KR101879403B1 - Vibration Reduction Transportation Apparatus for Long Range Radar Antenna and Vibration Reduction Transportation for Foldable Antenna Apparatus - Google Patents

Abstract

The present invention provides a vibration reduction transportation apparatus for a long distance radar antenna and a vibration reduction transportation apparatus for a foldable antenna. By providing a mounting portion in which separate antenna integrating device is seated and which can be assembled to carry the antenna device, a base structure in which the mounting portion is assembled, and a cushioning portion which is disposed between the base structural portion and the mounting portion for reducing vibrations generated when the antenna integrated device is transported, the problem of transportation due to enlargement of antenna size can be solved.

Description

TECHNICAL FIELD [0001] The present invention relates to a Vibration Reduction Transportation Apparatus for a Long Range Radar Antenna and a Vibration Reduction Transportation Apparatus for the Folding Antenna. [0002] Vibration Reduction Transportation Apparatus for Long Range Radar Antenna and Vibration Reduction Transportation [

The present invention relates to a vibration reduction transport device for a long distance radar antenna and a vibration reduction transport device for a folding antenna, and more particularly to a vibration reduction transport device for a long distance radar antenna satisfying a vibration of 300 km or more and a vibration reduction transportation device for a folding antenna.

The radar performs a search to detect the target, performs the task of swiftly and precisely detecting the identification and wake of the aircraft through 24-hour uninterrupted operation, and transmits the detected target to the central control station to monitor and reconnaissance .

Conventionally, in the case of a large radar having a width of 8 m or more, the antenna element is disassembled and assembled in block units for movement and installation. After moving the vehicle, I assembled the block by block at the installation site, and it took a lot of time to install it. After performing the near field test to perform electronic beam alignment and re-assembling the on antenna at the site, , Which is a part of the system.

Large radars are subject to continuous vibrations and shocks when exposed to various mobile environments. Such unexpected vibration and impact may damage the radar, the structure, the antenna, and the array element. Therefore, a moving device is needed to prevent this.

Korean Registered Patent No. 10-1199162 (Registered on Nov. 1, 2012.)

The present invention relates to a vibration reduction transportation device for a long distance radar antenna and a vibration reduction transportation device for a folding antenna, which comprises a mounting part on which a separate antenna integrated device is mounted and which can be assembled to carry the antenna device, a base structure part in which the mounting part is assembled, And a mounting portion that is provided between the mounting portion and the mounting portion, and that reduces vibration generated when the antenna integrated device is transported, thereby solving the problem of transportation due to an increase in the size of the antenna.

In addition, since the mobile device is capable of moving in units of the antenna unit and moving only the antenna, it is possible to disassemble each device or to move the sensors such as sensitive electronic modules and array devices at once without disassembling There is another purpose.

In addition, since the mobile device can have two types of format conversion, there is another object to reduce the cost.

There is another object to effectively protect the vibration device and the shock load during transportation of the electronic device, such as various electronic modules such as a TRM (semiconductor transmission / reception assembly module) and an electric power supply assembly inside the antenna device, and sensitive sensors such as an array device .

Other and further objects, which are not to be described, may be further considered within the scope of the following detailed description and easily deduced from the effects thereof.

According to an aspect of the present invention, there is provided a vibration-reduced transport apparatus for a long-range radar antenna, the apparatus comprising: a base structure having a separate antenna integrated device mounted thereon and capable of being assembled to carry the antenna device; And a buffer disposed between the base structure and the mounting portion to reduce vibration generated when the antenna integrated device is transported.

Here, the separate antenna integrated device may include an antenna body including a main antenna unit and a driving unit, a wing unit attached to the antenna body unit to expand a radiation area, and a connection unit connecting the antenna body unit and the mounting unit And the mounting portion includes an antenna body mounting portion on which the main antenna portion is mounted, and a platform device mounting portion on which the platform device is mounted.

Here, the base structure unit may include a first base structure unit positioned on the driving device side and a second base structure unit positioned on the main antenna unit side, and the first base structure unit may be configured to mount the platform device mount unit A base plate including a plurality of holes and a first base support portion having a partition wall structure positioned below the base plate, wherein the second base structure portion includes at least one body portion base plate for assembling the antenna body attachment portion, And a second base support portion having a partition structure located below the body portion base plate.

Here, the first base structure may further include a base buffer to support the base plate between the base plate and the first base support, wherein the base buffer is relatively higher than the height of the base plate, And a base fastening member is provided inside the base buffer so as to be fixed to the first base support.

Here, the second base structure may further include a body portion base buffer portion to support the body portion base plate between the body portion base plate and the second base support portion, wherein the body portion base buffer portion includes: And the body base fastening member is provided to support the body base plate and to be fixed to the second base support portion.

The platform device mounting portion includes a platform device side damping portion attached to at least a part of the platform device to reduce vibration generated during transportation, and the platform device side damping portion includes a platform device attachment portion attached to the platform device side And a platform device buffering part connected between the platform device attaching part and the securing part to reduce vibrations generated during transportation.

The first base structure may further include a platform device side damping portion seating portion surrounding the first base support portion and forming a space for seating the platform device side damping portion, And is fixed inside the secondary seating portion.

Here, the platform device lateral damping portion may include at least a first platform device side damping portion attached to at least a part of the side of the platform device to reduce vibration generated during transportation, and at least a portion of the platform device bottom end, Wherein the first platform device side surface attenuation portion and the second platform device side surface attenuation portion fix the side surface and the bottom surface of the platform device.

Here, the antenna body mounting part includes an antenna body mounting part for mounting the antenna body, and a mounting part for mounting the antenna body on an upper portion of the body part base plate, Wherein the antenna body decoupling unit includes an antenna body fixing unit fixing the antenna body fixing unit and an antenna body connected between the antenna body fixing unit and the antenna body fixing unit to reduce vibration generated during transportation, And a buffer portion.

Here, the antenna body attenuator includes a first antenna body attenuator and a second antenna body attenuator, and the first antenna body attenuator and the second antenna body attenuator fix both sides of the lower surface of the antenna body mount.

According to another aspect of the present invention, there is provided a vibration-reduced transport apparatus for a long-distance radar antenna, which includes a main antenna unit, a separate antenna unit including a driving unit, And an antenna portion buffering portion disposed between the base structure portion and the antenna portion mounting portion and reducing vibration generated when the antenna integrated device is transported, A main antenna mount unit to which the main antenna unit is mounted, and a drive unit mount unit to which the drive unit is mounted.

Here, the base structure includes a first base structure portion located on the drive device side and a second base structure portion located on the main antenna portion side, wherein the first base structure portion includes a plurality of And a first base support portion having a partition structure positioned below the base plate, wherein the second base structure portion includes at least one body portion base plate for assembling the main antenna mounting portion, And a second base support portion having a partition structure located below the base plate.

Here, the first base structure may further include a base buffer to support the base plate between the base plate and the first base support, wherein the base buffer is relatively higher than the height of the base plate, And a base fastening member is provided inside the base buffer so as to be fixed to the first base support.

Here, the second base structure may further include a body portion base buffer portion to support the body portion base plate between the body portion base plate and the second base support portion, and the body portion base buffer portion may include: And a body portion base fastening member is provided inside the body portion base buffer portion so as to be fixed to the second base support portion.

Here, the driving device mounting portion includes a driving device attenuator attached to at least a part of the driving device to reduce vibration generated during transportation, and the driving device attenuator includes a hinge portion attached to one surface of the hinge portion of the driving device A hinge fixing portion attached to the base plate and surrounding the hinge fixing portion and the first base supporting portion, the hinge fixing portion being connected between the space formed by the driving device attenuation portion and the hinge fixing portion, And a driving device attenuator for attenuating vibrations generated during transportation, wherein the driving device attenuator includes a first driving device attenuator attached to at least a part of a right side of a hinge portion of the driving device to reduce vibrations generated during transportation, A second drive shaft for resting at least a part of the left side of the hinge portion of the drive unit to reduce vibrations generated during transportation, Wherein the first driving device attenuator and the second driving device attenuator fix both sides of the driving device.

The main antenna mounting portion includes a main antenna mounting portion for mounting the main antenna and a main antenna disposed on the main unit base plate and attached to at least a part of the antenna main body to reduce vibration generated during transportation, Wherein the main antenna attenuator includes a main antenna buffer connected between the main antenna mount and the body base plate to reduce vibrations generated during transportation, And a second main antenna attenuator, wherein the first main antenna attenuator and the second main antenna attenuator fix both sides of the lower surface of the main antenna mount.

According to another aspect of the present invention, there is provided a vibration-reduced transport device for a folding type antenna of a long-range radar, including a mounting portion on which a folding type antenna device is mounted and which can be assembled to carry the folding type antenna device, And a cushioning portion disposed between the base structure portion and the mounting portion for reducing vibrations generated when the antenna integrated device is transported. The folding type antenna device includes an antenna body portion including a main antenna portion and a driving device, A wing portion attached to the antenna body portion for widening a radiation area, and a platform device for connecting the antenna body portion and the mounting portion, wherein the wing portion includes at least an antenna body portion And at least one assembly module, A first wing portion extending to the right side and a second wing portion extending to the antenna body portion, wherein one side of the first wing portion is connected to the first assembly module, and one side of the second wing portion is connected to the second assembly module And the base unit includes a base structure mounting part for mounting the main antenna part and an antenna body mounting part for mounting the platform device, And a second base structure portion located on the main antenna portion side, wherein the first base structure portion includes a base plate including a plurality of holes for assembling the platform device mounting portion, and a partition wall structure Wherein the second base structure includes a first base support portion for supporting the antenna body mount portion And at least one body portion base plate having a lock and a second base support portion having a partition structure positioned below the body portion base plate.

Here, the first base structure may further include a base buffer to support the base plate between the base plate and the first base support, wherein the base buffer is relatively higher than the height of the base plate, And a second base structure for supporting the base plate and including a base fastening member inside the base bumper to be fixed to the first base support part and the second base structure part is provided between the body base plate and the second base support part, Wherein the body portion base buffer portion is formed to be relatively higher than a height of the body portion base plate so as to support the body portion base plate so as to support the base plate, And a body portion base fastening member is provided inside the body portion base buffer portion Wherein the platform device mounting portion includes a platform device side surface attenuation portion attached to at least a part of the platform device to reduce vibrations generated during transportation, and the platform device side surface attenuation portion includes a platform device attachment portion A fixing part for fixing the platform device attachment part; And a platform device buffering part connected between the platform device attaching part and the securing part to reduce vibrations generated during transportation.

Here, the first base structure may further include a platform device side damping portion seating portion surrounding the first base support portion and forming a space for seating the platform device side damping portion, wherein the fixing portion includes a platform device side damping portion Wherein the platform device side damping portion is attached to at least a portion of the side of the platform device to reduce vibration generated during transportation, and a first platform device side damping portion that is attached to at least a portion of the platform device side surface, And a second platform device side surface attenuation part for reducing vibrations generated during transportation, wherein the first platform device side surface attenuation part and the second platform device side surface attenuation part fix the side surface and the lower end of the platform device, The mounting portion includes an antenna body mounting portion for mounting the antenna body, And an antenna body attenuator positioned above the body base plate and attached to at least a part of the antenna body to reduce vibrations generated during transportation. The antenna body attenuator includes an antenna body fixing part for fixing the antenna body mounting part, And an antenna body buffering part connected between the antenna body mounting part and the antenna body fixing part to reduce vibrations generated during transportation, the antenna body attenuating part including a first antenna body attenuator part and a second antenna body part, Wherein the first antenna body attenuator and the second antenna body attenuator fix both sides of the lower surface of the antenna body mount.

As described above, according to the embodiments of the present invention, a separate antenna integrated device is mounted, a mounting part that can be assembled to carry the antenna device, a base structure part in which the mounting part is assembled, and a mounting part And it is possible to solve the transportation problem due to the enlargement of the antenna size by providing the buffer for reducing the vibration generated when the antenna integrated device is transported.

Also, since the number of ISOLATORs is selected considering the total weight of the large radar, and the position of the ISOLATOR is determined according to the dynamic characteristics of the whole radar, the mobile device for vibration reduction is simply placed in a non- The vibration level is much reduced, and there is an advantage that the electronic modules such as various sensors and array elements can be protected efficiently.

In addition, since the mobile device is capable of moving in units of the antenna unit and moving only the antenna, it is possible to move the sensor unit such as the electronic module and the array sensor, , And since the mobile device can be configured in two versions, the cost can be reduced.

In addition, the vibration device and the impact load during transportation of various electronic modules such as a TRM (semiconductor transmission / reception assembly module) and a power supply assembly inside the antenna device, sensitive sensors such as an array device, and the like can be effectively attenuated and protected.

 Even if the effects are not expressly mentioned here, the effects described in the following specification which are expected by the technical characteristics of the present invention and their potential effects are handled as described in the specification of the present invention.

1 is a perspective view of a vibration-reduced transport apparatus for a long-range radar antenna according to an embodiment of the present invention.
2 is a perspective view illustrating a vibration-reduced transport apparatus for a long-range radar antenna according to another embodiment of the present invention.
3 is a perspective view illustrating the combination of a vibration reduction transport device of a long-range radar antenna according to an embodiment of the present invention.
4 is a perspective view showing a combination of a vibration reduction transport device of a long-range radar antenna according to another embodiment of the present invention.
5 is an enlarged view of a part of a vibration reduction transport apparatus of a long-range radar antenna according to an embodiment of the present invention.
6 is an enlarged view of a part of a vibration reduction transport apparatus of a long-distance radar antenna according to another embodiment of the present invention.
FIG. 7 is a diagram illustrating an effect of a vibration reduction transportation device of a long-range radar antenna according to an embodiment of the present invention.
FIG. 8 is a view illustrating a vibration reduction transportation method of a long-distance radar antenna according to an embodiment of the present invention.

Hereinafter, a vibration-reduced transport device for a long-distance radar antenna and a vibration-reduced transport device for a foldable antenna according to the present invention will be described in detail with reference to the drawings. However, the present invention can be implemented in various different forms, and is not limited to the embodiments described. In order to clearly describe the present invention, parts that are not related to the description are omitted, and the same reference numerals in the drawings denote the same members.

It is to be understood that when an element is referred to as being "connected" or "connected" to another element, it may be directly connected or connected to the other element, .

The suffix " module " and " part " for the components used in the following description are given or mixed in consideration of ease of specification, and do not have their own meaning or role.

The terms first, second, etc. may be used to describe various elements, but the elements should not be limited by terms. The terms are used only for the purpose of distinguishing one component from another.

And more particularly, to a vibration reduction transportation device for the long distance radar antenna and a vibration reduction transportation device for the folding antenna.

1 is a perspective view of a vibration-reduced transport apparatus for a long-range radar antenna according to an embodiment of the present invention.

Referring to FIG. 1, a vibration-reduced transport apparatus 1 of a long-distance radar antenna according to an embodiment of the present invention includes a base structure 10 and an antenna mount 20.

1, the vibration-reduction transport apparatus 1 of the long-range radar antenna is described separately from the side where the apparatus is assembled with the drive apparatus and the side where the apparatus is assembled with the antenna.

The vibration reduction transportation device (1) of the long distance radar antenna is a device for preventing damage to radar, structure, antenna, and array element due to unexpected vibration and impact when a large radar is moved. Large radars are subject to continuous vibrations and shocks when exposed to various mobile environments. Such unexpected vibration and impact may damage the radar, the structure, the antenna, and the array element. Therefore, a moving device is needed to prevent this. The mobile device needs to select the number of isolators in consideration of the total weight of the large radar, and the position and the like of the isolator are determined according to the dynamic characteristics of the whole radar. Conventionally, since there is no moving device for vibration reduction, it is necessary to simply transport the vehicle in a non-vibration-free vehicle, or to transport a large-sized radar unit by disassembling all parts, In this case, a high level of vibration and impact load is transmitted to damage various sensors and electronic modules, and a great effort is required to move the electronic modules separately while moving them.

The vibration reduction transportation device (1) of the long-range radar antenna according to the present invention has a vibration level much lower than that of a simple structure mounted on a non-vibration vehicle and can safely protect various electronic modules such as sensors and array elements There are advantages.

The vibration reduction transportation device 1 of the long-range radar antenna can be used in the field of radar transportation and the like.

In the present embodiment, the long-range radar means an apparatus including all the arrangements for performing the operation as a radar. The long-range radar is a detection radar that can detect the surrounding wake and acquire target information including three-dimensional target information, for example, distance, bearing, and altitude. The long-range radar of this embodiment may have identification capability for peer identification according to international standards (ex: International Civil Aviation Organization standards, etc.). In addition, it may further include a communication module capable of communicating with a long-range radar master control center and an air traffic control center.

The vibration-reduction transport device 1 of the long-range radar antenna is a structure used for an antenna device designed to have a foldable structure for production of movable or mobile radar.

In the base structural part 10, the antenna part mounting part 20 is assembled.

The antenna portion buffering portions 113 and 213 are disposed between the base structure portion and the antenna portion mounting portion, and reduce vibrations generated when the antenna integrated device is transported.

The antenna mounting part 20 is mounted with a separate antenna part including a main antenna part and a driving device, and is assembled to carry the antenna part.

The antenna mount part 20 includes a main antenna mount part 400 and a drive device mount part 300.

The main antenna mounting part 400 is provided such that the main antenna part is mounted.

The drive device mounting portion 300 is provided to mount the drive device.

In the base structural part 10, the antenna part mounting part 20 is assembled.

The base structure section 10 is divided into a first base structure section 100 and a second base structure section 200.

The first base structure part 100 is located on the drive device side.

The second base structure part 200 is located on the main antenna part side.

The first base structure 100 includes a base plate 110, a first base support 111, base buffers 113a and 113b, and a platform device lateral deflector seat 120. [

The base plate 110 includes a plurality of holes 112 for assembling the drive unit mounts. The base plate 110 may further include square shaped holes 115 and 117 for assembling another drive unit mount.

The first base support portion 111 is a space of a partition structure located below the base plate 110. [

The base buffer portions 113a and 113b support the base plate between the base plate and the first base support portion. And is relatively higher than the height of the base plate 110 so as to support the base plate and includes base fastening members 114a and 114b inside the base cushion to be fixed to the first base supporting portion.

It is preferable that the base buffer parts 113a and 113b are located in a paired relationship between the first base buffer part 113a and the second base buffer part 113b.

The base fastening members 114a and 114b are attached to the first base supporting portion 111 at a place formed by the partition wall.

The platform device side damping portion seating portion 120 surrounds the first base support portion 111 and forms a space for seating the platform device side damping portion.

At least one platform device side attenuation portion seating portion 120 is disposed at each corner surrounding the first base supporting portion 111. In the embodiment of the present invention, four seating portions 120 are provided. However, have.

The platform device side attenuation portion seating portion 120 may be provided as a space formed by the vertical partition wall 125 and the horizontal partition wall 126.

In addition, it may include a platform device side damping plate 123 provided in a plate shape located at least one corner of the first base supporting portion 111

In addition, the base structure 10 may include a plurality of cueing assembly spaces 130 in which the citing device may be assembled.

The cigarette maker assembly space 130 on the first base support 111 side includes a hole 131 in which the citation apparatus is assembled.

The cigarette maker assembly space 230 on the first base support portion 211 includes a hole 231 in which the citation apparatus is assembled, a citation apparatus assembly plate 240 in which the citation apparatus assembly space 230 is located, 240 located at the center of the hole 241.

The first base structural part 100 may include a table device assembly space 140 in which the table device can be assembled. The table device assembly space 140 includes a plurality of assembly holes 151 in which the table device can be assembled and an assembly support portion 143 capable of supporting the table device.

The second base structure 200 includes a body portion base plate 210, a second base support portion 211, and a body portion base buffer portion 213.

The body portion base plate 210 is provided to assemble the main antenna mounting portion. The body portion base plate 210 includes a plurality of holes 212 through which the main antenna mount can be assembled.

The second base support portion 211 is a space having a partition structure located below the body portion base plate 210.

The body portion base buffer portion 213 supports the body portion base plate between the body portion base plate and the second base support portion. The body base fastening member 214 is formed to be relatively higher than the height of the body part base plate 210 to support the body part base plate and to be fixed to the second base support part. .

It is preferable that two body base buffering parts 213 are provided at both ends of the body part base plate and the body part base fastening part 214 is formed in such a manner that the body part base buffering part 213 is attached to the second base supporting part 211 .

The second base structure 200 includes a moving mechanism assembly space 220 in which the moving mechanism can be assembled and the moving mechanism assembly space 220 is a space formed by the horizontal partition wall 223 and the vertical partition wall 221, And may include an assembling support portion 224 at the lower end capable of supporting the moving mechanism in assembling the moving mechanism.

The second base structure 200 includes an additional space 250 to further include an antenna attachment portion 20 and the additional space 250 includes a lateral barrier rib 253 and a longitudinal barrier rib 251 Space.

The antenna mount part 20 includes a main antenna mount part 400 and a drive device mount part 300.

The drive device mounting portion 300 is provided to mount the drive device.

The driving device mounting portion 300 includes driving device attenuators 300a and 300b.

The driving device attenuators 300a and 300b are attached to at least a part of the driving device to reduce vibrations generated during transportation.

The driving device attenuators 300a and 300b include a hinge seating portion 330, a hinge fixing portion 310, and a driving device buffer portion 350. [

The hinge seating portion 330 is attached to one surface of the hinge portion of the driving device.

The hinge seating portion 330 includes a column 331 on the side thereof so as to support the hinge portion of the driving device, and a space 312 may be provided in the column.

The hinge fixing part 310 is attached to the base plate, and fixes the hinge fixing part 330. The hinge fixing portion 310 is a plate structure attached to the base plate and includes a plurality of holes 311 and includes a fixed portion square hole 312 parallel to the square hole of the base plate.

The driving device buffering portion 350 surrounds the first base supporting portion and is connected between the space formed to receive the driving device attenuation portion and the hinge fixing portion to reduce vibrations generated during transportation.

The driving device buffering part 350 surrounds the first base supporting part and includes a fastening part 351 so as to be fixed to a space formed to receive the driving device attenuation part.

The driving device attenuators 300a and 300b have a first driving device attenuator attached to at least a part of the right side of the hinge part of the driving device to reduce vibrations generated during transportation and at least a part of the left side of the hinge part of the driving device is seated And a second driving device attenuator for reducing vibrations generated during transportation, wherein the first driving device attenuator and the second driving device attenuator fix both sides of the driving device.

The main antenna mounting part 400 is provided such that the main antenna part is mounted.

The main antenna mounting portion 400 includes a main antenna mounting portion 410 and main antenna attenuating portions 431 and 433. [

The main antenna mounting part 400 preferably has a structure including an air spring cushioning part and serves to mount the antenna top part and has an effect of attenuating vibration and impact load coming from the bottom part.

The main antenna mounting portion 410 is provided to mount the main antenna. Includes an assembly wall 451 and an assembly hole 452 for mounting antennas on both sides of a longitudinally long plate structure and includes a seating wall 453 and a seating portion 454 at a central portion of the plate structure.

The main antenna attenuators 431 and 433 are positioned on the upper side of the body portion base plate and attached to at least a part of the antenna body to reduce vibrations generated during transportation.

The main antenna attenuators 431 and 433 include main antenna buffering parts 432 and 434 connected between the main antenna mounting part and the body part base plate to reduce vibrations generated during transportation. The main antenna attenuator includes a first main antenna attenuator 431 and a second main antenna attenuator 433, and the first main antenna attenuator and the second main antenna attenuator are disposed on the lower surface of the main antenna mount Fix both sides.

The main antenna attenuators 431 and 433 are fixed to the main antenna mount portion 410 by using a pair of additional fixing portions 461 and 462.

2 is a perspective view illustrating a vibration-reduced transport apparatus for a long-range radar antenna according to another embodiment of the present invention.

Referring to FIG. 2, a vibration reduction transport apparatus 2 of a long-distance radar antenna according to another embodiment of the present invention includes a base structure 30 and a mounting portion 40.

In FIG. 2, the vibration-reduction transport device 2 of the long-range radar antenna is distinguished from the side to be assembled with the drive device and the side to be assembled with the antenna.

The vibration reduction transportation device (2) of the long-distance radar antenna is a device for preventing damage to radar, structures, antennas and array elements due to unexpected vibration and impact when a large radar is moved. Large radars are subject to continuous vibrations and shocks when exposed to various mobile environments. Such unexpected vibration and impact may damage the radar, the structure, the antenna, and the array element. Therefore, a moving device is needed to prevent this. The mobile device needs to select the number of isolators in consideration of the total weight of the large radar, and the position and the like of the isolator are determined according to the dynamic characteristics of the whole radar. The moving device for vibration reduction has a merit that the vibration level is much reduced as compared with a form in which it is simply loaded and moved in a non-vibration vehicle, and the electronic module such as various sensors and array elements can be safely protected.

The vibration reduction transportation device 2 of the long-range radar antenna can be used in the field of radar transportation and the like.

In the present embodiment, the long-range radar means an apparatus including all the arrangements for performing the operation as a radar. The long-range radar is a detection radar that can detect the surrounding wake and acquire target information including three-dimensional target information, for example, distance, bearing, and altitude. The long-range radar of this embodiment may have identification capability for peer identification according to international standards (ex: International Civil Aviation Organization standards, etc.). In addition, it may further include a communication module capable of communicating with a long-range radar master control center and an air traffic control center.

The vibration reduction transport device 2 of the long-range radar antenna is a structure used for an antenna device designed to have a foldable structure for manufacture of a movable or mobile radar.

The mounting portion 40 seats a separate antenna integrated device and is assembled to carry the antenna device.

The base structure 30 is assembled with the mounting portion 40.

The base structure section 30 is divided into a first base structure section 100 and a second base structure section 200.

The first base structure part 100 is located on the drive device side.

The second base structure part 200 is located on the main antenna part side.

The first base structure 100 includes a base plate 110, a first base support 111, base buffers 113a and 113b, and a platform device lateral deflector seat 120. [

The base plate 110 includes a plurality of holes 112 for assembling the platform device mounts. The base plate 110 may further include square shaped holes 115 and 117 for assembling another platform device mount.

The first base support portion 111 is a space of a partition structure located below the base plate 110. [

The base buffer portions 113a and 113b support the base plate between the base plate and the first base support portion. And is relatively higher than the height of the base plate 110 so as to support the base plate and includes base fastening members 114a and 114b inside the base cushion to be fixed to the first base supporting portion.

It is preferable that the base buffer parts 113a and 113b are located in a paired relationship between the first base buffer part 113a and the second base buffer part 113b.

The base fastening members 114a and 114b are attached to the first base supporting portion 111 at a place formed by the partition wall.

The platform device side damping portion seating portion 120 surrounds the first base support portion 111 and forms a space for seating the platform device side damping portion.

At least one platform device side attenuation portion seating portion 120 is disposed at each corner surrounding the first base supporting portion 111. In the embodiment of the present invention, four seating portions 120 are provided. However, have.

The platform device side attenuation portion seating portion 120 may be provided as a space formed by the vertical partition wall 125 and the horizontal partition wall 126.

In addition, it may include a platform device side damping plate 123 provided in a plate shape located at least one corner of the first base supporting portion 111

In addition, the base structure 10 may include a plurality of cueing assembly spaces 130 in which the citing device may be assembled.

The cigarette maker assembly space 130 on the first base support 111 side includes a hole 131 in which the citation apparatus is assembled.

The cigarette maker assembly space 230 on the first base support portion 211 includes a hole 231 in which the citation apparatus is assembled, a citation apparatus assembly plate 240 in which the citation apparatus assembly space 230 is located, 240 located at the center of the hole 241.

The first base structural part 100 may include a table device assembly space 140 in which the table device can be assembled. The table device assembly space 140 includes a plurality of assembly holes 151 in which the table device can be assembled and an assembly support portion 143 capable of supporting the table device.

The second base structure 200 includes a body portion base plate 210, a second base support portion 211, and a body portion base buffer portion 213.

The body part base plate 210 is provided to assemble the antenna body mounting part. The body portion base plate 210 includes a plurality of holes 212 through which the main antenna mount and the antenna body mount can be assembled.

The second base support portion 211 is a space having a partition structure located below the body portion base plate 210. The second base support portion 211 is a space having a partition structure located below the body portion base plate 210.

The body portion base buffer portion 213 supports the body portion base plate between the body portion base plate and the second base support portion. The body base fastening member 214 is formed to be relatively higher than the height of the body part base plate 210 to support the body part base plate and to be fixed to the second base support part. .

It is preferable that two body base buffering parts 213 are provided at both ends of the body part base plate and the body part base fastening part 214 is formed in such a manner that the body part base buffering part 213 is attached to the second base supporting part 211 .

The second base structure 200 includes a moving mechanism assembly space 220 in which the moving mechanism can be assembled and the moving mechanism assembly space 220 is a space formed by the horizontal partition wall 223 and the vertical partition wall 221, And may include an assembling support portion 224 at the lower end capable of supporting the moving mechanism in assembling the moving mechanism.

The second base structure 200 includes an additional space 250 to further include an antenna attachment portion 20 and the additional space 250 includes a lateral barrier rib 253 and a longitudinal barrier rib 251 Space.

The buffering parts 113 and 213 are disposed between the base structure part 30 and the mounting part 40 and reduce vibrations generated when the antenna integrated device is transported.

The mounting portion 40 includes a platform device mounting portion 500 and an antenna body mounting portion 600.

The platform device mounting portion 500 includes platform device side surface attenuation portions 510, 520, and 530.

The platform device side dampers 510, 520, 530 are attached to at least a portion of the platform device to reduce vibrations that occur during transport.

The platform device side dampers 510, 520 and 530 include platform device attachment portions 511, 521 and 531, fixing portions 515, 525 and 535, platform device buffer portions 517, 527 and 537.

The platform device attachment portions 511, 521, and 531 are attached to the platform device side surfaces. Specifically, the platform device attachment portion 511 is vertically attached to the side of the platform device, and the platform device attachment plate 512 is positioned parallel to the platform device attachment portion 511, The device vertical plate 513 is positioned.

The vertical connection plate 514 fixes both sides so as to fix the platform device attachment plate 512 and the platform device vertical plate 513 connected vertically.

The platform device vertical plate 513 includes a fixing portion 515 for supporting the platform device side damping portion 510 at the lower end and a fixing portion pedestal 516 at the lower end. The fixing portions 515, 525, and 535 fix the platform device attachment portion. And is located in the platform unit side damping portion seat portion 120.

The platform device buffering parts 517, 527 and 537 are connected between the platform device attaching part and the fixing part to reduce vibration generated during transportation.

The platform device buffering portions 517, 527 and 537 are located between the platform device attaching portion 511 and the parallel platform device attaching plate 512 and include a platform device attaching portion 511 and a platform device attaching plate 512 As shown in FIG.

The platform device side damping portion seating portion 120 surrounds the first base support portion 111 and forms a space for seating the platform device side damping portion.

The fixing portions 515, 525, and 535 are fixed inside the platform apparatus side damping portion seat portion 120. [

The platform device side dampers 510, 520, 530 are attached to at least a portion of the platform device to reduce vibrations that occur during transport.

The platform unit side dampers 510, 520, and 530 are divided into first platform unit side dampers 510 and 520 and second platform unit side dampers 530.

The first platform device side damping portions (510, 520) are attached to at least a part of the side of the platform device to reduce vibrations generated during transportation.

The second platform device side damping portion 530 seats at least a part of the lower end of the platform device to reduce vibration generated during transportation.

The first platform device side dampers (510, 520) and the second platform device side damper (530) fix the side and bottom of the platform device.

The platform device attachment portion 531 of the second platform device side damping portion 530 is attached to the side of the platform device. Specifically, the platform device attachment portion 531 includes a portion 531a vertically attached to the platform device side and a portion 531b laterally attached to the platform device attachment portion 531. The platform device attachment portion 531 includes a platform device attachment plate 532 are positioned, and the platform device vertical plate 533 is positioned perpendicularly to the platform device attachment plate 532. [

The vertical connecting plate 534 fixes both sides so as to fix the platform device attachment plate 532 and the platform device vertical plate 533 connected vertically.

The platform apparatus vertical plate 533 includes a fixing unit 535 for supporting the platform device side damping unit 530 at the lower end and a fixing unit pedestal 536 at the lower end. The fixing portions 515, 525, and 535 fix the platform device attachment portion. And is located in the platform unit side damping portion seat portion 120.

The platform device buffering parts 517, 527 and 537 are connected between the platform device attaching part and the fixing part to reduce vibration generated during transportation.

The platform device buffering parts 517, 527 and 537 are located between the platform device attaching part 531 and the parallel platform device attaching plate 532, and the platform device attaching part 531 and the platform device attaching plate 532 As shown in FIG.

The platform device side damping portion seating portion 120 surrounds the first base support portion 111 and forms a space for seating the platform device side damping portion.

The fixing portions 515, 525, and 535 are fixed inside the platform apparatus side damping portion seat portion 120. [ And may be located on a platform device side damping plate 123 provided in a plate shape located at least one corner on each corner surrounding the first base support 111. [

The antenna body mounting portion 600 includes an antenna body mounting portion 610 and an antenna body attenuating portion 670.

The antenna body mounting portion 610 is provided to mount the antenna body.

Includes an assembly wall 651 and an assembly hole 652 for mounting the antenna body on both sides of the longitudinally long plate structure and includes a seating wall 653 and a seating portion 654 at a central portion of the plate structure .

The antenna body attenuator 670 is disposed on the upper side of the body portion base plate and is attached to at least a part of the antenna body to reduce vibrations generated during transportation.

The antenna body damping unit 670 includes an antenna body fixing unit 672 for fixing the antenna body fixing unit, an antenna body buffering unit 673 connected between the antenna body fixing unit and the antenna body fixing unit, (631, 633).

The antenna body attenuator 670 includes a first antenna body attenuator and a second antenna body attenuator,

The first antenna body attenuator and the second antenna body attenuator fix both sides of the lower surface of the antenna body mount.

The antenna body buffer parts 631 and 633 are fixed to the antenna body mounting part 610 by using a pair of additional fixing parts 661 and 662.

Also, the sub-assemblies 680 are assembled to the portion where the antenna body attenuator 670 is assembled.

A separate moving mechanism 700 can be assembled in the moving mechanism assembly space, and a plurality of table devices 800 can be assembled in series. The table device 800 includes a table portion 810, a leg portion 820, and a support portion 830.

It is possible to assemble the citation apparatus 900 capable of hanging the rope at the time of citation and to assemble the driving unit citation apparatus 910 and the antenna side citation apparatus 920 and the rope hanging sections 913 and 923, (911, 921), respectively.

The citation apparatus 900 preferably comprises a total of eight HOIST RINGS as a lifting portion for lifting the mobile device onto the vehicle. The position of the salvage part was selected considering the entire center of gravity.

According to the present invention, there is a mobile device capable of moving to a unit level (antenna device (driving device + platform device + antenna device)), and a version of the mobile device used when the antenna alone is moved for performance testing have. According to the level of the mobile unit, the shape of one mobile device can be used by modifying it according to need between FIG. 1 and FIG. 2. It is possible to easily deform the antenna by removing the part of the air spring part where the antenna is supported and removing the isolator part. In addition, since it is possible to move the antenna unit by unit, it is not necessary to disassemble and assemble each device when moving using the mobile device.

3 is a perspective view illustrating the combination of a vibration reduction transport device of a long-range radar antenna according to an embodiment of the present invention.

Referring to FIG. 3, in the vibration reduction transport apparatus 1 of the long-range radar antenna according to the embodiment of the present invention, a separate antenna unit 3 including a main antenna unit and a drive unit is seated.

The separate antenna unit 3 includes an antenna body unit 50 and the antenna body unit 50 includes a main antenna unit 51 and a driving unit 60.

The main antenna portion 51 is connected to an antenna body mounting portion to which the main antenna portion is mounted.

The transmission / reception assembly module 52 includes various electronic modules such as a TRM (semiconductor transmission / reception assembly module) and a power supply assembly inside the antenna device, and sensitive sensors such as an array element and the like. It can be effectively attenuated and protected.

And may include folding structures 53 and 55 so as to include wings at both ends of the main antenna unit 51. [

The drive device 60 includes a hinge portion 61 fixed to both sides and capable of rotating the drive device 60 and the hinge portion 61 is engaged with the drive device mount portion 300. The hinge unit 61 may include a separate motor unit 63.

The lower end 57 of the main antenna unit 51 is placed on the second base support portion 211 and the support portions 56a, 56b and 56c in three directions are positioned in the seating portion of the platform apparatus side damping portion.

The main antenna unit 51 can be mounted on the main antenna mounting unit 400 and attached to the assembly wall 451 on which the antenna is mounted and fixed using the assembly hole 452. [

In the base structural part 10, the antenna part mounting part 20 is assembled.

The antenna portion buffering portions 113 and 213 are disposed between the base structure portion and the antenna portion mounting portion, and reduce vibrations generated when the antenna integrated device is transported.

The antenna mounting part 20 is mounted with a separate antenna part including a main antenna part and a driving device, and is assembled to carry the antenna part.

The antenna mount part 20 includes a main antenna mount part 400 and a drive device mount part 300.

The main antenna mounting part 400 is provided such that the main antenna part is mounted.

The drive device mounting portion 300 is provided to mount the drive device.

In the base structural part 10, the antenna part mounting part 20 is assembled.

The base structure section 10 is divided into a first base structure section 100 and a second base structure section 200.

The first base structure part 100 is located on the drive device side.

The second base structure part 200 is located on the main antenna part side.

The first base structure 100 includes a base plate 110, a first base support 111, base buffers 113a and 113b, and a platform device lateral deflector seat 120. [

The base plate 110 includes a plurality of holes 112 for assembling the drive unit mounts. The base plate 110 may further include square shaped holes 115 and 117 for assembling another drive unit mount.

The base plate 110 is a portion where the antenna unit driving unit is assembled, and has an effect of attenuating vibrations and impact loads during transportation from the floor.

The first base support portion 111 is a space of a partition structure located below the base plate 110. [

The base buffer portions 113a and 113b support the base plate between the base plate and the first base support portion. And is relatively higher than the height of the base plate 110 so as to support the base plate and includes base fastening members 114a and 114b inside the base cushion to be fixed to the first base supporting portion.

It is preferable that the base buffer parts 113a and 113b are located in a paired relationship between the first base buffer part 113a and the second base buffer part 113b.

The base fastening members 114a and 114b are attached to the first base supporting portion 111 at a place formed by the partition wall.

The platform device side damping portion seating portion 120 surrounds the first base support portion 111 and forms a space for seating the platform device side damping portion.

At least one platform device side attenuation portion seating portion 120 is disposed at each corner surrounding the first base supporting portion 111. In the embodiment of the present invention, four seating portions 120 are provided. However, have.

The platform device side attenuation portion seating portion 120 may be provided as a space formed by the vertical partition wall 125 and the horizontal partition wall 126.

In addition, it may include a platform device side damping plate 123 provided in a plate shape located at least one corner of the first base supporting portion 111

In addition, the base structure 10 may include a plurality of cueing assembly spaces 130 in which the citing device may be assembled.

The cigarette maker assembly space 130 on the first base support 111 side includes a hole 131 in which the citation apparatus is assembled.

The cigarette maker assembly space 230 on the first base support portion 211 includes a hole 231 in which the citation apparatus is assembled, a citation apparatus assembly plate 240 in which the citation apparatus assembly space 230 is located, 240 located at the center of the hole 241.

The first base structural part 100 may include a table device assembly space 140 in which the table device can be assembled. The table device assembly space 140 includes a plurality of assembly holes 151 in which the table device can be assembled and an assembly support portion 143 capable of supporting the table device.

The second base structure 200 includes a body portion base plate 210, a second base support portion 211, and a body portion base buffer portion 213.

The body portion base plate 210 is provided to assemble the main antenna mounting portion. The body portion base plate 210 includes a plurality of holes 212 through which the main antenna mount can be assembled.

The second base support portion 211 is a space having a partition structure located below the body portion base plate 210.

The body portion base buffer portion 213 supports the body portion base plate between the body portion base plate and the second base support portion. The body base fastening member 214 is formed to be relatively higher than the height of the body part base plate 210 to support the body part base plate and to be fixed to the second base support part. .

It is preferable that two body base buffering parts 213 are provided at both ends of the body part base plate and the body part base fastening part 214 is formed in such a manner that the body part base buffering part 213 is attached to the second base supporting part 211 .

The second base structure 200 includes a moving mechanism assembly space 220 in which the moving mechanism can be assembled and the moving mechanism assembly space 220 is a space formed by the horizontal partition wall 223 and the vertical partition wall 221, And may include an assembling support portion 224 at the lower end capable of supporting the moving mechanism in assembling the moving mechanism.

The second base structure 200 includes an additional space 250 to further include an antenna attachment portion 20 and the additional space 250 includes a lateral barrier rib 253 and a longitudinal barrier rib 251 Space.

The antenna mount part 20 includes a main antenna mount part 400 and a drive device mount part 300.

The drive device mounting portion 300 is provided to mount the drive device.

The driving device mounting portion 300 includes driving device attenuators 300a and 300b.

The driving device attenuators 300a and 300b are attached to at least a part of the driving device to reduce vibrations generated during transportation.

The driving device attenuators 300a and 300b include a hinge seating portion 330, a hinge fixing portion 310, and a driving device buffer portion 350. [

The hinge seating portion 330 is attached to one surface of the hinge portion of the driving device.

The hinge seating portion 330 includes a column 331 on the side thereof so as to support the hinge portion of the driving device, and a space 312 may be provided in the column.

The hinge fixing part 310 is attached to the base plate, and fixes the hinge fixing part 330. The hinge fixing portion 310 is a plate structure attached to the base plate and includes a plurality of holes 311 and includes a fixed portion square hole 312 parallel to the square hole of the base plate.

The driving device buffering portion 350 surrounds the first base supporting portion and is connected between the space formed to receive the driving device attenuation portion and the hinge fixing portion to reduce vibrations generated during transportation.

The driving device buffering part 350 surrounds the first base supporting part and includes a fastening part 351 so as to be fixed to a space formed to receive the driving device attenuation part.

The driving device attenuators 300a and 300b have a first driving device attenuator attached to at least a part of the right side of the hinge part of the driving device to reduce vibrations generated during transportation and at least a part of the left side of the hinge part of the driving device is seated And a second driving device attenuator for reducing vibrations generated during transportation, wherein the first driving device attenuator and the second driving device attenuator fix both sides of the driving device.

The main antenna mounting part 400 is provided such that the main antenna part is mounted.

The main antenna mounting portion 400 includes a main antenna mounting portion 410 and main antenna attenuating portions 431 and 433. [

The main antenna mounting portion 410 is provided to mount the main antenna. Includes an assembly wall 451 and an assembly hole 452 for mounting antennas on both sides of a longitudinally long plate structure and includes a seating wall 453 and a seating portion 454 at a central portion of the plate structure.

The main antenna attenuators 431 and 433 are positioned on the upper side of the body portion base plate and attached to at least a part of the antenna body to reduce vibrations generated during transportation.

The main antenna attenuators 431 and 433 include main antenna buffering parts 432 and 434 connected between the main antenna mounting part and the body part base plate to reduce vibrations generated during transportation. The main antenna attenuator includes a first main antenna attenuator 431 and a second main antenna attenuator 433, and the first main antenna attenuator and the second main antenna attenuator are disposed on the lower surface of the main antenna mount Fix both sides.

The main antenna attenuators 431 and 433 are fixed to the main antenna mount portion 410 by using a pair of additional fixing portions 461 and 462.

4 is a perspective view showing a combination of a vibration reduction transport device of a long-range radar antenna according to another embodiment of the present invention.

Referring to FIG. 4, in the vibration reduction transport device 2 of the long-range radar antenna according to another embodiment of the present invention, a separate antenna integrating device 4 is seated.

In the present embodiment, the long-range radar means an apparatus including all the arrangements for performing the operation as a radar. The long-range radar is a detection radar that can detect the surrounding wake and acquire target information including three-dimensional target information, for example, distance, bearing, and altitude. The long-range radar of this embodiment may have identification capability for peer identification according to international standards (ex: International Civil Aviation Organization standards, etc.). In addition, it may further include a communication module capable of communicating with a long-range radar master control center and an air traffic control center.

The separate antenna integrating device 4 includes an antenna body portion 50, a platform device 70, and a wing portion 80.

The antenna body portion 50 includes a main antenna portion 51 and a driving device 60. [

The wing portion 80 may be attached to the antenna body portion to expand the radiation area.

The main antenna portion 51 is connected to an antenna body mounting portion to which the main antenna portion is mounted.

And may include folding structures 53 and 55 so as to include wings at both ends of the main antenna unit 51. [ The first wing portion 83 and the second wing portion 81 are connected to the folding structures 53 and 55, respectively.

The driving device 60 includes a hinge part 61 fixed to both sides and capable of rotating the driving device 60 and the hinge part 61 is engaged with the platform device 70. [ The hinge unit 61 may include a separate motor unit 63.

The hinge portion 61 can be connected to the drive device mounting portion 300 and the three devices have the same assembling structure so that the hinge portion 61 can be connected to the platform device 70 as well.

The platform device 70 includes a hinge connection portion 71, a first platform device connection portion 73, 74, and a second platform device connection portion 75.

The lower end 57 of the main antenna unit 51 includes support portions 56a, 56b, and 56c formed in three directions.

The main antenna section 51 can be seated on the antenna body mounting section 600 and attached to the assembly wall 651 for mounting the antenna.

The base structure section 30 is divided into a first base structure section 100 and a second base structure section 200.

The first base structure part 100 is located on the drive device side.

The second base structure part 200 is located on the main antenna part side.

The first base structure 100 includes a base plate 110, a first base support 111, base buffers 113a and 113b, and a platform device lateral deflector seat 120. [

The base plate 110 includes a plurality of holes 112 for assembling the platform device mounts. The base plate 110 may further include square shaped holes 115 and 117 for assembling another platform device mount.

The first base support portion 111 is a space of a partition structure located below the base plate 110. [

The base buffer portions 113a and 113b support the base plate between the base plate and the first base support portion. And is relatively higher than the height of the base plate 110 so as to support the base plate and includes base fastening members 114a and 114b inside the base cushion to be fixed to the first base supporting portion.

It is preferable that the base buffer parts 113a and 113b are located in a paired relationship between the first base buffer part 113a and the second base buffer part 113b.

The base fastening members 114a and 114b are attached to the first base supporting portion 111 at a place formed by the partition wall.

The platform device side damping portion seating portion 120 surrounds the first base support portion 111 and forms a space for seating the platform device side damping portion.

At least one platform device side attenuation portion seating portion 120 is disposed at each corner surrounding the first base supporting portion 111. In the embodiment of the present invention, four seating portions 120 are provided. However, have.

The platform device side attenuation portion seating portion 120 may be provided as a space formed by the vertical partition wall 125 and the horizontal partition wall 126.

In addition, it may include a platform device side damping plate 123 provided in a plate shape located at least one corner of the first base supporting portion 111

In addition, the base structure 10 may include a plurality of cueing assembly spaces 130 in which the citing device may be assembled.

The cigarette maker assembly space 130 on the first base support 111 side includes a hole 131 in which the citation apparatus is assembled.

The cigarette maker assembly space 230 on the first base support portion 211 includes a hole 231 in which the citation apparatus is assembled, a citation apparatus assembly plate 240 in which the citation apparatus assembly space 230 is located, 240 located at the center of the hole 241.

The first base structural part 100 may include a table device assembly space 140 in which the table device can be assembled. The table device assembly space 140 includes a plurality of assembly holes 151 in which the table device can be assembled and an assembly support portion 143 capable of supporting the table device.

The second base structure 200 includes a body portion base plate 210, a second base support portion 211, and a body portion base buffer portion 213.

The body part base plate 210 is provided to assemble the antenna body mounting part. The body portion base plate 210 includes a plurality of holes 212 through which the main antenna mount and the antenna body mount can be assembled.

The second base support portion 211 is a space having a partition structure located below the body portion base plate 210. The second base support portion 211 is a space having a partition structure located below the body portion base plate 210.

The body portion base buffer portion 213 supports the body portion base plate between the body portion base plate and the second base support portion. The body base fastening member 214 is formed to be relatively higher than the height of the body part base plate 210 to support the body part base plate and to be fixed to the second base support part. .

It is preferable that two body base buffering parts 213 are provided at both ends of the body part base plate and the body part base fastening part 214 is formed in such a manner that the body part base buffering part 213 is attached to the second base supporting part 211 .

The second base structure 200 includes a moving mechanism assembly space 220 in which the moving mechanism can be assembled and the moving mechanism assembly space 220 is a space formed by the horizontal partition wall 223 and the vertical partition wall 221, And may include an assembling support portion 224 at the lower end capable of supporting the moving mechanism in assembling the moving mechanism.

The second base structure 200 includes an additional space 250 to further include an antenna attachment portion 20 and the additional space 250 includes a lateral barrier rib 253 and a longitudinal barrier rib 251 Space.

The buffering parts 113 and 213 are disposed between the base structure part 30 and the mounting part 40 and reduce vibrations generated when the antenna integrated device is transported.

The mounting portion 40 includes a platform device mounting portion 500 and an antenna body mounting portion 600.

The platform device mounting portion 500 includes platform device side surface attenuation portions 510, 520, and 530.

The platform device side dampers 510, 520, 530 are attached to at least a portion of the platform device to reduce vibrations that occur during transport. It is connected to the platform side of the platform and has the effect of attenuating the vibration and impact load of the longitudinal direction and the transverse direction during transportation.

The platform device side dampers 510, 520 and 530 include platform device attachment portions 511, 521 and 531, fixing portions 515, 525 and 535, platform device buffer portions 517, 527 and 537.

The platform device attachment portions 511, 521, and 531 are attached to the platform device side surfaces. Specifically, the platform device attachment portion 511 is vertically attached to the side of the platform device, and the platform device attachment plate 512 is positioned parallel to the platform device attachment portion 511, The device vertical plate 513 is positioned.

The vertical connection plate 514 fixes both sides so as to fix the platform device attachment plate 512 and the platform device vertical plate 513 connected vertically.

The platform device vertical plate 513 includes a fixing portion 515 for supporting the platform device side damping portion 510 at the lower end and a fixing portion pedestal 516 at the lower end. The fixing portions 515, 525, and 535 fix the platform device attachment portion. And is located in the platform unit side damping portion seat portion 120.

The platform device buffering parts 517, 527 and 537 are connected between the platform device attaching part and the fixing part to reduce vibration generated during transportation.

The platform device buffering portions 517, 527 and 537 are located between the platform device attaching portion 511 and the parallel platform device attaching plate 512 and include a platform device attaching portion 511 and a platform device attaching plate 512 As shown in FIG.

The platform device side damping portion seating portion 120 surrounds the first base support portion 111 and forms a space for seating the platform device side damping portion.

The fixing portions 515, 525, and 535 are fixed inside the platform apparatus side damping portion seat portion 120. [

The platform device side dampers 510, 520, 530 are attached to at least a portion of the platform device to reduce vibrations that occur during transport.

The platform unit side dampers 510, 520, and 530 are divided into first platform unit side dampers 510 and 520 and second platform unit side dampers 530.

The first platform device side damping portions (510, 520) are attached to at least a part of the side of the platform device to reduce vibrations generated during transportation.

The second platform device side damping portion 530 seats at least a part of the lower end of the platform device to reduce vibration generated during transportation.

The first platform device side dampers (510, 520) and the second platform device side damper (530) fix the side and bottom of the platform device.

The platform device attachment portion 531 of the second platform device side damping portion 530 is attached to the side of the platform device. Specifically, the platform device attachment portion 531 includes a portion 531a vertically attached to the platform device side and a portion 531b laterally attached to the platform device attachment portion 531. The platform device attachment portion 531 includes a platform device attachment plate 532 are positioned, and the platform device vertical plate 533 is positioned perpendicularly to the platform device attachment plate 532. [

The vertical connecting plate 534 fixes both sides so as to fix the platform device attachment plate 532 and the platform device vertical plate 533 connected vertically.

The platform apparatus vertical plate 533 includes a fixing unit 535 for supporting the platform device side damping unit 530 at the lower end and a fixing unit pedestal 536 at the lower end. The fixing portions 515, 525, and 535 fix the platform device attachment portion. And is located in the platform unit side damping portion seat portion 120.

The platform device buffering parts 517, 527 and 537 are connected between the platform device attaching part and the fixing part to reduce vibration generated during transportation.

The platform device buffering parts 517, 527 and 537 are located between the platform device attaching part 531 and the parallel platform device attaching plate 532, and the platform device attaching part 531 and the platform device attaching plate 532 As shown in FIG.

The platform device side damping portion seating portion 120 surrounds the first base support portion 111 and forms a space for seating the platform device side damping portion.

The fixing portions 515, 525, and 535 are fixed inside the platform apparatus side damping portion seat portion 120. [ And may be located on a platform device side damping plate 123 provided in a plate shape located at least one corner on each corner surrounding the first base support 111. [

The antenna body mounting portion 600 includes an antenna body mounting portion 610 and an antenna body attenuating portion 670.

The antenna body mounting portion 610 is provided to mount the antenna body.

Includes an assembly wall 651 and an assembly hole 652 for mounting the antenna body on both sides of the longitudinally long plate structure and includes a seating wall 653 and a seating portion 654 at a central portion of the plate structure .

The antenna body attenuator 670 is disposed on the upper side of the body portion base plate and is attached to at least a part of the antenna body to reduce vibrations generated during transportation.

The antenna body damping unit 670 includes an antenna body fixing unit 672 for fixing the antenna body fixing unit, an antenna body buffering unit 673 connected between the antenna body fixing unit and the antenna body fixing unit, (631, 633).

The antenna body attenuator 670 includes a first antenna body attenuator and a second antenna body attenuator,

The first antenna body attenuator and the second antenna body attenuator fix both sides of the lower surface of the antenna body mount.

The antenna body buffer parts 631 and 633 are fixed to the antenna body mounting part 610 by using a pair of additional fixing parts 661 and 662.

Also, the sub-assemblies 680 are assembled to the portion where the antenna body attenuator 670 is assembled.

A separate moving mechanism 700 can be assembled in the moving mechanism assembly space, and a plurality of table devices 800 can be assembled in series. The table device 800 includes a table portion 810, a leg portion 820, and a support portion 830.

It is possible to assemble the citation apparatus 900 capable of hanging the rope at the time of citation and to assemble the driving unit citation apparatus 910 and the antenna side citation apparatus 920 and the rope hanging sections 913 and 923, (911, 921), respectively.

Since the movement to the radar site is the movement of the antenna unit, the mobile device shown in Fig. 4 is operated.

The mobile unit is loaded first on a 25-ton cargo truck, and the antenna unit is lifted at one time and placed on the mobile unit, tightened tightly with the mounting unit, base structure and bolts. At this time, torque wrench can be used to tighten the torque according to the bolt size.

In the electromotive field test, only the antenna moves, so that a mobile device of the type shown in FIG. 3 is operated.

3 and 4 can be converted in accordance with the purpose of movement, thereby reducing the cost.

In the mobile device of FIG. 4 in which only the antenna can be moved, the antenna hinge portion is fastened to the hinge portion seat portion with the bolt, and the upper portion of the antenna is fastened to the main antenna mounting portion so as to safely protect the sensor, can do.

5 is an enlarged view of a part of a vibration reduction transport apparatus of a long-range radar antenna according to an embodiment of the present invention.

In the base structural part 10, the antenna part mounting part 20 is assembled.

The antenna portion buffering portions 113 and 213 are disposed between the base structure portion and the antenna portion mounting portion, and reduce vibrations generated when the antenna integrated device is transported.

It is preferable to include a wire rope isolator, and the wire rope isolator is a shock and vibration resistant mount in which a steel cable is rolled between aluminum bars.

The antenna mounting part 20 is mounted with a separate antenna part including a main antenna part and a driving device, and is assembled to carry the antenna part.

The antenna mount part 20 includes a main antenna mount part 400 and a drive device mount part 300.

The main antenna mounting part 400 is provided such that the main antenna part is mounted. When the antenna is moved separately, the upper part of the antenna is assembled by assembling, and the vibration and shock load coming from the lower part are attenuated.

The drive device mounting portion 300 is provided to mount the drive device. The hinge part of the antenna is assembled when the antenna alone moves, and the vibration and shock load coming from the lower end are attenuated.

In the base structural part 10, the antenna part mounting part 20 is assembled.

The base structure section 10 is divided into a first base structure section 100 and a second base structure section 200.

The first base structure part 100 is located on the drive device side.

The second base structure part 200 is located on the main antenna part side.

The first base structure 100 includes a base plate 110, a first base support 111, base buffers 113a and 113b, and a platform device lateral deflector seat 120. [

The base plate 110 includes a plurality of holes 112 for assembling the drive unit mounts. The base plate 110 may further include square shaped holes 115 and 117 for assembling another drive unit mount.

The first base support portion 111 is a space of a partition structure located below the base plate 110. [

The base buffer portions 113a and 113b support the base plate between the base plate and the first base support portion. And is relatively higher than the height of the base plate 110 so as to support the base plate and includes base fastening members 114a and 114b inside the base cushion to be fixed to the first base supporting portion.

It is preferable that the base buffer parts 113a and 113b are located in a paired relationship between the first base buffer part 113a and the second base buffer part 113b.

The base fastening members 114a and 114b are attached to the first base supporting portion 111 at a place formed by the partition wall.

The platform device side damping portion seating portion 120 surrounds the first base support portion 111 and forms a space for seating the platform device side damping portion.

At least one platform device side attenuation portion seating portion 120 is disposed at each corner surrounding the first base supporting portion 111. In the embodiment of the present invention, four seating portions 120 are provided. However, have.

The platform device side attenuation portion seating portion 120 may be provided as a space formed by the vertical partition wall 125 and the horizontal partition wall 126.

In addition, it may include a platform device side damping plate 123 provided in a plate shape located at least one corner of the first base supporting portion 111

In addition, the base structure 10 may include a plurality of cueing assembly spaces 130 in which the citing device may be assembled.

The cigarette maker assembly space 130 on the first base support 111 side includes a hole 131 in which the citation apparatus is assembled.

The cigarette maker assembly space 230 on the first base support portion 211 includes a hole 231 in which the citation apparatus is assembled, a citation apparatus assembly plate 240 in which the citation apparatus assembly space 230 is located, 240 located at the center of the hole 241.

The first base structural part 100 may include a table device assembly space 140 in which the table device can be assembled. The table device assembly space 140 includes a plurality of assembly holes 151 in which the table device can be assembled and an assembly support portion 143 capable of supporting the table device.

The second base structure 200 includes a body portion base plate 210, a second base support portion 211, and a body portion base buffer portion 213.

The body portion base plate 210 is provided to assemble the main antenna mounting portion. The body portion base plate 210 includes a plurality of holes 212 through which the main antenna mount can be assembled.

The second base support portion 211 is a space having a partition structure located below the body portion base plate 210.

The body portion base buffer portion 213 supports the body portion base plate between the body portion base plate and the second base support portion. The body base fastening member 214 is formed to be relatively higher than the height of the body part base plate 210 to support the body part base plate and to be fixed to the second base support part. .

It is preferable that two body base buffering parts 213 are provided at both ends of the body part base plate and the body part base fastening part 214 is formed in such a manner that the body part base buffering part 213 is attached to the second base supporting part 211 .

The second base structure 200 includes a moving mechanism assembly space 220 in which the moving mechanism can be assembled and the moving mechanism assembly space 220 is a space formed by the horizontal partition wall 223 and the vertical partition wall 221, And may include an assembling support portion 224 at the lower end capable of supporting the moving mechanism in assembling the moving mechanism.

The second base structure 200 includes an additional space 250 to further include an antenna attachment portion 20 and the additional space 250 includes a lateral barrier rib 253 and a longitudinal barrier rib 251 Space.

The antenna mount part 20 includes a main antenna mount part 400 and a drive device mount part 300.

The drive device mounting portion 300 is provided to mount the drive device.

The driving device mounting portion 300 includes driving device attenuators 300a and 300b.

The driving device attenuators 300a and 300b are attached to at least a part of the driving device to reduce vibrations generated during transportation.

The driving device attenuators 300a and 300b include a hinge seating portion 330, a hinge fixing portion 310, and a driving device buffer portion 350. [

The hinge seating portion 330 is attached to one surface of the hinge portion of the driving device.

The hinge seating portion 330 includes a column 331 on the side thereof so as to support the hinge portion of the driving device, and a space 312 may be provided in the column.

The hinge fixing part 310 is attached to the base plate, and fixes the hinge fixing part 330. The hinge fixing portion 310 is a plate structure attached to the base plate and includes a plurality of holes 311 and includes a fixed portion square hole 312 parallel to the square hole of the base plate.

The driving device buffering portion 350 surrounds the first base supporting portion and is connected between the space formed to receive the driving device attenuation portion and the hinge fixing portion to reduce vibrations generated during transportation.

The driving device buffering part 350 surrounds the first base supporting part and includes a fastening part 351 so as to be fixed to a space formed to receive the driving device attenuation part.

The driving device attenuators 300a and 300b have a first driving device attenuator attached to at least a part of the right side of the hinge part of the driving device to reduce vibrations generated during transportation and at least a part of the left side of the hinge part of the driving device is seated And a second driving device attenuator for reducing vibrations generated during transportation, wherein the first driving device attenuator and the second driving device attenuator fix both sides of the driving device.

The main antenna mounting part 400 is provided such that the main antenna part is mounted.

The main antenna mounting portion 400 includes a main antenna mounting portion 410 and main antenna attenuating portions 431 and 433. [

The main antenna mounting portion 410 is provided to mount the main antenna. Includes an assembly wall 451 and an assembly hole 452 for mounting antennas on both sides of a longitudinally long plate structure and includes a seating wall 453 and a seating portion 454 at a central portion of the plate structure.

The main antenna attenuators 431 and 433 are positioned on the upper side of the body portion base plate and attached to at least a part of the antenna body to reduce vibrations generated during transportation.

The main antenna attenuators 431 and 433 include main antenna buffering parts 432 and 434 connected between the main antenna mounting part and the body part base plate to reduce vibrations generated during transportation. The main antenna attenuator includes a first main antenna attenuator 431 and a second main antenna attenuator 433, and the first main antenna attenuator and the second main antenna attenuator are disposed on the lower surface of the main antenna mount Fix both sides.

The main antenna attenuators 431 and 433 are fixed to the main antenna mount portion 410 by using a pair of additional fixing portions 461 and 462.

6 is an enlarged view of a part of a vibration reduction transport apparatus of a long-distance radar antenna according to another embodiment of the present invention.

The base structure section 30 is divided into a first base structure section 100 and a second base structure section 200.

The first base structure part 100 is located on the drive device side.

The second base structure part 200 is located on the main antenna part side.

The first base structure 100 includes a base plate 110, a first base support 111, base buffers 113a and 113b, and a platform device lateral deflector seat 120. [

The base plate 110 includes a plurality of holes 112 for assembling the platform device mounts. The base plate 110 may further include square shaped holes 115 and 117 for assembling another platform device mount.

The first base support portion 111 is a space of a partition structure located below the base plate 110. [

The base buffer portions 113a and 113b support the base plate between the base plate and the first base support portion. And is relatively higher than the height of the base plate 110 so as to support the base plate and includes base fastening members 114a and 114b inside the base cushion to be fixed to the first base supporting portion.

It is preferable that the base buffer parts 113a and 113b are located in a paired relationship between the first base buffer part 113a and the second base buffer part 113b.

The base fastening members 114a and 114b are attached to the first base supporting portion 111 at a place formed by the partition wall.

The platform device side damping portion seating portion 120 surrounds the first base support portion 111 and forms a space for seating the platform device side damping portion.

At least one platform device side attenuation portion seating portion 120 is disposed at each corner surrounding the first base supporting portion 111. In the embodiment of the present invention, four seating portions 120 are provided. However, have.

The platform device side attenuation portion seating portion 120 may be provided as a space formed by the vertical partition wall 125 and the horizontal partition wall 126.

In addition, it may include a platform device side damping plate 123 provided in a plate shape located at least one corner of the first base supporting portion 111

In addition, the base structure 10 may include a plurality of cueing assembly spaces 130 in which the citing device may be assembled.

The cigarette maker assembly space 130 on the first base support 111 side includes a hole 131 in which the citation apparatus is assembled.

The cigarette maker assembly space 230 on the first base support portion 211 includes a hole 231 in which the citation apparatus is assembled, a citation apparatus assembly plate 240 in which the citation apparatus assembly space 230 is located, 240 located at the center of the hole 241.

The first base structural part 100 may include a table device assembly space 140 in which the table device can be assembled. The table device assembly space 140 includes a plurality of assembly holes 151 in which the table device can be assembled and an assembly support portion 143 capable of supporting the table device.

The second base structure 200 includes a body portion base plate 210, a second base support portion 211, and a body portion base buffer portion 213.

The body part base plate 210 is provided to assemble the antenna body mounting part. The body portion base plate 210 includes a plurality of holes 212 through which the main antenna mount and the antenna body mount can be assembled.

The second base support portion 211 is a space having a partition structure located below the body portion base plate 210. The second base support portion 211 is a space having a partition structure located below the body portion base plate 210.

The body portion base buffer portion 213 supports the body portion base plate between the body portion base plate and the second base support portion. The body base fastening member 214 is formed to be relatively higher than the height of the body part base plate 210 to support the body part base plate and to be fixed to the second base support part. .

It is preferable that two body base buffering parts 213 are provided at both ends of the body part base plate and the body part base fastening part 214 is formed in such a manner that the body part base buffering part 213 is attached to the second base supporting part 211 .

The second base structure 200 includes a moving mechanism assembly space 220 in which the moving mechanism can be assembled and the moving mechanism assembly space 220 is a space formed by the horizontal partition wall 223 and the vertical partition wall 221, And may include an assembling support portion 224 at the lower end capable of supporting the moving mechanism in assembling the moving mechanism.

The second base structure 200 includes an additional space 250 to further include an antenna attachment portion 20 and the additional space 250 includes a lateral barrier rib 253 and a longitudinal barrier rib 251 Space.

The buffering parts 113 and 213 are disposed between the base structure part 30 and the mounting part 40 and reduce vibrations generated when the antenna integrated device is transported.

The mounting portion 40 includes a platform device mounting portion 500 and an antenna body mounting portion 600.

The platform device mounting portion 500 includes platform device side surface attenuation portions 510, 520, and 530.

The platform device side dampers 510, 520, 530 are attached to at least a portion of the platform device to reduce vibrations that occur during transport.

The platform device side dampers 510, 520 and 530 include platform device attachment portions 511, 521 and 531, fixing portions 515, 525 and 535, platform device buffer portions 517, 527 and 537.

The platform device attachment portions 511, 521, and 531 are attached to the platform device side surfaces. Specifically, the platform device attachment portion 511 is vertically attached to the side of the platform device, and the platform device attachment plate 512 is positioned parallel to the platform device attachment portion 511, The device vertical plate 513 is positioned.

The vertical connection plate 514 fixes both sides so as to fix the platform device attachment plate 512 and the platform device vertical plate 513 connected vertically.

The platform device vertical plate 513 includes a fixing portion 515 for supporting the platform device side damping portion 510 at the lower end and a fixing portion pedestal 516 at the lower end. The fixing portions 515, 525, and 535 fix the platform device attachment portion. And is located in the platform unit side damping portion seat portion 120.

The platform device buffering parts 517, 527 and 537 are connected between the platform device attaching part and the fixing part to reduce vibration generated during transportation.

The platform device buffering portions 517, 527 and 537 are located between the platform device attaching portion 511 and the parallel platform device attaching plate 512 and include a platform device attaching portion 511 and a platform device attaching plate 512 As shown in FIG.

The platform device side damping portion seating portion 120 surrounds the first base support portion 111 and forms a space for seating the platform device side damping portion.

The fixing portions 515, 525, and 535 are fixed inside the platform apparatus side damping portion seat portion 120. [

The platform device side dampers 510, 520, 530 are attached to at least a portion of the platform device to reduce vibrations that occur during transport.

The platform unit side dampers 510, 520, and 530 are divided into first platform unit side dampers 510 and 520 and second platform unit side dampers 530.

The first platform device side damping portions (510, 520) are attached to at least a part of the side of the platform device to reduce vibrations generated during transportation.

The second platform device side damping portion 530 seats at least a part of the lower end of the platform device to reduce vibration generated during transportation.

The first platform device side dampers (510, 520) and the second platform device side damper (530) fix the side and bottom of the platform device.

The platform device attachment portion 531 of the second platform device side damping portion 530 is attached to the side of the platform device. Specifically, the platform device attachment portion 531 includes a portion 531a vertically attached to the platform device side and a portion 531b laterally attached to the platform device attachment portion 531. The platform device attachment portion 531 includes a platform device attachment plate 532 are positioned, and the platform device vertical plate 533 is positioned perpendicularly to the platform device attachment plate 532. [

The vertical connecting plate 534 fixes both sides so as to fix the platform device attachment plate 532 and the platform device vertical plate 533 connected vertically.

The platform apparatus vertical plate 533 includes a fixing unit 535 for supporting the platform device side damping unit 530 at the lower end and a fixing unit pedestal 536 at the lower end. The fixing portions 515, 525, and 535 fix the platform device attachment portion. And is located in the platform unit side damping portion seat portion 120.

The platform device buffering parts 517, 527 and 537 are connected between the platform device attaching part and the fixing part to reduce vibration generated during transportation.

The platform device buffering parts 517, 527 and 537 are located between the platform device attaching part 531 and the parallel platform device attaching plate 532, and the platform device attaching part 531 and the platform device attaching plate 532 As shown in FIG.

The platform device side damping portion seating portion 120 surrounds the first base support portion 111 and forms a space for seating the platform device side damping portion.

The fixing portions 515, 525, and 535 are fixed inside the platform apparatus side damping portion seat portion 120. [ And may be located on a platform device side damping plate 123 provided in a plate shape located at least one corner on each corner surrounding the first base support 111. [

The antenna body mounting portion 600 includes an antenna body mounting portion 610 and an antenna body attenuating portion 670.

The antenna body mounting portion 610 is provided to mount the antenna body.

Includes an assembly wall 651 and an assembly hole 652 for mounting the antenna body on both sides of the longitudinally long plate structure and includes a seating wall 653 and a seating portion 654 at a central portion of the plate structure .

The antenna body attenuator 670 is disposed on the upper side of the body portion base plate and is attached to at least a part of the antenna body to reduce vibrations generated during transportation.

The antenna body damping unit 670 includes an antenna body fixing unit 672 for fixing the antenna body fixing unit, an antenna body buffering unit 673 connected between the antenna body fixing unit and the antenna body fixing unit, (631, 633).

The antenna body attenuator 670 includes a first antenna body attenuator and a second antenna body attenuator,

The first antenna body attenuator and the second antenna body attenuator fix both sides of the lower surface of the antenna body mount.

The antenna body buffer parts 631 and 633 are fixed to the antenna body mounting part 610 by using a pair of additional fixing parts 661 and 662.

Also, the sub-assemblies 680 are assembled to the portion where the antenna body attenuator 670 is assembled.

A separate moving mechanism 700 can be assembled in the moving mechanism assembly space, and a plurality of table devices 800 can be assembled in series. The table device 800 includes a table portion 810, a leg portion 820, and a support portion 830.

It is possible to assemble the citation apparatus 900 capable of hanging the rope at the time of citation and to assemble the driving unit citation apparatus 910 and the antenna side citation apparatus 920 and the rope hanging sections 913 and 923, (911, 921), respectively.

FIG. 7 is a diagram illustrating an effect of a vibration reduction transportation device of a long-range radar antenna according to an embodiment of the present invention.

In Fig. 7, it is preferable that the vibration reduction transport device of the long-range radar antenna needs to select the number of buffer parts in consideration of the shape and total weight of the large radar, and the buffer part preferably includes an isolator.

 Isolator is a shock absorber of metallic material. Specifically, the ISOLATOR is a metal made of a stainless steel wire rope spirally passed between two retainers made of two aluminum alloys.

Changing the diameter, length, winding number, etc. of the wire rope changes the buffering effect of the ISOLATOR. By choosing the best ISOLATOR, the maximum buffering effect can be obtained, and the minimum SPACE can be installed. In addition, it is possible to buffer the component parts and the mounted devices, to mitigate the vibration, and to use it for alleviating the buffering vibration of various transportation means and industrial machinery.

It is necessary to select the number of isolators in consideration of the shape and total weight of the large radar, and the number and arrangement of the isolators of the moving device Can be determined.

Where Vertical Direction is the number of isolators N _v = 1/500 * W (W = total system weight, in kg)

Longitudinal Direction is the number of isolators N _L = 2F _L (F _L =

Transverse Direction: Number of isolators N _T = 2F _T (F _T = number of sides of the platform unit).

FIG. 7A is a diagram simulating an entire system of an antenna unit including a mobile device, utilizing a structural analysis program. FIG.

The isolator of the mobile device inputs the rigidity directly by means of a spring element, and performs dynamic characteristics analysis of the whole system. Usually, the frequency characteristics of the isolator used here are between 10 and 20 Hz, and the target frequency of the total system is set as follows. The target frequency setting is Vertical Direction: 10 ~ 20Hz, Longitudinal Direction: 5 ~ 30Hz, Transverse Direction: 5 ~ 30Hz.

Fig. 7 (b) shows the analysis of the dynamic characteristics of the mobile device and the large radar in the direction of the vertical direction by simulation.

Fig. 7 (c) shows the analysis of the transverse direction of the mobile device and the large radar by simulating the dynamic characteristics during transportation.

Fig. 7 (d) shows the analysis of the dynamic characteristics of the mobile device and the large radar in the direction of the longitudinal direction by simulation.

Determine the suitability of the mobile device by checking whether the 1st frequency of each system in each direction falls within the target frequency range.

FIG. 8 is a view illustrating a vibration reduction transportation method of a long-distance radar antenna according to an embodiment of the present invention.

Referring to FIG. 8, the vibration reduction transportation method of the long-distance radar antenna starts at step S110 in which the necessity of moving the large radar occurs from the user.

In step S120, the user confirms the purpose of movement, and determines whether the long distance radar antenna is moved to the radar site.

In step S130, when the antenna is moved to the radar site, a separate antenna integrated device is mounted, the antenna device is assembled to be carried, and a folding antenna vibration reduction transport device for moving the antenna integrated device is operated.

Since the movement to the radar site is the movement of the antenna unit, the mobile device shown in Fig. 4 is operated.

The mobile unit is loaded first on a 25-ton cargo truck, and the antenna unit is lifted at one time and placed on the mobile unit, tightened tightly with the mounting unit, base structure and bolts. At this time, torque wrench can be used to tighten the torque according to the bolt size.

If it is not the movement to the radar site in step S140, it is determined that the movement is for the near field test.

In step S150, when the mobile unit is moving for the near field test, a separate antenna unit is seated, the antenna unit is assembled to be carried, and the folding antenna vibration reduction transport apparatus for moving the antenna base unit is operated.

In the near field test, only the antenna moves, so that the mobile device of the type shown in FIG. 3 is operated.

3 and 4 can be converted in accordance with the purpose of movement, thereby reducing the cost.

In the mobile device of FIG. 4 in which only the antenna can be moved, the antenna hinge portion is fastened to the hinge portion seat portion with the bolt, and the upper portion of the antenna is fastened to the main antenna mounting portion so as to safely protect the sensor, can do.

In step S160, various electronic module sensors, array elements, and the like are safely protected from vibration and impact during transportation, and the vibration reduction transportation method of the long distance radar antenna is ended.

It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit or scope of the invention. Therefore, the scope of the present invention is not limited to the above-described embodiments, but should be construed to include various embodiments within the scope of the claims.

1: Vibration reduction transportation device of long distance radar antenna
10: base structure
20: Antenna part mounting part
100: first base structure
200: second base structure
300: drive unit mounting portion
400: Main antenna mount
500: platform device mounting portion
600: Antenna body mounting part

Claims (19)

A mounting part on which a separate antenna integrating device is seated and can be assembled to carry the antenna device;
A base structure to which the mounting portion is assembled; And
A buffer disposed between the base structure and the mounting part to reduce vibrations generated when the antenna integrated device is transported; Lt; / RTI >
The base structure unit may include: a first base structure unit positioned on a driving device side of the antenna integrated device; And
And a second base structure portion located on a main antenna portion side of the antenna integrated device,
The first base structure may include: a base plate including a plurality of holes for assembling a platform device mounting portion of the mounting portion;
A first base support portion of a partition structure located below the base plate; And
A base buffer for supporting the base plate between the base plate and the first base support; Wherein the vibration reduction transportation device comprises: The method according to claim 1,
The separate antenna integrated device may further comprise:
An antenna body portion including a main antenna portion and a driving device;
A wing portion attached to the antenna body portion and capable of expanding a radiation area; And
A platform device connecting the antenna body part and the mounting part; Lt; / RTI >
Wherein,
An antenna body mounting portion to which the main antenna portion is mounted; And
A platform device mounting unit to mount the platform device; Wherein the vibration reduction transportation device comprises: 3. The method of claim 2,
The second base structure may include:
At least one body part base plate for assembling the antenna body mounting part; And
A second base support part having a partition structure located below the body part base plate; Wherein the vibration reduction transportation device comprises: The method of claim 3,
The base buffer includes:
The base plate is formed to be relatively higher than the height of the base plate,
And a base fastening member inside the base buffer so as to be fixed to the first base support portion. The method of claim 3,
The second base structure may include:
A body portion base buffer portion for supporting the body portion base plate between the body portion base plate and the second base support portion; Further comprising:
The body portion base buffer portion includes:
Wherein the body portion base plate is formed to be relatively higher than a height of the body portion base plate,
And a body portion base fastening member inside the body portion base buffer portion to be fixed to the second base support portion. The method of claim 3,
Wherein the platform-
A platform device side damping unit attached to at least a part of the platform device to reduce vibrations generated during transportation; / RTI >
Wherein the platform device side-
A platform device attachment portion attached to the platform device side;
A fixing part for fixing the platform device attachment part; And
A platform device buffering part connected between the platform device attaching part and the fixing part to reduce vibrations generated during transportation; Wherein the vibration reduction transportation device comprises: The method according to claim 6,
Wherein the first base structure comprises:
A platform device side damping portion seat portion surrounding the first base support portion and forming a space for seating the platform device side damping portion; Further comprising:
The fixing unit includes:
Wherein the platform unit is fixed inside the platform unit side damping portion seat portion. The method according to claim 6,
Wherein the platform device side-
A first platform device side damping part attached to at least a part of the side of the platform device to reduce vibrations generated during transportation; And
A second platform device side damping part for seating at least a part of the lower end of the platform device to reduce vibrations generated during transportation; / RTI >
Wherein the first platform device side surface attenuation portion and the second platform device side surface attenuation portion fix the side surface and the bottom surface of the platform device. The method of claim 3,
The antenna body mounting portion includes:
An antenna body mounting portion including mounting walls on both sides of the plate member to receive the antenna body portion; And
An antenna body attenuator positioned above the body portion base plate and attached to at least a part of the antenna body portion to reduce vibrations generated during transportation; / RTI >
The antenna body attenuator may include:
An antenna body fixing part fixing the antenna body fixing part; And
An antenna body buffer portion connected between the antenna body mounting portion and the antenna body fixing portion to reduce vibrations generated during transportation; Wherein the vibration reduction transportation device comprises: 10. The method of claim 9,
The antenna body attenuator may include:
A first antenna body attenuator and a second antenna body attenuator,
Wherein the first antenna body attenuator and the second antenna body attenuator fix both sides of a bottom surface of the antenna body mount portion. An antenna mounting part on which a separate antenna part including a main antenna part and a driving device is seated and which can be assembled to carry the antenna part;
A base structure unit to which the antenna unit mount unit is assembled; And
An antenna unit buffering unit disposed between the base structure unit and the antenna unit mounting unit to reduce vibration generated when the antenna unit is transported; Lt; / RTI >
The antenna mounting part includes a main antenna mounting part to which the main antenna part is mounted; And a driving device mounting portion mounted to mount the driving device; / RTI >
The base structure may include: a first base structure portion located on the drive device side; And a second base structure portion located on the main antenna portion side,
The first base structure may include: a base plate including a plurality of holes for assembling the drive device mounting portion;
A first base support portion of a partition structure located below the base plate; And
A base buffer for supporting the base plate between the base plate and the first base support; Wherein the vibration reduction transportation device comprises: 12. The method of claim 11,
The second base structure may include:
At least one body portion base plate for assembling the main antenna mounting portion; And
A second base support portion of a partition structure located below the base plate; Wherein the vibration reduction transportation device comprises: 13. The method of claim 12,
The base buffer includes:
The base plate is formed to be relatively higher than the height of the base plate,
And a base fastening member inside the base buffer so as to be fixed to the first base support portion. 13. The method of claim 12,
The second base structure may include:
A body portion base buffer portion for supporting the body portion base plate between the body portion base plate and the second base support portion; Further comprising:
The body portion base buffer portion includes:
Wherein the body portion base plate is formed to be relatively higher than a height of the body portion base plate,
And a body portion base fastening member inside the body portion base buffer portion to be fixed to the second base support portion. 14. The method of claim 13,
Wherein the drive-
A driving device attenuation part attached to at least a part of the driving device to reduce vibrations generated during transportation; / RTI >
The drive device attenuator may include:
A hinge seating part attached to one surface of the hinge part of the driving device;
A hinge fixing part attached to the base plate and fixing the hinge fixing part; And
A driving device buffering part enclosing the first base supporting part and connected between the hinge fixing part and a space formed to receive the driving device attenuation part to reduce vibrations generated during transportation; / RTI >
The drive device attenuator may include:
A first driving device attenuator attached to at least a part of the right side of the hinge part of the driving device to reduce vibrations generated during transportation; And
A second driving device attenuator for seating at least a part of the left side of the hinge part of the driving device to reduce vibrations generated during transportation; / RTI >
Wherein the first driving device attenuator and the second driving device attenuator fix both sides of the driving device. 14. The method of claim 13,
The main antenna mounting portion includes:
A main antenna mounting part for mounting the main antenna part; And
A main antenna attenuator positioned above the body portion base plate and attached to at least a part of the main antenna portion to reduce vibrations generated during transportation; / RTI >
The main antenna attenuator includes:
A main antenna buffering part connected between the main antenna mounting part and the body part base plate to reduce vibrations generated during transportation; Lt; / RTI >
Wherein the main antenna attenuator comprises:
A first main antenna attenuator and a second main antenna attenuator,
Wherein the first main antenna attenuator and the second main antenna attenuator fix both sides of the lower surface of the main antenna mount portion. A mounting part on which the folding antenna device is seated and which can be assembled to carry the folding antenna device;
A base structure to which the mounting portion is assembled; And
A buffer disposed between the base structure and the mounting portion to reduce vibration generated when the folding antenna apparatus is transported; / RTI >
The foldable antenna device includes:
An antenna body portion including a main antenna portion and a driving device;
A wing portion attached to the antenna body portion and capable of expanding a radiation area; And
A platform device connecting the antenna body part and the mounting part; Lt; / RTI >
Wherein the wing portion includes at least one or more assembling modules to be connected to the antenna body portion in a folding structure,
A first wing portion extending to the right side of the antenna body portion; And
A second wing extending to the left side of the antenna body; Lt; / RTI >
Wherein one side of the first wing portion is connected to the first assembly module, one side of the second wing portion is connected to the second assembly module,
Wherein,
An antenna body mounting portion to which the main antenna portion is mounted; And
A platform device mounting unit to mount the platform device; Lt; / RTI >
The base structure includes:
A first base structure part located on the driving device side; And
And a second base structure portion located on the main antenna portion side,
Wherein the first base structure comprises:
A base plate including a plurality of holes for assembling the platform device mounting portion; And
A first base support portion of a partition structure located below the base plate; Lt; / RTI >
The second base structure may include:
At least one body part base plate for assembling the antenna body mounting part; And
A second base support part having a partition structure located below the body part base plate; Wherein the vibration reduction transportation device of the folding antenna of the long distance radar is characterized in that the vibration reduction transportation device of the folding type antenna of the long distance radar. 18. The method of claim 17,
Wherein the first base structure comprises:
A base buffer for supporting the base plate between the base plate and the first base support; Further comprising:
The base buffer includes:
The base plate is formed to be relatively higher than the height of the base plate,
And a base fastening member inside the base buffer so as to be fixed to the first base support,
The second base structure may include:
A body portion base buffer portion for supporting the body portion base plate between the body portion base plate and the second base support portion; Further comprising:
The body portion base buffer portion includes:
Wherein the body portion base plate is formed to be relatively higher than a height of the body portion base plate,
And a body portion base fastening member inside the body portion base buffer portion to be fixed to the second base support portion,
Wherein the platform-
A platform device side damping unit attached to at least a part of the platform device to reduce vibrations generated during transportation; / RTI >
Wherein the platform device side-
A platform device attachment portion attached to the platform device side;
A fixing part for fixing the platform device attachment part; And
A platform device buffering part connected between the platform device attaching part and the fixing part to reduce vibrations generated during transportation; Wherein the vibration reduction transportation device of the folding antenna of the long distance radar is characterized in that the vibration reduction transportation device of the folding type antenna of the long distance radar. 19. The method of claim 18,
Wherein the first base structure comprises:
A platform device side damping portion seat portion surrounding the first base support portion and forming a space for seating the platform device side damping portion; Further comprising:
Wherein the fixing portion is fixed in the platform device side damping portion seat portion,
Wherein the platform device side-
A first platform device side damping part attached to at least a part of the side of the platform device to reduce vibrations generated during transportation; And
A second platform device side damping part for seating at least a part of the lower end of the platform device to reduce vibrations generated during transportation; / RTI >
Wherein the first platform device side surface attenuation portion and the second platform device side surface attenuation portion fix the side surface and the bottom end of the platform device,
The antenna body mounting portion includes:
An antenna body mounting portion for mounting the antenna body portion; And
An antenna body attenuator positioned above the body portion base plate and attached to at least a part of the antenna body portion to reduce vibrations generated during transportation; / RTI >
The antenna body attenuator may include:
An antenna body fixing part fixing the antenna body fixing part; And
An antenna body buffer portion connected between the antenna body mounting portion and the antenna body fixing portion to reduce vibrations generated during transportation; Lt; / RTI >
The antenna body attenuator may include:
A first antenna body attenuator and a second antenna body attenuator,
Wherein the first antenna body attenuator and the second antenna body attenuator fix both sides of a bottom surface of the antenna body mount portion of the long-range radar.

Images