CN104459630A - Portable satellite signal enhancement device - Google Patents

Abstract

The invention discloses a portable satellite signal enhancement device, which comprises a triangular cone signal enhancement mechanism, a cuboid support and a retractable bolt lifting mechanism. The connecting ring at one end of the retractable bolt lifting mechanism is fixedly connected with the connecting hole bolts of the connecting block of the cuboid support. The connecting ring at the other end of the retractable bolt lifting mechanism is fixedly connected with the triangular cone signal enhancement mechanism. Adjust the adjustment nut frame to adjust the opening orientation angle of the triangular cone signal enhancement mechanism. Compared with the prior art, the present invention has the following advantages: the portable satellite signal enhancement device of the present invention is convenient to carry, quick to install and disassemble, simple and convenient to use, and enhances the reusability of the satellite signal device. Since the satellite signal boosting device can adjust the elevation angle and azimuth angle, the portable satellite signal boosting device is suitable for radar satellites at different orbital heights, and expands the usability range of the traditional satellite signal boosting device.

Description

A portable satellite signal booster

technical field

The invention relates to a satellite signal booster, in particular to a portable satellite signal booster.

Background technique

At present, satellite remote sensing technology has been more and more widely used in land resources, ecological environment, meteorology and climate, marine science and other aspects. However, the transmission of satellite remote sensing signals is affected by atmospheric absorption and scattering in the atmosphere, resulting in signal distortion; at the same time, in radar microwave remote sensing, the "speckle noise" characteristics of radar images make the ground control point (GCP) in traditional geometric correction Point, GCP) there is a big difficulty in the selection. Therefore, radar satellite signal boosters are gradually used.

Most of the traditional radar satellite signal enhancement devices are fixed, and there are great difficulties in installation, disassembly and reuse. The principle is to use metal plate material to make the metal plate into the shape of a triangular cone, which is closed on three sides and hollowed out on one side. The side facing the direction of the satellite is cut out. When performing signal enhancement, the cone angle on the hollow side is facing the satellite. When the satellite signal is transmitted to the three metal plates forming the cone angle, most of the energy of the signal will be reflected back by the three metal plates in the original way, which plays the role of satellite signal enhancement. . The whole of the triangular cone needs to be supported by a fixed bracket, and the bracket needs to be fixed in the ground soil. The traditional radar satellite signal enhancement device has the following problems: First, because the support bracket is fixed on the ground, it is difficult to adjust the hollow cone angle to align with the satellite; secondly, the support bracket is fixed on the ground or fixed on the ground On the concrete pier, it is difficult to disassemble and reuse the support; finally, the length of the triangular pyramid is generally 1-1.5m, and the volume of the triangular pyramid is relatively large, so it is difficult to transport.

Contents of the invention

The purpose of the present invention is to overcome the deficiencies of the prior art and provide a portable satellite signal booster.

The present invention is achieved through the following technical solutions: a portable satellite signal enhancement device, which includes a triangular cone signal enhancement mechanism, a cuboid support and a retractable bolt lifting mechanism.

The rectangular parallelepiped bracket is welded by twelve metal strip-shaped plates; a metal strip-shaped plate on the supporting surface of the rectangular parallelepiped support is provided with a connecting block, and the connecting block is provided with a connecting hole.

The triangular cone signal enhancement mechanism includes a first baffle plate, a second baffle plate and a third baffle plate, and the first baffle plate, the second baffle plate and the third baffle plate all have an isosceles right triangle bottom surface, are hollow, and have no cover A triangular prism, the first baffle plate, the second baffle plate and the corresponding sides of the three baffle plates are provided with a number of bolt holes, the first baffle plate, the second baffle plate and the The right-angle sides of the three baffles are bolted in pairs to form a triangular cone signal enhancement device.

The telescopic bolt lifting mechanism includes an adjusting nut frame and two adjusting screw rods, both of which are threaded rods with external threads, and one end of the two adjusting screw rods is provided with a connecting ring. Both ends of the adjusting nut frame are provided with nut rings with internal threads, and the two adjusting screw rods are threadedly connected to the nut rings at both ends of the adjusting nut frame respectively.

The first baffle plate of the triangular cone signal enhancement mechanism is placed on the cuboid support, and placed on the side corresponding to the side of the cuboid support provided with the connecting block, the connection of one end of the telescopic bolt lifting mechanism The ring is fixedly connected with the connecting hole bolts of the connecting block of the cuboid support, the connecting ring at the other end of the telescopic bolt lifting mechanism is fixedly connected with the triangular cone signal enhancement mechanism, and the adjustment nut frame is adjusted to adjust Triangular cone signal enhancement mechanism opening angle.

As a further optimization of the above scheme, the lengths of the right-angle sides of the bottom triangles of the first baffle, the second baffle and the third baffle are all 1.5M.

As a further optimization of the above solution, the supporting surface of the cuboid support is a connecting block on a long metal plate, and the connecting block is placed at the midpoint of the long metal plate.

As a further optimization of the above scheme, the two ends of the side parallel to the side provided with the connecting block of the cuboid bracket are provided with slots, and the two right-angled sides of the first baffle of the triangular cone signal enhancement mechanism correspond to the side surfaces respectively Correspondingly engaged in the card slot.

As a further optimization of the above scheme, a connecting threaded hole is provided on the connecting side of the second baffle and the third baffle, and the connecting ring at the other end of the telescopic bolt lifting mechanism and the signal of the triangular cone are enhanced The mechanism is fixedly connected through the connecting threaded hole.

Compared with the prior art, the present invention has the following advantages: a portable satellite signal booster of the invention improves the traditional triangular cone signal booster into a detachable and reinstallable form. Select the stainless steel metal plate for cutting, and make three metal triangular cone surfaces of isosceles right triangle. The edges of the triangular cone surfaces are respectively processed and holes are drilled so that the bolts between the cone surfaces can be fixedly connected to form a triangular cone signal enhancement mechanism. , the transport portability of the three plates is much greater than the overall transport of the triangular cone; secondly, there are bolt holes on the edges of the three isosceles right-angled triangle plates, which is convenient for the plates to be assembled into a triangular cone.

A portable satellite signal boosting device of the present invention improves the support of the satellite signal boosting device into a portable and movable mode. The traditional satellite signal booster is mostly fixed on the ground or a concrete pier on the ground with three pillars, which has poor mobility and reusability, and the adjustment of the azimuth angle of the satellite signal booster needs to be completed by moving the triangular cone, and the volume of the triangular cone Larger and difficult to move. A kind of portable satellite signal enhancement device of the present invention changes the traditional pillar-shaped bracket into a cuboid-shaped bracket. The cuboid is welded by 12 long metal plates, and there is no specific limit on the length, width and height of the cuboid. The improved cuboid bracket can move horizontally and vertically, rotate 360°, etc. The best azimuth angle for satellite signal enhancement can be obtained by rotating the cuboid bracket without adjusting the triangular cone.

A portable satellite signal boosting device of the present invention connects the satellite signal boosting device with a cuboid support through a retractable bolt lifting mechanism. The traditional satellite signal enhancement device is to directly weld three pillars under the triangular cone. Once the welding is completed, the height angle of the triangular cone can only be adjusted by cutting or burying the pillars according to different lengths. Moreover, once the pillar is buried in the soil or built in cement, it is difficult to adjust the length of the pillar, which ultimately results in poor reusability of the signal enhancement device. A portable satellite signal enhancement device of the present invention connects the satellite signal enhancement device and the cuboid support through a telescopic bolt, and can obtain different height angles of the triangular cone hollow surface by adjusting the telescopic length of the telescopic bolt lifting mechanism, so as to enhance the satellite signal The device is suitable for radar satellites with different altitude angles and different orbits.

A portable satellite signal booster device of the present invention has the characteristics of convenient portability, fast installation and disassembly, and simple and convenient use, which enhances the reusability of the satellite signal device; Therefore, a portable satellite signal boosting device of the present invention can be applied to radar satellites at different orbital heights, which greatly expands the usability range of traditional satellite signal boosting devices.

Description of drawings

Fig. 1 is a schematic structural diagram of a portable satellite signal booster of the present invention.

Fig. 2 is a structural schematic diagram of a telescopic bolt lifting mechanism of a portable satellite signal booster device of the present invention.

Fig. 3 is a top view of a cuboid bracket of a portable satellite signal booster of the present invention.

Detailed ways

The embodiments of the present invention are described in detail below. This embodiment is implemented on the premise of the technical solution of the present invention, and detailed implementation methods and specific operating procedures are provided, but the protection scope of the present invention is not limited to the following implementation example.

Referring to FIGS. 1-3 , a portable satellite signal enhancement device includes a triangular cone signal enhancement mechanism 1 , a cuboid support 3 and a retractable bolt lifting mechanism 5 . The triangular cone signal enhancement mechanism 1 is placed on the cuboid support 3, one end of the telescopic bolt lifting mechanism 5 is fixedly connected with the cuboid support 3, and the other end of the telescopic bolt lifting mechanism 5 is fixedly connected with the triangular cone signal enhancement mechanism 1.

The rectangular parallelepiped support 3 is welded by twelve metal strip-shaped plates. A metal strip plate on the support surface of the cuboid support 3 is provided with a connection block 31 , and a connection hole is provided on the connection block 31 .

The triangular cone signal enhancement mechanism 1 includes a first baffle, a second baffle and three baffles. The first baffle plate, the second baffle plate and the third baffle plate are all hollow triangular prisms whose bases are isosceles right triangles and have no cover. The right-angle sides of the first baffle, the second baffle and the third baffle are all provided with a number of bolt holes, and the sides of the right-angle sides of the first baffle, the second baffle and the third baffle are respectively connected in pairs by bolts. It is a triangular cone signal enhancement device. Optimally, the lengths of the right-angle sides of the bottom triangles of the first baffle plate, the second baffle plate and the third baffle plate of the present invention are all 1.5M.

The retractable bolt lifting mechanism 5 includes an adjusting nut frame 50 and two adjusting screw rods 51, both of which are threaded rods with external threads, and one end of the two adjusting screw rods 51 is provided with a connecting ring 511. Both ends of the adjusting nut frame 50 are provided with nut rings 501 with internal threads, and two adjusting screw rods 51 are threadedly connected to the nut rings 501 at both ends of the adjusting nut frame 50 .

The first baffle plate of the triangular cone signal enhancement mechanism 1 is placed on the cuboid support 3 and placed on the side corresponding to the side of the cuboid support 3 where the connecting block 31 is provided. The connection ring 511 at one end of the retractable bolt lifting mechanism 1 is fixedly connected with the connection hole of the connection block 31 of the cuboid support 3 by bolts. The connecting ring 511 at the other end of the retractable bolt lifting mechanism 5 is fixedly connected with the triangular cone signal enhancement mechanism 1 , and the opening angle of the triangular cone signal enhancement mechanism 1 can be adjusted by adjusting the rotation adjustment nut frame 50 .

Optimally, a connecting block 31 is provided on a long metal plate on the supporting surface of the cuboid support 3, and the connecting block 31 is placed at the midpoint of the long metal plate.

Both ends of the side of the cuboid support 3 parallel to the side with the connection block 31 are provided with locking grooves 32 . The side surfaces corresponding to the two right-angled sides of the first baffle of the triangular cone signal enhancement mechanism 1 are engaged in the engaging slots 32 respectively.

Optimally, a connecting threaded hole is provided on the connecting side of the second baffle and the third baffle, and the connecting ring 511 at the other end of the retractable bolt lifting mechanism 5 is fixedly connected with the triangular cone signal enhancement mechanism 1 through the connecting threaded hole.

In a preferred embodiment of the present invention, the length and width of the support surface of the cuboid support 3 are both 1 m, and the height is 0.8 m. The material of twelve metal material elongated plates is common iron.

The telescopic bolt lifting mechanism 5 can realize the expansion and contraction of the length of the telescopic bolt lifting mechanism 5 by adjusting the clockwise and counterclockwise rotation of the nut frame 50, thereby changing the height angle of the triangular cone signal enhancement mechanism 1. The maximum telescopic length of the retractable bolt lifting mechanism 5 is 53 cm, and the minimum telescopic length is 34.5 cm.

The above descriptions are only preferred embodiments of the present invention, and are not intended to limit the present invention. Any modifications, equivalent replacements and improvements made within the spirit and principles of the present invention should be included in the protection of the present invention. within range.

Claims (5)

1. A portable satellite signal booster, characterized in that: comprise a triangular cone signal booster, a cuboid support and a retractable bolt lifting mechanism, The cuboid support is welded by twelve metal strip-shaped plates; a metal strip-shaped plate on the support surface of the cuboid support is provided with a connecting block, and the connecting block is provided with a connecting hole; The triangular cone signal enhancement mechanism includes a first baffle plate, a second baffle plate and a third baffle plate, and the first baffle plate, the second baffle plate and the third baffle plate all have an isosceles right triangle bottom surface, are hollow, and have no cover A triangular prism, the first baffle plate, the second baffle plate and the corresponding sides of the three baffle plates are provided with a number of bolt holes, the first baffle plate, the second baffle plate and the The right-angle sides of the three baffles are bolted in pairs to form a triangular cone signal enhancement device. The connecting side of the second baffle and the third baffle is provided with The telescopic bolt lifting mechanism includes an adjusting nut frame and two adjusting screw rods, both of which are threaded rods with external threads, and one end of the two adjusting screw rods is provided with a connecting ring. Both ends of the adjusting nut frame are provided with nut rings with internal threads, and the two adjusting screw rods are respectively threaded with the nut rings at both ends of the adjusting nut frame; The first baffle plate of the triangular cone signal enhancement mechanism is placed on the cuboid support, and placed on the side corresponding to the side of the cuboid support provided with the connecting block, the connection of one end of the telescopic bolt lifting mechanism The ring is fixedly connected with the connecting hole bolt of the connecting block of the cuboid support, the connecting ring at the other end of the telescopic bolt lifting mechanism is fixedly connected with the triangular cone signal enhancement mechanism, and the adjusting nut frame is adjusted to adjust the triangular The opening of the cone signal booster is angled towards. 2. A kind of portable satellite signal boosting device according to claim 1, characterized in that: the lengths of the right-angle sides of the bottom triangles of the first baffle plate, the second baffle plate and the three baffle plates are 1.5M. 3. A kind of portable satellite signal enhancement device according to claim 1, it is characterized in that: the connecting block on a metal material elongated plate of the supporting surface of the cuboid support, and the connecting block is placed on the root The midpoint of a long sheet of metal material. 4. A kind of portable satellite signal enhancing device according to claim 3, it is characterized in that: the two ends of the side parallel to the side that is provided with connecting block of described cuboid support are all provided with draw-in slots, and described triangular cone signal The side surfaces corresponding to the two right-angled sides of the first baffle plate of the strengthening mechanism are correspondingly engaged in the engaging grooves respectively. 5. A portable satellite signal boosting device according to claim 1, characterized in that: the connecting side of the second baffle and the third baffle is provided with a connecting threaded hole, and the telescopic bolt lifts The connection ring at the other end of the mechanism is fixedly connected with the triangular cone signal enhancement mechanism through the connection threaded hole.