The utility model relates to a corridor lamp, in particular to a corridor induction lamp. Background [0002] Corridor lamp is a special lighting fixture for corridor, which belongs to a new architectural lighting system. It can be used to turn on the light when people come and turn off the light when people leave, which is energy-saving and convenient, and has been widely used. However, the traditional corridor lights are usually voice-activated lights, which are easily disturbed by external sounds (such as the sound of cars on the road outside), resulting in lighting when no one passes by, resulting in waste of energy consumption. [0004] Based on this, aiming at the above technical problems, a corridor induction lamp is provided. [0005] In order to solve the above technical problems, the utility model adopts the following technical scheme: [0006] A corridor induction lamp comprises a lamp holder, an LED lamp holder, a control unit, an infrared sensor and an infrared emitter, wherein the lamp holder is fixed at the top of the corridor wall; The LED lamp holder, the control unit and the infrared sensor are all fixed on the lamp holder; The control unit is connected with the LED lamp holder and the infrared sensor; The infrared emitter is fixed in the corridor. [0007] The scheme also includes a photosensitive sensor, which is fixed on the lamp holder and connected with the control unit. [0008] The lamp holder is long and has the same width as the corridor, and there are a plurality of infrared sensors and infrared emitters uniformly distributed on the lamp holder in a straight line, and the infrared emitters are uniformly distributed on the floor of the corridor corresponding to the infrared sensors. [0009] The utility model has the advantages of simple structure and convenient manufacture, and can judge whether pedestrians pass by through infrared rays without being disturbed by external sounds, thus saving energy consumption. Brief description of the drawings [00 10] The utility model will be described in detail with the attached drawings and specific embodiments: [00 1 1] Figure 1 is the structural schematic diagram of the utility model; [00 12] Figure 2 is the electrical schematic diagram of the utility model. As shown in figure 1 and figure 2, the corridor induction lamp includes lamp holder 1 1, LED lamp holder 12, control unit 13, infrared sensor 14 and infrared emitter 15. [00 14] The lamp holder 1 1 is fixed on the top of the corridor wall 2 1. [0015] The LED lamp holder 12, the control unit 13 and the infrared sensor 14 are all fixed on the lamp holder 1 1. [00 16] The control unit 13 is connected with the LED lamp cap 12 and the infrared sensor 14. [00 17] The infrared emitter 15 is fixed on the 22nd floor of the corridor, vertically below the infrared sensor 14. [00 18] The control unit 13 controls whether the LED lamp holder emits light according to the detection signal of the infrared sensor 14. When someone passes in the corridor, the infrared light emitted by the infrared emitter 15 is blocked, and the infrared sensor 14 cannot detect the infrared signal. The control unit 13 controls the LED lamp holder 13. [00 19] In order to prevent induction lamp from wasting when working under sufficient light, this scheme also includes a photosensitive sensor 16, which is fixed on a lamp holder 1 1 and connected with a control unit 13. The control unit [0020] Of course, the time periods of day and night can also be preset in the control unit 13. If it is in the daytime, even if someone passes by, the LED lamp holder 12 will not emit light. [002 1] Preferably, the lamp holder 1 1 is as long as the corridor, and there are a plurality of infrared sensors 14 and infrared emitters 15, and the plurality of infrared sensors 14 are uniformly distributed in the lamp holder14 in a straight line. However, those skilled in the art should realize that the above-mentioned embodiments are only used to illustrate the utility model, and are not used as limitations to the utility model. As long as it is within the true spirit of the utility model, changes and modifications to the above-mentioned embodiments will fall within the scope of the claims of the utility model. Sovereignty item 1. A corridor induction lamp is characterized by comprising a lamp holder, an LED lamp holder, a control unit, an infrared sensor and an infrared emitter, wherein the lamp holder is fixed at the top of the corridor wall; The LED lamp holder, the control unit and the infrared sensor are all fixed on the lamp holder; The control unit is connected with the LED lamp holder and the infrared sensor; The infrared emitter is fixed on the floor of the corridor, just below the infrared sensor. 2. The corridor induction lamp according to claim 1, further comprising a photosensitive sensor fixed on the lamp holder and connected with the control unit. 3. The corridor induction lamp according to claim 1 or 2, characterized in that the lamp holder is strip-shaped and has the same width as the corridor, and a plurality of infrared sensors and infrared emitters are uniformly distributed on the lamp holder in a straight line, and the infrared emitters are uniformly distributed on the corridor floor corresponding to the infrared sensors. Patent abstract A corridor induction lamp comprises a lamp holder, an LED lamp holder, a control unit, an infrared sensor and an infrared emitter, wherein the lamp holder is fixed at the top of the corridor wall; The LED lamp holder, the control unit and the infrared sensor are all fixed on the lamp holder; The control unit is connected with the LED lamp holder and the infrared sensor; The infrared emitter is fixed on the floor of the corridor, just below the infrared sensor. The utility model has the advantages of simple structure and convenient manufacture, and can judge whether pedestrians pass by through infrared rays, and is not interfered by external sounds, thus saving energy consumption. IPC classification f2 1s8/04, f2 1v23/04, F21y10/02 publication number CN204629274 application number cn201520269.
Requirements: The device uses solar energy as energy source and lead-acid battery as power source for energy storage components and related circuits. The street lamp is automatically lit when someone passes by, and then turned off with a delay of 60 seconds. The LED street lamp can be turned off during the day and turned on at night. Adopt dual power supply, that is, automatically switch to AC 220 V power supply in the case of insufficient solar power supply.