CN2901707Y - Polarized probe module type double polarized satellite wave collector - Google Patents

Abstract

A dualpolarized satellitic wave-concentrating device of polarized probe module type, comprising a wave directing tube with the internal as a wave directing chamber, and on one side of the wave directing tube a setting chamber is formed on whom a probe containing via connected with the wave directing chamber is arranged; A pair of polarized probe module comprises a vertically polarized probe that can define a vertical connecting section with a vertical receiver connected, a horizontally polarized probe that can define a horizontal connecting section with a horizontal receiver connected, and a connector that arranged in the probe containing via with the vertical connecting section and the horizontal connecting section, making the phase difference between the vertical receiver and the horizontal receiver in the wave directing chamber exactly 90 degrees; A output pin is arranged on the wave directing tube, and a circuit wafer is arranged in the wave directing chamber and connected electrically with the vertical connecting section, the horizontal connecting section, the output pin electrically.

Description

The dual polarization satellite wave collecting device of polarization probe module type

Technical field

The utility model is relevant with the satellite signals receiving equipment, is meant a kind of dual polarization satellite wave collecting device of the probe module type that polarizes in detail.

Background technology

Press, satellite wave collecting device (Low Noise Block down converter, LNB, low noise frequency reducing amplifier) mainly in order to receiving the faint high frequency satellite signals after disc-shaped antenna is concentrated, and after being amplified again down converted to the output of intermediate frequency in order to coaxial cable.

Only, with the satellite wave collecting device of present dual polarization pattern, mainly formed by a waveguide pipe, a circuit board, a horizontal polarization probe, a perpendicular polarization probe and a lead-out terminal; Wherein this waveguide pipe inside is formed with a guided wave room, this circuit board is arranged on this waveguide pipe, this lead-out terminal then is arranged on this waveguide pipe and with this circuit board and electrically connects, this horizontal polarization probe and this perpendicular polarization probe then are after penetrating one by one respectively in this waveguide pipe, respectively with one end and the welding of this circuit board, make the other end of this horizontal polarization probe and this perpendicular polarization probe can be inserted in this guided wave room, in order to receive the linear wave signal receive level (H) and vertical (V) respectively respectively, and carry out the processing of signal by this circuit board after, exported by this lead-out terminal.

So, because said structure is when assembling, its horizontal polarization probe and this perpendicular polarization probe must be arranged in respectively in this waveguide pipe in order, not only cause the complicated of assembling operation, also easily cause the position between horizontal polarization probe and this perpendicular polarization probe to produce error and make the reception of signal not good.Moreover because that waveguide pipe is generally metal material is made, and this level and perpendicular polarization probe also be that conductive metal material is made, therefore when this level and perpendicular polarization probe during in the reception signal, are easy to generate the problem of signal interference.

The utility model content

The purpose of this utility model is to provide a kind of dual polarization satellite wave collecting device of the probe module type that polarizes, and its location of assembling between comparatively convenient and each member is comparatively accurate.

For achieving the above object, the dual polarization satellite wave collecting device of the polarization probe module type that the utility model provides includes:

One waveguide pipe, inside are formed with a guided wave room, and this waveguide pipe one side is formed with an accommodation chamber, are formed with the probe containing hole of this guided wave room of connection in this accommodation chamber;

One dual polarization probe module has a perpendicular polarization probe, a horizontal polarization probe and a connecting piece; This perpendicular polarization probe can define a vertical connected section and a vertical receiver section that is connected with this vertical connected section, this horizontal polarization probe, can define a horizontal connected section and a horizontal receiver section that is connected with this horizontal connected section, this connecting piece is connected with this vertical connected section and this horizontal connected section and is arranged in this probe containing hole, make this vertical receiver section and this horizontal receiver section be arranged in this guided wave room and be 90 the degree phase differences;

One lead-out terminal is arranged on this waveguide pipe;

One circuit board is arranged in the accommodation chamber of this waveguide pipe, and vertical connected section with this, horizontal connected section and this lead-out terminal electrically connect.

The dual polarization satellite wave collecting device of described polarization probe module type, wherein this waveguide pipe has a body and a lid, this wave-wave room is formed at the inside of this body, and this guided wave room also is formed with the outside opening of a connection in order to collect satellite signals, this accommodation chamber is formed at a side of this body, and be formed with the outside output intercommunicating pore of a connection, in order to be communicated with this lead-out terminal; This lid is incorporated on this body, in order to seal this accommodation chamber.

The dual polarization satellite wave collecting device of described polarization probe module type, wherein this probe containing hole is made of one first hole and one second hole, this first hole is a strip hole, be communicated with this accommodation chamber and this guided wave room, this second hole is formed with predetermined angle from the ora terminalis in this first hole, be communicated with this accommodation chamber and this guided wave room, this first hole wears for this perpendicular polarization probe and this connecting piece, and this second hole wears for this horizontal polarization probe.

The dual polarization satellite wave collecting device of described polarization probe module type, wherein this perpendicular polarization probe is one by the body of rod that metal conductive materials was made into integration, this vertical receiver section is in order to receive vertical linear wave satellite signals, this horizontal receiver section is one by the body of rod that metal conductive materials was made into integration, and this horizontal receiver section is in order to receive the linear wave satellite signals of level.

The dual polarization satellite wave collecting device of described polarization probe module type, wherein this connecting piece is made by the dielectric insulation material.

The dual polarization satellite wave collecting device of described polarization probe module type, wherein vicinity two ora terminalis of this connecting piece are formed with first connect apertures and one second connect apertures that connects respectively, wear for this vertical connected section and this horizontal connected section respectively, and this vertical connected section and this horizontal connected section also slightly are exposed to respectively outside the end of this first and second connect apertures, and are connected with this circuit board.

The dual polarization satellite wave collecting device of described polarization probe module type, wherein this circuit board is amplified and frequency reducing in order to the satellite signals that will receive, this circuit board is provided with a Vertrical probe tie point, a horizontal probe tie point and an output connection, this Vertrical probe tie point is connected with this vertical connected section and electrically conducts, this horizontal probe tie point then is connected with this horizontal connected section and electrically conducts, and this output connection then is connected with this lead-out terminal and electrically conducts.

By enforcement of the present utility model, can carry out installation procedure (need not the program that the known technology gradation is installed) once, can not only significantly increase the convenience of assembling, just can guarantee the relevant position accuracy between this perpendicular polarization probe and this horizontal polarization probe.

Description of drawings

Fig. 1 is the three-dimensional exploded view of the utility model one preferred embodiment.

Fig. 2 is the combination partial sectional view of preferred embodiment shown in Figure 1.

Embodiment

For further understanding and approval being arranged, enumerate following preferred embodiment, and conjunction with figs. is illustrated in the back to feature of the present utility model and purpose:

See also Figure 1 and Figure 2, for the utility model one preferred embodiment provides a kind of dual polarization satellite wave collecting device (100) of the probe module type that polarizes, its consist predominantly of a waveguide pipe (10), a dual polarization probe module (20), a lead-out terminal (30) and a circuit board (40) and; Wherein:

This waveguide pipe (10) has a body (11) and a lid (12); This body (11) inside is formed with a rounded guided wave room (111), and this guided wave room (111) is formed with one and is communicated with outside opening (112) in order to collect satellite signals, this body (11) top surface side then is formed with an accommodation chamber (113), and is formed with the output intercommunicating pore (115) that a probe containing hole (114) and that is communicated with this guided wave room (111) is communicated with the outside in this accommodation chamber (113); Wherein, this probe containing hole (114) is made of one first hole (116) and one second hole (117), this first hole (116) is a strip hole, be communicated with this accommodation chamber (113) and this guided wave room (111), this second hole (117) is that the ora terminalis from this first hole (116) is formed with predetermined angle, be communicated with this accommodation chamber (113) and this guided wave room (111), and the radial centre lines of this second hole (117) and this guided wave room (111) is parastate.

This dual polarization probe module (20) has a perpendicular polarization probe (21), a horizontal polarization probe (22) and a connecting piece (23).This perpendicular polarization probe (21) is one by the body of rod that metal conductive materials was made into integration, and it can define a vertical connected section (211) and a vertical receiver section (212) that is connected with this vertical connected section (211).This horizontal polarization probe (22) is one by the body of rod that metal conductive materials was made into integration, and it can define a horizontal connected section (221) and a horizontal receiver section (222) that is connected with this horizontal connected section (221); And this horizontal connected section (221) is 90 angles of spending with this horizontal receiver section (222).This connecting piece (23), be one made by the dielectric insulation material, its contiguous two ora terminalis are formed with perforation both sides respectively, and (with the present embodiment is on connecting, downside) first connect apertures (231) and one second connect apertures (232), use respectively for the vertical connected section (211) of this perpendicular polarization probe (21) and the horizontal connected section (221) of this horizontal polarization probe (22) and wear, and make this vertical connected section (211) and this horizontal connected section (221) slightly be exposed to this first, outside one end of two connect apertures (231) (232), this vertical receiver section (212) and this horizontal receiver section (222) then be exposed to fully this first, outside the other end of two connect apertures (231) (232).

Thus, the dual polarization probe module (20) that this assembling is finished is placed in the probe containing hole (114) of this waveguide pipe (10), promptly be placed in this first hole (116) by this connecting piece (23), this horizontal receiver section (222) is then penetrated by this second hole (117), and be arranged in this guided wave room (111), and make this vertical receiver section (212) and this horizontal receiver section (222) be the angles (phase differences of 90 degree) of 90 degree by this vertical receiver section (212) and this horizontal receiver section (222).

This lead-out terminal (30) is arranged on the body (11) of this waveguide pipe (10), and its splicing ear (31) and penetrating in this output intercommunicating pore (115).

This circuit board (40) is arranged in the accommodation chamber (113) of this waveguide pipe (10) body (11), in order to handle satellite signals person (amplifying and the frequency reducing satellite signals).A Vertrical probe tie point (41) is gone up and be provided with to this circuit board (40), an one horizontal probe tie point (42) and an output connection (43), this Vertrical probe tie point (41) can be connected with the vertical connected section (211) of this perpendicular polarization probe (21) and electrically conduct, this horizontal probe tie point (42) then is connected with the horizontal connected section (221) of this horizontal polarization probe (22) and electrically conducts, this output connection (43) then is connected with the splicing ear (31) of this lead-out terminal (30) and electrically conducts, again the lid (12) of this waveguide pipe (10) is incorporated into this body (11) and goes up and sealed this accommodation chamber (113), promptly finish assembling of the present utility model.

Thus, make this vertical receiver section (212) can be in this guided wave room (111) in order to receive the linear wave satellite signals of vertical (V), and its signal is transferred in this circuit board (40), and carry out that signal is handled the back and the coaxial cable (not shown) that transfers to binding by this lead-out terminal (30) via this circuit board (40) by this vertical connected section (211); This horizontal receiver section (222) then in this guided wave room (111) in order to the linear wave satellite signals of reception level (H), and its signal is transferred in this circuit board (20), and carry out that signal is handled the back and the coaxial cable (not shown) that transfers to binding by this lead-out terminal (30) via this circuit board (40) by this horizontal connected section (221).

Thus, dual polarization probe module of the present utility model (20) then can carry out installation procedure (need not the program that the known technology gradation is installed) once, can not only significantly increase the convenience of assembling, just can guarantee the relevant position accuracy between this perpendicular polarization probe (21) and this horizontal polarization probe (22).

In addition, linked by the connecting piece (23) that insulate, therefore can reduce signal and produce the problem of disturbing by this this perpendicular polarization probe (21) and this horizontal polarization probe (22).

Claims (7)

1, a kind of dual polarization satellite wave collecting device of the probe module type that polarizes is characterized in that, includes:

One waveguide pipe, inside are formed with a guided wave room, and this waveguide pipe one side is formed with an accommodation chamber, are formed with the probe containing hole of this guided wave room of connection in this accommodation chamber;

One dual polarization probe module has a perpendicular polarization probe, a horizontal polarization probe and a connecting piece; This perpendicular polarization probe can define a vertical connected section and a vertical receiver section that is connected with this vertical connected section, this horizontal polarization probe, can define a horizontal connected section and a horizontal receiver section that is connected with this horizontal connected section, this connecting piece is connected with this vertical connected section and this horizontal connected section and is arranged in this probe containing hole, make this vertical receiver section and this horizontal receiver section be arranged in this guided wave room and be 90 the degree phase differences;

One lead-out terminal is arranged on this waveguide pipe;

One circuit board is arranged in the accommodation chamber of this waveguide pipe, and vertical connected section with this, horizontal connected section and this lead-out terminal electrically connect.

2, according to the dual polarization satellite wave collecting device of the described polarization probe module of claim 1 type, it is characterized in that, wherein this waveguide pipe has a body and a lid, this wave-wave room is formed at the inside of this body, and this guided wave room also is formed with the outside opening of a connection in order to collect satellite signals, this accommodation chamber is formed at a side of this body, and is formed with the outside output intercommunicating pore of a connection, is communicated with this lead-out terminal; This lid is incorporated on this body, seals this accommodation chamber.

3, according to the dual polarization satellite wave collecting device of the described polarization probe module of claim 1 type, it is characterized in that, wherein this probe containing hole is made of one first hole and one second hole, this first hole is a strip hole, be communicated with this accommodation chamber and this guided wave room, this second hole is formed with predetermined angle from the ora terminalis in this first hole, is communicated with this accommodation chamber and this guided wave room, this first hole wears for this perpendicular polarization probe and this connecting piece, and this second hole wears for this horizontal polarization probe.

4, according to the dual polarization satellite wave collecting device of the described polarization probe module of claim 1 type, it is characterized in that, wherein this perpendicular polarization probe is one by the body of rod that metal conductive materials was made into integration, this vertical receiver section receives vertical linear wave satellite signals, this horizontal receiver section is one by the body of rod that metal conductive materials was made into integration, and this horizontal receiver section receives the linear wave satellite signals of level.

According to the dual polarization satellite wave collecting device of the described polarization probe module of claim 1 type, it is characterized in that 5, wherein this connecting piece is the dielectric insulation material.

6, according to the dual polarization satellite wave collecting device of the described polarization probe module of claim 1 type, it is characterized in that, wherein vicinity two ora terminalis of this connecting piece are formed with first connect apertures and one second connect apertures that connects respectively, wear for this vertical connected section and this horizontal connected section respectively, and this vertical connected section and this horizontal connected section also slightly are exposed to respectively outside the end of this first and second connect apertures, and are connected with this circuit board.

7, according to the dual polarization satellite wave collecting device of the described polarization probe module of claim 1 type, it is characterized in that, wherein this circuit board is amplified and frequency reducing in order to the satellite signals that will receive, this circuit board is provided with a Vertrical probe tie point, a horizontal probe tie point and an output connection, this Vertrical probe tie point is connected with this vertical connected section and electrically conducts, this horizontal probe tie point then is connected with this horizontal connected section and electrically conducts, and this output connection then is connected with this lead-out terminal and electrically conducts.

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