CN115603796A

CN115603796A - Energy-saving outdoor satellite remote sensing signal receiving device

Info

Publication number: CN115603796A
Application number: CN202211356382.2A
Authority: CN
Inventors: 李�杰; 罗刚强; 李鑫; 严际
Original assignee: APT Mobile Satcom Ltd
Current assignee: APT Mobile Satcom Ltd
Priority date: 2022-11-01
Filing date: 2022-11-01
Publication date: 2023-01-13
Anticipated expiration: 2042-11-01
Also published as: CN115603796B

Abstract

The application discloses outdoor satellite remote sensing signal receiving arrangement of energy-conserving formula relates to signal reception device technical field, and this application includes power and receiver, and the power is used for supplying power to the receiver, still includes: the installation shell is provided with the appearance chamber that is used for holding power and receiver in the installation shell, and the opening has been seted up at the installation shell top, and the opening has been seted up to installation shell both sides. This application is partly as the installation shell with the concentrated board, when using, rotate and slide concentrated board, make concentrated board and commentaries on classics piece separation, to concentrate the board and be connected with the connecting block, make two concentrated board interconnect, when using, reflect satellite signal through concentrated board, partly through regarding the concentrated board as the installation shell, compare in the equipment box with the board loading of reflection now, the relative weight of device has been reduced when transporting, be convenient for transport, cover installation solar panel through keeping off, when using, be convenient for supply power to the power.

Description

Energy-saving outdoor satellite remote sensing signal receiving device

Technical Field

The application relates to the technical field of signal receiving devices, in particular to an energy-saving outdoor satellite remote sensing signal receiving device.

Background

The portable automatic satellite station system consists of portable automatic satellite station antenna and satellite communication terminal, and may be spread fast in any terrain for outdoor use and has satellite communication link established in 3 min for bidirectional image, data and voice transmission. When an emergency occurs, in order to guarantee the communication command task of the emergency scene, the system can transmit the scene situation back to the command center through the portable satellite high quality, organize, manage and control the scene communication, realize the remote two-way voice communication, data, image and other information transmission between the scene and the remote command center, enable the command decision-making personnel of the command center to obtain the scene information in time as if the command decision-making personnel are in the scene, and improve the accuracy and timeliness of decision-making.

The existing satellite station consists of a plurality of small equipment boxes and detachable antennas, can be carried by common vehicles (airplanes, trains, automobiles, ships and the like) or manpower, is quickly and flexibly arranged, and realizes the functions of long-distance transmission, short-range coverage and wireless access of emergency communication services.

However, current satellite station is when using, because need the power supply, can be provided with the power in the equipment box, is convenient for use for a long time, nevertheless because all places parts such as power, antenna in the box, when using, has aggravated the holistic weight of device, and the portable use of not being convenient for, and it is reserve to have the power to charge under the field environment in time, provides an outdoor satellite remote sensing signal receiver of energy-conserving formula for this application and improves this problem.

Disclosure of Invention

The purpose of this application lies in: for solving parts such as present satellite station power, antennas in above-mentioned background and all placing in the box, when using, aggravated holistic weight, portable use not convenient for, and its reserve power has the problem that is difficult to timely charge under the field environment, and this application provides an outdoor satellite remote sensing signal receiving arrangement of energy-conserving formula.

The following technical scheme is specifically adopted in the application to achieve the purpose:

the utility model provides an outdoor satellite remote sensing signal receiving arrangement of energy-conserving formula, includes power and receiver, the power is used for right the receiver supplies power still includes:

the mounting shell is internally provided with a containing cavity for containing the power supply and the receiver, the top of the mounting shell is provided with an opening, and two sides of the mounting shell are provided with through openings;

the collecting plates are movably arranged on two sides of the mounting shell, sliding grooves are formed in the collecting plates, rotating blocks are arranged on the mounting shell and are movably matched with the sliding grooves, outlets are formed in the ends, close to the two collecting plates, of the sliding grooves, and the sliding grooves are separated from the rotating blocks through the outlets;

the mounting shell is provided with a driving piece, the driving piece is provided with a lifting section and a steering section which are integrally constructed, the lifting section is provided with a connecting block used for being connected with the central plates, the lifting section is used for connecting the two central plates and lifting the height of the central plates in the vertical direction, and the steering section is used for changing the angle of the central plates in the vertical direction;

install the fender lid at installation shell top, the fender lid is used for the closing cap opening on the installation shell, install solar panel on the fender lid, solar panel with battery electric connection.

Furthermore, an accommodating cavity is formed in the centralized plate, extension plates are slidably mounted in the accommodating cavity and located on two sides of the centralized plate, and the extension plates are used for increasing the surface area of the centralized plate.

Further, the driving member includes:

the outer sleeve is arranged at the bottom of the mounting shell, and a containing cavity is formed in the outer sleeve in the vertical direction;

the push rod is slidably mounted in the containing cavity, one end of the push rod is located in the containing cavity, a driving spring is mounted in the containing cavity, two ends of the driving spring are respectively connected with the push rod and the containing cavity, and the driving spring forces the push rod to be close to the blocking cover;

install at the articulated piece at push rod top, articulated piece is also installed to the connecting block bottom, so that the connecting block with the push rod is articulated.

Furthermore, a T-shaped block is mounted on the connecting block, a sliding groove for accommodating the T-shaped block for connection is formed in one side, located inside the mounting shell, of the collecting plate, and when the collecting plate rotates to the horizontal direction, the two collecting plates are close to each other to connect the T-shaped block with the sliding groove.

Further, the centralized plate comprises a pressing plate and a warping plate, the pressing plate and the warping plate are respectively installed on two sides of the installation shell, and the weight of the pressing plate is larger than that of the warping plate.

Furthermore, a stop block is installed on one side, close to the pressing plate, of the push rod, when the connecting block rotates, the top of the stop block is opposite to the hinged block, and the stop block is used for limiting the rotating angle of the connecting block.

Further, the clamp plate with install the magnet piece on the one end that the wane is close to each other, work as the clamp plate with when the wane is close to, two connect through magnetic force between the magnet piece.

Further, a connector is mounted on the outer sleeve, and the receiver is mounted on the connector, the connector comprising:

the hinged plate is installed on the outer sleeve and is hinged with a connecting plate, and when the connecting plate rotates, the position of the free end of the connecting plate in the vertical direction is changed;

the receiver is hinged to the extension plates, and the position of the receiver in the horizontal direction is changed when the extension plates rotate;

the connecting plate is arranged on the mounting shell and comprises a trapezoidal block which is slidably mounted at the bottom of the mounting shell, an inclined plane block is constructed at the bottom of the connecting plate, the inclined plane of the inclined plane block is opposite to that of the trapezoidal block, and when the trapezoidal block is close to the inclined plane block, the position of the free end of the connecting plate in the vertical direction is raised.

Furthermore, a bolt piece is inserted into the connecting block, one end of the bolt piece is connected with the connecting block, the other end of the bolt piece is in threaded connection with the bottom of the mounting shell, and the bolt piece enables the driving spring to keep a compressed state.

Further, the solar panel both sides have been seted up and have been held the groove, it has the solar energy subplate to hold slidable mounting in the groove, offer on the fender cover and be used for holding solar panel's kerve, install in the kerve with the support piece that solar panel connects, support piece includes:

the shell is arranged in the bottom groove, and the periphery of the shell is provided with a limiting hole;

the support rod is slidably mounted on the casing, the support rod is connected with the solar panel, a containing hole is formed in the periphery of the support rod, two convex ball blocks are mounted in the containing hole through springs, and when the convex ball blocks are located in the limiting holes, the support rod is located at the highest position in the casing.

The beneficial effects of this application are as follows:

1. this application will concentrate the board as the partly of installation shell, when using, rotate and slide the board of collection, make the board of collection and the separation of commentaries on classics piece, it is connected with the connecting block to concentrate the board, make two board interconnect of concentrating, when using, reflect satellite signal through the board of collection, through the partly of board of taking the concentrated board as the installation shell, compare in the equipment box with current board loading with the reflection, the relative weight of device has been reduced when transporting, be convenient for transport, through covering installation solar panel at the fender, when using, be convenient for supply power to the power.

2. This application sets up the weight of clamp plate into the weight that is greater than the wane, and serves to be provided with the dog near the clamp plate at the push rod, makes the push rod along vertical upwards direction motion back when driving spring, and the regulation of angle is accomplished through the effect of gravity to the concentrated board, makes the expansion of concentrated board use comparatively fast convenient.

3. This application is through installing the expansion plate in fender lid bottom both sides, through the length that changes one of them expansion plate, can adjust the angle of fender lid, makes solar panel on it can be abundant with the sunlight contact, be convenient for supply power to the power when the device uses.

Drawings

FIG. 1 is a schematic perspective view of the present application;

FIG. 2 is a schematic perspective view of another embodiment of the present application;

FIG. 3 is an exploded view of a portion of the structure of the present application;

FIG. 4 is an exploded view of yet another portion of the structure of the present application;

FIG. 5 is an exploded view of the shield construction of the present application;

FIG. 6 is a perspective semi-sectional view of FIG. 1 of the present application;

reference numerals: 1. mounting a shell; 2. collecting the medium plate; 201. pressing a plate; 202. a seesaw; 3. a sliding groove; 4. rotating the block; 5. a drive member; 501. connecting blocks; 502. an outer sleeve; 503. a push rod; 504. a drive spring; 505. a hinged block; 6. a blocking cover; 7. a solar panel; 8. an extension plate; 9. a T-shaped block; 10. a chute; 11. a stopper; 12. a magnet block; 13. a connecting member; 1301. a hinge plate; 1302. a connecting plate; 1303. stretching the plate; 1304. a trapezoidal block; 1305. a bevel block; 14. a bolt member; 15. a retractable plate; 16. a support member; 1601. a housing; 1602. a limiting hole; 1603. a support bar; 1604. an accommodation hole; 1605. a convex ball block; 17. solar energy sub-panel.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present application clearer, the technical solutions in the embodiments of the present application will be clearly and completely described below with reference to the drawings in the embodiments of the present application.

As shown in fig. 1, fig. 2 and fig. 4, an energy-saving outdoor satellite remote sensing signal receiving apparatus includes a power supply and a receiver, the power supply is used for supplying power to the receiver, the power supply is an existing storage battery, the receiver is composed of components such as an electronic tuning channel selector, an intermediate frequency AGC amplifier and demodulator, an image signal processor, an accompanying sound demodulator, a panel indicator and a power circuit, and is used for receiving signals from a satellite, the power supply is connected with the receiver, and is used for supplying power to the receiver, so as to facilitate the receiver to work, and the apparatus further includes:

the mounting structure comprises a mounting shell 1, wherein a containing cavity for containing a power supply and a receiver is arranged in the mounting shell 1, an opening is formed in the top of the mounting shell 1, through holes are formed in two sides of the mounting shell 1, the opening formed in the top of the mounting shell 1 and the through holes in the two sides communicate the containing cavity in the mounting shell 1 with the outside, and when the mounting structure is used, the mounting shell 1 is placed on the ground, so that the opening in the top is positioned in the vertical direction;

the mounting structure comprises concentration plates 2 movably mounted on two sides of a mounting shell 1, sliding grooves 3 are formed in the concentration plates 2, rotating blocks 4 are mounted on the mounting shell 1, the rotating blocks 4 are movably matched with the sliding grooves 3, the sliding grooves 3 are located at one ends, close to the two concentration plates 2, of the two concentration plates 2, outlets are formed in the ends, enabling the sliding grooves 3 to be separated from the rotating blocks 4, the concentration plates 2 are located on two sides of the mounting shell 1, the rotating blocks 4 are mounted at through openings in the two sides of the mounting shell 1 and used for connecting the concentration plates 2, the rotating blocks 4 are in sliding fit with the sliding grooves 3, the rotating blocks 4 can rotate and slide in the sliding grooves 3, when the mounting structure is used, the concentration plates 2 are rotated to be located in the horizontal direction, at the moment, the outlets of the sliding grooves 3 are located in the vertical downward direction, the two concentration plates 2 are close to each other in the sliding collection plates 2, and when the rotating blocks 4 slide to the outlets of the sliding grooves 3, the concentration plates 2 are lifted upwards, and the rotation blocks 4 are separated from the rotation blocks 4;

the mounting structure is characterized in that a driving piece 5 is mounted on a mounting shell 1, the driving piece 5 is provided with a lifting section and a turning section which are integrally constructed, a connecting block 501 used for connecting the two centralized plates 2 is mounted on the lifting section, the lifting section is used for connecting the two centralized plates 2 and lifting the height of the centralized plates 2 in the vertical direction, the turning section is used for changing the angle of the centralized plates 2 in the vertical direction, when the mounting structure is used, the initial direction of the connecting block 501 is in the horizontal direction, when the centralized plates 2 are separated from the turning block 4, the connecting block 501 is connected with the connecting block 501, the position of the centralized plates 2 in the vertical direction is changed through the lifting section, the angle of the centralized plates 2 in the vertical direction is changed through the turning section, the connecting block is inclined and faces a receiver, satellite signals are conveniently reflected to the receiver, and the receiver can better receive the satellite signals;

the solar energy collecting device comprises a blocking cover 6 arranged at the top of an installation shell 1, wherein the blocking cover 6 is used for sealing an opening on the installation shell 1, a solar panel 7 is arranged on the blocking cover 6, the solar panel 7 is electrically connected with a battery, when the solar energy collecting device is used, the blocking cover 6 is positioned at the top of the installation shell 1, the solar panel 7 is positioned at the top of the blocking cover 6 and used for converting solar energy into electric energy and transmitting the electric energy into a power supply, so that the service life of the power supply is prolonged, the blocking pieces are arranged at two ends of an opening of the blocking cover 6, and the blocking pieces block the collecting plate 2 from turning outwards when the collecting plate is not used;

compared with the prior art, when using, through setting up the partial of concentrating board 2 into installation shell 1, be convenient for when transporting the device, reduced the holistic weight of container, be convenient for carry the device, solar panel 7 is installed on keeping off lid 6 to the rethread, supplies power to the power, has increased the live time of device, and the device of being convenient for uses in the open air, supplies power through solar energy, has practiced thrift the energy.

As shown in fig. 2 and 6, in some embodiments, the concentration plate 2 is provided with a containing cavity, the containing cavity is provided with an extension plate 8, the extension plate 8 is located at two sides of the concentration plate 2, the extension plate 8 is used for increasing the surface area of the concentration plate 2, the extension plate 8 is located at two sides of the concentration plate 2, during use, the extension plates 8 at two sides of the concentration plate 2 slide out of the containing cavity, the surface area of the concentration plate 2 is increased, and satellite signals can be reflected better.

As shown in fig. 4 and 6, in some embodiments, the driver 5 comprises:

an outer sleeve 502 mounted at the bottom of the mounting shell 1, wherein the outer sleeve 502 is provided with a cavity along the vertical direction, and the cavity is provided along the vertical direction;

the push rod 503 is slidably mounted in the containing cavity, one end of the push rod 503 is located in the containing cavity, the driving spring 504 is mounted in the containing cavity, two ends of the driving spring 504 are respectively connected with the push rod 503 and the containing cavity, the driving spring 504 forces the push rod 503 to be close to the blocking cover 6, the axis of the push rod 503 is in the vertical direction, the driving spring 504 is mounted at the bottom of the push rod 503 and used for supporting the push rod 504, in a normal state, the driving spring 504 is in a compressed state, the connecting block 501 can be blocked by the blocking cover 6, so that the driving spring 504 is in a compressed state, when the push rod is used, the push rod 503 is pushed out of the containing cavity through the resetting of the driving spring 504, and the push rod 503 is lifted to be located at the position in the vertical direction;

install at the articulated piece 505 at push rod 503 top, articulated piece 505 is also installed to connecting block 501 bottom to make connecting block 501 articulated with push rod 503, push rod 503 is connected with connecting block 501 through articulated piece 505, and the direction of rotation orientation of connecting block 501 is located installation shell 1 through-hole department, be convenient for change the angle of connecting block 501 through articulated, make it drive concentrated board 2 change in vertical direction angle, be convenient for better make concentrated board 2 reflect the satellite signal to the receiver.

As shown in fig. 4 and 6, in some embodiments, a T-shaped block 9 is mounted on the connecting block 501, a sliding groove 10 for accommodating the T-shaped block 9 is formed in one side of the concentrating plate 2 located inside the mounting housing 1, when the concentrating plate 2 rotates to the horizontal direction, the two concentrating plates 2 are close to each other, the T-shaped block 9 is connected to the sliding groove 10, when the concentrating plate 2 rotates to the horizontal direction, one end of the concentrating plate located inside the mounting housing 1 is located at the bottom of the concentrating plate 2, the sliding groove 10 is formed in the bottom of the concentrating plate 2, when the concentrating plate 2 is separated from the rotating block 4, the concentrating plate 2 is close to the connecting block 501, the T-shaped block 9 is inserted into the sliding groove 10, the connecting block 501 is connected to the two concentrating plates 2, and the two concentrating plates 2 are connected conveniently.

As shown in fig. 2 and 3, in some embodiments, the concentrating plate 2 includes a pressing plate 201 and a tilting plate 202, the pressing plate 201 and the tilting plate 202 are respectively installed at two sides of the installation shell 1, the weight of the pressing plate 201 is greater than that of the tilting plate 202, and the receiver is installed at a side close to the pressing plate 201 in the installation shell 1, and when the device is used, after the push rod 503 is ejected by the driving spring 504, the weight of the pressing plate 201 is greater than that of the tilting plate 202, so that the concentrating plate 2 is inclined toward the receiver after the push rod 503 is ejected, thereby facilitating the device to be used quickly.

As shown in fig. 4, in some embodiments, a stopper 11 is installed on a side of the push rod 503 close to the pressing plate 201, when the connecting block 501 rotates, a top of the stopper 11 blocks the hinge block 505, the stopper 11 is used for limiting a rotation angle of the connecting block 501, the stopper 11 is installed on a side of the push rod 503 close to the receiver, and when the hinge block 505 on the connecting block 501 rotates to the side of the pressing plate 201, the stopper 11 is blocked by a top of the stopper 11 to keep the angle towards the receiver, which further facilitates the centralized plate 2 to transmit satellite signals to the receiver.

As shown in fig. 3, in some embodiments, a magnet 12 is mounted on one end of the pressing plate 201 close to the rocker 202, when the pressing plate 201 close to the rocker 202, the two magnet 12 are magnetically connected, the blocking cover 6 is made of iron, when the device is not used, and the concentrating plate 2 covers the through opening on the mounting housing 1, the magnet 12 is magnetically connected to the blocking cover 6 in the vertical upward direction, so as to fix the blocking cover 6, when the pressing plate 201 close to the rocker 202 after the blocking cover 6 is removed, the magnet 12 on the pressing plate 201 and the rocker 202 attract each other, so that the pressing plate 201 is connected to the rocker 202, and the concentrating plate 2 is more stable in use.

As shown in fig. 2, 3 and 6, in some embodiments, the outer sleeve 502 has the connector 13 mounted thereon, and the receiver is mounted on the connector 13, the connector 13 including:

a hinged plate 1301 arranged on the outer sleeve 502, wherein a connecting plate 1302 is hinged on the hinged plate 1301, when the connecting plate 1302 rotates, the position of the free end of the connecting plate 1302 is changed in the vertical direction, the hinged position of the hinged plate 1301 and the connecting plate 1302 faces to the through hole covered by the pressing plate 201, and the axis of the hinged position of the hinged plate 1301 and the connecting plate 1302 is perpendicular to the vertical direction, so that the position of the free end of the connecting plate 1302 in the vertical direction can be changed when the connecting plate 1302 rotates;

a plurality of extending plates 1303 hinged to each other at the free end of the connecting plate 1302, the plurality of extending plates 1303 are hinged to each other, the receiver is hinged to the extending plates 1303, when the extending plates 1303 rotate, the position of the receiver in the horizontal direction is changed, one end of each extending plate 1303, which is close to the outer sleeve 502, is set as an inner end, the other end is set as an outer end, the outer end of the extending plate 1303 at the bottom is hinged to the connecting plate 1302, the inner end of the extending plate 1303 above the extending plate 1303 is hinged to the outer end thereof, the extending plates 1303 are sequentially stacked upwards, the extending plates 1303 are hinged to each other, the receiver is hinged to the extending plate 1303 at the topmost, and when the receiver is used, the position of the receiver in the horizontal direction is changed by rotating the extending plates 1303, and the rotation of the connecting plate 1302 and the rotation of the extending plates are convenient to adjust the position of the receiver 1303, which is located in the upward direction of the collecting plate 2, so as to better receive signals;

trapezoidal piece 1304 of slidable mounting in installation shell 1 bottom, connecting plate 1302 bottom is constructed with inclined plane piece 1305, inclined plane piece 1305 sets up with the inclined plane of trapezoidal piece 1304 relatively, when trapezoidal piece 1304 is close to inclined plane piece 1305, the position that connecting plate 1302 free end is located vertical direction risees, inclined plane piece 1305 sets up with the inclined plane on trapezoidal piece 1304 relatively, trapezoidal piece 1304 when inclined plane piece 1305 is close to mutually, the inclined plane of trapezoidal piece 1304 is to contradicting and promote the inclined plane of inclined plane piece 1305, make inclined plane piece 1305 drive connecting plate 1302 and change the position on vertical direction, the device of being convenient for use, through exhibition length plate 1303, connecting plate 1302, inclined plane piece 1305 presses trapezoidal piece 1304 with the weight of receiver, make it contradict with installation shell 1 bottom, slide to it and carry on spacingly, cooperation through trapezoidal piece 1304 and inclined plane piece 1305, be convenient for change the position of receiver on vertical direction.

As shown in fig. 6, in some embodiments, a bolt 14 is inserted into the connecting block 501, one end of the bolt 14 is connected to the connecting block 501, the other end of the bolt is in threaded connection with the bottom of the mounting shell 1, the bolt 14 keeps the driving spring 504 in a compressed state, a hole for the bolt 14 to pass through is formed in the connecting block 501, the bolt 14 is a rod body, the rod body of the bolt 14 is a smooth surface, the end of the bolt 14 is provided with a thread, and the bottom of the mounting shell 1 is provided with a threaded hole, when in use, the bolt 14 is connected to the threaded hole of the mounting shell 1, so that the bolt 14 presses the driving spring 504 to keep the driving spring in a compressed state, after the concentrating plate 2 is connected to the connecting block 501, the bolt 14 is detached, which is convenient for connecting the concentrating plate 2 to the connecting block 501, and reduces the influence of the driving spring 503 when the connecting block 501 is connected to the concentrating plate 2.

As shown in fig. 5, in some embodiments, an expansion plate 15 is further slidably mounted at the bottom of the blocking cover 6, the expansion plate 15 is used for changing the position of the blocking cover 6 in the vertical direction, the expansion plate 15 includes an inner plate and an outer plate, the inner plate is mounted on the outer plate, a screw hole is formed in the outer plate, a groove body is formed in the inner plate, a limit rod is inserted in the screw hole on the outer plate in a threaded manner, a spring is mounted between the limit rod and the outer wall of the outer plate, when the device is used, the height of one side of the blocking cover 6 is changed by sliding the inner plate, the inner plate is fixed by rotating the limit rod and through the collision of the limit rod, the collision effect of the limit rod is enhanced through the collision of the spring, the height of the expansion plate 15 on the other side is unchanged, so that the solar panel 7 on the blocking cover 6 is inclined to better receive the irradiation of sunlight, when the device is used, the blocking cover 6 can be placed on one side to supply power to the power supply, and when the device is used, the power supply to the power supply;

the solar energy storage device comprises a solar energy plate 7, a storage groove, a solar energy auxiliary plate 17, a storage plate, a cable groove and two solar energy auxiliary plates 17, wherein the storage groove is formed in two sides of the solar energy plate 7, the solar energy auxiliary plates 17 are slidably mounted in the storage groove, the storage plate is mounted at the bottom of the solar energy plate 7, the storage groove is formed in the storage plate, the cable groove for storing cables is formed in the storage plate, the cable groove is communicated with the storage groove, the area of the solar energy plate 7 is increased through the two solar energy auxiliary plates 17, the contact area of the solar energy plate 7 and sunlight is increased when the solar energy storage device is used, and power supply is convenient for a battery when the solar energy storage device is used;

offer the kerve that is used for holding solar panel 7 on keeping off lid 6, when holding, slide two solar energy subplates 17 to holding the inslot, be convenient for accomodate into the kerve with solar panel 7 in, support piece 16 is installed to the kerve, and support piece 16 is connected with solar panel 7, and support piece 16 includes:

a sleeve 1601 arranged in the bottom groove, wherein a limit hole 1602 is arranged on the circumferential side of the sleeve 1601, and the limit hole 1602 is arranged on one side of the sleeve 1601 close to the solar panel 7;

the utility model discloses a solar panel device, including the casing 1601, bracing piece 1603 is connected with solar panel 7, the holding hole 1604 has been seted up on bracing piece 1603 week side, install two protruding ball piece 1605 through the spring in the holding hole 1604, when protruding ball piece 1605 is located spacing hole 1602, bracing piece 1603 is located the highest position in casing 1601, bracing piece 1603 one end is located inside casing 1601, the other end is connected with solar panel 7, the holding hole 1604 is seted up at the one end department that solar panel 7 was kept away from to bracing piece 1603, the spring forces two protruding ball piece 1605 to keep away from holding hole 1604, when using, lift solar panel 7 upwards, make it drive bracing piece 1603 move in casing 1601, when protruding ball piece 1605 contacts with spacing hole 1602, the conflict card through the spring is established in spacing hole 1602, make solar panel 7 can move to the kerve outside, be convenient for take out two solar energy subplates 17 from the inslot slip, convenient to use, when accomodating, take in two solar energy subplates 17, pinch two protruding ball piece 1605 inwards, make them close to each other, separate with spacing hole 1602, make the kerve, the cooperation of gravity, make solar panel enter the cooperation, the practicality improve the solar panel device.

The previous description of the disclosed embodiments is provided to enable any person skilled in the art to make or use the present application. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the application. Thus, the present application is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

Claims

1. The utility model provides an outdoor satellite remote sensing signal receiving arrangement of energy-conserving formula, includes power and receiver, the power is used for right the receiver supplies power, its characterized in that still includes:

the power supply and receiver combined type electric shock absorber comprises a mounting shell (1), wherein a containing cavity used for containing the power supply and the receiver is arranged in the mounting shell (1), an opening is formed in the top of the mounting shell (1), and through openings are formed in two sides of the mounting shell (1);

the concentrating plates (2) are movably mounted on two sides of the mounting shell (1), sliding grooves (3) are formed in the concentrating plates (2), rotating blocks (4) are mounted on the mounting shell (1), the rotating blocks (4) are movably matched with the sliding grooves (3), outlets are formed in the ends, close to the two concentrating plates (2), of the sliding grooves (3), and the sliding grooves (3) are separated from the rotating blocks (4) through the outlets;

the mounting structure is characterized in that a driving piece (5) is mounted on the mounting shell (1), the driving piece (5) is provided with a lifting section and a steering section which are integrally constructed, a connecting block (501) used for being connected with the centralized plate (2) is mounted on the lifting section, the lifting section is used for connecting the two centralized plates (2) and lifting the height of the centralized plates (2) in the vertical direction, and the steering section is used for changing the angle of the centralized plates (2) in the vertical direction;

install keep off lid (6) at installation shell (1) top, keep off lid (6) and be used for the closing cap opening on the installation shell (1), keep off and install solar panel (7) on lid (6), solar panel (7) with battery electric connection.

2. The energy-saving outdoor satellite remote sensing signal receiving device according to claim 1, wherein a receiving cavity is formed in the centralized board (2), an extension board (8) is slidably mounted in the receiving cavity, the extension board (8) is located on two sides of the centralized board (2), and the extension board (8) is used for increasing the surface area of the centralized board (2).

3. An energy-saving outdoor satellite remote sensing signal receiving device according to claim 1, wherein the driving member (5) comprises:

the outer sleeve (502) is mounted at the bottom of the mounting shell (1), and the outer sleeve (502) is provided with a cavity along the vertical direction;

a push rod (503) slidably mounted in the containing cavity, wherein one end of the push rod (503) is located in the containing cavity, a drive spring (504) is mounted in the containing cavity, two ends of the drive spring (504) are respectively connected with the push rod (503) and the containing cavity, and the drive spring (504) forces the push rod (503) to approach the blocking cover (6);

the connecting block (501) is hinged to the push rod (503) through a hinge block (505) installed at the top of the push rod (503), and a hinge block (505) is also installed at the bottom of the connecting block (501) so that the connecting block (501) is hinged to the push rod (503).

4. An energy-saving outdoor satellite remote sensing signal receiving device according to claim 3, wherein a T-shaped block (9) is installed on the connecting block (501), a sliding groove (10) for accommodating the T-shaped block (9) is formed in one side of the centralized plate (2) located inside the installation shell (1), when the centralized plate (2) rotates to the horizontal direction, the two centralized plates (2) are close to each other, and the T-shaped block (9) is connected with the sliding groove (10).

5. The energy-saving outdoor satellite remote sensing signal receiving device according to claim 4, wherein the centralized plate (2) comprises a pressing plate (201) and a warping plate (202), the pressing plate (201) and the warping plate (202) are respectively installed on two sides of the installation shell (1), and the weight of the pressing plate (201) is greater than that of the warping plate (202).

6. An energy-saving outdoor satellite remote sensing signal receiving device according to claim 5, wherein a stop (11) is installed on one side of the push rod (503) close to the pressure plate (201), when the connecting block (501) rotates, the top of the stop (11) stops against the hinge block (505), and the stop (11) is used for limiting the rotation angle of the connecting block (501).

7. An energy-saving outdoor satellite remote sensing signal receiving device according to claim 5, wherein a magnet block (12) is installed at one end of the pressure plate (201) close to the warping plate (202), and when the pressure plate (201) close to the warping plate (202), the two magnet blocks (12) are connected through magnetic force.

8. An energy-saving outdoor satellite remote sensing signal receiving device according to claim 3, wherein a connecting piece (13) is mounted on the outer sleeve (502), the receiver is mounted on the connecting piece (13), and the connecting piece (13) comprises:

a hinged plate (1301) mounted on the outer sleeve (502), a connecting plate (1302) hinged on the hinged plate (1301), when the connecting plate (1302) rotates, the position of the free end of the connecting plate (1302) in the vertical direction is changed;

a plurality of extending plates (1303) mutually hinged on the free ends of the connecting plates (1302), a plurality of the extending plates (1303) are mutually hinged, the receivers are hinged on the extending plates (1303), and the horizontal positions of the receivers are changed when the extending plates (1303) rotate;

a trapezoidal block (1304) which is slidably mounted at the bottom of the mounting shell (1), wherein a slope block (1305) is configured at the bottom of the connecting plate (1302), the slope block (1305) is opposite to the slope of the trapezoidal block (1304), and when the trapezoidal block (1304) is close to the slope block (1305), the position of the free end of the connecting plate (1302) in the vertical direction is raised.

9. An energy-saving outdoor satellite remote sensing signal receiving device according to claim 3, wherein a bolt member (14) is inserted into the connecting block (501), one end of the bolt member (14) is connected with the connecting block (501), the other end of the bolt member is in threaded connection with the bottom of the mounting shell (1), and the bolt member (14) keeps the driving spring (504) in a compressed state.

10. The outdoor remote sensing signal receiver of energy-conserving formula of claim 1, characterized in that, holding groove has been seted up to solar panel (7) both sides, sliding mounting has solar energy subplate (17) in holding the groove, offer on keeping off lid (6) and be used for holding the kerve of solar panel (7), install in the kerve with support piece (16) that solar panel (7) are connected, support piece (16) include:

the device comprises a casing (1601) arranged in a bottom groove, wherein a limit hole (1602) is formed in the peripheral side of the casing (1601);

slidable mounting is in bracing piece (1603) on cover shell (1601), bracing piece (1603) with solar panel (7) are connected, holding hole (1604) have been seted up to bracing piece (1603) week side, there are two protruding ball pieces (1605) through spring mounting in holding hole (1604), work as protruding ball piece (1605) are located when spacing hole (1602) are interior, bracing piece (1603) are located highest position in cover shell (1601).