defects, such as the problem that data acquisition points cannot be flexibly adjusted.

Disclosure of Invention

The utility model aims to solve the problems and provides an energy-saving control terminal of a glass curtain wall based on an IoT sensing technology, which is reasonable in design and can flexibly adjust data acquisition points.

In order to achieve the purpose, the utility model adopts the following technical scheme: this energy-saving control terminal of glass curtain wall based on IoT perception technique, including the response main part, response main part internally mounted has the MCU module, and the MCU module is connected with executor and communication interface, and the response main part outside is provided with the response module, installs the adsorption component who fixes on glass curtain wall in the response main part, is provided with the adjusting part of adjustment response module position between response module and the response main part. The perception main part passes through adsorption component to be fixed in the glass curtain wall outside, adjusts the mounted position according to actual need, and adjustable response module angle of adjusting part wherein to nimble adjustment data acquisition point.

In foretell glass curtain wall's based on IoT perception technique energy-saving control terminal, the response main part includes the base relative with glass curtain wall, and the base is kept away from one side of glass curtain wall and is sealed by the lid, leaves the installation cavity between base and the lid, is connected fixedly and the inboard is provided with seal assembly by the buckle subassembly between base and the lid. The base and the cover body of the induction main body are detachably connected, so that maintenance and adjustment of internal elements are facilitated.

In the above-mentioned energy-saving control terminal of glass curtain wall based on IoT perception technology, the buckle component includes the catching groove that sets up in base edge mouth department outside, and lid edge mouth department outside is provided with the profile that buckles with the catching groove lock joint, and the cover has the closing sleeve in the outside cover of base and lid handing-over department, and the closing sleeve inboard is opened has the closed slot that supplies the profile card to go into. The buckle assembly is simple in structure and convenient to assemble, and can realize quick connection of the base and the cover body.

In the above-mentioned energy-saving control terminal of glass curtain wall based on IoT perception technology, the seal assembly includes the seal strip that sets up at base edge department inboard, and it has the seal groove to open on the seal strip, and lid edge department inboard is provided with the sealed arch of pegging graft in the seal groove, and the seal groove inboard distributes has the sealing layer of silica gel material. The sealing assembly improves the sealing performance of the induction main body and guarantees the waterproof effect of the induction main body.

In foretell glass curtain wall's based on IoT perception technique energy-saving control terminal, adsorption component is including setting up the sucking disc in the relative one side of response main part and glass curtain wall, inside blast pipe and outside intercommunication through the blast pipe of passing through of sucking disc, and one-way air outlet nozzle is installed in the blast pipe exit, and the blast pipe is external to have the admission valve mouth. The adsorption component can be stably adsorbed on the glass curtain wall, and has good installation stability.

In foretell glass curtain wall's based on IoT perception technology energy-saving control terminal, the response of response main part bottom installation elastic material is protruding, and the protruding end department of response is provided with the pressure sensor with glass curtain wall laminating. The pressure sensor can sense the adsorption force in time and remind maintenance personnel in time to avoid the sensing main body from falling off.

In the above energy-saving control terminal for a glass curtain wall based on the IoT sensing technology, the sensing module includes a light sensor and a temperature sensor installed outside the sensing body. The sensing module senses the external temperature and the illumination intensity, so that the glass curtain wall can be adjusted conveniently.

In the above-mentioned energy-saving control terminal of glass curtain wall based on IoT perception technology, the adjusting part is including setting up the regulating plate in the response main part, regulating plate center and response main part swing joint, and the regulating plate edge is connected with the swing motor who sets up in the response main part through adjusting the pole. The regulating plate can swing, so that multi-angle position sensing of the sensing module is realized, and sensing errors are reduced.

In the above energy-saving control terminal for the glass curtain wall based on the IoT sensing technology, a display screen and an indicator lamp are arranged on one side of the sensing main body opposite to the glass curtain wall, and the display screen and the indicator lamp are connected with the MCU module. Display screen and pilot lamp are inside, conveniently monitor operating condition, realize the visualization of temperature and illumination intensity.

In the above energy-saving control terminal for a glass curtain wall based on the IoT sensing technology, a solar cell is arranged outside the sensing body, and a power supply module is arranged inside the sensing body. The built-in power supply can maintain a long-time working state by matching with the solar cell.

Compared with the prior art, the utility model has the advantages that: the position of the sensing main body and the angle of the sensing module can be flexibly adjusted, and data acquisition errors are reduced; the induction main body has better sealing performance and waterproofness, and the failure probability is reduced; the temperature and the illumination intensity can be visually displayed, and the glass curtain wall can be conveniently and flexibly adjusted.

Drawings

FIG. 1 is a schematic structural diagram of an inductive body of the present invention;

FIG. 2 is a schematic view of another perspective of the sensing body of the present invention;

FIG. 3 is a partial cross-sectional view of the snap assembly and seal assembly of the present invention;

FIG. 4 is a partial cross-sectional view of the adjustment assembly of the present invention;

FIG. 5 is a block diagram of the architecture of the present invention;

FIG. 6 is a block diagram of the construction of the adsorbent assembly of the present invention;

in the figure, the induction main body 1, the base 11, the cover 12, the mounting cavity 13, the MCU module 2, the actuator 21, the communication interface 22, the display screen 23, the indicator light 24, the solar cell 25, the power supply module 26, the induction module 3, the adsorption component 4, the suction cup 41, the exhaust pipe 42, the one-way air outlet nozzle 43, the air inlet valve nozzle 44, the induction protrusion 45, the adjustment component 5, the adjustment plate 51, the adjustment rod 52, the swing motor 53, the buckle component 6, the buckle groove 61, the buckle strip 62, the sealing sleeve 63, the sealing groove 64, the sealing component 7, the sealing strip 71, the sealing groove 72, the sealing protrusion 73, and the sealing layer 74.

Detailed Description

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

As shown in fig. 1-6, the energy-saving control terminal of the glass curtain wall based on the IoT sensing technology comprises a sensing main body 1, wherein an MCU module 2 is installed inside the sensing main body 1, the MCU module 2 is connected with an actuator 21 and a communication interface 22, a sensing module 3 is arranged outside the sensing main body 1, an adsorption component 4 fixed on the glass curtain wall is installed on the sensing main body 1, and an adjusting component 5 for adjusting the position of the sensing module 3 is arranged between the sensing module 3 and the sensing main body 1. The response main part 1 passes through adsorption component 4 to be fixed in the glass curtain wall outside, and its response module 3 sets up on adjusting part 5 and adjustable relative response main part 1's angle, gathers external environment data from many data acquisition points.

Specifically, the sensing body 1 includes a base 11 opposite to the glass curtain wall, one side of the base 11 away from the glass curtain wall is sealed by a cover 12, an installation cavity 13 is left between the base 11 and the cover 12, the base 11 and the cover 12 are connected and fixed by a buckle assembly 6, and a sealing assembly 7 is arranged on the inner side of the base 11 and the cover 12. The base 11 and the cover 12 are combined to form the sensing main body 1, and the MCU module 2, the actuator 21 and the communication interface 22 are disposed in the mounting cavity 13.

Deeply, the buckle assembly 6 comprises a buckle groove 61 arranged at the outer side of the edge opening of the base 11, a buckle strip 62 buckled with the buckle groove 61 is arranged at the outer side of the edge opening of the cover 12, a sealing sleeve 63 is sleeved at the outer side of the joint of the base 11 and the cover 12, and a sealing groove 64 for the buckle strip 62 to be clamped is formed in the inner side of the sealing sleeve 63. The sealing sleeve 63 of the buckle assembly 6 has a sealing effect on the interface, so that the moisture permeation is reduced.

Further, the sealing assembly 7 includes a sealing strip 71 disposed at an inner side of the edge of the base 11, a sealing groove 72 is formed on the sealing strip 71, a sealing protrusion 73 inserted into the sealing groove 72 is disposed at an inner side of the edge of the cover 12, and a sealing layer 74 made of a silicone material is disposed at an inner side of the sealing groove 72. After the sealing groove 72 and the sealing bulge 73 in the sealing assembly 7 are inserted, the sealing performance is further improved.

Furthermore, the suction assembly 4 comprises a suction cup 41 disposed on the opposite side of the sensing body 1 to the glass curtain wall, the suction cup 41 is internally communicated with the outside through an exhaust pipe 42, a one-way air outlet nozzle 43 is installed at the outlet of the exhaust pipe 42, and an air inlet valve nozzle 44 is externally connected to the exhaust pipe 42. The suction cup 41 in the suction assembly 4 is pressed against the glass curtain wall for suction, and the air inlet valve nozzle 44 can be opened to realize the falling-off of the suction cup 41.

In addition, response main part 1 bottom installation elastic material's response is protruding 45, and the protruding 45 end departments of response are provided with the pressure sensor with the laminating of glass curtain wall. When the adsorption force of the adsorption component 4 is reduced, the pressure sensor reminds a maintainer to adjust the sucker 41 in time, and the adsorption component 4 is prevented from falling off.

Meanwhile, the sensing module 3 includes a light sensor and a temperature sensor installed at the outside of the sensing body 1. The light sensor and the temperature sensor sense external temperature and illumination and are used for adjusting indoor light transmission and heat dissipation of the glass curtain wall.

As can be seen, the adjusting assembly 5 includes an adjusting plate 51 disposed on the induction body 1, the center of the adjusting plate 51 is movably connected with the induction body 1, and corners of the adjusting plate 51 are connected with a swing motor 53 disposed inside the induction body 1 through an adjusting rod 52. The adjusting rod 52 of the adjusting assembly 5 swings with the driving of the swing motor 53, thereby adjusting the angle of the adjusting plate 51 relative to the sensing body 1.

Obviously, the induction main body 1 is provided with a display screen 23 and an indicator light 24 on the side opposite to the glass curtain wall, and the display screen 23 and the indicator light 24 are connected with the MCU module 2. Display screen 23 and pilot lamp 24 and response module 3 cooperation show outside illumination and temperature directly perceivedly to remind indoor personnel to adjust glass curtain wall.

Preferably, the sensing body 1 is externally provided with a solar cell 25 and internally provided with a power supply module 26. The solar battery 25 is matched with the power supply module 26, an external power supply is not needed, and the service life of the induction main body 1 is prolonged.

In summary, the principle of the present embodiment is: the adsorption component 4 at the back of the induction main body 1 is fixedly connected with the glass curtain wall, and the induction module 3 and the adjusting component 5 at the outer side adjust the angle of the relative induction main body 1, so that the external data of the glass curtain wall can be acquired at multiple positions and multiple angles, and the data acquisition error can be reduced.

The specific embodiments described herein are merely illustrative of the spirit of the utility model. Various modifications or additions may be made to the described embodiments or alternatives may be employed by those skilled in the art without departing from the spirit or ambit of the utility model as defined in the appended claims.

Although the terms of the sensing body 1, the base 11, the cover 12, the mounting cavity 13, the MCU module 2, the actuator 21, the communication interface 22, the display screen 23, the indicator light 24, the solar cell 25, the power supply module 26, the sensing module 3, the suction assembly 4, the suction cup 41, the exhaust pipe 42, the one-way air outlet nozzle 43, the air inlet valve nozzle 44, the sensing protrusion 45, the adjusting assembly 5, the adjusting plate 51, the adjusting rod 52, the swing motor 53, the snap assembly 6, the snap groove 61, the snap strip 62, the sealing sleeve 63, the sealing groove 64, the sealing assembly 7, the sealing strip 71, the sealing groove 72, the sealing protrusion 73, the sealing layer 74, and the like are used more frequently, the possibility of using other terms is not excluded. These terms are used merely to more conveniently describe and explain the nature of the present invention; they are to be construed as being without limitation to any additional limitations that may be imposed by the spirit of the present invention.

Claims (10)

1. The utility model provides an energy-saving control terminal of glass curtain wall based on IoT perception technique, includes response main part (1), response main part (1) internally mounted have MCU module (2), MCU module (2) be connected with executor (21) and communication interface (22), response main part (1) outside be provided with response module (3), its characterized in that, response main part (1) on install adsorption component (4) of fixing on glass curtain wall, response module (3) and response main part (1) between be provided with adjustment assembly (5) of adjustment response module (3) position.

2. The IoT perception technology-based energy saving control terminal for glass curtain walls according to claim 1, wherein the sensing body (1) comprises a base (11) opposite to the glass curtain wall, one side of the base (11) away from the glass curtain wall is sealed by a cover (12), a mounting cavity (13) is left between the base (11) and the cover (12), the base (11) and the cover (12) are fixedly connected by a snap assembly (6), and a sealing assembly (7) is disposed on the inner side of the base (11) and the cover (12).

3. The IoT sensing technology-based energy-saving control terminal for glass curtain walls according to claim 2, wherein the buckle assembly (6) comprises a buckle groove (61) arranged on the outer side of the edge of the base (11), a buckle strip (62) buckled with the buckle groove (61) is arranged on the outer side of the edge of the cover (12), a sealing sleeve (63) is sleeved on the outer side of the joint of the base (11) and the cover (12), and a sealing groove (64) for the buckle strip (62) to be clamped into is formed in the inner side of the sealing sleeve (63).

4. The IoT perception technology-based energy-saving control terminal for glass curtain walls according to claim 2, wherein the sealing assembly (7) comprises a sealing strip (71) disposed at an inner side of an edge of the base (11), the sealing strip (71) is provided with a sealing groove (72), a sealing protrusion (73) inserted into the sealing groove (72) is disposed at the inner side of the edge of the cover (12), and a sealing layer (74) made of silica gel is disposed at the inner side of the sealing groove (72).

5. The IoT perception technology-based energy-saving control terminal for glass curtain walls according to claim 1, wherein the absorption component (4) comprises a suction cup (41) disposed on one side of the sensing body (1) opposite to the glass curtain wall, the inside of the suction cup (41) is communicated with the outside through an exhaust pipe (42), a one-way air outlet nozzle (43) is installed at an outlet of the exhaust pipe (42), and an air inlet valve nozzle (44) is externally connected to the exhaust pipe (42).

6. The IoT sensing technology-based energy-saving control terminal for the glass curtain wall as claimed in claim 5, wherein the bottom of the sensing body (1) is provided with a sensing protrusion (45) made of an elastic material, and the end of the sensing protrusion (45) is provided with a pressure sensor attached to the glass curtain wall.

7. The IoT perception technology-based energy-saving control terminal for glass curtain walls according to claim 1, wherein the sensing module (3) comprises a light sensor and a temperature sensor installed outside the sensing body (1).

8. The IoT perception technology-based energy saving control terminal for glass curtain walls according to claim 7, wherein the adjusting assembly (5) comprises an adjusting plate (51) disposed on the sensing body (1), the center of the adjusting plate (51) is movably connected to the sensing body (1), and corners of the adjusting plate (51) are connected to a swing motor (53) disposed inside the sensing body (1) through an adjusting rod (52).

9. The IoT perception technology based energy saving control terminal for glass curtain wall according to claim 1, wherein a display screen (23) and an indicator light (24) are disposed on a side of the sensing body (1) opposite to the glass curtain wall, and the display screen (23) and the indicator light (24) are connected to the MCU module (2).

10. The IoT perception technology based glass curtain wall energy saving control terminal according to claim 1, wherein the sensing body (1) is provided with a solar cell (25) outside and a power supply module (26) inside.

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