CN219533298U - KNX practical training platform for intelligent illumination test - Google Patents

Abstract

The utility model relates to the technical field of KNX protocols and discloses a KNX practical training platform for intelligent lighting test. According to the intelligent lighting system, the box body is divided into the areas, all the partial electric elements are sequentially installed in all the areas and are electrically connected through the wires, so that all the circuits are formed, the control is unified, the electric elements are conveniently tested, meanwhile, the electric elements which are installed in a concentrated mode save space, the regularity of the electric elements is improved, and the intelligent lighting system is convenient for technicians to test all the elements of the intelligent lighting system.

Description

KNX practical training platform for intelligent illumination test

Technical Field

The utility model belongs to the technical field of KNX protocols, and particularly relates to a KNX practical training platform for intelligent illumination test.

Background

The intelligent illumination system for the airport is one of key energy systems in airport terminal buildings, has higher requirements on the intelligent degree and has higher technical requirements on operation and maintenance management personnel. When the components of the system need to be replaced, in order to ensure the normal operation of the KNX system, the newly-installed components need to be tested in advance. Through research and development of the KNX practical training platform for intelligent illumination test, technicians can test new components, so that whether the functions of the new components are normal or not and the compatibility of the new components are fast checked, and the application reliability of the new components is improved.

The present utility model has been made in view of this.

Disclosure of Invention

In order to solve the technical problems, the utility model adopts the basic conception of the technical scheme that:

the utility model provides a real standard platform of KNX for intelligent lighting test, includes the box, box internally mounted has the layering board, and the layering board divide into trunk line, regional trunk line and KNX bus triplex from top to bottom in proper order with the box, the mounting bracket is all installed to the triplex regional inboard of box.

As a preferred implementation mode of the utility model, a first switch is arranged at one end of a mounting frame in a trunk line area of the box body, an environment-friendly bus power supply, an environment-friendly KNX IP router and an environment-friendly two-way silicon controlled rectifier dimmer are sequentially arranged at one side of the mounting frame positioned at the first switch, and all parts of electric elements in the trunk line area are arranged on the mounting frame, so that the regularity of all parts of electric elements in the trunk line area is improved.

As a preferred embodiment of the present utility model, the second switch is mounted on one end of the mounting frame in the trunk line of the box area and the KNX bus area.

As a preferred implementation mode of the utility model, an environment-friendly bus power supply, an environment-friendly KNX circuit coupler, an environment-friendly four-way switch actuator, an environment-friendly 8-way multifunctional actuator and an environment-friendly guide rail type 4-way input module which are the same as a main trunk area are sequentially installed on one side of a second switch on an area trunk installation frame, an environment-friendly movable illuminance sensor is installed at the bottom of the environment-friendly guide rail type 4-way input module on the installation frame, all parts of electric elements in the area trunk area are installed on the installation frame, the regularity of all parts of electric elements in the area trunk area is improved, nine integrated lamp holders are arranged on one side of a practical training platform, each lamp holder is provided with one test bulb, four bulbs are electrically connected with the environment-friendly four-way switch actuator, three test bulbs are electrically connected with the environment-friendly 8-way multifunctional actuator, and the other two test bulbs are electrically connected with the environment-friendly two-way controllable silicon modulator.

As a preferred implementation mode of the utility model, an environment-friendly bus power supply which is the same as a main line area, an environment-friendly-KNX line coupler which is the same as the main line area, an environment-friendly-2 channel KNX/DALI gateway and a KNX-RS485/RS232 protocol gateway are sequentially arranged on the mounting frame which is positioned on the main line of the area and on one side of the second switch, and all parts of electric elements in the KNX bus area are mounted on the mounting frame, so that the regularity of all parts of electric elements in the KNX bus area is improved.

As a preferred implementation mode of the utility model, the electrical components in each area of the box body are electrically connected through the lead wires, and each part of electrical components are electrified through the lead wires, so that the operation of the instrument is facilitated.

Compared with the prior art, the utility model has the following beneficial effects:

according to the intelligent lighting system, the box body is divided into the areas, all the partial electric elements are sequentially installed in all the areas and are electrically connected through the wires, so that all the circuits are formed, the control is unified, the electric elements are conveniently tested, meanwhile, the electric elements which are installed in a concentrated mode save space, the regularity of the electric elements is improved, and the intelligent lighting system is convenient for technicians to test the functions of all the elements of the intelligent lighting system.

The following describes the embodiments of the present utility model in further detail with reference to the accompanying drawings.

Drawings

In the drawings:

FIG. 1 is a schematic view of the external appearance structure of a KNX practical training platform for intelligent illumination test;

FIG. 2 is a schematic diagram of the internal structure of a KNX practical training platform for intelligent illumination testing;

fig. 3 is a schematic diagram of connection relations between electrical components of each part of the KNX practical training platform for intelligent illumination test.

In the figure: 1. an environmental protection bus power supply; 2. an environment-friendly 8-way multifunctional actuator; 3. an environment-friendly four-way switch actuator; 4. environmental protection-KNX line coupler; 5. environmental protection-KNX IP router; 6. a first switch; 7. a second switch; 8. KNX-RS485/RS232 protocol gateway; 9. a laminated plate; 10. an environment-friendly-2 channel KNX/DALI gateway; 11. an environment-friendly two-way silicon controlled dimmer; 12. an environment-friendly guide rail type 4-way input module; 13. environmental-friendly-mobile illuminance sensors; 14. a mounting frame; 15. a box body.

Detailed Description

For the purpose of making the objects, technical solutions and advantages of the embodiments of the present utility model more apparent, the technical solutions in the embodiments will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present utility model, and the following embodiments are used to illustrate the present utility model.

As shown in fig. 1 to 3, a KNX training platform for intelligent lighting test comprises a box body 15, wherein a layered board 9 is installed inside the box body 15, the layered board 9 divides the box body 15 into a trunk line, an area trunk line and a KNX bus from top to bottom in sequence, and a mounting rack 14 is installed inside three part areas of the box body 15.

As shown in fig. 1 to 3, in the specific embodiment, a first switch 6 is installed at one end of a mounting frame 14 in a trunk area of a box 15, and an environmental protection bus power supply 1, an environmental protection-KNX IP router 5 and an environmental protection-two-way thyristor dimmer 11 are sequentially installed at one side of the mounting frame 14 located at the first switch 6. In this arrangement, the electrical components of each part in the main line area are mounted on the mounting frame 14, which is advantageous for improving the regularity of the electrical components of each part in the main line area.

As shown in fig. 1 to 3, further, a second switch 7 is installed at one end of a mounting frame 14 in a trunk area and a KNX bus area of the box body 15, an environmental protection bus power supply 1, an environmental protection-KNX line coupler 4, an environmental protection-four-way switch actuator 3, an environmental protection 8-way multifunctional actuator 2 and an environmental protection-guide rail type 4-way input module 12 which are identical to the trunk area are sequentially installed on one side of the second switch 7 on the mounting frame 14 of the regional trunk area, an environmental protection-movable illuminance sensor 13 is installed at the bottom of the mounting frame 14, and an environmental protection bus power supply 1, an environmental protection-KNX line coupler 4, an environmental protection-2-way KNX/DALI gateway and a KNX-RS485/RS232 protocol gateway 8 which are identical to the trunk area are sequentially installed on one side of the second switch 7 on the mounting frame 14 of the regional trunk area. In this setting, each part electrical components in regional trunk area installs on mounting bracket 14, be favorable to improving each part electrical components's in regional trunk area regularity, each part electrical components in the KNX bus area installs on mounting bracket 14, be favorable to improving each part electrical components's in the KNX bus area regularity, be located the one side of real standard platform and be provided with nine integrated lamp stands, all install a test bulb on every lamp stand, wherein four bulbs are connected with the electronic control of environmental protection-four way switch executor 3, wherein three test bulbs are connected with the electronic control of environmental protection 8 way multi-functional executor 2, other two test bulbs are connected with the electronic control of environmental protection-two way silicon controlled rectifier dimmer 11.

As shown in fig. 1 to 3, further, the electrical components in each region of the case 15 are electrically connected by wires. In the arrangement, all parts of electrical components are electrified through the lead wires, so that the operation of the instrument is facilitated.

The implementation principle of the KNX practical training platform for intelligent illumination test in the embodiment is as follows: this device carries out regional division through carrying out box 15, installs each partial electrical components in proper order in each region to carry out electric connection through the wire, thereby form each circuit, unified control, improved electrical components's regularity when concentrating the electrical components saving space of installation simultaneously, make things convenient for the technicians to carry out test experiment to each components and parts of intelligent lighting system.

Nine integrated lamp holders are arranged on one side of the training platform, each lamp holder is provided with a test bulb, four bulbs are electrically connected with the environment-friendly four-way switch actuator 3, three test bulbs are electrically connected with the environment-friendly 8-way multifunctional actuator 2, and the other two test bulbs are electrically connected with the environment-friendly two-way silicon controlled dimmer 11.

Claims (6)

1. The utility model provides a real standard platform of KNX for intelligent lighting test, its characterized in that, includes box (15), box (15) internally mounted has layering board (9), and layering board (9) divide into trunk, regional trunk and KNX bus triplex from top to bottom in proper order with box (15), mounting bracket (14) are all installed to the triplex regional inboard of box (15).

2. The KNX practical training platform for intelligent lighting test according to claim 1, characterized in that a first switch (6) is installed at one end of a mounting frame (14) in a trunk area of the box body (15), and an environment-friendly bus power supply (1), an environment-friendly KNX IP router (5) and an environment-friendly two-way silicon controlled rectifier dimmer (11) are sequentially installed on one side of the mounting frame (14) located on the first switch (6).

3. The KNX practical training platform for intelligent lighting testing according to claim 1, wherein the second switch (7) is installed at one end of a mounting frame (14) in a trunk line of the box (15) area and a KNX bus area.

4. A KNX practical training platform for intelligent lighting testing according to claim 3, characterized in that an environmental protection bus power supply (1), an environmental protection-KNX line coupler (4), an environmental protection-four-way switch actuator (3), an environmental protection 8-way multifunctional actuator (2) and an environmental protection-guide rail type 4-way input module (12) which are the same as the main trunk area are sequentially installed on one side of a second switch (7) located on an area trunk installation frame (14), an environmental protection-movable illuminance sensor (13) is installed on the bottom of the environmental protection-guide rail type 4-way input module (12) located on the installation frame (14), nine integrated lamp bases are arranged on one side of the practical training platform, one test bulb is installed on each lamp base, four bulbs are electrically connected with the environmental protection-four-way switch actuator (3), three test bulbs are electrically connected with the environmental protection 8-way multifunctional actuator (2), and the other two test bulbs are electrically connected with the environmental protection-two-way silicon controlled rectifier (11).

5. A KNX practical training platform for intelligent lighting testing according to claim 3, characterized in that an environmental protection bus power supply (1) identical to a main line area, an environmental protection-KNX line coupler (4) identical to the main line area, an environmental protection-2 channel KNX/DALI gateway and a KNX-RS485/RS232 protocol gateway (8) are sequentially installed on the mounting frame (14) on the main line area and on one side of the second switch (7).

6. The KNX practical training platform for intelligent lighting test according to claim 1, characterized in that electrical components in each area of the box body (15) are electrically connected through wires.