RU63023U1 - LED HEADLIGHT WITH PULSE-OPERATING MODE - Google Patents

Abstract

The utility model relates to optical-electronic instrumentation and can be used to create an individual protective lighting equipment designed to detect and illuminate nearby and distant objects, protective light exposure to a person or animal in case of threat of attack, and also as a signaling tool. The technical result is an increase in the effectiveness of security measures and protection against attack by providing faster, more accurate and directed light exposure on the object. The LED lamp contains a housing in which a light source is installed, made in the form of an LED, a power supply and a control unit for the operation mode of the lamp. The control unit for the mode of operation of the lamp is connected between the power supply and the light source and is designed as a microprocessor, the output of which is connected to the inputs of the current stabilizer of the constant light mode, the current stabilizer of the economy mode of small light and the pulse shaper, the outputs of which are the outputs of the control unit of the mode of operation of the lamp and connected to a light source, and the microprocessor inputs are connected to a control button and a remote clock button. 1 independent item; 1 ill.

Description

The utility model relates to optoelectronic instrumentation and can be used to create an individual protective lighting equipment designed to detect and illuminate nearby and distant objects, protective light exposure to a person or animal in the event of a threat of attack, as well as a signaling device.

Known LED flashlight designed to weaken or temporarily impair a person’s vision with bright light or a blinding flash (US 6007218, F21K 7/00, F21V 8/00, 1999. According to the patent, the device contains a housing, a power supply, a switch and a laser lighting module including a laser emitter and a collimating lens mounted to move relative to the laser emitter.

When using this protective and lighting device, a wide laser beam of visible light is formed, the object of influence (criminal or potential intruder) is first detected by illuminating it with this light beam, the wide laser beam is transformed into a narrower one with a safe energy density, it is directed at the intruder’s eyes and if he does not stop the threatening behavior, separate flashes of bright light are directed into the eyes of the intruder by pressing the switch of the laser emitter .

However, such a device for neutralizing a potential criminal cannot be effective enough, since in the light protection mode only part of the round light spot that falls on the eyes of the intruder is used, and when the light energy is concentrated when the light spot is reduced in emergency situations and poor lighting, a small round one A light mark directly in the eyes of an object is unlikely.

The closest in technical essence to the claimed is a standalone portable laser protective lighting device (US 5685636, F21K 7/00, 1997), which is a laser emitter that impairs or temporarily impairs the vision of a person or animal by exposure to bright light or a blinding flash, not causing prolonged loss of vision. In accordance with the patent, the device comprises a housing made in the form of, for example, a flashlight or a baton, and a power supply with a switch, a power supply circuit, a laser emitter, and a lens made with the possibility of its movement along the axis are sequentially installed in it. The lens movement allows the formation of a narrow laser beam of light or its expansion in order to illuminate and detect objects such as a person with its help.

When using the device, an object (person) is previously detected or visually determined and the laser beam is directed at approximately the level of its chest, accompanied by a voice warning. If the object does not respond properly (adequately), the beam of the laser emitter is sent to the object for a short time. A direct hit of laser radiation in a person’s eyes leads to his disorientation caused by physiological rearrangement of his visual perception associated with light and dark adaptation. The time required for adaptation depends on the power density of the radiation of the light flux at the object and the time of exposure to light on the object. A narrow beam of light is used to disorient a person or animal, and an expanded one is used for its preliminary detection. A disadvantage of the device is that for the reformation of the light beam, it is necessary to reconfigure the device, that is, by moving the lens to form a light spot of the desired size, which increases the time it takes to carry out protective actions by disorienting the object (person or animal) and reduces accuracy, i.e. the effectiveness of the device, because it increases the likelihood of pointing errors (aiming).

The utility model solves the problem of increasing the effectiveness of security measures and protection against attack by providing faster, more accurate and directed light exposure on the object.

The problem is solved in the proposed LED lamp containing a housing in which a light source is installed, made in the form of an LED, a power supply unit and a lamp operation mode control unit, while a lamp operation mode control unit is connected between the power unit and the light source and is made in the form of a microprocessor, the output of which is connected to the inputs of the current stabilizer of the constant light mode, the current stabilizer of the economical mode of small light and the pulse current driver, the outputs of which are the outputs of the control unit mode of operation of the lamp and connected to the light source and the inputs of the microprocessor are connected with a control button and a remote clock button.

Disorientation of an object (human or animal) when using this lamp is carried out by translating the latter into a pulsating mode of operation (short-term flashes of light) without loss of accuracy of pointing at the object. The number of ripples (flashes) is selected taking into account the provision of the most uncomfortable conditions for the illuminated object (for a person - up to 24 per second). The flashlight can be installed, for example, on small arms or on the shield of a police cordon.

The essence of the utility model is illustrated by the drawing, which shows the functional diagram of the LED flashlight.

The lamp contains placed in the housing (not shown) a power supply 1, a control unit 2 of the mode of operation of the lamp and a light source 3.

As a power source in block 1, 4 AA batteries are used.

The control unit 2 of the lamp operation mode is made in the form of a microprocessor 4, the output of which is connected to the inputs of the current stabilizer of the constant light mode 5, the current stabilizer of the economical mode of small light 6 and the pulse shaper 7, the outputs of which are

the outputs of the control unit 2 mode of operation of the lamp and are connected to a light source 3.

The inputs of the microprocessor 4 are connected to the control button 8 and the external clock button 9. When you press the control button 8, the lamp goes into constant light mode.

When you press the remote clock button 9, the flashlight operates in constant light mode only while holding the latter in the pressed state.

When you press and hold the control button 8 for 5-10 seconds, the lamp goes into the low light economy mode.

By simultaneously pressing the remote clock button 9 and the control button 8, the lamp enters the programming mode of the parameters of the pulsating operation mode. After which, by pressing the external clock button 9, you can select the desired mode of operation of the flashlight (in particular, flash parameters: alternating time and duration of the latter), and then by pressing the control button 8 turn off the flashlight.

When the flashlight is on, by pressing the external clock button 9, the flashlight is put into pulsating operation mode.

If the lamp worked in the economical mode (small light), then after using it in a pulsating mode, it switches to constant light mode.

The processor allows you to get other button settings, i.e. change the modes of the flashlight with a different combination of actions on the buttons (in particular, by the sequence or duration of pressing).

The presented flashlight provides simplicity and reliability of operation, as well as switching it into different operating modes without loss of accuracy of pointing at the object.

Claims (1)

An LED flashlight with a pulsating mode of operation, comprising a housing in which a light source is installed, made in the form of an LED, a power supply unit and a control unit for operating the mode of the lamp, characterized in that the control unit for the mode of operation of the lamp is connected between the power unit and the light source and is designed as a microprocessor, the output of which is connected to the inputs of a current stabilizer of constant light mode, a current stabilizer of an economical mode of small light and a pulse current shaper, the outputs of which are outputs of bl eye control mode of operation of the lamp and are connected to a light source, and the microprocessor inputs are connected to a control button and a remote clock button.