CN221504911U - Intelligent LED floor lamp capable of illuminating by people - Google Patents

Abstract

The utility model discloses an intelligent LED artificial lighting floor lamp, which comprises a base, a lamp cap and a lamp post assembly for connecting the base and the lamp cap to form the floor lamp, wherein an integrated intelligent DC electric control module and a constant voltage output driving power supply are arranged in the lamp post assembly; the intelligent DC electric control module comprises a voltage conversion circuit, a main control MCU, a clock chip IC and a dimming and color temperature adjusting circuit. The input end of the voltage conversion circuit is electrically connected to the electric output end of the constant voltage output driving power supply; the main control MCU is connected to the voltage output end of the voltage conversion circuit; the clock chip IC is electrically connected with the main control MCU and is used for controlling the working time of the main control MCU; the dimming and color temperature adjusting circuit is connected with the PWM port of the main control MCU; the inside of lamp holder is equipped with LED light source and response module. The floor lamp senses the ambient illuminance by the built-in light sensing device, automatically adjusts the brightness of the lamp light, and constantly meets the constant illuminance of the tabletop.

Description

Intelligent LED floor lamp capable of illuminating by people

Technical Field

The utility model relates to a floor lamp, in particular to an intelligent LED artificial lighting floor lamp.

Background

The Human light (Human CENTRIC LIGHTING) technology refers to the application of the lighting technology, so that the light, the climate and the space are perfectly integrated, people can obtain help in the aspects of body, emotion, health and the like, and the humanized light requirement of people in a specific application environment is met.

The existing LED floor lamp generally comprises a base, a lamp post shell, a socket, a power line, a power drive, a mechanical switch, a lamp cap shell, a radiator, a lamp shade, a light source plate, a cover plate and other structures.

The light source plate is fixed on the heat dissipation section bar through screw fixation or viscose, and the heat dissipation section bar is fixed on the lamp cap shell through screw or viscose to form the lamp cap part of the floor lamp after the light-emitting module is matched with the lamp shade and the cover plate is fixed through screw. The driving power supply is fixed on the driving support and is fixed in the lamp post shell through screws or the driving is external, and the mechanical switch is fixed on the upper half section of the lamp post shell to form a lamp post part. The lamp post part is connected with the base through bolts to form a vertical support base, the lamp cap part is electrically connected with the lamp post part through built-in wires, and the whole lamp assembly is completed after the bolts are locked for mechanical connection.

The existing LED floor lamp structure has the defects that:

1. Use restriction: the existing LED floor lamp has single function and operation mode after the design and die sinking are completed, and can not meet the requirements of intelligent control of clients and diversified customization of use scenes.

2. Difficult installation: most of existing LED floor lamp controllers are fixedly mounted by screws, the controllers are clamped out of locking screws by tweezers after penetrating through the lamp pole shell during assembly of a production line, assembly is labor-and time-consuming, cost is high, and the production and the mounting cannot achieve the effect of being rapid and labor-saving.

Disclosure of utility model

Aiming at the defects in the prior art, the technical problem to be solved by the utility model is to provide an intelligent LED floor lamp for human illumination, which is designed for the purpose of: firstly, can realize intelligent control, secondly, the simple installation.

In order to solve the technical problems, the utility model is realized by the following scheme: the utility model relates to an intelligent LED artificial lighting floor lamp, which comprises a base, a lamp cap and a lamp post assembly for connecting the base and the lamp cap to form the floor lamp, wherein an integrated intelligent DC electric control module and a constant voltage output driving power supply are arranged in the lamp post assembly;

The intelligent DC electronic control module comprises:

The input end of the voltage conversion circuit is electrically connected to the electric output end of the constant voltage output driving power supply;

The main control MCU is connected with the voltage output end of the voltage conversion circuit;

the clock chip IC is electrically connected with the main control MCU and is used for controlling the working time of the main control MCU;

the dimming and color temperature regulating circuit is connected with the PWM port of the main control MCU;

the LED bulb lamp is characterized in that an LED light source and an induction module are arranged in the bulb lamp holder, the LED light source is electrically connected with an output control end of the dimming and color temperature adjusting circuit, at least a light induction device and an infrared induction device are arranged in the induction module, and the induction module is electrically connected to the main control MCU.

Furthermore, the base is a U-shaped structure base, and an anti-slip pad is adhered to the bottom surface of the base.

Further, the lamp pole assembly includes:

the lamp post shell is provided with an upper shell, a middle connecting piece and a lower shell, wherein the middle connecting piece connects the upper shell and the lower shell to form a tubular shell;

The intelligent DC electric control module is fixed on the supporting surface of the insulating tray;

The insulation tray and the constant voltage output driving power supply are fixed on the fixing support from top to bottom, and the fixing support penetrates through the lower tube shell and is fixed.

Still further, the lamp post assembly further includes a plurality of DC link lines with terminals disposed in the lamp post housing, the plurality of DC link lines being a first DC link line, a second DC link line, a third DC link line, and a fourth DC link line, respectively.

Furthermore, two ends of the first DC connecting wire are respectively connected with the intelligent DC electric control module and the constant voltage output driving power supply.

Furthermore, one side of the upper tube shell is provided with an opening, a touch screen operation panel module is arranged at the opening, and two ends of the second DC connecting wire are respectively connected with the intelligent DC electric control module and the touch screen operation panel module.

Furthermore, the two ends of the third DC connecting wire are respectively connected with the intelligent DC electric control module and the induction module.

Furthermore, two ends of the fourth DC connecting wire are respectively connected with the intelligent DC electric control module and the electric signal input end of the LED light source.

Furthermore, the outside of the lamp cap is a square flat shell, and the upper surface and the lower surface of the square flat shell are respectively provided with a light-transmitting structure.

Furthermore, the LED light source comprises an upper light source module and a lower light source module, and the upper light source module and the lower light source module are separated by a heat dissipation assembly arranged in the square flat shell.

Furthermore, the light emitting surface of the upper light source module faces upwards, and the side of the lower light source module is arranged in the square flat shell.

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

1. The floor lamp can realize dynamic variable health spectrum and automatically and synchronously change with outdoor sunlight.

2. The floor lamp senses the ambient illuminance by the built-in light sensing device, automatically adjusts the brightness of the lamp light, and constantly meets the constant illuminance of the tabletop.

The floor lamp is internally provided with the infrared human body induction, so that a user walks into an induction area and automatically lights the lamp, and the lamp automatically falls dark after leaving for a period of time and is completely extinguished after a period of time.

4. The utility model has simple and convenient installation.

Drawings

Fig. 1 is a perspective view of a floor lamp according to the present utility model.

Fig. 2 is a diagram showing the structure of the base of the present utility model.

Fig. 3 is an exploded view of the light pole assembly of the present utility model.

Fig. 4 is an enlarged view of a portion a of fig. 3.

Fig. 5 is an enlarged view of a portion B of fig. 3.

Fig. 6 is an enlarged view of a portion C of fig. 3.

Fig. 7 is an enlarged view of the portion D of fig. 3.

Fig. 8 is an exploded view of the burner of the present utility model.

Fig. 9 is a voltage conversion circuit diagram of the present utility model.

FIG. 10 is a diagram of an RTC hard clock circuit of the present utility model.

Fig. 11 is a first dimming and temperature adjusting circuit according to the present utility model.

Fig. 12 is a second dimming and temperature adjusting circuit of the present utility model.

Fig. 13 is a circuit of an LED light source of the present utility model.

The reference numerals in the drawings: base 1, slipmat 1.1, AC plug female seat 3, AC connecting wire 4, fixed bolster 5, constant voltage output driving power 6, intelligent DC electronic control module 8, insulating tray 9, touch screen operation panel module 10, lamp pole shell 11, connector male end 12.1, connector female end 12.2, square frame 13.1, lower light source module support 13.2, lower light source module 14.1, upper light source module 14.2, radiator unit 15, light sensing device 16.1, infrared sensing device 16.2, lower lamp shade 17.1, upper lamp shade 17.2, apron 18, lamp pole subassembly 20, lamp holder 30, third DC connecting wire 71, third DC connecting wire 72, third DC connecting wire 73, fourth DC connecting wire 74, voltage conversion circuit 100, RTC hard clock circuit 101, first dimming and color temperature adjusting circuit 102, second dimming and color temperature adjusting circuit 103.

Detailed Description

The technical solutions in the embodiments of the present utility model will be clearly and completely described in the following with reference to the drawings in the embodiments of the present utility model, so that the advantages and features of the present utility model can be more easily understood by those skilled in the art, and thus the protection scope of the present utility model is more clearly and clearly defined. It should be apparent that the described embodiments of the utility model are only some, but not all embodiments of the utility model. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

In addition, the technical features of the different embodiments of the present utility model described below may be combined with each other as long as they do not collide with each other.

Example 1: the specific structure of the utility model is as follows:

referring to fig. 1-12, the intelligent LED artificial lighting floor lamp of the present utility model includes a base 1, a lamp cap 30, and a lamp post assembly 20 connecting the base 1 and the lamp cap 30 to form a floor lamp, wherein an integrated intelligent DC electronic control module 8 and a constant voltage output driving power supply 6 are arranged inside the lamp post assembly 20;

the intelligent DC electronic control module 8 comprises:

a voltage conversion circuit having an input terminal electrically connected to an electrical output terminal of the constant voltage output driving power supply 6;

The main control MCU is connected with the voltage output end of the voltage conversion circuit;

The clock chip IC8.1 is electrically connected with the main control MCU and is used for controlling the working time of the main control MCU;

the dimming and color temperature regulating circuit is connected with the PWM port of the main control MCU;

The LED light source and the induction module 16 are arranged in the lamp cap 30, the LED light source is electrically connected with the output control end of the dimming and color temperature adjusting circuit, at least a light induction device 16.1 and an infrared induction device 16.2 are arranged in the induction module 16, the induction module 16 is electrically connected to the main control MCU, the main control MCU is a singlechip, and the model of the singlechip is STM8S003.

A preferred technical scheme of the embodiment is as follows: the base 1 is a U-shaped structure base, and an anti-slip pad 1.1 is adhered to the bottom surface of the base.

A preferred technical scheme of the embodiment is as follows: the light pole assembly 20 includes:

The lamp post shell 11 is provided with an upper tube shell, a middle connecting piece and a lower tube shell, wherein the middle connecting piece connects the upper tube shell and the lower tube shell to form a tubular shell, a wire inlet is arranged at one side of the lower end of the middle connecting piece, an AC connecting wire 4 is led out from the wire inlet, the outer end of the AC connecting wire is connected with an AC plug female seat 3, and the inner end of the AC connecting wire is connected with the electric input end of the constant voltage output driving power supply 6;

The intelligent DC electronic control module 8 is fixed on the supporting surface of the insulating tray 9;

The fixed support 5, insulating tray 9 with constant voltage output drive power supply 6 is fixed in on this fixed support 5 from top to bottom, fixed support 5 wears to locate down the tube shell is fixed, and fixed support 5 is a rectangular shaped plate body, insulating tray 9 with constant voltage output drive power supply 6 passes through the screw fixation behind fixed support 5, connects the DC connecting wire again, then penetrates lamp pole shell 11, passes through the screw fixation with fixed support 5 again.

A preferred technical scheme of the embodiment is as follows: the light pole assembly 20 further comprises a plurality of DC link lines with terminals, which are a first DC link line 71, a second DC link line 72, a third DC link line 73 and a fourth DC link line 74, respectively, provided in the light pole housing 11.

Two ends of the first DC connecting wire 71 are respectively connected with the intelligent DC electronic control module 8 and the constant voltage output driving power supply 6.

The touch screen operation panel module 10 is installed at the opening of one side of the upper tube shell, and two ends of the second DC connecting wire 72 are respectively connected with the intelligent DC electric control module 8 and the touch screen operation panel module 10.

The two ends of the third DC connecting wire 73 are respectively connected with the intelligent DC electric control module 8 and the induction module 16.

Two ends of the fourth DC connecting wire 74 are respectively connected with the intelligent DC electric control module 8 and the electric signal input end of the LED light source.

A preferred technical scheme of the embodiment is as follows: the outside of the lamp cap 30 is a square flat shell, and the upper surface and the lower surface of the square flat shell are respectively provided with a light-transmitting structure.

As shown in fig. 8, the LED light source includes an upper light source module 14.2 and a lower light source module 14.1, and the upper light source module 14.2 and the lower light source module 14.1 are separated by a heat dissipation assembly 15 installed in the square flat body housing.

The light emitting surface of the upper light source module 14.2 faces upwards, and the side of the lower light source module 14.1 is arranged in the square flat shell.

The square flat body shell comprises a square frame 13.1, a lower lampshade 17.1 fixed on the lower frame opening of the square frame 13.1, an upper photomask 17.2 fixed on the inner side of the upper frame opening of the square frame 13.1 and a cover plate 18 connected to the upper frame opening of the square frame 13.1 in a covering mode, the lower lampshade 17.1 is provided with six 8 cover plates in a 4-layer mode, and the 8 cover plates are equally divided into two rows and installed on the lower frame opening of the square frame 13.1. The upper photomask 17.2 is a single-layer cover plate, and is fixed on the upper frame opening of the square frame 13.1 through a cover plate 18, the cover plate 18 is provided with a window for the visual upper photomask 17.2, a step is arranged at the inner side of the window, and the edge of the upper photomask 17.2 is lapped on the step.

The two lower light source modules 14.1 are arranged, the two lower light source module supports 13.2 are arranged, the two lower light source modules 14.1 and the two lower light source module supports 13.2 are installed and fixed one by one, and the two formed lower light source assemblies are fixed on the inner side of the square frame 13.1.

The two ends of the two lower light source module supports 13.2 are respectively connected with a connector female end 12.2 and an induction module 16, and the connector female end 12.2 is in opposite insertion connection with a connector male end 12.1 at the end part of the fourth DC connecting line 74.

Example 2:

As shown in fig. 9, fig. 9 is a voltage conversion circuit diagram of the present utility model, in which the voltage conversion circuit 100 converts a 48Vdc dc source into 5Vdc and 3.3Vdc dc sources to supply power to the master MCU and RTC clock, the light sensing device 16.1 and the infrared sensing device 16.2, the light sensing device 16.1 senses ambient light, and the infrared sensing device 16.2 senses human body.

The specific working principle of the voltage conversion circuit 100 is as follows: the 48Vdc direct current source is connected to the input end of the voltage stabilizing IC H6205L after passing through the reverse connection preventing diode D10, and the voltage stabilizing IC H6205L can take a path of reference voltage VDD from the output end for regulating the stability of the output voltage; meanwhile, in order to ensure the stability of the output voltage, the voltage stabilizing IC H6205L can simultaneously take the post-stage sample of the output end inductor L13 as a feedback signal to be connected to the VFB end; the dc voltage output from the subsequent stage of the inductor L13 is filtered by the capacitor C37 and the capacitor C31, and a stable harmonic-free 5V voltage is obtained.

Example 3:

The light sensing device 16.1 of the utility model adopts a high-precision photoresistor, converts light energy into an electric signal, transmits the electric signal to the main control MCU end for accurate control, and outputs different PWM signals for controlling the light intensity and the color temperature of the LED lamp by sensing the ambient light with different intensities.

Example 4:

the human body induction part of the utility model adopts an infrared induction device 16.2, the infrared induction device 16.2 adopts a high-sensitivity wide-angle PIR inductor and is used for outputting a high-low level signal SENSOR_PIR to the MCU as a basis for judging whether a human body exists or not, the power supply part adopts 5V direct current power supply, and the output level signal is: high level 3.3Vdc, low level 0V.

Example 5:

In the touch screen operation panel module 10, a touch control IC is adopted, the touch control IC is used for acquiring different key information, such as five keys, six keys or more keys, different key information, such as long press, short press, combined keys and the like, is converted into serial port signals TXD, RXD is communicated with a main control MCU, and after the main control MCU identifies the touch information, different signals are given to control the brightness, color temperature, display time and the like of an LED; the power supply of the touch control IC is 5Vdc, and the touch sensitivity can be adjusted by the values of the capacitor C1, the capacitor C2 and the capacitor C3.

Example 6:

As shown in fig. 10, fig. 10 is an RTC hard clock circuit 101 of the present utility model. The RTC hard clock circuit 101 is used for precisely controlling the working time of the main control MCU, and is characterized in that the core is a high-precision RTC chip, the precision reaches 5-8PPM, and the port for communicating with the main control MCU is as follows: TMR-SDA, TMR-SCL and TMR-INT for giving accurate time control and interrupt settings; the power supply voltage is 3Vdc, and can be obtained from the battery BAT2 and the main power supply 5V respectively, wherein the 5V power supply is preferentially adopted under the condition of the main power supply, and the battery power supply is adopted under the condition of no main power supply.

Example 7:

As shown in fig. 11-12, fig. 11 is a first dimming and toning circuit 102 of the present utility model, and fig. 12 is a second dimming and toning circuit 103 of the present utility model. The dimming color temperature PWM control part is a core controlled by the main control MCU, and the dimming IC can use different models according to different output power requirements; the control of the dimming chip is carried out by the output signals of PWM ports PC3, PC4, PC6 and PC7 of the main control MCU, and the main control MCU respectively gives different PWM signals to the dimming IC U1, the dimming IC U2, the dimming IC U3 and the dimming IC U4 according to actual regulation and control requirements; and then, the dimming IC U1, the dimming IC U2, the dimming IC U3 and the dimming IC U4 control the MOSFETs inside and outside the dimming IC to give different currents to the two color temperature LED light source board ends, so that different brightness and color temperatures are displayed. The resistances of the resistor R12, the resistor R13, the resistor R14, the resistor R15, the resistor R18, the resistor R19, the resistor R42 and the resistor R43 are different, so that the output currents are different, and the brightness of the corresponding LEDs is also different.

As shown in fig. 13, the LED light source board is formed by attaching LED beads with high and low color temperatures, the power supply and the color temperature control of the LED beads with two color temperatures are respectively and independently performed, the control signals are 2LED 2_ 2,4LED2-,6LED2+,2LED 1_ 2,4LED1-, and 6LED1+, and the brightness and the color temperature proportion of the LED beads with two color temperatures are controlled, so as to achieve the color mixing and brightness adjusting effects.

The display part is used for displaying the current time and consists of an LCD screen, the display of the display part is controlled by an I/O port of the main control MCU, and the current time setting can be adjusted by key combination.

In summary, the working principle of the intelligent LED artificial lighting floor lamp of the utility model is as follows: the lamp holder is matched with a natural spectrum light source plate and an induction module 16, the inside of the lamp holder is matched with a constant voltage output driving power supply 6, an integrated intelligent DC electric control module 8 (an intelligent control module integrated with a real-time module, a constant illuminance compensation technology and an infrared human induction technology and a data analysis system) and a touch screen operation panel module 10. After the base 1, the lamp post assembly 20 and the lamp cap 30 are structurally and electrically connected, lamplight, climate and space are perfectly integrated, so that the intelligent LED floor lamp can be applied to human illumination, people can obtain help in the aspects of body, emotion, health and the like, and humanized light demands of people in specific application environments are met. Such as supplementing the missing sun's illumination, to aid in the secretion of melatonin.

The light sensing device, the infrared sensing device and the indicator lamp are an induction module 16, the human circadian rhythm real-time module, the battery module, the constant illumination compensation and seating automatic turn-on data analysis processing module and the like are an intelligent DC electric control module 8, and the manual touch control module and the glass are a touch screen operation panel module 10.

One end of the intelligent DC electric control module 8 is provided with a DC input interface on the left side, which is connected with a power supply DC output end, and a DC output interface on the right side, which is connected with the LED light source plate; the other end is provided with a manual control panel signal input and output and a light sensing and infrared sensing signal input and output; each port has a label to prevent misconnection.

Different from the prior art:

Intelligent human factor control, need not to connect the internet: the lamp with the same type on the market is expected to realize automatic and outdoor sunlight synchronous change due to illumination, the internet is usually required to be connected, in order to solve the concern that personal privacy is easy to leak to the internet by customers, the product is integrated with modules integrated by a built-in clock chip, a button battery and other electronic devices, a preset program is burnt, the preset program is started by pressing a touch screen start key for a short time, dynamic variable health spectrum is realized, automatic and outdoor sunlight synchronous change is realized, users can work under natural light at any time, the human body biorhythm formed by evolution for more than 700 thousands of years is more accordant, and the product is integrated with mind and body, and excites the more pleasant concentrated positive emotion. The all-weather sunlight is simulated in real time, 7 fresh sunlight is used for bathing in the morning, 10 bright sunlight is used for learning in the morning, and 18 warm sunlight is used for relaxing in the evening.

Simulation of continuous spectrum: the spectrum of the LED floor lamp of the same type on the market is fixed, the product realizes the simulated continuous spectrum through reasonable proportion on the control program of the natural spectrum light source, reasonable spectrum energy distribution can influence the melatonin level, the illumination of a room can be improved, the brightness uniformity is improved, the color temperature is warm, the color rendering property is enhanced, and the glare and the light mutation are reduced.

Constant illumination compensation: the constant illuminance compensation technology is included, the illuminance of a learning area is automatically adjusted, the comfort illuminance set by a user is automatically memorized, the ambient illuminance is sensed by the built-in light sensing device, the light and shade of the lamp light are automatically adjusted, and the constant illuminance of a desk top is met at any time. The LED floor lamps of the same type on the market are not sensitive enough in intelligent induction when being intelligently turned on (off) by a mat, the LED floor lamps are powered on automatically when being close to a seat by a high-sensitivity sensor (loose) and a Fresnel optical lens, a user only needs to concentrate on work and study, the user is internally provided with infrared human body induction, the user walks into an induction area and automatically lights up, the LED floor lamps are automatically powered off after leaving for 20 minutes (customizable), and the LED floor lamps are all powered off after leaving for 10 minutes (customizable).

Advantages and formation process:

The lamps of the same type on the market want to realize the automatic and outdoor sunlight synchronous change due to illumination, the Internet is usually required to be connected, in order to solve the concern that customers easily leak personal privacy on the Internet, the product realizes the dynamic variable health spectrum and the automatic and outdoor sunlight synchronous change by embedding a clock chip, a button cell and other modules integrated by electronic devices and burning a preset program, opening the preset program by pressing a touch screen opening key by one key,

The spectrum of the LED floor lamp of the same type on the market is fixed, the product realizes the simulated continuous spectrum through reasonable proportion on the control program of the natural spectrum light source, reasonable spectrum energy distribution can influence the melatonin level, the illumination of a room can be improved, the brightness uniformity is improved, the color temperature is warm, the color rendering property is enhanced, and the glare and the light mutation are reduced.

According to the intelligent LED floor lamp, the constant illuminance compensation technology is included in the lamp, the illuminance of a learning area is automatically adjusted, the comfort illuminance set by a user is automatically memorized, the ambient illuminance is sensed through the built-in light sensing device, the brightness of the lamp is automatically adjusted, and the constant illuminance of a desk top is met at any time.

The LED floor lamps of the same type on the market are not sensitive enough in intelligent induction, the product adopts a high-sensitivity inductor and a Fresnel optical lens, the lamp is automatically turned on when being close to a seat, a user only needs to concentrate on work and study, built-in infrared human induction is carried out, the user walks into an induction area, the lamp is automatically turned on, the lamp leaves for 20 minutes (customizable) and automatically falls dark, and then 10 minutes (customizable) are all turned off.

The foregoing description is only of the preferred embodiments of the present utility model and is not intended to limit the scope of the utility model, and all equivalent structures or equivalent processes using the descriptions and the drawings of the present utility model or directly or indirectly applied to other related technical fields are included in the scope of the utility model.

Claims (10)

1. The intelligent LED artificial lighting floor lamp comprises a base (1), a lamp cap (30) and a lamp post assembly (20) for connecting the base (1) and the lamp cap (30) to form the floor lamp, and is characterized in that an integrated intelligent DC electric control module (8) and a constant voltage output driving power supply (6) are arranged in the lamp post assembly (20);

The intelligent DC electronic control module (8) comprises:

The input end of the voltage conversion circuit is electrically connected to the electric output end of the constant voltage output driving power supply (6);

The main control MCU is connected with the voltage output end of the voltage conversion circuit;

A clock chip IC (8.1) electrically connected with the main control MCU and used for controlling the working time of the main control MCU;

the dimming and color temperature regulating circuit is connected with the PWM port of the main control MCU;

The LED bulb lamp is characterized in that an LED light source and an induction module (16) are arranged in the bulb lamp cap (30), the LED light source is electrically connected with an output control end of the dimming and color temperature adjusting circuit, at least a light induction device (16.1) and an infrared induction device (16.2) are arranged in the induction module (16), and the induction module (16) is electrically connected to the main control MCU.

2. The intelligent LED artificial lighting floor lamp according to claim 1, wherein the base (1) is a U-shaped structure base, and an anti-slip pad (1.1) is adhered to the bottom surface thereof.

3. The intelligent LED artificial lighting floor lamp of claim 1, wherein the light pole assembly (20) comprises:

a lamp post shell (11) having an upper envelope, a middle connector, and a lower envelope, the middle connector connecting the upper and lower envelopes to form a tubular envelope;

The intelligent DC electronic control module (8) is fixed on the supporting surface of the insulating tray (9);

the insulation tray (9) and the constant voltage output driving power supply (6) are fixed on the fixing support (5) from top to bottom, and the fixing support (5) penetrates through the lower tube shell and is fixed.

4. A smart LED artificial lighting floor lamp as claimed in claim 3, characterized in that the lamp post assembly (20) further comprises a plurality of DC connection lines with terminals arranged in the lamp post housing (11), the plurality of DC connection lines being a first DC connection line (71), a second DC connection line (72), a third DC connection line (73) and a fourth DC connection line (74), respectively.

5. The intelligent LED artificial lighting floor lamp according to claim 4, wherein the two ends of the first DC connecting wire (71) are respectively connected with the intelligent DC electronic control module (8) and the constant voltage output driving power supply (6).

6. The intelligent LED artificial lighting floor lamp according to claim 4, wherein the upper tube shell has an opening at one side, a touch screen operation panel module (10) is installed at the opening at the side, and two ends of the second DC connecting line (72) are respectively connected with the intelligent DC electric control module (8) and the touch screen operation panel module (10).

7. The intelligent LED artificial lighting floor lamp according to claim 4, wherein two ends of the third DC connecting wire (73) are respectively connected with the intelligent DC electric control module (8) and the induction module (16);

And two ends of the fourth DC connecting wire (74) are respectively connected with the intelligent DC electric control module (8) and the electric signal input end of the LED light source.

8. The intelligent LED artificial lighting floor lamp according to claim 1, wherein the lamp cap (30) is externally provided with a square flat shell, and the upper and lower surfaces of the square flat shell are respectively provided with a light-transmitting structure.

9. The intelligent LED artificial lighting floor lamp of claim 8, wherein the LED light source comprises an upper light source module (14.2) and a lower light source module (14.1), and the upper light source module (14.2) and the lower light source module (14.1) are separated by a heat dissipation component installed in the square flat body shell.

10. The intelligent LED artificial lighting floor lamp of claim 9, wherein the light emitting surface of the upper light source module (14.2) faces upwards, and the lower light source module (14.1) is installed in the square flat body shell.