LASER DETECTION AND RANGING DEVICE
First Claim
1. A LADAR device, comprising:
- a rangefinder;
a signal transmission module;
a power transmission module;
a mechanical rotating part;
a housing;
a signal processing board; and
a timing module;
wherein;
the signal transmission module comprises at least one optical communication transmitter and one optical communication receiver corresponding to the one optical communication transmitter;
the power transmission module comprises coupled magnet rings, and communicates with the signal transmission module through electromagnetic induction to achieve wireless power transmission;
the mechanical rotating part is adapted to drive the rangefinder to rotate axially in 360 degrees;
the rangefinder is disposed on the housing, and comprises a laser, an emitting lens assembly, a receiving sensor, and a receiving lens;
the emitting lens assembly comprises a first accommodation space and the laser is disposed in the first accommodation space;
the receiving lens comprises a second accommodation space and the receiving sensor is disposed in the second accommodation space;
the at least one optical communication transmitter and one optical communication receiver corresponding to the one optical communication transmitter are disposed in a middle part of the housing;
the mechanical rotating part comprises a built-in hollow-shaft motor;
the housing comprises a first part, a second part, and a third part, and the second part is disposed between the first part and the third part;
the built-in hollow-shaft motor is flexibly connected to the first part of the housing via a belt, and is adapted to drive the first part and the second part of the housing to rotate via the belt;
the power transmission module comprises an upper part and a lower part;
the upper part is disposed in the second part of the housing and adapts to rotate axially in 360 degrees; and
the lower part is fixed on the third part of the housing;
the rangefinder is a time-of-flight laser ranging module; and
when in use, the signal processing board adapts to produce a pulse signal;
an optical signal is transmitted from the optical communication transmitter to the optical communication receiver;
the timing module adapts to receive the pulse signal as a timing start signal, receive a timing termination signal from the receiving sensor, and calculate a time of flight of the optical signal according to the timing start signal and the timing termination signal.
1 Assignment
0 Petitions
Accused Products
Abstract
A LADAR device, including: a rangefinder; a signal transmission module; a power transmission module; a mechanical rotating part; a housing; a signal processing board; and a timing module. The signal transmission module includes at least one optical communication transmitter and one optical communication receiver. The power transmission module includes coupled magnet rings and communicates with the signal transmission module through electromagnetic induction to achieve wireless power transmission. The mechanical rotating part is adapted to drive the rangefinder to rotate axially in 360 degrees. The rangefinder is disposed on the housing, and includes a laser, an emitting lens assembly, a receiving sensor, and a receiving lens. The emitting lens assembly includes a first accommodation space and the laser is disposed in the first accommodation space. The receiving lens includes a second accommodation space and the receiving sensor is disposed in the second accommodation space.
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Citations
6 Claims
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1. A LADAR device, comprising:
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a rangefinder; a signal transmission module; a power transmission module; a mechanical rotating part; a housing; a signal processing board; and a timing module; wherein; the signal transmission module comprises at least one optical communication transmitter and one optical communication receiver corresponding to the one optical communication transmitter; the power transmission module comprises coupled magnet rings, and communicates with the signal transmission module through electromagnetic induction to achieve wireless power transmission; the mechanical rotating part is adapted to drive the rangefinder to rotate axially in 360 degrees; the rangefinder is disposed on the housing, and comprises a laser, an emitting lens assembly, a receiving sensor, and a receiving lens;
the emitting lens assembly comprises a first accommodation space and the laser is disposed in the first accommodation space;
the receiving lens comprises a second accommodation space and the receiving sensor is disposed in the second accommodation space;the at least one optical communication transmitter and one optical communication receiver corresponding to the one optical communication transmitter are disposed in a middle part of the housing; the mechanical rotating part comprises a built-in hollow-shaft motor; the housing comprises a first part, a second part, and a third part, and the second part is disposed between the first part and the third part; the built-in hollow-shaft motor is flexibly connected to the first part of the housing via a belt, and is adapted to drive the first part and the second part of the housing to rotate via the belt; the power transmission module comprises an upper part and a lower part; the upper part is disposed in the second part of the housing and adapts to rotate axially in 360 degrees; and
the lower part is fixed on the third part of the housing;the rangefinder is a time-of-flight laser ranging module; and when in use, the signal processing board adapts to produce a pulse signal; an optical signal is transmitted from the optical communication transmitter to the optical communication receiver;
the timing module adapts to receive the pulse signal as a timing start signal, receive a timing termination signal from the receiving sensor, and calculate a time of flight of the optical signal according to the timing start signal and the timing termination signal.- View Dependent Claims (2, 3, 4, 5, 6)
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Specification