KR20030040561A - Lnb holder for satellite antenna - Google Patents

Abstract

The present invention relates to an LNB holder for a satellite antenna, comprising: an arm end cap which covers an end portion of an LNB arm and has an uneven surface formed on both outer sides thereof; Cap openings having an allowable width up and down compared to upper and lower side widths of the arm end caps to which the arm end caps can be inserted are formed to be open to one side, and each uneven surface of the arm end caps is formed on both inner surfaces of the cap insertion portion. And a holder base on which a concave-convex surface that can make corresponding contact with each other is formed, and a guide rail portion having a transverse guide groove that can slide left and right outside the sealed end; A circumferential guide that can be circumscribed between the feed horn and the LNB and is symmetrically assembled up and down by a fastening screw and inserted into the transverse guide groove is integrated at the lower end of the member. Characterized in that it comprises a pair of ring cover formed, according to the above structure, even after the installation of the feed horn deflecting the fastening screw loosen the fastening screw and the position of the holder base to move up and down as well as the Sliding the ring cover to the left and right to simply operate, so that the position of the modified slightly modified horn can be very simply adjusted, there is an advantage that can always receive the radio wave in the optimal state.

Description

LNB holder for satellite antenna {LNB holder for satellite antenna}

In recent years, with the advent of digital satellite broadcasting, satellite broadcasting has become popular and the demand for satellite antennas continues to increase.

Antennas for receiving such satellite broadcast signals include dipole antennas, horn antennas, reflector antennas, phase-array antennas, and the like. And purposes are different.

Of these, the most commonly used antennas are reflector antennas (so-called dish antennas) that are simple in structure, light in weight, and relatively easy to install.

Such a reflector plate antenna is provided with a reflector support 13 including a pole 13a extending in a vertical direction from the base plate 13b, as shown in FIGS. 3 and 4 of the drawings of the present invention. An antenna assembly such as a reflector plate 10 is mounted on the pole 13a. The antenna assembly includes a dish-shaped reflector plate 10 for reflecting a radio wave signal, a feed horn 16, and focused at the feed horn 16 at a specific position with respect to the reflector plate 10. A low noise block-down converter (hereinafter referred to as 'LNB') 15 for low noise amplification and frequency down of radio waves is provided. The horn horn 16 and the LNB 15 form a reflection signal pickup portion, and the LNB arm 14 is used to arrange the reflection signal pickup portion at a predetermined position with respect to the reflection plate 10. An LNB holder (H) is mounted at the tip of the LNB arm (14) to fix the LNB (15) and the feed horn (16) by the LNB holder (H).

The signal from the LNB 15 is input to a receiver (not shown) of the receiver via a cable. The reflector 10 of the antenna forms a reflecting surface 10a consisting of a flat or curved surface, mainly a paravoid surface (parabolic surface), and is designed in various sizes according to a signal to be received.

The horn horn 16 and the LNB 15 are typically fixed to the front of the reflector 10, and are disposed to be spaced apart from the reflector by a focal length of the reflecting surface.

In addition, according to the method of focusing the signal reflected by the reflector and the shape of the reflector, a paraboloid antenna, a cassgrain antenna, a Gregorian antenna, and a Horn reflector antenna ), Etc.).

Satellite antennas of such various methods should be capable of exhibiting high gain, high efficiency, and high directivity. In other words, the signals transmitted by satellites floating over the earth and rotating with the earth are highly directional, so the direction of the antenna must be precisely aligned to the satellites. In the case of departure, signal reception is often completely cut off unlike in general airwave broadcasting. In particular, this orientation has deepened along with digital satellite broadcasting.

Therefore, since the satellite antenna must maintain high directivity, considerable efforts must be made to install the satellite antenna in the correct direction.

The satellite antenna installation method used until recently is a manual method, where one person adjusts the direction of the antenna reflector and the other person watches the indoor receiver and continuously adjusts the direction of the reflector until the screen is best displayed. Based on the position information of the satellite (azimuth and elevation (altitude)), the direction of the satellite antenna is adjusted by the goniometer 12 or the compass and directed to the approximate satellite direction, and then the electric field strength measuring device, that is, the satellite signal level Trial and error, such as connecting the meters and looking back and forth through the antenna direction until the satellite signal is acquired, and once the minute signal is captured, finely adjusts again while watching the captured signal level.

As such, the installation of satellite antennas requires a great deal of technical work, which requires more technicians, which not only adds to the installation cost, but even if correctly installed, the antenna may be turned around due to carelessness or external environment. There was a problem that the direction of the antenna should be reset.

The solution thus presented is to install a satellite antenna in a simple way using the sun or other celestial position. However, in this method, when a component such as the LNB arm 14 of the satellite antenna is deformed during distribution, assembly, or installation, the adjustment position (focus point) is incorrect. That is, since the horn horn 16 for focusing the radio waves is not in the normal position with respect to the reflector 10, even if the reflector 10 is correctly set toward the stationary satellite, poor reception can be caused.

Therefore, in the case where the focus deviation occurs in the bread horn in this way, a clear and simple correction method is urgently needed.

If this is not solved, in order to adjust the angle of the reflector 10 by the relative position calculation method between the celestial body and the stationary satellite using a celestial object, additional satellite signal measurement is performed to correct the deviation of the focus point of the antenna itself. There is a hassle of fine adjustment using a measuring instrument. Therefore, the present invention is intended to provide a means for solving this in the antenna itself.

The present invention relates to an L & N holder for a satellite antenna, and in particular, in the antenna system for setting the position of the satellite antenna by calculating a relative position between a reference object such as a celestial body or a specific feature and a specific stationary satellite, the LNB holder itself The present invention relates to an L & N holder for a satellite antenna capable of receiving a radio wave in an optimal state by providing a means for finely adjusting the left and right directions so as to easily correct the focal deviation of the feed horn.

1 is a perspective view illustrating a coupling state of an LNB holder for a satellite antenna according to a preferred embodiment of the present invention.

2 is an exploded perspective view of an LNB holder for a satellite antenna according to the embodiment of the present invention.

3 illustrates an example of a satellite antenna to which the LNB holder of the present invention is applied, and is a schematic side view of the satellite antenna illustrating a process of adjusting the position of the feed horn by the micromanipulation of the LNB holder.

4 is a schematic front view of a satellite antenna illustrating a process of adjusting the position of the feed horn by the micromanipulation of the LNB holder according to the present invention.

Figure 5 is a perspective view of a satellite antenna showing an example in which the wire to adjust the azimuth angle is mounted on the LNB holder according to the present invention.

6A and 6B are schematic longitudinal cross-sectional views partially illustrating the process of finely adjusting the position of the feed horn up or down by inserting an arm end cap into the holder base applied in the present invention.

The present invention has been proposed to solve the above problems, the object of which is to calculate the relative position between a reference object, such as a celestial object or a specific feature and a specific geostationary satellite in setting the position of the satellite antenna By providing a means for fine adjustment in the LNB holder itself in the vertical and horizontal directions, it is possible to easily compensate for the deviation of the focus position of the feed horn, thereby providing an antenna holder for satellite antenna that can always receive the radio wave in an optimal state. have.

An LNB holder for a satellite antenna according to the present invention for achieving the above object is an arm end which is covered on the end of the LNB arm of the satellite antenna and the irregular surface is formed uniformly along the longitudinal direction of the LNB arm on both outer surfaces. A cap; Cap openings having an allowable width up and down compared to upper and lower side widths of the arm end caps to which the arm end caps can be inserted are formed to be open to one side, and each uneven surface of the arm end caps is formed on both inner surfaces of the cap insertion portion. And a holder base on which a concave-convex surface that can make corresponding contact with each other is formed, and a guide rail portion having a transverse guide groove that can slide left and right outside the sealed end; A circumferential guide that can be circumscribed between the feed horn and the LNB and is symmetrically assembled up and down by a fastening screw and inserted into the transverse guide groove is integrated at the lower end of the member. Characterized by comprising a pair of ring cover formed.

Long holes are formed on both side surfaces of the holder base in the vertical direction, and screw holes are formed on both side surfaces of the arm end cap, and the arm end caps are inserted at predetermined positions in the holder base to adjust the vertical height of the feed horn. Afterwards, it is preferable to fasten the fastening screw through the long hole and the screw hole to fix the position.

In addition, the holder base and the arm end cap is preferably such that the graduation is formed so that the height can be measured when the insertion position by coupling between the uneven surface.

In addition, it is preferable that a locking step is formed around the open end of the arm end cap so that it can be caught in the holder base so as not to be inserted into the holder base.

In addition, a threaded hole penetrating the transverse guide groove is formed in the guide rail portion of the holder base, a long hole is formed in the transverse guide of the lower ring cover along the left and right direction, and the transverse guide is formed at a predetermined position of the guide rail portion. It is preferable that the insertion position is adjusted to the left and right direction of the feed horn through the screw hole and the long hole through which the fastening screw is fastened to fix the position.

In addition, it is preferable to form a scale on the transverse guide of the lower ring cover and the guide rail portion of the holder base so that the left and right positions thereof can be measured when inserted into the transverse guide groove.

In addition, the central upper portion of the upper ring cover is preferably such that the reference member which is a reference for measuring the position of the ring cover is formed to protrude upward.

In addition, the reference member is preferably formed so that a vertex is formed in the center thereof, the hook and the hook hole for hanging the wire to one side thereof.

In addition, when the diameter of the portion connecting the wire horn and the LNB is small inside the upper and lower ring covers, it is preferable to have an auxiliary fixing ring capable of pressing and fixing it.

The auxiliary fixing ring is formed with a cutout for extending the one side according to the diameter of the portion connecting the feed horn and the LNB, the inner surface of the opposite side of the cutout to facilitate the expansion of the auxiliary fixing ring It is preferable that the bent groove is formed so that, on the inner circumferential surface of the auxiliary fixing ring, the contact protrusions directed in the cylindrical direction are formed at equal intervals along the circumference so as to securely fix the LNB connection portion.

In addition, on the outer circumferential surface of the auxiliary fixing ring is formed a departure prevention protrusion along the circumferential surface, on the inner circumferential surface of the ring cover so that the seating groove is formed along the circumferential surface to receive and lock the separation prevention projection. This is preferred.

On the other hand, to achieve the above object, an antenna holder for an satellite antenna according to another embodiment of the present invention, the arm end cap is covered with the end of the LNB arm of the satellite antenna; The cap inserting portion having an allowable width up and down compared to the upper and lower sides of the arm end cap, and the cap inserting portion capable of inserting the arm end cap is open to one side, and the cap inserting portion is moved to a desired position on the inner space. A holder base having a guide rail having a transverse guide groove which can slide left and right outside the sealed end; A circumferential guide that can be circumscribed between the feed horn and the LNB and is symmetrically assembled up and down by a fastening screw and inserted into the transverse guide groove is integrated at the lower end of the member. Characterized by comprising a pair of ring cover formed.

Hereinafter, the LNB holder H for the satellite antenna according to the preferred embodiment of the present invention will be described in detail with reference to the accompanying drawings.

The satellite antenna to which the LNB holder H according to the present invention is applied is as shown in FIGS. 3 and 4. That is, a reflecting plate 10 having a concave reflecting surface 10a is provided, and a bracket 11 is provided on the rear surface of the reflecting plate 10 so as to be hinged with the pole 13a of the reflecting plate support 13. . The reflector 10 is rotatable around the hinge pin of the hinge, and the bracket 11 is provided with a goniometer 12 marked with a scale 12a to recognize the angle (altitude). good.

In addition, the LNB arm 14 is coupled to one side of the reflector 10, and the LNB 15 and the feed horn 16 are connected to the front end of the LNB arm 14 via the LNB holder H of the present invention. It is fixed.

LNB holder (H) according to a preferred embodiment of the present invention, as shown in Figures 1 and 2, the arm end cap 30 is coupled to the front end of the LNB arm 14, and the arm end cap 30 Overlaid on the outside of the holder) is fixed to the holder base 20 to be adjusted up and down, and the LNB fixing portion 40 is coupled to one end of the holder base 20 is fixed to enable the left and right adjustment It is composed.

The arm end cap 30 is covered with an end of the LNB arm 14 and is formed with a concave-convex surface 33 uniformly along the longitudinal direction of the LNB arm 14 on both outer sides, and the LNB arm ( An arm inserting portion 31 for opening the front end portion of the 31 is formed to be open, and a locking jaw 32 is formed around the opening to be locked so that it is no longer inserted when inserted into the holder base 20. It is. The uneven surface 33 is provided with a screw hole 34 into which the fastening screw 24a can be inserted.

The holder base 20 has an allowable width up and down compared to the upper and lower sides of the arm end cap 30, and the cap insertion portion 22 into which the arm end cap 30 can be inserted is opened to one side. On both inner surfaces of the cap inserting portion 22, uneven surfaces 22a are formed on the inner side surfaces of the arm end cap 30 so as to be able to correspond to the uneven surfaces 33 at the same time. A guide rail portion 21 having a transverse guide groove 21a that can slide left and right is formed.

On both sides of the holder base 20, long holes 24 are formed in the upper and lower width directions, respectively, on the same position with the screw holes 34 on both sides of the arm end cap 30, and the predetermined inside of the holder base 20. The arm end cap 30 is inserted into the position to adjust the vertical height of the feed horn 16, and then the fastening screw 24a is fixed through the long hole 24 and the screw hole 34 to fix the position. In the holder base 20 and the arm end cap 30, the scale 25 is formed so that the height and position of the holder base 20 and the arm end cap 30 can be measured by the coupling between the uneven surfaces 22a and 33. As shown in FIG. .

On the other hand, the LNB fixing part 40 is composed of a pair of ring covers 42 forming a semi-circular arc shape, wrapped around the connecting portion between the feed horn 16 and the LNB 15 to press the fastening screw 42c By forming a symmetrical shape that is assembled up and down by, the lower end of the ring cover 42 is integrally formed with a transverse guide 43 which is inserted into the transverse guide groove 21a and can slide left and right.

In addition, the guide rail portion 21 of the holder base 20 is formed with a screw hole 23 penetrating the transverse guide groove 21a, and the transverse guide 43 of the lower ring cover 42 is left and right A long hole 43a is formed along the direction, and the transverse guide 43 is inserted into a predetermined position of the guide rail portion 21 to adjust the left and right directions of the feed horn 16 and then the screw hole 23. And the fastening screw 23a through the long hole 43a is fastened to be able to fix the position.

In the transverse guide 43 of the lower ring cover 42 and the guide rail portion 21 of the holder base 20, a scale 43b is provided so that the left and right positions thereof can be measured when inserted into the transverse guide groove 21a. The reference member 44, which is a reference for measuring the position of the ring cover 42 with respect to the reflector 10, is protruded upward from the center upper portion of the upper ring cover 42.

Here, the reference member 44 has a vertex 44a formed at the center thereof, and a hook for hooking the wire 50 (see FIG. 5) between the reflector 10 and the LNB holder H at one side thereof. The structure 44b and the hook hole 44c are formed. In particular, the hook hole 44c is provided to hook the wire 50 having elasticity, such as a rubber band.

The structure in which the pair of ring covers 42 are coupled will be described in more detail, and flanges 42a are formed on both ends of each ring cover 42 so as to face each other, and a screw hole is formed in the flanges 42a. 42b) are formed to penetrate and fasten the fastening screw 42c in a state where the flange 42a and the screw hole 42b are coincident with each other.

On the other hand, as another embodiment of the present invention, the diameter of the portion connecting the bread horn 16 and the LNB 15 to the inside of the upper and lower ring covers 42 is fixed to the bread horn fixing portion 40. In this case, it may be formed in a structure including the further through the cylindrical auxiliary fixing ring 41 that can be fixed to this pressure.

The auxiliary fixing ring 41 is formed with a cutout portion 41b for extending one side thereof according to the diameter of the portion connecting the bread horn 16 and the LNB 15, and the cutout portion ( A bent groove 41a is formed on the opposite inner surface of the second fixing ring 41 so as to easily expand the auxiliary fixing ring 41, and the connection part of the LNB 15 is firmly formed on the inner circumferential surface of the auxiliary fixing ring 41. Abutment protrusion 41c directed in the cylindrical direction to be fixed is formed at equal intervals along the circumference.

In addition, on the outer circumferential surface of the auxiliary fixing ring 41, a separation preventing protrusion 41d is formed along the circumferential surface thereof, and the separation preventing protrusion 41d is accommodated on the inner circumferential surface of each ring cover 42 to be locked. The mounting groove 42d may be formed along the circumferential surface thereof.

In the embodiment described above, the height adjustment portion formed between the holder base 20 and the arm end cap 30, or the left and right position adjustment portion formed between the holder base 20 and the ring cover 42 in various other forms It is a little difficult to mention all the structure of the case because it can be modified and can vary widely. However, these various modifications will be appreciated as equivalent to the structure of the present invention.

For example, as one that can be replaced with the concave-convex surface 22a, 33 structure for the height adjusting portion formed between the holder base 20 and the arm end cap 30, the following configuration is possible. That is, the LNB holder for the satellite antenna according to the modified embodiment is compared with the arm end cap 30 which is covered on the end of the LNB arm 14 of the satellite antenna, and the side upper and lower widths of the arm end cap 30. The cap inserting portion 22 which has an allowable width up and down and into which the arm end cap 30 can be inserted is formed to be open to one side so that the cap inserting portion 2 is moved to a desired position on the inner space. The structure of the holder base 20 can be disclosed.

The above embodiment is a structure in contact between the smooth surface without the uneven surface (22a, 33), sliding the arm end cap 30 in the holder base 20 to move to the desired vertical position after tightening screw It can be said that it is a structure which fixes the position by 24a. Unlike the case where the uneven surfaces 22a and 33 are formed, when the position of the arm end cap 30 is to be changed, it is completely detached to the outside of the cap inserting portion 22 of the holder base 20 and then recombined. There is no need, simply loosen the fastening screw 24a to move the arm end cap 30, and then fasten again.

In addition, in order to more stably implement the vertical sliding movement of the arm end cap 30, the guide rail in the vertical direction between the contact surface of the holder base 20 and the arm end cap 30 may be formed.

In addition, as another replaceable embodiment for the left and right position adjustment portion formed between the holder base 20 and the ring cover 42, as opposed to the first embodiment described above, the transverse to the closed end of the holder base 20 The guide rail may be formed on the lower end of the ring cover 42.

As described above, the LNB holder H according to the present invention is characterized by the vertical movement between the holder base 20 and the arm end cap 30 and the horizontal movement between the holder base 20 and the ring cover 42. This allows fine adjustment of the position of the horn horn. In particular, the adjustment process for the vertical direction is as shown in more detail in Figures 6a and 6b.

For reference, FIG. 5 is equipped with a wire 50 having a scale 51 formed between the reference member 44 and the reflecting plate 10 provided in the present invention, and the scale on the reflecting surface 10a of the reflecting plate 10. An example of a satellite antenna inscribed with a scale 10b that can intersect 51 is shown. As such, the ring cover 42 includes a structure capable of coupling a wire 50, and the wire The scale 50b on the 50 and the reflecting plate 10 enables implementation of a configuration that can more accurately set the azimuth and elevation angles for the object or the specific stationary satellite.

As described above, according to the LNB holder for satellite antenna according to the present invention, the LNB holder itself in the antenna method for setting the position of the satellite antenna by calculating the relative position between a reference object, such as a celestial object or a specific feature, and a specific stationary satellite. By providing means for fine adjustment in up, down and left and right directions, even if the position of the feed horn is deflected, after loosening the fastening screw, insert the holder base by moving the position up and down and sliding the ring cover left and right. Since it is simple to operate, it is very easy to adjust the position of the slightly deformed horn horn to correct the focus deviation, and also has the advantage of always receiving the radio wave in an optimal state.

Therefore, the degree of deformation can be directly corrected by the general person without the need for mobilizing technicians or using other expensive equipment, thereby significantly reducing the additional maintenance cost according to the direction adjustment of the antenna.

Although the present invention has been described with reference to the embodiments shown in the accompanying drawings, this may be regarded as exemplary, and a person of ordinary skill in the art may conceive various modifications and equivalent embodiments therefrom. It should be understood that such equivalent embodiments are also included within the claims of the present invention. Therefore, the true scope of protection of the present invention should be determined only by the appended claims.

Claims (12)

An arm end cap overlying an end of the LNB arm of the satellite antenna and having an uneven surface uniformly along the longitudinal direction of the LNB arm on both outer sides thereof; Cap openings having an allowable width up and down compared to upper and lower side widths of the arm end caps to which the arm end caps can be inserted are formed to be open to one side, and each uneven surface of the arm end caps is formed on both inner surfaces of the cap insertion portion. And a holder base having a concave-convex surface which can be in contact with each other at the same time, and having a guide rail having a transverse guide groove which can slide left and right outside the sealed end; And A circumferential guide that can be circumscribed between the feed horn and the LNB and is symmetrically assembled up and down by a fastening screw and inserted into the transverse guide groove is integrated at the lower end of the member. L pair holder for a satellite antenna, characterized in that comprises a; pair of ring cover formed. According to claim 1, Long holes are formed on both side surfaces of the holder base in the vertical direction, and screw holes are formed on both side surfaces of the arm end cap, and the arm end caps are inserted at predetermined positions in the holder base to adjust the height of the feed horn. After that through the long hole and screw hole through the fastening screw through the satellite antenna, the LNB holder for satellite antenna, characterized in that the position can be fixed. The method of claim 1, The holder base and the arm end cap is LNB holder for a satellite antenna, characterized in that the graduation is formed so that the height can be measured when the insertion position by coupling between the uneven surface. The method of claim 1, And an engaging jaw formed around the open end of the arm end cap so that it can be caught so that it is no longer inserted when inserted into the holder base. The method of claim 1, The guide rail portion of the holder base is formed with a screw hole penetrating the transverse guide groove, the transverse guide of the lower ring cover is formed with a long hole along the left and right directions, the transverse guide is inserted at a predetermined position of the guide rail portion After adjusting the left and right position of the feed horn through the screw hole and the long hole through the fastening screw through the satellite antenna, the antenna holder for the antenna. The method of claim 1, The lateral guide of the lower ring cover and the guide rail portion of the holder base when the insertion is inserted into the lateral guide groove, the scale is formed so as to measure the left and right position of the antenna antenna for L antenna. The method of claim 1, An LNB holder for a satellite antenna, characterized in that the reference member that is a reference to measure the position of the ring cover protrudes upward from the center of the upper ring cover. The method of claim 7, wherein The reference member has a vertex formed in the center thereof, the satellite antenna LNB holder characterized in that a hook and a hook hole for hanging the wire to one side is formed. The method of claim 1, The upper and lower ring cover, the inner part of the antenna ring antenna for LNA, characterized in that when the diameter of the portion connecting the wire horn and the LNB is small, there is an auxiliary fixing ring that can be fixed by pressing. The method of claim 9, The auxiliary fixing ring is formed with a cutout for extending the one side according to the diameter of the portion connecting the feed horn and the LNB, the inner surface of the opposite side of the cutout to facilitate the expansion of the auxiliary fixing ring A bent groove is formed so that an L & N holder for satellite antenna is formed on the inner circumferential surface of the auxiliary fixing ring in such a manner that the contact protrusions directed in the cylindrical direction are formed at equal intervals along the circumference so as to securely fix the LNB connection portion. . The method of claim 9, On the outer circumferential surface of the auxiliary fixing ring is formed a departure prevention protrusion along the circumferential surface, On the inner circumferential surface of the ring cover characterized in that the seating groove is formed along the circumferential surface so as to receive and lock the separation prevention projection LNB holder for satellite antenna. An arm end cap overlying the end of the LNB arm of the satellite antenna; The cap inserting portion having an allowable width up and down compared to the upper and lower sides of the arm end cap, and the cap inserting portion capable of inserting the arm end cap is open to one side, and the cap inserting portion is moved to a desired position on the inner space. A holder base having a guide rail portion having a transverse guide groove that can slide left and right outside the sealed end; And A circumferential guide that can be circumscribed between the feed horn and the LNB and is symmetrically assembled up and down by a fastening screw and inserted into the transverse guide groove is integrated at the lower end of the member. L pair holder for a satellite antenna, characterized in that comprises a; pair of ring cover formed.