JP4584432B2 - amplifier - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to an amplifier, and more particularly, to an amplifier including an amplification unit that amplifies a signal and a power supply unit for the amplification unit.
[0002]
[Prior art]
As an amplifier including an amplifying unit and a power supply unit, for example, there is a booster that amplifies a television broadcast signal received by an antenna and supplies it to a television receiver. This booster includes, for example, a built-in power supply type in which an amplification unit and a power supply unit are incorporated in one housing, and a power supply separation type in which the amplification unit and the power supply unit are housed in separate housings.
[0003]
[Problems to be solved by the invention]
The power supply built-in type booster has an advantage that a single housing can be provided, but there is a problem that the booster must be disposed, for example, in the vicinity of a commercial AC power supply, and the installation location is restricted. Furthermore, when the booster with a built-in power source is installed outdoors, it is necessary to house the casing in another drip-proof case, or a power outlet and plug having drip-proof performance. In the separated power supply type, the installation location of the amplifying unit is not limited to the vicinity of the commercial AC power supply, but separate casings are required for the power supply unit and the amplifying unit, resulting in an increase in cost. As described above, the built-in power supply type and the separated power supply type have advantages and disadvantages, respectively, and those suitable for the use environment of the booster are selected and used. Therefore, the manufacturer had to manufacture both types, and the construction company had to stock both types, which was cumbersome to manage.
[0004]
SUMMARY OF THE INVENTION An object of the present invention is to provide an amplifier that can be used for both a built-in power supply type and a power supply separation type, and can be easily managed.
[0005]
[Means for Solving the Problems]
The amplifier according to the present invention has a housing whose one surface is an open surface. The casing is provided with a lid that closes the open surface. An amplification case is provided in the housing. An input terminal and an output terminal are provided outside the amplification case, and an amplification unit is provided inside the amplification case. The amplifying unit amplifies the signal supplied from the input terminal and outputs the amplified signal to the output terminal. A power supply case is detachably attached to the amplification case. A power supply unit for supplying power to the amplification unit is provided inside the power supply case. Furthermore, a terminal is provided outside the power supply case. The power from the power supply unit is output from this terminal. When this terminal is connected to the output terminal of the amplification case, the signal amplified from the amplification section is input to this terminal. These cases are preferably waterproof. A first power supply terminal is provided on the open surface side of the casing in the amplification case. The first power supply terminal is connected to supply power to the amplifying unit. A second power supply terminal is provided on the open surface side of the housing in the power supply case. The second power supply terminal is connected to the power supply unit. In a state where the power supply case is mounted on the amplification case, a conductor is detachably connected between the first and second power supply terminals. It is desirable that the first and second power supply terminals are slightly smaller in width than the conductor and have flexibility so as to sandwich the conductor. When the power supply case is not attached to the amplification case, the power is supplied to the amplification unit by the connection between the terminal and the output terminal, between the output terminal and the amplification unit. A power supply separation unit is provided.
[0006]
In this amplifier, when the power supply case is attached to the amplification case and the first and second power supply terminals are connected by a conductor, the amplifier case can be used as a built-in power supply type. When connected to the terminal of the case, it can be used as a power source separation type. In particular, when used as a built-in power supply type, it is only necessary to connect the conductor between the first and second power supply terminals, so that the connection work is easy. Further, even when the power supply is separated from the power supply built-in type, it is easy to work because it is only necessary to remove the conductor from between the first and second power supply terminals.
[0007]
In the state where the power supply case is mounted on the amplification case, two linearly extending across the contact surface between the amplification case and the power supply case on the open surface side of the casing of the amplification case and the power supply case Each groove is located. The first power supply terminal is provided in the groove on the amplification case side of the two grooves, and the second power supply terminal is provided in the groove on the power supply case side of the two grooves. The conductor is accommodated between the grooves and connected to the first and second power supply terminals.
[0008]
When comprised in this way, a conductor and a 1st and 2nd power supply terminal do not protrude from a power supply case or an amplification case, and a housing | casing can be reduced in size.
[0009]
The conductor may be a fuse. In this case, when an excessive current flows from the power supply unit to the amplification unit, the fuse is blown, so that the amplification unit can be protected from the overcurrent.
[0010]
The amplification case and the power supply case may have a contact surface substantially perpendicular to the open surface of the housing. In this case, an engaging portion and a locking portion that can be mounted by moving the power supply case from the open surface side toward the inside of the housing are provided on these contact surfaces.
[0011]
If comprised in this way, a power supply case can be attached or detached with respect to an amplification case only by moving a power supply case in the direction perpendicular | vertical with respect to an open surface, and attachment or detachment work can be made easy.
[0012]
DETAILED DESCRIPTION OF THE INVENTION
The amplifier of one embodiment of the present invention has a housing 2 as shown in FIG. The housing 2 is formed in a flat rectangular parallelepiped shape with one surface open, for example, by synthetic resin. Although not shown, this open surface is closed by a lid.
[0013]
An amplification case 4 is attached in the housing 2. The amplification case 4 is formed in a metal rectangular parallelepiped shape having a waterproof structure, and a plug-type input terminal 6 and output terminal 8 are attached to one end face thereof. As shown in FIG. 2, the input terminal 6 and the output terminal 8 protrude outward from one end face of the casing when the amplification case 4 is attached to the casing 2. Therefore, notches 10 and 12 are formed on the end surface of the housing 2.
[0014]
As shown in FIGS. 3A and 3B, an amplification unit 14 is provided in the amplification case 4. The amplifying unit 14 amplifies a signal supplied from the input terminal 6, for example, a high frequency signal, specifically a television broadcast signal received by an antenna, and outputs the amplified signal to the output terminal 8. Further, in order to operate the amplifying unit 14 with the DC power supplied to the output terminal 8, a power supply separating unit 18 is provided between the output terminal 8 and the power supply terminal 14 </ b> P of the amplifying unit 14.
[0015]
That is, a power source blocking capacitor 16 is provided between the output terminal 8 and the output side of the amplifying unit 14, and one end of the high frequency blocking coil 20 is connected to the output terminal 8, and a backflow blocking diode 22 is connected to the other end. The cathode is connected to the power supply terminal 14P via the high frequency blocking coil 24. Reference numerals 26 and 26 denote bypass capacitors. Accordingly, the television broadcast signal from the amplifying unit 14 is supplied to the output terminal 8 through the power supply blocking capacitor 16, and the DC power supplied from the outside to the output terminal 8 includes the high frequency blocking coil 20, the backflow blocking diode 22, The power is supplied to the power supply terminal 14P of the amplifying unit 14 through the high frequency blocking coil 24.
[0016]
A power supply case 28 is also accommodated in the housing 2 as shown in FIGS. The power supply case 28 is also formed in a flat metal rectangular shape similar to the amplification case 4 and has a waterproof structure so that water does not enter inside. The main plane 29 of the power supply case is provided with terminals, for example, two power supply unit input terminals 30 and a power supply unit output terminal 32 that are both plug-type.
[0017]
A power supply unit 34 is provided in the power supply case 28. When the plug 35 connected thereto is connected to a commercial AC power source, the power source unit 34 converts the AC voltage from the commercial AC power source into a direct current and converts it into a predetermined DC voltage. The DC voltage from the power supply unit 34 is supplied to the power supply unit input terminal 30 via the high frequency blocking coil 36 as shown in FIGS. 3A and 3B, and the power supply unit input terminal 30 is supplied to the power supply blocking capacitor 38. Is connected to the power supply unit output terminal 32. A power superimposing portion 39 is formed by the high frequency blocking coil 36 and the power blocking capacitor 38. Reference numeral 40 denotes a bypass capacitor.
[0018]
Accordingly, as shown in FIG. 3A, when the output terminal 8 of the amplification case 4 and the power supply unit input terminal 30 are connected by a transmission line, for example, a coaxial cable, the output signal of the amplification unit 14 is output. The power is supplied to the power supply unit output terminal 32 via the terminal 8, the coaxial cable, the power supply unit input terminal 30, and the power supply blocking capacitor 38. When the power supply unit output terminal 32 is connected to a television receiver via a transmission line (not shown), for example, a coaxial cable, an amplified television broadcast signal is supplied to the television receiver.
[0019]
On the other hand, the DC voltage from the power supply unit 34 is supplied to the high-frequency blocking coil 36, the coaxial cable, and the output terminal 8, and is supplied to the amplification unit 14 as described above, and the amplification unit 14 operates. As shown in FIGS. 1 and 2, the plug 35 is led out of the housing 2 from a notch 41 on the end surface of the housing 2 where the input terminal 6 and the output terminal 8 are provided.
[0020]
The power supply case 28 is detachably attached to the amplification case 4. When the amplification case 4 and the power supply case 28 are accommodated in the housing 2, the end face 44 of the power supply case 28 is placed on the end face 42 opposite to the end face where the input terminal 6 and the output terminal 8 are provided. Touch. These contacting end surfaces 42 and 44 are surfaces perpendicular to the open surface of the housing 2. Locking portions 46, 46 are provided on the end surface 42, and engaging portions 48, 48 are provided on the end surface 44. By engaging the engaging portions 46, 46 and the engaging portions 48, 48, the power supply case 28 can be attached to the amplification case 4, and the engaging portions 46, 46 are detached from the engaging portions 48, 48. Thus, the power supply case 28 can be separated from the amplification case 4.
[0021]
The locking portions 46, 46 are formed in a triangular prism shape whose width increases as the distance from the end surface 42 of the amplification case 4 increases, and is arranged on the end surface 42 with a gap. Further, the engaging portions 48, 48 are triangular grooves having a width that increases from the end surface 44 toward the inside of the power supply case 28, and penetrate between the main plane 29 to the main plane facing the engaging groove 48. It is formed at a position corresponding to the locking portions 46, 46 in a shape complementary to the stopping portions 46, 46.
[0022]
By moving the power supply case 28 from the open surface of the housing 2 into the housing, that is, by moving the power supply case 28 substantially perpendicular to the open surface, the engaging portions 48, 48 are engaged with the engaging portions 46, 46. Can be locked. Moreover, what is necessary is just to move the power supply case 28 in the reverse direction to the time of latching, when releasing this latching state. Thus, the power supply case 28 can be attached to and detached from the amplification case 4 by moving the power supply case 28 along the direction perpendicular to the open surface of the housing 2, and the attachment / detachment work is easy. Further, the movement of the power supply case 28 in the direction perpendicular to the end face 44 is restricted. Further, since the engaging portion 46 and the engaging portion 48 are provided on the end surfaces 42 and 44, the engaging portion 46 and the engaging portion 48 do not protrude on the main planes 50 and 29, and this amplifier is miniaturized. be able to.
[0023]
Further, on the end surface 42 side of the main plane 50 of the amplification case 4, a recess 52 is formed that is orthogonal to the end surface 42 and opens to the main plane 50 side and the end surface 42 side. A concave portion 54 is also formed on the main plane 29 of the power supply case 28 so as to correspond to the concave portion 52 in a state where the amplification case 4 and the power supply case 28 are mounted. The recess 54 is also open on the main plane 29 side and the end face 44 side.
[0024]
As shown in FIG. 2, power terminals 56 and 58 are provided in the recesses 52 and 54. A conductor, for example, a conductive rod-shaped body 60 is connected between the power supply terminals 56 and 58. The power terminals 56 and 58 are made of a flexible metal and grip the rod-shaped body 60 from both sides in the length direction of the rod-shaped body 60. The rod-shaped body 60 is detachable from the power terminals 56 and 58. . In particular, since the recesses 52 and 54 are opened on the main planes 50 and 29 side, the rod-shaped body 60 can be easily attached and detached from the openings. Further, since the power terminals 56 and 58 and the rod-shaped body 60 are accommodated in the recesses 52 and 54, the power terminals 56 and 58 and the rod-shaped body 60 do not protrude on the main planes 50 and 29, and this amplifier is miniaturized. can do.
[0025]
As shown in FIGS. 3A and 3B, the power supply terminal 56 is connected to the anode of the backflow prevention diode 62, and the cathode is connected to a connection point between the high frequency prevention coil 24 and the cathode of the backflow prevention diode 22. ing. On the other hand, the power supply terminal 58 is connected to a connection point of the high frequency blocking coil 36, the power supply unit input terminal 30, and the power supply blocking capacitor 38. Accordingly, when a conductive rod-shaped body 60 is connected between the power supply terminals 56 and 58 as shown in FIG. 3B, the DC voltage from the power supply unit 34 is changed to the high frequency blocking coil 36, the power supply terminal 58, the rod-shaped body 60, The power is supplied to the power terminal 14P of the amplifying unit 14 through the power terminal 56, the backflow blocking diode 62, and the high frequency blocking coil 24, and the amplifying unit 14 operates.
[0026]
In the amplifier configured as described above, for example, when used as a built-in power supply type, the lid is opened and the engaging portion 48 is locked to the locking portion 46 in the housing 2 as shown in FIG. A power supply case 28 is attached to the amplification case 4. Then, the conductive rod-shaped body 60 is connected to the power terminals 54 and 56, and the lid is closed. In this state, the antenna is connected via a coaxial cable, and the output terminal 8 is connected to the television receiver via the coaxial cable. Further, the plug 35 is connected to a commercial AC power source. As a result, as described above, the DC voltage is supplied from the power supply unit 34 via the high frequency blocking coil 36, the power supply terminal 58, the conductor 60, the power supply terminal 56, the backflow blocking diode 62, and the high frequency blocking coil 24 to the power supply terminal 14P of the amplification unit 14. And the amplifying unit 14 operates. The television broadcast signal supplied from the antenna to the input terminal 6 is amplified by the amplifier 14 and supplied from the output terminal 8 to the television receiver. When actually used, the casing 2 is used in a state where the amplification case 4 is positioned on the lower side and the power supply case 28 is on the amplification case 4.
[0027]
When the power supply is separated from the built-in power supply type, the cover of the housing 2 is removed, and the power supply case 28 is moved in a direction perpendicular to the opening surface of the housing 2 and away from the housing 2. The locking of the engaging portion 48 with respect to the locking portion 46 is released. At the same time, the conductor 60 is also moved perpendicularly to the opening surface of the housing 2 and away from the housing 2, and is removed from the power supply terminals 56 and 58. After closing the lid, the housing 2 is placed in a predetermined position, and the power supply case 28 is placed in the vicinity of the commercial AC power supply. The input terminal 6 is connected to the antenna via a coaxial cable, the output terminal 8 is connected to the power source input terminal 30 via the coaxial cable, and the power source output terminal 32 is connected to the television receiver via the coaxial cable. Connecting. Further, the plug 35 is connected to a commercial AC power source.
[0028]
In this state, the DC voltage from the power supply unit 34 is amplified through the high frequency blocking coil 36, the power supply unit input terminal 30, the coaxial cable, the output terminal 8, the high frequency blocking coil 20, the backflow blocking diode 22, and the high frequency blocking coil 24. 14 is supplied to 14 power terminals 14P, and the amplifying unit 14 operates. On the other hand, the television broadcast signal supplied to the input terminal 6 is amplified by the amplifying unit 14, and the power block capacitor 16, the output terminal 8, the coaxial cable, the power unit input terminal 20, the power block capacitor 38, and the power unit output terminal 32. And supplied to the television receiver via a coaxial cable.
[0029]
Thus, this amplifier can be used in either a built-in power supply type or a power supply separation type. Further, in the integrated state, the locking portion 46 and the engaging portion 48 do not protrude from the main planes 50 and 29, and the conductive rod-like body 60 is also located in the recesses 54 and 56. This amplifier can be miniaturized without taking up space.
[0030]
In the above-described embodiment, the conductive rod-shaped body 60 is used, but a tubed fuse can be used instead. In this case, it is possible to prevent an excessive current from being accidentally supplied from the power supply unit 34 to the amplifier unit 14 in the built-in power supply type state. In the above embodiment, the amplification case 4 and the power supply case 28 have a waterproof structure. However, if the housing 2 has a waterproof structure, the amplification case 4 and the power supply case 28 do not need to have a waterproof structure. In the above embodiment, the commercial AC power source is converted to a DC power source. However, the voltage of the commercial AC power source may be converted into an AC voltage having a predetermined voltage.
In this case, the amplification unit 14 operates based on the AC voltage.
[0031]
【The invention's effect】
As described above, the amplifier according to the present invention can be used as either a built-in power source type or a power source separated type amplifier, and the manufacturer or the contractor only needs to manufacture or use one type of amplification. Saves time and effort. Further, since the change from the built-in power supply type to the separated power supply type or from the separated power supply type to the built-in power supply type can be easily performed, workability is improved.
[Brief description of the drawings]
FIG. 1 is an assembly diagram of an amplifier according to an embodiment of the present invention.
FIG. 2 is a plan view of the amplifier of FIG.
FIG. 3 is a block diagram when the amplifier of FIG. 1 is used as a power source separation type and a power source built-in type.
[Explanation of symbols]
2 Housing 4 Amplification case 6 Input terminal 8 Output terminal 14 Amplification unit 18 Power supply separation unit 28 Power supply case 30 Power supply unit input terminal (terminal)
34 Power supply part 46 Locking part 48 Engagement part 56 Power supply terminal (first power supply terminal)
58 Power supply terminal (second power supply terminal)
60 Conductive rod (conductor)

Claims (3)

A housing with one side open,
An amplification case provided in the housing, having an input terminal and an output terminal outside, amplifying a signal supplied from the input terminal inside and outputting the amplified signal to the output terminal;
A power supply unit for supplying power to the amplifying unit is internally provided, and a power source is output from the power source unit, and a terminal to which an amplified signal is input from the amplifying unit when connected to the output terminal. A power supply case provided outside and provided detachably with respect to the amplification case in the housing;
A first power supply terminal provided on the open surface side of the housing in the amplification case and connected to be able to supply power to the amplification unit;
A second power supply terminal provided on the open surface side of the housing in the power supply case and connected to the power supply unit;
A conductor for detachably connecting between the first and second power supply terminals in a state where the power supply case is mounted on the amplification case;
Provided between the output terminal and the amplifying unit so that the power is supplied to the amplifying unit by connecting the terminal and the output terminal when the power supply case is not attached to the amplifying case. Power supply separation unit,
In the state where the power supply case is mounted on the amplification case, the amplification case and the power supply case are respectively positioned on the open surface side of the casing in a straight line across the contact surface between the amplification case and the power supply case. With two grooves to
The first power supply terminal is provided in the groove on the amplification case side of the two grooves, the second power supply terminal is provided in the groove on the power supply case side of the two grooves, An amplifier is accommodated between the grooves and connected to the first and second power supply terminals .   2. The amplifier of claim 1, wherein the conductor is a fuse.   2. The amplifier according to claim 1, wherein the amplification case and the power supply case have contact surfaces that are substantially perpendicular to an open surface of the housing, and the contact surfaces face the inside of the housing from the open surface side. The amplifier provided with the engaging part and the latching | locking part which can be mounted | worn by moving the said power supply case.

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