CN212367576U - LED lamp with dimming function - Google Patents

Abstract

The utility model relates to a LED lamps and lanterns with function of adjusting luminance, include: an LED lamp body; the dimming component is arranged on the LED lamp body and changes the resistance value of the LED lamp body according to the adjusting signal and/or operation; the control device is arranged in the LED lamp body, is electrically connected with the dimming component, detects the resistance value of the dimming component and adjusts the output current according to the resistance value of the dimming component; and the output unit is connected with the control device, receives the output current and transmits the output current to the LED lamp. The LED lamp has the dimming function, the dimming function of the chip is not required, a dimmer or a gateway, a sensor, a remote controller and the like are not needed to be matched, and the LED lamp is simple in dimming function, low in cost and convenient to use.

Description

LED lamp with dimming function

Technical Field

The utility model relates to a lamps and lanterns technical field, more specifically say, relate to a LED lamps and lanterns with function of adjusting luminance.

Background

LED lamps and lanterns (like LED fluorescent tube, LED lamp plate etc.) on the market are because lamps and lanterns itself can't external dimming line on the wiring, and current dimming mode mainly does: the dimming modes include 0-10V or 1-10V dimming, silicon controlled dimming, PWM dimming and the like, wherein the dimming modes require that the chip has a dimming function, and then a corresponding dimmer is required to be matched, or a gateway, a sensor, a remote controller and the like are required to be matched, or a power supply is externally arranged for dimming. On one hand, the dimming modes are limited by the fact that a chip scheme must have a dimming function, on the other hand, the chip scheme is high in cost and inconvenient to use, and based on the requirement of DLC5.1 on an LED lamp, an LED lamp tube must have the dimming function, and except for silicon controlled rectifier dimming, the existing LED lamp tube cannot be dimmed.

SUMMERY OF THE UTILITY MODEL

The to-be-solved technical problem of the utility model lies in, to the above-mentioned defect of prior art, provide a LED lamps and lanterns with function of adjusting luminance.

The utility model provides a technical scheme that its technical problem adopted is: an LED lamp with a dimming function is constructed, including:

an LED lamp body;

the dimming component is arranged on the LED lamp body and changes the resistance value of the LED lamp body according to an adjusting signal and/or operation;

the control device is arranged in the LED lamp body, is electrically connected with the dimming component, detects the resistance value of the dimming component and adjusts the output current according to the resistance value of the dimming component;

and the output unit is connected with the control device, receives the output current and transmits the output current to the LED lamp.

Preferably, the dimming assembly comprises: the resistor and/or the adjusting device connected with the resistor;

the adjusting device is used for adjusting the resistance value of the adjustable resistor according to an adjusting signal input by a user so as to change the resistance value of the dimming component.

Preferably, the resistor comprises an adjustable resistor or a non-adjustable resistor.

Preferably, the adjusting device comprises any one or more of a sliding knob, a gear knob, a sliding push button, a gear push button, a dial push button and a pressing button.

Preferably, the LED lamp body includes: an LED lamp tube body;

the adjusting device is arranged on the LED lamp tube body.

Preferably, the LED lamp body includes: the first end cover and the second end cover are arranged at two ends of the LED lamp tube body;

the adjusting device is arranged on the first end cover and/or the second end cover.

Preferably, the dimming assembly comprises: the sensing unit is arranged on the LED lamp body and used for sensing the environmental information around the LED lamp and adjusting the resistance value of the sensing unit according to the environmental information.

Preferably, the sensing unit includes: any one or more of a thermistor, a photoresistor, a sound sensitive resistor, a force sensitive resistor, a gas sensitive resistor, a humidity sensitive resistor and a magnetic sensitive resistor.

Preferably, the control device includes: a control IC;

the detection end of the control IC is connected with the adjustable resistor, and the output end of the control IC is connected with the output unit;

and/or the detection end of the control IC is connected with the sensing unit, and the output end of the control IC is connected with the output unit.

Preferably, the method further comprises the following steps: an input filter circuit;

the input filter circuit is arranged between a voltage signal input end of the LED lamp and the control device, and is used for receiving a voltage signal input by the input end, filtering the voltage signal and transmitting the filtered voltage signal to the control device.

Implement the utility model discloses a LED lamps and lanterns with function of adjusting luminance has following beneficial effect: the method comprises the following steps: an LED lamp body; the dimming component is arranged on the LED lamp body and changes the resistance value of the LED lamp body according to the adjusting signal and/or operation; the control device is arranged in the LED lamp body, is electrically connected with the dimming component, detects the resistance value of the dimming component and adjusts the output current according to the resistance value of the dimming component; and the output unit is connected with the control device, receives the output current and transmits the output current to the LED lamp. The LED lamp has the dimming function, the dimming function of the chip is not required, a dimmer or a gateway, a sensor, a remote controller and the like are not needed to be matched, and the LED lamp is simple in dimming function, low in cost and convenient to use.

Drawings

The invention will be further explained with reference to the drawings and examples, wherein:

fig. 1 is a schematic block diagram of an LED lamp with a dimming function according to an embodiment of the present invention;

fig. 2 is a schematic diagram of a part of a circuit provided by an embodiment of the present invention;

fig. 3 is a schematic circuit diagram of a portion of a circuit provided in another embodiment of the present invention;

fig. 4 is a schematic circuit diagram of a portion of a circuit provided in other embodiments of the present invention;

fig. 5 to 18 are different embodiments of the arrangement of the dimming component.

Detailed Description

In order to clearly understand the technical features, objects, and effects of the present invention, embodiments of the present invention will be described in detail with reference to the accompanying drawings.

It should be noted that, unless otherwise specified, when a feature is referred to as being "fixed" or "connected" to another feature, it may be directly fixed or connected to the other feature or indirectly fixed or connected to the other feature. Furthermore, the description of the upper, lower, left, right, front, rear, etc. used in the present invention is only relative to the mutual position relationship of the components of the present invention in the drawings. Furthermore, unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art. The terminology used in the description herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention. As used herein, the term "and/or" includes any combination of one or more of the associated listed items.

In order to satisfy DLC5.1 new mark to the requirement of LED lamps and lanterns, the utility model provides a LED lamps and lanterns with function of adjusting luminance, this LED lamps and lanterns self possess the function of adjusting luminance promptly, can realize adjusting luminance, need not require the function of adjusting luminance of chip, also need not the outside modes of adjusting luminance such as collocation dimmer, collocation gateway, sensor, remote controller, can realize adjusting luminance fast, simply on LED lamps and lanterns, also need not realize adjusting luminance outside the power. In some embodiments, the LED lamp includes, but is not limited to, any form (e.g., shape, size) of LED lamp body 11, LED lampshade, LED lamp panel, and the like.

Specifically, this LED lamps and lanterns with dimming function includes: an LED lamp body 10; the dimming component 40 is arranged on the LED lamp body 10 and changes the resistance value of the LED lamp body according to the adjusting signal; the control device 30 is arranged in the LED lamp body 10, is electrically connected with the dimming component 40, detects the resistance value of the dimming component 40, and adjusts the output current according to the resistance value of the dimming component 40; and an output unit 50 connected to the control device 30, receiving the output current, and transmitting the output current to the LED lamp.

In some embodiments, the dimming component 40 is configured to change the self-resistance value, such as increasing or decreasing the self-resistance value, according to the adjustment signal and/or operation. The control device 30 is electrically connected to the dimming component 40, and is configured to detect a resistance value of the dimming component 40, and adjust an output current according to the resistance value of the dimming component 40, so as to achieve a purpose of dimming the LED lamp.

In some embodiments, the dimming component 40 comprises: a resistor and/or an adjusting device 41 connected to the resistor. In some embodiments, the resistance may be an adjustable resistance or a non-adjustable resistance. The dimming component 40 may include an adjustable resistor and an adjusting device 41 connected to the adjustable resistor; alternatively, in some other embodiments, the dimming component 40 may include the adjusting device 41, and optionally, when the dimming component 40 includes the adjusting device 41, the adjusting device 41 may be a potentiometer, and the potentiometer may change its resistance value according to the operation of the user, so as to achieve the purpose of changing the resistance value of the dimming component 40. Alternatively, in some embodiments, the adjusting device 41 may adjust the resistance of the adjustable resistor according to the adjusting operation of the user to change the resistance of the dimming component 40. When the dimming component 40 is implemented by the adjusting device 41 and the adjustable resistor, the adjustable resistor may be one or more resistors connected in series, in parallel, in series and in parallel, so as to obtain different resistance values, thereby achieving the purpose of variable resistance. Alternatively, in some embodiments, the dimming component 40 may be implemented by an adjustable resistor.

Further, in some embodiments, the adjustable resistor may be configured in series, parallel, series-parallel, or the like with zero, one, or multiple resistors, so as to set the minimum-maximum range of dimming.

In some embodiments, the resistor and the adjusting device 41 may be an integral structure or a discrete structure, that is, the resistor and the adjusting device 41 may be set as a whole or separately, specifically set with an actual structure and circuit, and the present invention does not make any specific requirement. When the resistor and the adjusting device 41 are separately arranged, the resistor may be arranged on a circuit board in the LED lamp tube body 11, the adjusting device 41 may be arranged on the LED lamp tube body 11 or on the first end cover 12 or on the second end cover 13, and the adjusting device 41 may be connected to the resistor through a wire.

In some embodiments, the dimming component 40 comprises: the sensing unit is arranged on the LED lamp body 10 and used for sensing the environmental information around the LED lamp and adjusting the resistance value of the sensing unit according to the environmental information. Optionally, the sensing unit includes, but is not limited to, any one or more of a thermistor, a photoresistor, a sound-sensitive resistor, a force-sensitive resistor, a gas-sensitive resistor, a humidity-sensitive resistor, and a magnetic-sensitive resistor. In some embodiments, the environmental information surrounding the LED luminaire includes a current temperature, a current light intensity, a current sound, a current pressure, etc. of the LED luminaire. The thermistor can change its resistance value according to the current temperature of the LED lamp, so that the control device 30 adjusts the output current according to the current resistance value of the thermistor, thereby achieving the purpose of dimming. In some embodiments, the photo resistor may sense the current illumination intensity around the LED lamp, and change its own resistance value according to the current illumination intensity, so that the control device 30 adjusts the output current according to the current resistance value of the photo resistor, thereby achieving the purpose of dimming. In some embodiments, the acoustic resistor may sense the current sound intensity around the LED lamp, and change its own resistance value according to the current sound intensity, so that the control device 30 adjusts the output current according to the current resistance value of the acoustic resistor, thereby achieving the purpose of dimming. In some embodiments, the force-sensitive resistor can sense the pressing operation of the user, and change its own resistance value according to the pressing operation of the user, so that the control device 30 adjusts the output current according to the current resistance value of the force-sensitive resistor, thereby achieving the purpose of dimming.

Referring to fig. 2 to 4, an equivalent schematic diagram of the dimming component 40 is shown. The control device 30 includes: a control IC; the detection end of the control IC is connected with the adjustable resistor, and the output end of the control IC is connected with the output unit 50; and/or, the detection end of the control IC is connected with the sensing unit, and the output end of the control IC is connected with the output unit 50.

As shown in fig. 2 to 4, RP1 is an adjustable resistor, wherein in fig. 2, the control device 30 may include a control IC including a detection pin (CS), wherein the detection pin is a detection terminal of the control IC. The detection pin is electrically connected to the dimming component 40 (as shown in fig. 2), the detection pin of the control IC is connected to the adjustable resistor RP1, and when the resistance of the adjustable resistor RP1 is changed by the adjusting device 41, the voltage on the detection pin of the control IC changes due to the change of the resistance of the adjustable resistor RP1, so that the control IC can directly detect the voltage on the detection pin to obtain the change of the resistance of the adjustable resistor RP1, and adjust the output current according to the voltage value on the detection pin, thereby achieving the purpose of adjusting the light intensity of the LED lamp. In some embodiments, the control IC is a control IC without dimming functionality. Through the dimming circuit who adopts this mode, can realize LED lamps and lanterns from taking the dimming function, and this mode can realize adjusting luminance for pure hardware circuit mode, neither need require the dimming function of chip, also need not external dimming methods such as collocation dimmer, collocation gateway, sensor, remote controller, can realize adjusting luminance fast, simply on LED lamps and lanterns, also need not realize adjusting luminance outside the power, and is efficient, circuit structure is simple, and is with low costs, can also satisfy the requirement of adjusting luminance simultaneously.

In some embodiments, as shown in fig. 3, the control device 30 may include a dimming IC, the dimming IC includes a dimming pin (DIM), the dimming pin is electrically connected to the dimming component 40, as shown in RP1 in fig. 3), the dimming pin is electrically connected to the adjustable resistor RP1, when the resistance value of the adjustable resistor RP1 is changed by adjusting the dimming pin, the voltage at the dimming pin of the dimming IC changes due to the change of the resistance value of the adjustable resistor RP1, so that the dimming IC may directly detect the voltage at the dimming pin to obtain the change of the resistance value of the adjustable resistor RP1, so as to adjust the output current according to the voltage value at the dimming pin, thereby achieving the purpose of adjusting the light intensity of the LED lamp. The adjustable resistor RP1 can realize dimming in the form of a pull-up resistor. In some embodiments, the dimming IC has a dimming function, however, in the embodiments of the present invention, the dimming function of the dimming IC is not required, and only the output current needs to be adjusted according to the resistance value change of the adjustable resistor RP1, and software control is not required. Therefore, the dimming circuit adopting the mode can realize the dimming function of the LED lamp, and the mode can realize dimming in a pure hardware circuit mode, does not need to meet the dimming function requirement of a chip, does not need to match external dimming modes such as a dimmer, a gateway, a sensor and a remote controller, can quickly and simply realize dimming on the LED lamp, does not need to realize dimming outside a power supply, has high efficiency, simple circuit structure and low cost, and can also meet the dimming requirement.

In some embodiments, as shown in fig. 4, the control device 30 may include a dimming IC, the dimming IC includes a dimming pin (DIM), the dimming pin is electrically connected to the dimming component 40, as shown in RP1 in fig. 4, the dimming pin is electrically connected to the adjustable resistor RP1, when the resistance value of the adjustable resistor RP1 is changed by adjusting the dimming pin, the voltage at the dimming pin of the dimming IC changes due to the change of the resistance value of the adjustable resistor RP1, so that the dimming IC may directly detect the voltage at the dimming pin to obtain the change of the resistance value of the adjustable resistor RP1, so as to adjust the output current according to the voltage value at the dimming pin, thereby achieving the purpose of adjusting the light intensity of the LED lamp. The adjustable resistor RP1 may implement dimming in the form of a pull-down resistor. In some embodiments, the dimming IC has a dimming function, however, in the embodiments of the present invention, the dimming function of the dimming IC is not required, and only the output current needs to be adjusted according to the resistance value change of the adjustable resistor RP1, and software control is not required. Therefore, the dimming circuit adopting the mode can realize the dimming function of the LED lamp, and the mode can realize dimming in a pure hardware circuit mode, does not need to meet the dimming function requirement of a chip, does not need to match external dimming modes such as a dimmer, a gateway, a sensor and a remote controller, can quickly and simply realize dimming on the LED lamp, does not need to realize dimming outside a power supply, has high efficiency, simple circuit structure and low cost, and can also meet the dimming requirement.

Further, as shown in fig. 1, in some embodiments, the LED lamp with dimming function further includes: an input filter circuit 20; the input filter circuit 20 is disposed between a voltage signal input end of the LED lamp and the control device 30, and is configured to receive a voltage signal input by the input end, filter the voltage signal, and transmit the filtered voltage signal to the control device 30. It is understood that the input filter circuit 20 may be any filter circuit that can be used in an LED lamp, and the present invention is not limited thereto. Further, the input filter circuit 20 filters the ac signal at the input end and then transmits the filtered ac signal to the control device 30, so as to filter the interference signal, and make the signal on the circuit more stable and reliable.

Further, in some embodiments, the output unit 50 includes an output filter circuit, and the output filter circuit performs filtering processing on the signal output by the control device 30 to filter out interference signals, so that the current flowing into the LED lamp is more stable and reliable, and stable operation of the LED lamp is ensured.

Further, in some embodiments, as shown in fig. 5-18, the LED lamp body 10 includes an LED tube body 11, a first end cap 12, and a second end cap 13. The first end cap 12 and the second end cap 13 are respectively disposed at two ends of the LED tube body 11, and the adjusting device 41 may be disposed on the LED tube body 11, or on the first end cap 12, or on the second end cap 13. That is, the adjusting device 41 may be disposed on the LED tube body 11, the first end cap 12, or the second end cap 13, wherein fig. 5-18 only show an embodiment in which the adjusting device 41 is disposed on the LED tube body 11 or the first end cap 12, however, fig. 5-18 are only examples, and are not intended to limit the position of the adjusting device 41 according to the present invention. In other embodiments, the adjustment device 41 may be disposed on the second end cap 13.

In some embodiments, the adjustment device 41 includes, but is not limited to, any one or more of a sliding knob, a gear knob, a sliding push button, a dial push button, and a push button.

Specifically, referring to fig. 5, fig. 5 shows one particular embodiment of the adjustment device 41, in this embodiment, the adjustment device 41 is a gear type knob that may be disposed on the first end cap 12. In some embodiments, the gear knob may also be provided on the second end cap 13. As shown in fig. 5, by rotating the gear knob, the resistance value of the adjustable resistor RP1 can be changed, so that the control device 30 adjusts the output current according to the change of the resistance value of the adjustable resistor RP1, thereby completing dimming.

In some embodiments, referring to fig. 6, fig. 6 shows a specific embodiment of the adjustment device 41, in which the adjustment device 41 is a gear type knob that can be disposed on the LED tube body 11. In some embodiments, the gear knob may also be provided on the second end cap 13 or the first end cap 12. As shown in fig. 6, by rotating the gear knob, the resistance value of the adjustable resistor RP1 can be changed, so that the control device 30 adjusts the output current according to the change of the resistance value of the adjustable resistor RP1, thereby completing dimming.

In some embodiments, referring to fig. 7, fig. 7 shows a specific embodiment of the adjustment device 41, in which the adjustment device 41 is a sliding knob, which may be provided on the first end cap 12. In some embodiments, the sliding knob may also be disposed on the second end cap 13 or the LED tube body 11. As shown in fig. 7, by rotating the sliding knob, the resistance of the adjustable resistor RP1 can be changed, so that the control device 30 adjusts the output current according to the change of the resistance of the adjustable resistor RP1, thereby completing the dimming.

In some embodiments, referring to fig. 8, fig. 8 shows a specific embodiment of the adjusting device 41, in which the adjusting device 41 is a sliding knob, which can be disposed on the LED tube body 11. In some embodiments, the sliding knob may also be provided on the second end cap 13 or the first end cap 12. As shown in fig. 8, by rotating the sliding knob, the resistance of the adjustable resistor RP1 can be changed, so that the control device 30 adjusts the output current according to the change of the resistance of the adjustable resistor RP1, thereby completing the dimming.

In some embodiments, referring to fig. 9, fig. 9 shows a specific embodiment of the adjustment device 41, in which the adjustment device 41 is a switch button that may be disposed on the first end cap 12. In some embodiments, the switch button may also be disposed on the second end cap 13 or the LED tube body 11. As shown in fig. 9, the resistance of the adjustable resistor RP1 can be changed by pressing the button of the adjusting device 41, so that the control device 30 adjusts the output current according to the change of the resistance of the adjustable resistor RP1, thereby completing the dimming.

In some embodiments, referring to fig. 10, fig. 10 shows a specific embodiment of the adjusting device 41, in which the adjusting device 41 is a switch button, which can be disposed on the LED tube body 11. In some embodiments, the switch button may also be disposed on the second end cap 13 or the first end cap 12. As shown in fig. 10, the resistance of the adjustable resistor RP1 can be changed by pressing the button of the adjusting device 41, so that the control device 30 adjusts the output current according to the change of the resistance of the adjustable resistor RP1, thereby completing the dimming.

In some embodiments, referring to fig. 11, fig. 11 shows a specific embodiment of the adjustment device 41, in which the adjustment device 41 is a toggle button that may be disposed on the first end cap 12. In some embodiments, the toggle button may also be disposed on the second end cap 13 or the LED tube body 11. As shown in fig. 11, the resistance of the adjustable resistor RP1 can be changed by adjusting the dial-type push button, so that the control device 30 adjusts the output current according to the change of the resistance of the adjustable resistor RP1, thereby completing the dimming.

In some embodiments, referring to fig. 12, fig. 12 shows a specific embodiment of the adjusting device 41, in which the adjusting device 41 is a toggle button, which can be disposed on the LED tube body 11. In some embodiments, the toggle button may also be disposed on the second end cap 13 or the first end cap 12. As shown in fig. 12, the resistance of the adjustable resistor RP1 can be changed by adjusting the dial-type push button, so that the control device 30 adjusts the output current according to the change of the resistance of the adjustable resistor RP1, thereby completing the dimming.

In some embodiments, referring to fig. 13, fig. 13 shows a specific embodiment of the adjustment device 41, in which the adjustment device 41 is a sliding push button, which may be provided on the first end cap 12. In some embodiments, the sliding push button may also be disposed on the second end cap 13 or the LED tube body 11. As shown in fig. 13, by adjusting the sliding push button, the resistance of the adjustable resistor RP1 can be changed, so that the control device 30 adjusts the output current according to the change of the resistance of the adjustable resistor RP1, thereby completing the dimming.

In some embodiments, referring to fig. 14, fig. 14 shows a specific embodiment of the adjusting device 41, in which the adjusting device 41 is a sliding push button, which can be disposed on the LED tube body 11. In some embodiments, the sliding push button may also be provided on the second end cap 13 or the first end cap 12. As shown in fig. 14, by adjusting the sliding push button, the resistance of the adjustable resistor RP1 can be changed, so that the control device 30 adjusts the output current according to the change of the resistance of the adjustable resistor RP1, thereby completing the dimming.

In some embodiments, referring to fig. 15, fig. 15 shows a specific embodiment of the adjustment device 41, in which the adjustment device 41 is a toggle button that may be disposed on the first end cap 12. In some embodiments, the toggle button may also be disposed on the second end cap 13 or the LED tube body 11. As shown in fig. 15, the resistance of the adjustable resistor RP1 can be changed by adjusting the dial-type push button, so that the control device 30 adjusts the output current according to the change of the resistance of the adjustable resistor RP1, thereby completing dimming.

In some embodiments, referring to fig. 16, fig. 16 shows a specific embodiment of the adjusting device 41, in which the adjusting device 41 is a dial-type push button, which can be disposed on the LED tube body 11. In some embodiments, the toggle button may also be disposed on the second end cap 13 or the first end cap 12. As shown in fig. 16, the resistance of the adjustable resistor RP1 can be changed by adjusting the dial-type push button, so that the control device 30 adjusts the output current according to the change of the resistance of the adjustable resistor RP1, thereby completing the dimming.

In some embodiments, referring to fig. 17, fig. 17 shows a specific embodiment of the adjustment device 41, in which the adjustment device 41 is a push button that can be disposed on the first end cap 12. In some embodiments, the pressing button may also be disposed on the second end cap 13 or the LED tube body 11. As shown in fig. 17, by adjusting the push button, the resistance of the adjustable resistor RP1 can be changed, so that the control device 30 adjusts the output current according to the change of the resistance of the adjustable resistor RP1, thereby completing the dimming.

In some embodiments, referring to fig. 18, fig. 18 shows a specific embodiment of the adjusting device 41, in which the adjusting device 41 is a push button, which can be disposed on the LED tube body 11. In some embodiments, the push button may also be provided on the second end cap 13 or the first end cap 12. As shown in fig. 18, by adjusting the push button, the resistance of the adjustable resistor RP1 can be changed, so that the control device 30 adjusts the output current according to the change of the resistance of the adjustable resistor RP1, thereby completing the dimming.

The utility model discloses an under not changing LED lamps and lanterns wiring form, adopt resistance, adjustable resistor, thermistor, photo resistance, acoustic resistor, force sensing resistor, gas sensing resistor, humidity sensing resistor, the change of arbitrary one or multiple form resistance among the magnetic resistor, realize the function of adjusting luminance to LED lamps and lanterns, just the utility model discloses a mode that adopts pure hardware can realize LED lamps and lanterns from taking the function of adjusting luminance, need not be to the function requirement of adjusting luminance of chip, also need not the external light modulation modes such as collocation dimmer, collocation gateway, sensor, remote controller, can satisfy the new mark requirement, can adjust luminance automatically again, and simple structure, with low costs, the realization mode is simple and easy, and it is efficient to adjust luminance.

The above embodiments are only for illustrating the technical concept and features of the present invention, and the purpose of the embodiments is to enable people skilled in the art to understand the contents of the present invention and implement the present invention accordingly, which can not limit the protection scope of the present invention. All equivalent changes and modifications made within the scope of the claims of the present invention shall fall within the scope of the claims of the present invention.

Claims (10)

1. An LED lamp with dimming function, comprising:

an LED lamp body;

the dimming component is arranged on the LED lamp body and changes the resistance value of the LED lamp body according to an adjusting signal and/or operation;

the control device is arranged in the LED lamp body, is electrically connected with the dimming component, detects the resistance value of the dimming component and adjusts the output current according to the resistance value of the dimming component;

and the output unit is connected with the control device, receives the output current and transmits the output current to the LED lamp.

2. The LED lamp with dimming function as claimed in claim 1, wherein the dimming component comprises: the resistor and/or the adjusting device connected with the resistor;

the adjusting device is used for adjusting the resistance value of the resistor according to an adjusting signal and/or operation input by a user so as to change the resistance value of the dimming component.

3. The LED lamp with dimming function of claim 2, wherein the resistor comprises an adjustable resistor or a non-adjustable resistor.

4. The LED lamp with dimming function according to claim 2, wherein the adjusting device comprises any one or more of a sliding knob, a gear knob, a sliding push button, a shift push button, a dial push button and a push button.

5. The LED lamp with the dimming function according to claim 4, wherein the LED lamp body comprises: an LED lamp tube body;

the adjusting device is arranged on the LED lamp tube body.

6. The LED lamp with the dimming function according to claim 5, wherein the LED lamp body comprises: the first end cover and the second end cover are arranged at two ends of the LED lamp tube body;

the adjusting device is arranged on the first end cover and/or the second end cover.

7. The LED lamp with dimming function as claimed in claim 3, wherein the dimming component comprises: the sensing unit is arranged on the LED lamp body and used for sensing the environmental information around the LED lamp and adjusting the resistance value of the sensing unit according to the environmental information.

8. The LED lamp with dimming function according to claim 7, wherein the sensing unit comprises: any one or more of a thermistor, a photoresistor, a sound sensitive resistor, a force sensitive resistor, a gas sensitive resistor, a humidity sensitive resistor and a magnetic sensitive resistor.

9. The LED lamp with dimming function as claimed in claim 7, wherein the control device comprises: a control IC;

the detection end of the control IC is connected with the adjustable resistor, and the output end of the control IC is connected with the output unit;

and/or the detection end of the control IC is connected with the sensing unit, and the output end of the control IC is connected with the output unit.

10. The LED lamp with dimming function according to claim 1, further comprising: an input filter circuit;

the input filter circuit is arranged between a voltage signal input end of the LED lamp and the control device, and is used for receiving a voltage signal input by the input end, filtering the voltage signal and transmitting the filtered voltage signal to the control device.

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