LU501585B1 - A Laser Radar Used for Meteorological Observation - Google Patents

Abstract

The present invention relates to a laser radar used for meteorological observation, particularly to the meteorological field, characterized in that the laser radar comprises a base, the top of said base is provided with a stable base in a fixed way, the top of said stable base is provided with a connecting bushing board, the top of said connecting board is provided with a housing, the bottom of the cavity of said base is provided with a power supply board in a fixed way, the top of said power supply board is provided with a clamping trough plate in a fixed way, the top of said clamping trough plate connects to a connecting insertion board in a clamping way, and the outside of said connecting insertion board is provided with a fixing bushing board in a fixed bushing way. In the present invention, by injecting gas to the inside of the present invention, the gas pressure at the bottom is increased, so that the component 301 falls from 201, and then the stable base and the connecting bushing board are disassembled; The assembly process of the connecting bushing board and the base is mainly as follows: the current direction of the external coil of the fixed electromagnet is changed to change its magnetic poles, and then the fixed electromagnet and locking electromagnet are separated, which cooperates with the interlocking component to facilitate separation of the base from the connecting bushing board, and then facilitates disassembly of the entire device.

Description

A Laser Radar Used for Meteorological Observation LU501585 Technical Field The present invention relates to the meteorological technical field, particularly to a laser radar used for meteorological observation. Background Art By emitting and receiving laser beams, the laser radar can analyze the reflection time of laser beams after encountering the detection target, calculates the relative distance between the detection target and the place where the laser radar is located, collects the 3D coordinate and reflectivity of a large number of dense points on the surface of the detection target, and rebuilds the 3D model of the detection target.

In the case of coaxial rotation, communication between components on the radar rotor and other fixed components is mainly realized in the following way:

1. Coaxial data transmission is realized with a slip ring. For example, in the mechanically revolving laser radar, the stator of the slip ring connects to the stator of the laser radar, signals are transmitted to a revolving brush slip right connector at the input end, and then signals are output at the output end of the connector. The rotor of the slip ring connects to the rotor of the laser radar; During revolving, electric signals are transmitted via the signal path on the slip ring. This method mainly has the following deficiencies: When realizing coaxial data transmission with the slip ring, wear of the slip ring will be inevitable, heating arising from friction will be likely to occur, so the service life is short.

2. Realization of the coaxial data transmission with the electromagnetic induction coil mainly has the following deficiencies: When realizing coaxial data 1 transmission with the electromagnetic induction coil, the coil will generate LU501585 electromagnetic radiation, which will have impacts on other components that are sensitive to electromagnetism. Additionally, to realize transmission of multiple data lines, electromagnetic shielding between lines shall be taken into consideration, which will make signal transmission relatively complex.

Summary of the Invention To overcome the above defects of prior art, the embodiments of the present invention provide a laser radar used for meteorological observation. By injecting gas to the inside of the present invention, the gas pressure at the bottom 1s increased, so that the component 301 falls from 201, and then the stable base and the connecting bushing board are disassembled; The assembly process of the connecting bushing board and the base is mainly as follows: the current direction of the external coil of the fixed electromagnet is changed to change its magnetic poles, and then the fixed electromagnet and locking electromagnet are separated, which cooperates with the interlocking component to facilitate separation of the base from the connecting bushing board, and then facilitates disassembly of the entire device, solving the problems as raised in the above background art.

To achieve the above-mentioned object, the present invention discloses the following technical solution: À laser radar used for meteorological observation, characterized in that: the laser radar used for meteorological observation comprises a base, the top of said base 1s provided with a stable base in a fixed way, the top of said stable base is provided with a connecting bushing board, the top of said connecting board is provided with a housing, the bottom of the cavity of said base 1s provided with a power supply board in a fixed way, the top of said power supply - ——

board is provided with a clamping trough plate in a fixed way, the top of said LU501585 clamping trough plate connects to a connecting insertion board in a clamping way, and the outside of said connecting insertion board is provided with a fixing bushing board in a fixed bushing way, both the left and the right of said fixing bushing board are fixed with a horizontal board, the inside of said horizontal boards 1s respectively provided with a locking electromagnet and an interlocking component in a fixed bushing way, the top of said fixing bushing board is provided in a fixed way with a fixed electromagnet directly below the locking electromagnet, the top of said fixed electromagnet and the bottom of the locking electromagnet contact each other, said interlocking component comprises a bottom bar, the top of said bottom bar 1s provided with a bushing bar in a flexible bushing way, the bottom of the cavity of said bushing bar 1s provided with an inner bar in a fixed way, and the bottom of said inner bar connects to the top of the bottom bar in a flexible bushing way;

The top surface of said stable base is provided with a component 201 that fits the bottom of the connecting bushing board, the bottom of said connecting bushing board is provided with a component 301 in a fixed bushing way, the top of said connecting insertion board extends to the inside of the connecting bushing board provided with a bottom frame in a fixed way, the top of said bottom frame extends to the inside of the housing provided with a rotor radar in a fixed way, the outside of said rotor radar is provided with a horizontal board in a fixed bushing way, the inside of said horizontal board is provided with a dust collection box in a fixed way, the inside of said bottom frame 1s provided with an inner frame in a fixed way, the inside of said inner frame is provided with a main shaft in a fixed way, the big input end of said main shaft connects electrically the output end of the connecting insertion board, - ——

the top of said main shaft is provided with an auxiliary shaft in a fixed way, the top LU501585 of said auxiliary shaft extends to the outside of the rotor radar and provided in a fixed way with a signal receiving handling end, the outer wall of said main shaft is provided in a fixed way with a wireless receiver coil inside the rotor radar, and the front side of said housing is provided with a signal transmission frame and a signal receiving end in a fixed way.

Said laser radar comprises the laser emission component, the output end of said laser radar connects to the information processing component in a telecommunication way, the output end of said information processing component connects to the scanning system in a telecommunication way, and the output end of said scanning system electrically connects to the display component.

In one preferential embodiment, the outside of said inner bar is provided with a balance spring in a flexibly bushing way, the upper end and the lower end of said balance spring connect in a fixed way to the top surface of the bottom bar and the bottom surface of the bushing bar cavity respectively, and said bottom bar comprises two dismountable rods that connect to each other in a clamping way.

In one preferential embodiment, the inside of said stable base is provided with a component 202 that connects to 201, and the front side of said stable base is provided with a pressure relief hole connecting to the component 202.

In one preferential embodiment, said dust collection box comprises a box body, the top side and the bottom side of said box body are provided with an opening respectively, and the inner wall of said opening is provided with a filter screen in a fixed way.

- ——

In one preferential embodiment, the inner wall of said housing is provided with LU501585 two negative pressure holes, two said negative pressure holes are respectively located on the top side and the bottom side of the horizontal board.

In one preferential embodiment, the laser emission component comprises an excitation source, the output end of said excitation source connects to a laser device in a telecommunication way, and said laser device electrically connects to a beam controller.

In one preferential embodiment, said information processing component comprises an information receiver, and the output end of said information processor electrically connects to an information converter and a photoelectric converter.

In one preferential embodiment, the input end of fixed electromagnet connects to the input end of power supply board in a telecommunication way, and the initial magnetic pole on the top of said fixed electromagnet is diverse from that at the bottom of locking electromagnet.

The technical effect and advantages of the present invention:

1.With a rotor radar that collaborates with the main shaft and the auxiliary shaft, the volume of the laser radar used in the present invention can be reduced, the integration level of components of the laser radar can be improved, the space of the main shaft can be further saved, and the space utility rate can be improved;

2.In the present invention, by injecting gas to the inside of the present invention, the gas pressure at the bottom is increased, so that the component 301 falls from 201, and then the stable base and the connecting bushing board are disassembled; The assembly process of the connecting bushing board and the base 1s mainly as follows: - ——

the current direction of the external coil of the fixed electromagnet is changed to LU501585 change its magnetic poles, and then the fixed electromagnet and locking electromagnet are separated, which cooperates with the interlocking component to facilitate separation of the base from the connecting bushing board, and then facilitates disassembly of the entire device; 1, By injecting gas into two negative pressure holes in turn, the gas flow brings the dust into the dust collection box, to realize dust collection, wherein, the negative pressure hole and the opening on the surface of the stable base are sealed during operation, to protect the inside of the housing from the impact of dust.

Description of the Drawings Figure 1 1s a diagram showing the structure of the present invention. Figure 2 1s the diagram showing the outer structure of the present invention in Figure

1. Figure 3 is the diagram showing the structure at the location A of the present invention in Figure 1. Figure 4 is the diagram showing the structure at the location B of the present invention in Figure 1. Figure 5 is the diagram showing the structure of the interlocking component of the present invention. Figure 6 is a diagram showing the structure of the dust collection box of the present invention. Figure 7 is a block diagram showing the structure of the present invention.

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Reference numerals: 1. Base; 101. Power supply board; 102. Clamping trough LU501585 plate; 103. Connecting insertion board; 104. Fixing bushing board; 105. Horizontal board; 2. Stable base; 3. Connecting bushing board; 4. Housing; 5. Fixed electromagnet; 51. Locking electromagnet; 6. Interlocking component; 61. Bottom bar; 62. Bushing bar; 63. Inner bar; 64. Balance spring; 7. Horizontal board; 71. Dust collection box; 711. Box body; 712. Opening; 713. Filter screen; 8. Main shaft; 81. Auxiliary shaft; 9. Signal receiving processing end; 10. Rotor radar; 11. Inner frame;

12. Bottom frame; 13. Wireless receiving coil; 14. Negative pressure hole; 15. Signal transmission frame; 16. Signal receiving end.

Embodiments The technical solutions in the embodiments of the present invention are clearly and completely described in combination with the drawings in the embodiments of the present invention. Obviously, the embodiments described are just a part of embodiments of the present invention, not all embodiments. Based on the embodiments of the present invention, all the other embodiments obtained by those ordinarily skilled in the art without making creative endeavors fall into the scope of protection of the present invention.

The laser radar used for meteorological observation in drawing 1-7, comprising a base 1, characterized in that the top of said base 1 1s provided with a stable base 2 in a fixed way, the top of said stable base 2 is provided with a connecting bushing board 3, the top of said connecting board 3 is provided with a housing 4, the bottom ofthe cavity of said base 1 is provided with a power supply board 101 in a fixed way, the top of said power supply board 101 1s provided with a clamping trough plate 102 in a fixed way, the top of said clamping trough plate 102 connects to a connecting - ——

insertion board 103 in a clamping way, and the outside of said connecting insertion LU501585 board 103 is provided with a fixing bushing board 104 in a fixed bushing way.

Both the left and the right of said fixing bushing board 104 are fixed with a horizontal board 105, the inside of said horizontal boards 105 1s respectively provided with a locking electromagnet 51 and an interlocking component 6 in a fixed bushing way, the top of said fixing bushing board 104 is provided in a fixed way with a fixed electromagnet 5 directly below the locking electromagnet 51, the top of said fixed electromagnet 5 and the bottom of the locking electromagnet 51 contact each other, said interlocking component 6 comprises a bottom bar 61, the top of said bottom bar 61 is provided with a bushing bar 62 in a flexible bushing way, the bottom of the cavity of said bushing bar 62 1s provided with an inner bar 63 in a fixed way, and the bottom of said inner bar 63 connects to the top of the bottom bar 61 in a flexible bushing way;

The top surface of said stable base 2 is provided with a component 201 that fits the bottom ofthe connecting bushing board 3, the bottom of said connecting bushing board 3 1s provided with a component 301 in a fixed bushing way, the edge of said 301 connects to the inner wall of 201 in a friction way, the top of said connecting insertion board 103 extends to the inside of the connecting bushing board 3 provided with a bottom frame 12 in a fixed way, the top of said bottom frame 12 extends to the inside of the housing 4 provided with a rotor radar 10 in a fixed way, by injecting gas into two negative pressure holes 14 in turn, the gas flow brings the dust into the dust collection box 71, to realize dust collection, wherein, the negative pressure hole 14 and the opening on the surface of the stable base 2 are sealed during operation, to protect the inside of the housing 4 from the impact of dust, the outside of said - ———

rotor radar 10 is provided with a horizontal board 7 in a fixed bushing way, the inside LU501585 of said horizontal board 7 is provided with a dust collection box 71 in a fixed way, the inside of said bottom frame 12 1s provided with an inner frame 11 in a fixed way, the inside of said inner frame 11 is provided with a main shaft 8 in a fixed way, the big input end of said main shaft 8 connects electrically the output end of the connecting insertion board 103, the top of said main shaft 8 is provided with an auxiliary shaft 81 in a fixed way, the top of said auxiliary shaft 81 extends to the outside of the rotor radar 10 and provided in a fixed way with a signal receiving handling end 9, the outer wall of said main shaft 8 1s provided in a fixed way with a wireless receiver coil 13 inside the rotor radar 10, and the front side of said housing 4 1s provided with a signal transmission frame 15 and a signal receiving end 16 in a fixed way; Said laser radar comprises the laser emission component, the output end of said laser radar connects to the information processing component in a telecommunication way, the output end of said information processing component connects to the scanning system in a telecommunication way, and the output end of said scanning system electrically connects to the display component.

Detailed description of the preferential embodiment: With a rotor radar 10 that collaborates with the main shaft 8 and the auxiliary shaft 81, the volume of the laser radar used in the present invention can be reduced, the integration level of components of the laser radar can be improved, the space of the main shaft can be further saved, and the space utility rate can be improved.

the outside of said inner bar 63 is provided with a balance spring 64 in a flexibly bushing way, the upper end and the lower end of said balance spring 64 connect in - ——

a fixed way to the top surface of the bottom bar 61 and the bottom surface of the LU501585 cavity of the bushing bar 62 respectively, and said bottom bar 61 comprises two dismountable rods that connect to each other in a clamping way. The inside of said stable base 2 1s provided with 202 connecting to 201, and the front side of said stable base 2 is provided with a pressure relief hole connecting to 202, said dust collection box 71 comprises a box body 711, the top side and the bottom side of said box body 711 are provided with an opening 712 respectively, and the inner wall of said opening 712 1s provided with a filter screen 713 in a fixed way, the inner wall of said housing 4 is provided with two negative pressure holes 14, two said negative pressure holes 14 are respectively located on the top side and the bottom side of the horizontal board 7. The laser emission component comprises an excitation source, the output end of said excitation source connects to a laser device in a telecommunication way, and said laser device electrically connects to a beam controller, and said laser device electrically connects to a beam controller. Said information processing component comprises an information receiver, and the output end of said information processor electrically connects to an information converter and a photoelectric converter. The input end of fixed electromagnet 5 connects to the input end of power supply board 101 in a telecommunication way, and the initial magnetic pole on the top of said fixed electromagnet 5 1s diverse from that at the bottom of locking electromagnet 51.

Detailed description of the preferential embodiment: by injecting gas to the inside of 202, the gas pressure at the bottom of 301 1s increased, so that 301 falls from 201, and then the stable base 2 and the connecting bushing board 3 are disassembled; The assembly process of the connecting bushing board 3 and the base - ————

1 is mainly as follows: the current direction of the external coil of the fixed LU501585 electromagnet 5 is changed to change its magnetic poles, and then the fixed electromagnet 5 and locking electromagnet 51 are separated, which cooperates with the interlocking component 6 to facilitate separation of the base 1 from the connecting bushing board 3, and then facilitates disassembly of the entire device.

Working principle of the present invention: The technical advantages of the present invention lie in the simple overall structure and convenient overall disassembly. Thus, the working principle of the present invention mainly relates to the disassembly process of several components and dust prevention inside the housing 4; As regards disassembly of the stable base 2 and the connecting bushing board 3, gas is injected into 202 in advance to increase the gas pressure at the bottom of 301, to make 301 fall from 201, so as to realize disassembly of the stable base 2 and the connecting bushing board 3; As regards the disassembly process of the connecting bushing board 3 and the base 1, the current direction of the external coil of the fixed electromagnet 5 is changed to change its magnetic poles, and then the fixed electromagnet 5 and locking electromagnet 51 are separated, which cooperates with the interlocking component 6 to facilitate separation of the base 1 from the connecting bushing board 3; As regards internal dust collection of the housing 4, by injecting gas into two negative pressure holes 14 in turn, the gas flow brings the dust into the dust collection box 17, to realize dust collection, and the negative pressure hole 14 and the opening on the surface of the stable base 2 are sealed during operation. -

There are several explanations to the present invention: First, it is explained in LU501585 description of the present invention that unless otherwise stipulated and restricted, the terms "provide", "connect" and "link" shall be understood in a broad sense. It may be mechanical connection or electrical connection, or internal connection of two components, or direct connection. The terms "upper", "lower", "left" and "right" are only used for showing the relative position relationship. When the absolute position of the description objects is changed, the relative position relationship may change.

Second, the embodiment drawings of the present invention disclosed only relate to the structures that are involved in the present invention disclosed, other structures may refer to general design, and the same embodiment and different embodiments of the present invention may combine with each other in the case of no conflict; At last, it is noted that the foregoing is only the preferential embodiments of the present invention, be not limited to the present invention. Within the spirit and principles in the present invention, any amendment done, equivalent replacement, improvement, etc. shall be included within protection scope of the present invention. - ———

Claims (8)

1. Claims LU501585

   I.

   A laser radar used for meteorological observation, comprising a base (1), characterized in that: the top of said base (1) 1s provided with a stable base (2) in a fixed way, the top of said stable base (2) is provided with a connecting bushing board (3), the top of said connecting board (3) 1s provided with a housing (4), the bottom of the cavity of said base 1 is provided with a power supply board (101) in a fixed way, the top of said power supply board (101) is provided with a clamping trough plate (102) in a fixed way, the top of said clamping trough plate (102) connects to a connecting insertion board (103) in a clamping way, and the outside of said connecting insertion board (103) is provided with a fixing bushing board (104) in a fixed bushing way.

   Both the left and the right of said fixing bushing board (104) are fixed with a horizontal board (105), the inside of said horizontal boards (105) is respectively provided with a locking electromagnet (51) and an interlocking component (6) in a fixed bushing way, the top of said fixing bushing board (104) is provided in a fixed way with a fixed electromagnet (5) directly below the locking electromagnet (51), the top of said fixed electromagnet (5) and the bottom of the locking electromagnet (51) contact each other, said interlocking component (6) comprises a bottom bar (61), the top of said bottom bar (61) is provided with a bushing bar (62) in a flexible bushing way, the bottom of the cavity of said bushing bar (62) is provided with an inner bar (63) in a fixed way, and the bottom of said inner bar (63) connects to the top of the bottom bar (61) in a flexible bushing way;

   The top surface of said stable base (2) is provided with a component (201) that fits the bottom of the connecting bushing board (3), the bottom of said connecting bushing board (3) is provided with a component (301) in a fixed bushing way, the ES — a ———

   edge of said (301) connects to the inner wall of (201) in a friction way, the top of LU501585 said connecting insertion board (103) extends to the inside of the connecting bushing board (3) provided with a bottom frame (12) in a fixed way, the top of said bottom frame (12) extends to the inside of the housing (4) provided with a rotor radar (10) in a fixed way, the outside of said rotor radar (10) is provided with a horizontal board (7) in a fixed bushing way, the inside of said horizontal board (7) is provided with a dust collection box (71) in a fixed way, the inside of said bottom frame (12) 1s provided with an inner frame (11) in a fixed way, the inside of said inner frame (11) is provided with a main shaft (8) in a fixed way, the big input end of said main shaft (8) connects electrically the output end of the connecting insertion board (103), the top of said main shaft 8 is provided with an auxiliary shaft (81) in a fixed way, the top of said auxiliary shaft (81) extends to the outside of the rotor radar (10) and provided in a fixed way with a signal receiving handling end (9), the outer wall of said main shaft (8) is provided in a fixed way with a wireless receiver coil (13) inside the rotor radar (10), and the front side of said housing (4) is provided with a signal transmission frame (15) and a signal receiving end (16) in a fixed way; Said laser radar comprises the laser emission component, the output end of said laser radar connects to the information processing component in a telecommunication way, the output end of said information processing component connects to the scanning system in a telecommunication way, and the output end of said scanning system electrically connects to the display component.
2. 2. The laser radar used for meteorological observation of claim 1, characterized in that: The outside of said inner bar (63) is provided with a balance spring (64) in a flexibly bushing way, the upper end and the lower end of said balance spring (64) - ———

   connect in a fixed way to the top surface of the bottom bar (61) and the bottom LU501585 surface of the cavity of the bushing bar (62) respectively, and said bottom bar (61) comprises two dismountable rods that connect to each other in a clamping way.
3. 3. The laser radar used for meteorological observation of claim 1, characterized in that: The inside of said stable base (2) is provided with (202) connecting to (201), and the front side of said stable base (2) is provided with a pressure relief hole connecting to (202).
4. 4. The laser radar used for meteorological observation of claim 1, characterized in that: Said dust collection box (71) comprises a box body (711), the top side and the bottom side of said box body (711) are provided with an opening (712) respectively, and the inner wall of said opening (712) is provided with a filter screen (713) in a fixed way.
5. 5. The laser radar used for meteorological observation of claim 1, characterized in that: The inner wall of said housing (4) is provided with two negative pressure holes (14), two said negative pressure holes (14) are respectively located on the top side and the bottom side of the horizontal board (7).
6. 6. The laser radar used for meteorological observation of claim 1, characterized in that: The laser emission component comprises an excitation source, the output end of said excitation source connects to a laser device in a telecommunication way, and said laser device electrically connects to a beam controller.
7. 7. The laser radar used for meteorological observation of claim 1, characterized in that: Said information processing component comprises an information receiver, and the output end of said information processor electrically connects to an information converter and a photoelectric converter. LU501585
8. 8. The laser radar used for meteorological observation of claim 1, characterized in that: The input end of fixed electromagnet (5) connects to the input end of power supply board (101) in a telecommunication way, and the initial magnetic pole on the top of said fixed electromagnet (5) is diverse from that at the bottom of locking electromagnet (51).

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