CN202916988U - Laser emission device - Google Patents

Abstract

The utility model relates to the technical field of electronics, in particular to the technical field of laser, and discloses a laser emission device. The laser emission device comprises a laser emission casing, a laser transmitter, a control module and a power supply module; the laser emission casing is a stick body, wherein a projection opening is formed at the top end of the stick body, and the laser beam emitted by the laser transmitter is shot out through the projection opening; and the control module is connected with the laser transmitter through a frequency generating mechanism. The laser emission device is characterized in that the stick body is adopted, the goal of emitting laser control signals through the laser transmitter is achieved, the stick body is hollow, and the laser transmitter, the control module and the power supply module are arranged in the stick body. The laser emission device has the advantages of simple structure, convenience in operation, strong directivity and the like.

Description

Laser beam emitting device

Technical field

The utility model relates to the telecontrol engineering field, relates in particular to laser remote-controlled technical field.

Background technology

Because laser has the advantages such as directional lighting, energy density are large, laser beam emitting device and the laser receiver supporting with it have been used for a lot of fields.Laser remote-controlledly day by day be subject to people and pay attention to.

Direction of motion is being carried out in the field of remote control of remote control, usually adopting Infrared remote controller that the running status of controlled article is controlled.Usually people adopt the Infrared remote controller with several buttons to carry out button operation, and the controlled end of controlled article is infrared receiving device, receive the infrared remote-controlled signal of Infrared remote controller emission, and process infrared remote-controlled signal, carry out corresponding operating.This control mode need to use a plurality of buttons on the Infrared remote controller to operate, and an Infrared remote controller can only operate controlled article, has the problems such as limited of using.

The utility model content

The purpose of this utility model is, a kind of laser beam emitting device is provided, to solve the problems of the technologies described above.

The technical matters that the utility model solves can realize by the following technical solutions:

Laser beam emitting device comprises a Laser emission housing, a generating laser, a control module, a power module, it is characterized in that, the top of described Laser emission housing is provided with the projection mouth, and the laser beam that described generating laser sends penetrates by the projection mouth;

Described control module connects described generating laser by a Frequency generated mechanism.

Described Laser emission housing adopts a barred body.

The utility model adopts the form of barred body, realizes the purpose of generating laser Emission Lasers control signal.Laser spot is shone in the signal receiving area of laser remote-controlled receiving trap, make corresponding actions, can realize laser remote-controlled operation.Have the characteristics such as simple in structure, easy to operate, that directive property is strong.

Described Laser emission housing hollow, described generating laser, described control module, described power module are arranged in the described Laser emission housing.

Described barred body is the barred body of a conjury stick shape.

Be provided with a vibration transducer in the described Laser emission housing, described vibration transducer connects described control module, the vibration information of vibration transducer detection laser emission housing, and send control module to, when vibration information during greater than a vibration settings value, the startup of control module control generating laser, generating laser Emission Lasers bundle.

When control module detects described vibration information greater than a vibration settings value, and described generating laser is in starting state, and described control module is controlled described generating laser and closed.The utility model can start generating laser by vibration, also can close generating laser by vibration, and is easy to use.

After described control module control generating laser started, described control module was delayed time behind the setting-up time, controls described generating laser and closes.

Described vibration transducer can adopt vibration transducer commonly used in the prior art, described vibration transducer also can adopt a vibroswitch, described vibroswitch connects described control module, and described vibroswitch is when being subject to vibrating, for described control module provides signal.

Described vibroswitch comprises a fixed electorde, a float electrode, described fixed electorde and described float electrode are in normally open, described float electrode is adjacent with described fixed electorde, described fixed electorde does not under static state contact with described float electrode, described float electrode is rocked when being subject to vibrating, contact described fixed electorde, produce signal; One of them electrode in fixed electorde, the float electrode connects power supply, and as power electrode, another electrode connects the signal input part of described control module, as signal electrode.

Also comprise a sensor signal supplementary module, described sensor signal supplementary module is provided with a signal input part, and the mutual conduction relation is subjected to power input and the power output end of described signal input part control; Described power input and described power output end conducting state are controlled by described signal input part, and described signal input part connects the signal electrode of described vibroswitch;

Described power output end connects the power input of described control module; Described sensor signal supplementary module comprises an electric capacity, and pin of described electric capacity connects described signal electrode.

Described fixed electorde adopts a metal bar electrode, and described float electrode adopts the spring electrode of a spring-like, and described spring electrode is enclosed within on the described metal bar electrode.An electrode of described vibroswitch connects power supply, and another electrode connects the signal input part of described control module.

An electrode of described vibroswitch connects power supply, and as power electrode, another electrode is as signal electrode.Vibroswitch conducting when vibration signal is arranged is to capacitor charging.When capacitance voltage reaches setting value, impel the electronic switching element conducting, realize control.Because capacitor discharge needs a period of time, therefore can realize time-delay.

Delay function can also be realized by control module.Described control module has delay function, and is provided with a time delayed signal delivery outlet, and described time delayed signal delivery outlet connects the signal input part of described electronic switching element, makes described electronic switching element keep conducting state in delay time.Delay time is then closed after finishing.

Described electronic switching element can adopt triode, MOS element or cmos element.

Described control module also can connect a touch sensor, and described touch sensor is arranged on the described Laser emission housing; Touch or near described touch sensor, after described touch sensor is sensed touch signal, transmit induction information to described control module; The startup of described generating laser comprises at least one condition, one of condition that described induction information starts as generating laser.

When the user touches touch sensor, allow generating laser work, the utility model can be realized by user's touch-sensitive surface the emission state of generating laser like this.

Described control module starts described vibration information as generating laser another condition; When satisfying vibration information greater than a vibration settings value, after also need satisfying described touch sensor and sensing touch signal, the startup of control module control generating laser, generating laser Emission Lasers bundle.

Described control module can also in conjunction with other Starting mode, start the work of generating laser.

The inductive means of described touch sensor is arranged in the Laser emission housing.

Described Laser emission surface of shell is distributed with a plurality of metal induction points, and a plurality of described metal induction points are as the touch point of described touch sensor.

Described metal induction point can distribute around the Laser emission surface of shell, also can adopt other modes to be distributed on the described Laser emission housing.

Described barred body is provided with a handle portion of being convenient to hand, and described metal induction point is around described handle portion surface distributed.

Described power module can adopt battery, with powered battery.

Described power module also can adopt rechargeable battery, and described rechargeable battery connects a charge port, and described charge port is arranged on the described barred body.In order to be the charging of described rechargeable battery by charge port.

Described rechargeable battery also can connect a radio energy receiver, and the electric energy that receives with described radio energy receiver charges.

Described power module can also adopt a power facility, and described power facility comprises a Blast Furnace Top Gas Recovery Turbine Unit (TRT), a drive unit, and described drive unit connects described Blast Furnace Top Gas Recovery Turbine Unit (TRT) by gear train; Drive described drive unit, trigger described Blast Furnace Top Gas Recovery Turbine Unit (TRT) generating, realize power supply.

Described Laser emission housing comprises a rotating rotation section, and the rotation section is rotated as described drive unit in described rotation section, drives the Blast Furnace Top Gas Recovery Turbine Unit (TRT) generating, realizes power supply.

Described Laser emission housing can also comprise a stretchable extension section, and described extension section is as described drive unit, and the described extension section that stretches drives the Blast Furnace Top Gas Recovery Turbine Unit (TRT) generating, realizes power supply.

Described Blast Furnace Top Gas Recovery Turbine Unit (TRT) can connect rechargeable battery.

Described Blast Furnace Top Gas Recovery Turbine Unit (TRT) can adopt generator, also can adopt the magnetic circuit power supply.

Described power module can also adopt a power facility, described power facility can adopt a vibrating electricity generator, and described vibrating electricity generator is arranged in the described Laser emission housing, by vibrating described Laser emission housing, and then trigger the vibrating electricity generator generating, realize power supply.

Described power module can also adopt a power facility, and described power facility comprises a piezoelectric ceramics, a rechargeable battery, and described piezoelectric ceramics connects described rechargeable battery, and described piezoelectric ceramics is arranged on the described Laser emission housing.The utility model can also be converted into electric energy with the mechanical energy of external force by piezoelectric ceramics, to the rechargeable battery charging, realizes power supply.

Described power module can also adopt a power facility, and described power facility can comprise a solar panel, an accumulator, and described solar panel connects described accumulator, and described solar panel is arranged on the described Laser emission housing.The utility model can also be electric energy with light energy conversion by solar panel, is stored in the accumulator, realizes power supply.

Described laser beam emitting device adopts the tumbler structure, is a roly-poly type laser beam emitting device, and the bottom surface of described barred body bottom is arc surface, and the center of gravity of described barred body is positioned at the below, so that laser beam emitting device can vertically be placed.

The barred body below is provided with a butt end, when falling on surface level, there are a contact point in butt end and surface level, the gravity on the center of gravity of contact point both sides, multiply by respectively center of gravity to two moment numerical value of the distance acquisition of contact point, the moment numerical value of barred body lower side is greater than the numerical value of barred body upper side.

Described power module is positioned at the bottom of described barred body, so that the center of gravity of described barred body is positioned at the below.

Described generating laser also can be positioned at the bottom of described barred body, and the surface of emission of described generating laser is towards described projection mouth, and the laser beam that described generating laser sends is by projection mouthful ejaculation.

Bottom in the described barred body can also be provided with counterweight, when vertically placing with the assurance laser beam emitting device, does not fall.

Described generating laser is the Infrared laser emission device, described laser beam emitting device also comprises a visible laser transmitter, and what the infrared laser beam of the visible laser bundle of described visible laser transmitter emission and the emission of described Infrared laser emission device was parallel to each other penetrates from the projection mouth.

A described projection mouthful place is covered with diffuser, and diffuser can adopt lens.

Description of drawings

Fig. 1 is a kind of structural representation of the utility model laser beam emitting device;

Fig. 2 is vibroswitch principle of work schematic diagram of the present utility model;

Fig. 3 is use view of the present utility model.

Embodiment

For technological means, creation characteristic that the utility model is realized, reach purpose with effect is easy to understand, below in conjunction with the further elaboration the utility model of concrete diagram.

With reference to Fig. 1, laser beam emitting device comprises a Laser emission housing, a generating laser 12, a control module, a power module, and the Laser emission housing adopts a barred body 11, the top of barred body 11 is provided with the projection mouth, and the laser beam that generating laser 12 sends penetrates by the projection mouth.Control module connects generating laser 12 by a Frequency generated mechanism.The utility model adopts the form of barred body 11, realizes the purpose of generating laser Emission Lasers control signal.Laser spot is shone in the signal receiving area of laser remote-controlled receiving trap, make corresponding actions, can realize laser remote-controlled operation.Have the characteristics such as simple in structure, easy to operate, that directive property is strong.

Barred body 11 hollows of the present utility model, generating laser 12, control module, power module all are arranged in the barred body 11.Barred body 11 is preferably the barred body of a conjury stick shape.So that product and people are more friendly.

The utility model opening and closing generating laser 12 can adopt various ways:

1) is provided with a vibration transducer in the Laser emission housing, the vibration transducer link control module, vibration transducer detects the vibration information of barred body 11, and send control module to, when vibration information during greater than a vibration settings value, the startup of control module control generating laser 12, generating laser 12 Emission Lasers bundles.When control module detects vibration information greater than a vibration settings value, and generating laser 12 is in starting state, and control module control generating laser 12 cuts out.The utility model can start generating laser 12 by vibration, also can close generating laser 12 by vibration, and is easy to use.

2) be provided with a vibration transducer in the Laser emission housing, the vibration transducer link control module, vibration transducer detects the vibration information of barred body 11, and send control module to, when vibration information during greater than a vibration settings value, the startup of control module control generating laser 12, generating laser 12 Emission Lasers bundles.After control module control generating laser 12 started, control module was delayed time behind the setting-up time, and control generating laser 12 cuts out.

Vibration transducer can adopt vibration transducer commonly used in the prior art.

3) be provided with a vibration transducer in the Laser emission housing, vibration transducer adopts a vibroswitch, the vibroswitch link control module, and vibroswitch is when being subject to vibrating, for control module provides signal.

With reference to Fig. 2, vibroswitch comprises a fixed electorde 61, a float electrode 62, and float electrode 62 is adjacent with fixed electorde 61, fixed electorde 61 does not under static state contact with float electrode 62, float electrode 62 is rocked when being subject to vibrating, and contact fixed electorde 61 produces signal.Fixed electorde 61 adopts a metal bar electrode, and float electrode 62 adopts the spring electrode of a spring-like, and spring electrode is enclosed within on the metal bar electrode.

When being connected of vibroswitch and control module, can adopt dual mode:

A) vibroswitch electrode connects power supply, the signal input part of another electrode link control module.Sending the signal trigger control module control generating laser 12 that produces by vibroswitch starts.

B) vibroswitch electrode connects power supply, and as power electrode, another electrode is as signal electrode.Also comprise a sensor signal supplementary module, the sensor signal supplementary module is provided with a signal input part, a power input, a power output end, power input and power output end conducting state are controlled by signal input part, and signal input part connects the signal electrode of vibroswitch.The power input of power output end link control module.

The sensor signal supplementary module comprises an electric capacity 63, and 63 1 pins of electric capacity connect signal electrode, and signal electrode connects the signal input part of an electronic switching element 64 simultaneously.Vibroswitch conducting when vibration signal is arranged is to electric capacity 63 chargings.When electric capacity 63 voltages reach setting value, impel electronic switching element 64 conductings, realize control.Because electric capacity 63 discharges need a period of time, therefore can realize delay function.By adjusting the resistance value of the current-limiting resistance among the figure, can suitably adjust delay time.

Control module has delay function, and is provided with a time delayed signal delivery outlet, and the signal input part of time delayed signal delivery outlet connecting electronic on-off element 64 makes electronic switching element 64 keep conducting state in delay time.Delay time is then closed after finishing.

Electronic switching element 64 can adopt triode, MOS element or cmos element.Electronic switching element 64 among Fig. 8 adopts triode.

4) control module also can connect a touch sensor, and touch sensor is arranged on the barred body 11.Touch or near touch sensor, after touch sensor is sensed touch signal, transmit induction information to control module, the startup of generating laser comprises at least one condition, one of condition that induction information starts as generating laser 12.When the user touches touch sensor, allow generating laser 12 work, the utility model can be realized by user's touch-sensitive surface the emission state of generating laser 12 like this.

The inductive means of touch sensor is arranged in the barred body 11.

Barred body 11 surface distributed have a plurality of metal induction points, and a plurality of metal induction points are as the touch point of touch sensor.The metal induction point can around the barred body surface distributed, also can adopt other modes to be distributed on the barred body 11.Barred body 11 is provided with a handle portion of being convenient to hand, and the metal induction point can also thorny shank surface distributed.

5) combination 1) and 4), control module starts vibration information, touch information as generating laser 12 condition; When the user touches touch sensor, generating laser 12 not on-line operations, but at vibration information during greater than a vibration settings value, the startup of control module control generating laser 12, generating laser 12 Emission Lasers bundles.Vibration information do not exist in the touch information situation, even greater than the vibration settings value, also can't start generating laser 12.

6) combination 2) and 4), control module starts vibration information, touch information as generating laser 12 condition; When the user touches touch sensor, generating laser 12 not on-line operations, but at vibration information during greater than a vibration settings value, the startup of control module control generating laser 12, generating laser 12 Emission Lasers bundles.Behind the time-delay certain hour, close generating laser 12.Vibration information do not exist in the touch information situation, even greater than the vibration settings value, also can't start generating laser 12.

Control module can also in conjunction with other Starting mode, start the work of generating laser 12.

Power module of the present utility model can adopt the various ways power supply:

1) power module adopts battery, with powered battery.

2) power module adopts rechargeable battery, and rechargeable battery connects a charge port, and charge port is arranged on the barred body 11.In order to be rechargeable battery charging by charge port.

3) power module adopts rechargeable battery, and rechargeable battery connects a radio energy receiver, and the electric energy that receives with the radio energy receiver charges.

4) power module adopts a power facility, and power facility comprises a Blast Furnace Top Gas Recovery Turbine Unit (TRT), a drive unit, and drive unit connects Blast Furnace Top Gas Recovery Turbine Unit (TRT) by gear train, and driver triggers the Blast Furnace Top Gas Recovery Turbine Unit (TRT) generating, realizes power supply.Blast Furnace Top Gas Recovery Turbine Unit (TRT) can connect rechargeable battery.Blast Furnace Top Gas Recovery Turbine Unit (TRT) can adopt generator, also can adopt the magnetic circuit power supply.

Barred body 11 comprises a rotating rotation section, and the rotation section is rotated as drive unit in the rotation section, drives the Blast Furnace Top Gas Recovery Turbine Unit (TRT) generating, realizes power supply.

Barred body 11 can also comprise a stretchable extension section, and extension section is as drive unit, and the stretching extension section drives the Blast Furnace Top Gas Recovery Turbine Unit (TRT) generating, realizes power supply.

5) power module adopts a power facility, and power facility adopts a vibrating electricity generator, and vibrating electricity generator is arranged in the barred body 11, by vibration barred body 11, and then triggers the vibrating electricity generator generating, realizes power supply.

6) power module adopts a power facility, and power facility comprises a piezoelectric ceramics, a rechargeable battery, and piezoelectric ceramics connects rechargeable battery, and piezoelectric ceramics is arranged on the barred body 11.The utility model can also be converted into electric energy with the mechanical energy of external force by piezoelectric ceramics, to the rechargeable battery charging, realizes power supply.

7) power module adopts a power facility, and power facility can comprise a solar panel, an accumulator, and solar panel connects accumulator, and solar panel is arranged on the barred body.The utility model can also be electric energy with light energy conversion by solar panel, is stored in the accumulator, realizes power supply.

Laser beam emitting device of the present utility model preferably adopts the tumbler structure, is a roly-poly type laser beam emitting device, and the bottom surface of barred body 11 bottoms is arc surface, and the center of gravity of barred body 11 is positioned at the below, so that laser beam emitting device can vertically be placed.The barred body below is provided with a butt end, when falling on surface level, there are a contact point in butt end and surface level, the gravity on the center of gravity of contact point both sides, multiply by respectively center of gravity to two moment numerical value of the distance acquisition of contact point, the moment numerical value of barred body lower side is greater than the numerical value of barred body upper side.

Power module is positioned at the bottom of barred body 11, so that the center of gravity of barred body 11 is positioned at the below.Generating laser 12 also can be positioned at the bottom of barred body 11, and the surface of emission of generating laser 12 is towards the projection mouth, and the laser beam that generating laser 12 sends penetrates by the projection mouth.Bottom in the barred body 11 can also be provided with counterweight, does not fall when vertically placing with assurance barred body 11.

Generating laser is the Infrared laser emission device, and laser beam emitting device also comprises a visible laser transmitter, and what the infrared laser beam of the visible laser bundle of visible laser transmitter emission and the emission of Infrared laser emission device was parallel to each other penetrates from the projection mouth.A projection mouthful place is covered with diffuser, and diffuser can adopt lens.

With reference to Fig. 3, the through type laser beam emitting device carries out straighforward operation to the televisor 5 that laser remote-controlled receiving trap is housed.

Above demonstration and described ultimate principle of the present utility model and principal character and advantage of the present utility model.The technician of the industry should understand; the utility model is not restricted to the described embodiments; that describes in above-described embodiment and the instructions just illustrates principle of the present utility model; under the prerequisite that does not break away from the utility model spirit and scope; the utility model also has various changes and modifications, and these changes and improvements all fall in claimed the utility model scope.The claimed scope of the utility model is defined by appending claims and equivalent thereof.

Claims (12)

1. laser beam emitting device comprises a Laser emission housing, a generating laser, a control module, a power module, it is characterized in that, the top of described Laser emission housing is provided with the projection mouth, and the laser beam that described generating laser sends penetrates by the projection mouth;

Described control module connects described generating laser by a Frequency generated mechanism.

2. laser beam emitting device according to claim 1 is characterized in that, is provided with a vibration transducer in the described Laser emission housing, and described vibration transducer connects described control module.

3. laser beam emitting device according to claim 2, it is characterized in that, described vibration transducer adopts vibroswitch, described vibroswitch comprises a fixed electorde, a float electrode, and described fixed electorde and described float electrode are in normally open, and described float electrode is adjacent with described fixed electorde, described fixed electorde does not under static state contact with described float electrode, described float electrode is rocked when being subject to vibrating, and contacts described fixed electorde, produces signal; One of them electrode in fixed electorde, the float electrode connects power supply, and as power electrode, another electrode connects the signal input part of described control module, as signal electrode.

4. laser beam emitting device according to claim 3, it is characterized in that, also comprise a sensor signal supplementary module, described sensor signal supplementary module is provided with a signal input part, and the mutual conduction relation is subjected to power input and the power output end of described signal input part control; Described power input and described power output end conducting state are controlled by described signal input part, and described signal input part connects the signal electrode of described vibroswitch;

Described power output end connects the power input of described control module; Described sensor signal supplementary module comprises an electric capacity, and pin of described electric capacity connects described signal electrode.

5. laser beam emitting device according to claim 1 is characterized in that, described power module adopts rechargeable battery, and described rechargeable battery connects a radio energy receiver, and the electric energy that receives with described radio energy receiver charges.

6. laser beam emitting device according to claim 1 is characterized in that, described power module adopts a power facility, and described power facility comprises a Blast Furnace Top Gas Recovery Turbine Unit (TRT), a drive unit, and described drive unit connects described Blast Furnace Top Gas Recovery Turbine Unit (TRT) by gear train.

7. laser beam emitting device according to claim 6 is characterized in that, described Laser emission housing comprises a rotating rotation section, and described rotation section is as described drive unit.

8. laser beam emitting device according to claim 7 is characterized in that, described Laser emission housing comprises a stretchable extension section, and described extension section is as described drive unit.

9. laser beam emitting device according to claim 1 is characterized in that, described Laser emission housing is a barred body, and described barred body is hollow structure, and described generating laser, described control module, described power module are arranged in the described barred body;

Described generating laser is the Infrared laser emission device, and described laser beam emitting device also comprises a visible laser transmitter, and described Infrared laser emission device is parallel with the light emission direction of described visible laser transmitter.

10. the described laser beam emitting device of any one in 9 according to claim 1 is characterized in that, described Laser emission housing is a barred body, and described control module connects a touch sensor, and described touch sensor is arranged on the described barred body.

11. the described laser beam emitting device of any one in 9 according to claim 1, it is characterized in that, described Laser emission housing is a barred body, and described laser beam emitting device adopts the tumbler structure, be a roly-poly type laser beam emitting device, the bottom surface of described barred body bottom is arc surface.

12. the described laser beam emitting device of any one in 9 is characterized in that according to claim 1, described Laser emission housing is a barred body, and described barred body is the barred body of a conjury stick shape.

Images