KR101568010B1 - Vehicle equipped with radio operation system - Google Patents

Abstract

The present invention relates to a vehicle having a radio operating system, which comprises an antenna mounting means for mounting a radio antenna, a power supply for supplying power to the antenna, and a radio transceiver, A vertical panel mounted on an upper portion of a rear wall of the vehicle and a horizontal panel connected to an upper end of the vertical panel and horizontally formed with a plurality of fastening holes to which the antennas are coupled, And a connecting bar connecting the mounting members on both sides and being mounted across an upper portion of the vehicle.
The number of long antennas can be increased by providing mounting means for enduring the load so that a plurality of long antennas can be mounted on the upper part of the military command vehicle, thereby remarkably improving the operational capability.

Description

[0001] VEHICLE EQUIPPED WITH RADIO OPERATION SYSTEM [0002]

[0001] The present invention relates to a vehicle having a transceiver operating system, and more particularly, to a vehicle equipped with a mounting means capable of withstanding loads so as to mount a plurality of long antennas on an upper part of a military command vehicle, To a vehicle equipped with a transceiver operating system.

A general purpose vehicle (SUT: Sports Utility Truck) that combines the characteristics of a commercial truck and a sports car is being launched.

The ATV offers the advantages of four-wheel drive (4WD) capability in a cargo space (also known as a hardtop), which is a cargo space that can accommodate up to five passengers to carry the car, Is preferred. Especially, multipurpose vehicles have been selected as military vehicles and have been provided with enhanced durability and protection performance to meet the characteristics of military vehicles. In particular, the command vehicle must be capable of installing a number of antennas necessary to direct communications and other operations.

On the other hand, in Korean Patent Publication No. 1999-0060148, " antenna mounting structure for a car radio " has been disclosed. The prior art provides for a transceiver antenna to be provided between the rear combination lamp and the rear bumper at the rear of the vehicle without the need to mount the transceiver antenna at the ends of the trunk lid or luggage compartment and an antenna for the transceiver is fixed at one end, And fixed to the vehicle body panel by rivets. However, these prior art techniques are mainly related to a structure for mounting a small antenna mounted on a private sedan, and this technique has been difficult to apply to a large long antenna used as a military.

On the other hand, in the conventional military vehicle, mounting bases for mounting the antennas on both sides of the rear upper end are provided one by one so that a maximum of two long antennas can be mounted.

Accordingly, the need to mount a large number of long antennas has not been satisfied in recent years in order to sufficiently accommodate information transmitted and received on various channels.

SUMMARY OF THE INVENTION The present invention has been made in order to solve the problems of the prior art described above, and it is an object of the present invention to provide a mounting structure for mounting a plurality of long antennas on a military command vehicle, The present invention is directed to a vehicle equipped with a radio-operated operation system capable of remarkably improving its operational capability.

It is an object of the present invention to provide a vehicle including an antenna mounting means for mounting a transceiver antenna, a power supply device for supplying power to the antenna, and a transceiver handset, And a horizontal panel connected to the upper end of the vertical panel and formed horizontally and having a plurality of fastening holes to which the antennas are coupled, are installed on both sides of the vehicle rear wall, And a connection bar which connects the members and is mounted across the upper portion of the vehicle.

The mounting member includes a side vertical panel connected to the side of the vertical panel and a side horizontal panel connected to the upper end of the side vertical panel and formed with a fastening hole to which the antenna is coupled, .

The connection bar is formed in a long arc shape, and connection bridges are formed at both ends of the connection bar, and the connection bracket is tightly attached to the vertical panel and fastened by bolts.

The connection bar is characterized in that a plurality of antenna brackets are formed on the connection bar.

The antenna bracket may include a 'C' shaped base attached to an upper portion of the connection bar, and a circular support plate coupled to an upper portion of the base.

And a hook device for fixing the antenna in a state where the antenna is laid down is included in the upper part of the connection bar.

And a vertical support formed on an upper portion of the mounting plate and having a plurality of height adjusting holes formed in the longitudinal direction so that the connecting bracket of the connecting bar is bolted to the vehicle.

A battery mounting portion for detachably coupling a power supply for supplying power to the antenna is formed under a seat next to the driver, and the battery mounting portion includes a support protrusion protruding from both sides of the vehicle floor, And a case having a side plate.

And a handset mounting bracket detachably coupled to a connecting rod of a headrest coupled to a driver's back of the vehicle, the handset mounting bracket holding a plurality of the handset handsets.

The handset mounting table is composed of an upper horizontal plate and a lower vertical plate. The horizontal plate is provided with a through hole through which the connecting rod of the headrest passes, and the vertical plate is provided with a mounting portion having a mounting groove into which a clip of the handset is inserted .

According to the present invention, the number of long antennas can be increased by providing the mounting means to withstand loads so that a plurality of long antennas can be mounted on the upper part of the military command vehicle, thereby remarkably improving the operational capability .

1 is a perspective view of a vehicle equipped with a transceiver operating system according to the present invention;
FIG. 2 is an enlarged perspective view showing an 'antenna mounting means' in a vehicle equipped with a radio operating system according to the present invention;
3 is a front view showing an 'antenna mounting means' in a vehicle equipped with a radio operating system according to the present invention;
FIG. 4 is a side view showing an 'antenna mounting means' in a vehicle equipped with a radio operating system according to the present invention;
5 is a plan view showing an 'antenna mounting means' in a vehicle equipped with a radio operating system according to the present invention,
FIG. 6 is a perspective view showing a 'battery mounting portion' in a vehicle having a radio operating system according to the present invention;
FIG. 7 is a perspective view showing a 'handset mounting base' in a vehicle having a radio operating system according to the present invention;
FIG. 8 is a front view showing a 'device mounting base' in a vehicle equipped with a radio operating system according to the present invention; FIG.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

It is to be understood that both the foregoing general description and the following detailed description are exemplary and explanatory and are intended to provide further explanation of the invention as claimed. It does not mean anything.

In addition, the sizes and shapes of the components shown in the drawings may be exaggerated for clarity and convenience of explanation, and the terms defined specifically in consideration of the configuration and operation of the present invention may vary depending on the intention or custom of the user, operator It should be noted that the definitions of these terms should be made on the basis of the contents throughout this specification.

2 is an enlarged perspective view showing an 'antenna mounting means' in a vehicle equipped with a radio operating system according to the present invention; and FIG. 3 4 is a side view showing an 'antenna mounting means' in a vehicle equipped with a radio operating system according to the present invention, and FIG. 5 is a side view showing the 'antenna mounting means' FIG. 6 is a perspective view showing a 'battery mounting part' in a vehicle having a radio operating system according to the present invention, and FIG. 7 is a perspective view showing a battery mounting part according to the present invention. FIG. 8 is a perspective view of a vehicle equipped with a transceiver operating system according to the present invention. In a front view showing a "device mount.

1 to 8, a vehicle equipped with a radio operation system according to the present invention includes an antenna mounting means A to which a radio antenna is mounted, a power supply device 100 that supplies power to the antenna, And a transceiver handset (200).

The antenna mounting means A includes a vertical panel 22 mounted on the upper part of the rear wall 300 of the vehicle and a horizontal connection part connected to the upper end of the vertical panel 22, A mounting member 2 constituted by a horizontal panel 24 having a plurality of fastening holes 240 and installed on both sides of the vehicle rear wall 300; And a connecting bar (4) connecting the mounting members (2) on both sides and mounted across the upper part of the vehicle.

The mounting member 2 is formed in a shape of a letter "A" in cross section and is composed of a vertical panel 22 and a horizontal panel 24, and a plurality of fastening holes 240 are formed in the horizontal panel 24. The fastening holes 240 are substantially circular and have a plurality of holes for fastening the bolts around the fastening holes 240 so that the ends of the long antennas 600 can be inserted and coupled.

The vertical panel 22 is adhered to the rear wall 300 of the vehicle and then bolted thereto.

Here, the mounting member 2 further includes an auxiliary mount 3.

The auxiliary mounting bracket 3 includes a side vertical panel 32 vertically connected to the side surface of the vertical panel 22 of the mounting member 2 and a horizontal vertical panel 32 connected to the upper end of the side vertical panel 32, And a side horizontal panel 34 having a coupling hole 340 to which the antenna 600 is coupled.

As shown in the figure, two fastening holes 240 are formed in the horizontal panel 24, and one fastening hole 340 is formed in the side horizontal panel 34.

Therefore, a total of three long antennas can be mounted on the mounting member 2 on one side.

The number of antenna mounts can be increased as the number of the fastening holes 240, 340 is increased, and is preferably set in consideration of the load that the vehicle can support.

In other words, it is preferable to limit the number of antennas to be mounted on one mounting member 2 in consideration of an excessive load.

On the other hand, the connection bar 4 is a long pipe having an arc shape and is composed of two rows or three columns.

At both ends, a connecting bracket 42 is formed, and the connecting bracket 42 is closely attached to the vertical panel 22 and fastened with bolts.

The connection bar 4 has a plurality of antenna brackets 44 formed thereon.

The antenna bracket 44 includes a U-shaped pedestal 442 attached to an upper portion of the connecting bar 4 and a circular pedestal plate 444 coupled to an upper portion of the pedestal 442.

The antenna bracket 44 is equipped with a GPS antenna.

Therefore, by attaching the antennas to the mounting member 2 and the antenna bracket 44, up to nine antennas can be mounted.

On the other hand, a hook device (not shown) may be formed on the connection bar 4 to fix the antenna in a state where the antenna is folded down.

The hooking device is formed at the end of the hook so that the antenna can be folded back after being folded, thereby reducing the vibration of the vehicle which may be caused by the shaking load of the antenna during traveling.

The mounting plate portion 62 is mounted on the rear wall 300 of the vehicle and the connecting bracket 42 of the connecting bar 4 is bolted to the mounting plate portion 62, Further comprises a vertical support (6) in which a control hole (63) is formed in the longitudinal direction.

That is, when a maximum of three antennas 600 are mounted on each mounting member 2, the load is greatly increased. Therefore, the vertical support 6 is mounted to endure the load.

The vertical support 6 is formed to be wider than the upper portion of the upper portion and has a flat cross-sectional shape such that it can be closely attached to the rear surface and the side surface of the rear wall 300 of the vehicle.

6, a battery mounting portion 7 for detachably coupling a power supply 100 for supplying power to the antenna 600 is disposed under a seat next to the driver, .

The battery mounting portion 7 is composed of a base 74 protruding from both sides of the bottom of the vehicle and a case 74 having both side plates attached to the base 72.

7, a plurality of transceiver handsets 200 detachably coupled to a connecting rod 220 of a headrest 210 coupled to a driver's back of the vehicle, And a mounting handset mounting base (8) for mounting.

The handset mounting table 8 is composed of an upper horizontal plate 82 and a lower vertical plate 84 and a through hole through which the connecting rod 220 of the headrest 210 passes is formed in the horizontal plate 82 And the vertical plate 84 is formed with a mounting portion 842 having a mounting groove 841 into which a clip of the handset is inserted.

The mounting portions 842 are formed as a plurality of units so that a plurality of the transceiver handsets 200 can be mounted.

According to an embodiment of the present invention, as shown in FIG. 8, a shape is changed to be detachably coupled to a connecting rod 220 of a headrest 210 coupled to a driver's back of the vehicle, Or a device mounting base 300 on which the notebook can be mounted.

The apparatus mounting base 300 includes an upper horizontal plate 320 and a lower vertical plate 340. The horizontal plate 320 is provided with through holes 220 through which the connecting rod 220 of the headrest 210 passes, And a plurality of folding plates 360 hinged to the vertical plate 340 by a hinge 360 are formed.

The plurality of folding plates 360 may be bent at a proper angle or may be deformed into a suitable shape by spreading vertically.

The hinge 360 is a so-called angle hinge that is fixed at an angle of 15 degrees and 45 degrees. The hinge 360 is provided with a function for changing the angle when a force equal to or more than a predetermined value such as 30 Kg or 45 Kg is applied.

In the event of a collision of a vehicle, when the force is applied to the body of a person, it can be unfolded to minimize damage, and when not in use,

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments or constructions. Various changes and modifications may be made without departing from the spirit and scope of the invention. It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the appended claims.

A: antenna mounting means 2: mounting member
3: Auxiliary mount 4: Connection bar
8: Handset mounting base 22: Vertical panel
24: Horizontal panel 32: Side vertical panel
34: side horizontal panel 42: connecting bracket
44: antenna bracket 62:
63: height adjusting ball 72:
74: Case 82: Horizontal plate
84: Vertical plate 842:

Claims (9)

1. A vehicle comprising an antenna mounting means (A) on which a transceiver antenna is mounted, a power supply (100) for supplying power to the antenna, and a transceiver handset (200)
A vertical panel 22 mounted on the upper portion of the rear wall 300 of the vehicle and a plurality of fastening holes 240 formed horizontally and connected to the upper end of the vertical panel 22 and coupled to the antenna 600 A mounting member 2 composed of a horizontal panel 24 and mounted on both sides of the vehicle rear wall 300;
A connecting bar (4) connecting the mounting members (2) on both sides and mounted across the top of the vehicle;
And a control unit for controlling the vehicle. The method according to claim 1,
The mounting member 2 further includes an auxiliary mount 3,
The auxiliary mounting table (3)
A side vertical panel 32 vertically connected to a side surface of the vertical panel 22 of the mounting member 2 and connected to an upper end of the side vertical panel 32, And a side horizontal panel (34) having a fastening hole (340) formed therein. The method according to claim 1,
The connecting bar 4 is a pipe formed into a long arc, and is composed of two rows or three columns,
At both ends, connection brackets 42 are formed,
Characterized in that the connecting bracket (42) is connected to the vertical panel (22) of the mounting member (2). The method of claim 3,
A mounting plate portion 62 mounted on the rear wall 300 of the vehicle and having a plurality of heights such that the connecting bracket 42 of the connecting bar 4 is bolted to the mounting plate portion 62, And a vertical support (6) having a control hole (63) formed in the longitudinal direction. The method according to claim 1,
A battery mounting part 7 for detachably coupling a power supply device 100 for supplying power to the antenna 600 is formed under a seat next to the driver,
The battery mounting portion 7
And a case (74) having both side legs (72) protruding from both sides of the vehicle floor and side plates attached to the side legs (72). The method according to claim 1,
And a handset mounting table (8) detachably coupled to a connecting rod (220) of a headrest (210) coupled to a driver's back of the vehicle and for holding a plurality of handset handsets (200) ≪ / RTI > The method according to claim 6,
The handset mounting base (8)
An upper horizontal plate 82 and a lower vertical plate 84,
A through hole through which the connecting rod 220 of the headrest 210 passes is formed in the horizontal plate 82,
Wherein the vertical plate (84) is provided with a mounting portion (842) having a mounting groove (841) into which the clip of the handset (200) is inserted. The method according to claim 1,
(300) detachably coupled to a connecting rod (220) of a headrest (210) coupled to a driver's back of the vehicle, and configured to change its configuration to accommodate a wireless device controller or a notebook A vehicle having a radio operating system. 9. The method of claim 8,
The device mounting base 300
An upper horizontal plate 320 and a lower vertical plate 340,
A through hole 322 through which the connecting rod 220 of the headrest 210 passes is formed in the horizontal plate 320,
And a plurality of folding plates (360) hinged to each other by a hinge (360) are formed on the vertical plate (340).

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