KR102475533B1 - Communication signal transmission/reception unit and system containing the same - Google Patents

Abstract

The present invention relates to a first communication signal transmission/reception unit (30a) which comprises: a modulation unit (111) modulating a transmission signal; a first transmission filter (112) primarily removing noise of the modulated signal; a transmission amplification unit (113) amplifying the signal from which noise is removed by the first transmission filter (112); a second transmission filter (114) secondarily removing noise from the signal amplified by the transmission amplification unit (113); a first reception filter (115) primarily removing noise from the received signal; a reception amplification unit (116) amplifying the reception signal from which noise is primarily removed; a demodulation unit (117) demodulating the amplified reception signal; and a second reception filter (118) secondarily removing noise from the demodulated signal. Therefore, noise can be removed by installing additional filters.

Description

Communication signal transmitting and receiving unit and system including the same {COMMUNICATION SIGNAL TRANSMISSION/RECEPTION UNIT AND SYSTEM CONTAINING THE SAME}

The present invention relates to a communication signal transmitting and receiving unit and a system including the same.

Communication signal transmission/reception units used in recent communication systems are manufactured by integrating high-performance elements as high-performance and miniaturization are achieved.

A general communication circuit built in a communication signal transmission/reception unit includes a signal transmission unit including a modulation unit, a transmission unit, a transmission amplification unit, and a transmission filter for transmitting signals, a reception filter for receiving signals, a reception amplifier unit, and a signal demodulation unit. consists of a receiver.

The modulator sends the transmitted signal on the carrier wave, and the demodulator restores the signal wave included in the carrier wave. The transmitted signal is modulated and amplified, then transmitted through a filter and transmitted through a transmission tower, and the signal received through the antenna is filtered and amplified. and demodulated to receive a signal

In recent transceivers, a considerable amount of noise is generated while processing various signals. Therefore, in the present invention, noise is removed by adding a noise filter.

In addition, since a malfunction of the communication circuit 110 may occur due to heat generated from each unit in a communication equipment system in which a plurality of multifunctional communication signal units are stacked and stored, heat is generated from a plurality of units including the communication signal unit. I want to release it easily.

Registered Patent: No. 10-1007071-0000 (2011.01.03) Registered Patent: No. 10-0707905-0000 (2007.04.09)

In the present invention, noise can be removed by installing an additional filter in the communication signal transmission/reception unit 30a.

In addition, when the communication signal is transmitted/received, heat is generated in the unit 30a to prevent malfunction.

The present invention includes a modulator 111 for modulating a transmission signal; a first transmit filter 112 for firstly removing noise of the modulated signal; a transmit amplifier 113 amplifying the signal from which noise has been removed by the first transmit filter 112; a second transmission filter (114) for secondarily removing noise from the signal amplified by the transmission amplification unit (113); a first receiving filter 115 for firstly removing noise from the received signal; a reception amplifier 116 for amplifying the reception signal from which the noise has been primarily removed; a demodulation unit 117 demodulating the amplified received signal; and a second reception filter 118 for removing second-order noise from the demodulated signal.

The present invention includes a housing 10 into which the first communication signal transmitting and receiving unit 30a can be inserted and including an upper wall 11, both side walls 12, a bottom surface 13 and a rear surface 19; Guide walls 50 assembled to both side walls 12 of the housing 10, respectively; a second control unit (40) directly assembled to both side walls (12) at the bottom of both side walls (12) of the housing (10); and a first control unit 20 assembled to the guide wall 50, wherein the first communication signal transmission/reception unit 30a is located between the first and second control units 20 and 40, Assembled to the guide wall 50, the second control unit 40 has a first front part 42, a first upper surface 41, and a second facing downward from both sides of the first upper surface 41. It includes a side surface 43 and a cooling fan mounted therein, a ninth air passage part 47a is formed at both edges of the first upper surface 41, and the housing 50 has protrusions at both edges ( 51b) and a concave portion 51a between both edge protrusions 51b, and the ninth air passage portion 47a is matched with the concave portion 51a so as to be cooled by the cooling fan. It relates to a system for communication equipment characterized in that the discharged air rises from the ninth air passage portion (47a) through the concave portion (51a).

In the present invention, the housing 10 further includes third to eighth air passage portions 12a, 12b, 12c, 12d, 12e, and 12f formed on both side walls, and the concave portion 51a Air ascending through ) may be discharged to the outside through the third to eighth air passages 12a, 12b, 12c, 12d, 12e, and 12f.

In addition, in the present invention, the housing 10 includes a first protruding guide 15 into which the second control unit 40 can be fitted and fitted at the inner lower part of both side walls 12 and the first protruding guide 15 ), and the second control unit 40 includes a first concave guide 44 fitted with the first protruding guide 15, The guide wall 50 includes second to third protruding guides 52a and 52b into which the first control unit 20 and the first communication signal transmitting and receiving unit 30a can be matched and fitted, the second to third protruding guides 52a and 52b. It may include a second circular concave portion 56 formed in each of the guides 52a and 52b and a plurality of bolt holes 57 that may be assembled to the side wall 12 of the housing 10 .

In addition, in the present invention, the second control unit 40 has a first width W1, and the second width ( W2), and the protruding portion 51b at both edges has a third width W3, and the first width W1 is 2 of the third width W3 compared to the second width W2. It's as big as a dog combined.

In the present invention, noise can be removed by installing an additional filter in the communication signal transmission/reception unit 30a.

In the present invention, the second control unit 40 with a built-in cooling fan can be assembled at the end of the communication equipment system, and the upper surface 41 of the second control unit 40 has a plurality of air passage parts 47a. ), and the plurality of air passages allow the air supplied from the cooling fan to pass toward the sidewall of the system so that heat generated in the system can be discharged to the outside.

In addition, in the present invention, the second control unit 40 is directly assembled to the side wall 12 of the housing, and the plurality of units 20 and 30a located above the second control unit 40 have the guide wall 50 attached to the side wall. (12) and then assembled on the guide wall 50, so that the air discharged from the second control unit 40 can flow into the space between the guide wall 50 and the side wall 12. Easy structure made it possible to produce

1 is a schematic diagram of a transmission/reception circuit 110 mounted inside a communication signal transmission/reception unit 30a of the present invention.
2 is a perspective view of an assembled state of the communications system system 100 of the present invention.
3A is a perspective view of the housing 10 constituting the system 100 of the present invention.
3b is a perspective view of the guide wall 50 assembled to the housing 10.
3C is a perspective view of a state in which the guide wall 50 is assembled to the housing 10.
3D is a perspective view of a second control unit 40 fitted into the system 100.
3E is a perspective view of the first control unit 20 fitted into the system 100.
3F is a perspective view of the first communication signal transmission/reception unit 30a fitted into the system 100.
4 is a plan cross-sectional view of a state in which the guide wall 50 and the second control unit 40 are assembled to the housing 10 .
5a is another variant of the first control unit 20 .
5B is another modified example of the first communication signal transmission/reception unit 30a.
6 is a sectional view of the guide wall 50 .

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

The accompanying drawings show exemplary forms of the present invention, which are only provided to explain the present invention in more detail, and thereby the technical scope of the present invention is not limited thereto.

1 is a schematic diagram of a transmission/reception circuit 110 mounted inside the first to seventh communication signal transmission/reception units 30a, 30b, 30c, 30d, 30e, 30f, 30g of the present invention, the transmission/reception circuit 110 of the present invention The modulator 111 modulates the transmission signal, the first transmission filter 112 primarily removes noise of the modulated signal, and transmits amplifying the signal whose noise has been removed by the first transmission filter 112. An amplification unit 113, a second transmission filter 114 that secondarily removes noise from the signal amplified by the transmission amplification unit 113, a first reception filter 115 that firstly removes noise from the received signal, A reception amplifier 116 amplifies the received signal from which noise is primarily removed, a demodulator 117 demodulates the amplified reception signal, and a second reception filter 118 secondarily removes noise from the demodulated signal. ), it is intended to remove noise from a communication signal transmission/reception unit where various noises are generated.

Figure 2 is a perspective view of the assembled state of the communication system system 100 of the present invention, Figure 2b is a guide wall 50 assembled to the housing 10, Figure 2c is the guide wall 50 to the housing 10 This is a perspective view of the assembled state.

As shown in FIGS. 1 and 2B and 2C, the system 100 of the present invention includes a housing 10, a guide wall 50 assembled to the housing 10, and first and second guide walls 50 inserted into the housing 10. 1st to 7th communication signal transmission/reception units 30a, 30b, 30c, 30d, 30e, 30f, 30g inserted between the second control unit 20, 40 and the first and second control units 20, 40 includes

As shown in FIGS. 2A and 3 , the housing 10 includes a top wall 11 , both side walls 12 , a bottom surface 13 and a rear surface 19 .

First and second air passage portions 11a and 11b are formed on the upper wall 11, and third to eighth air passage portions 12a, 12b, 12c, 12d, 12e, and 12f are formed on both side walls, respectively. When formed, the air generated inside the system is discharged or outside air is introduced into the system to allow the heat generated inside the system to be discharged to the outside.

In addition, a first protruding guide 15 is formed at the inner lower portion of both side walls 12 , and a plurality of first circular concave portions 16 are formed along the first protruding guide 15 .

The first protrusion guide 15 is fitted into the first concave guide 44 formed on the side wall 43 of the second control unit 40, while the second control unit 40 is fitted into the side wall 12 of the housing. lose

In addition, a plurality of first circular convex portions 46 are formed on the first concave guide 44, and the position is adjusted while matching with the plurality of first circular concave portions 16.

The user assembles the second control unit 40 to the housing 10 by allowing the first circular convex portion 46 and the first circular concave portion 16 to be displaced by the user's pushing force. It is possible.

As shown in FIG. 2B, second to ninth protruding guides 52a, 52b, 52c, 52d, 52e, 52f, 52g, and 52h are formed on the guide wall 50, and the second to ninth protruding guides ( 52a, 52b, 52c, 52d, 52e, 52f, 52g, 52h) are formed with a plurality of second circular concave portions 56, respectively.

In addition, the guide wall 50 is formed with a plurality of bolt holes 57 for assembly with the side wall 12, and a plurality of bolt holes 57 for coupling with the bolt holes 57 are formed on the inner surface of the side wall 12. A screw hole 14 is formed.

The guide wall 50 is coupled to each of the side walls 12 on both sides.

As shown in FIG. 2E, a second concave guide 24 inserted into the second protruding guide 52a is formed on the side wall 23 of the first control unit 20, and the second concave guide 24 ) is formed with a plurality of second circular convex portions 26, so that the second circular concave portion 56 of the second protruding guide 52a and the second circular convex portion 26 are matched to the second control The unit 24 is assembled to the second projecting guide 52a of the guide wall 50.

Similarly, as shown in FIG. 2F, a third concave guide 34a is formed on the side wall 33a of the first communication signal transmission/reception unit 30a, and a plurality of third circular convex portions are formed on the third concave guide 34a. Since the portion 36a is formed, the second circular concave portion 56 of the third protruding guide 52b and the third circular convex portion 36a are matched and the first communication signal transmission/reception unit 30a is guided. It is assembled to the third projecting guide 52b of the wall 50.

The second to seventh communication signal transmission and reception units 30b, 30c, 30d, 30e, 30f, and 30g have the same structure as the first communication signal transmission and reception unit 30a, and the fourth to ninth projecting guides 52c and 52d , 52e, 52f, 52g, 52h) are assembled while being inserted.

The first width W1 of the second control unit 40 is larger than the second width W2 of the first control unit 20 and the first communication signal transmission/reception unit 30a, and the width of the guide wall 50 The cross section 51 viewed from the top consists of protrusions 51b on both edges and concave portions 51a between the protrusions 51b on both edges.

The guide wall 50 has a third width W3 that is the width of the protrusion and a fourth width W4 that is the depth of the concave portion 51a, and the first width W1 is the second width W1 as shown in FIG. It is larger than the width W2 by adding two of the third widths W3.

That is, W1 = W2 + 2 x W3.

The second control unit (40) includes a first front part (42), a first upper surface (41), and second side surfaces (43) facing downward on both sides of the first upper surface (41), A first handle 42a is formed on the first front part 42, and the user pulls or pushes the first handle 42a to assemble the second control unit 40 to the housing 10.

A ninth air passage part 47a is installed on both edges of the first upper surface 41, and the ninth air passage part 47a is aligned with the concave part 51a.

The first and second control units 20 and 40 are located at both ends of the first to seventh communication signal transmission and reception units 30a, 30b, 30c, 30d, 30e, 30f, and 30g, and the first to seventh communication signals Signals and power to operate the transceiver units 30a, 30b, 30c, 30d, 30e, 30f, and 30g are sent.

In addition, a cooling fan is installed inside the second control unit 40 to generate moving air, which is discharged along the second air passage part 47a and flows upward along the concave part 51a, and the housing The air is discharged to the outside through the third to eighth air passages 12a, 12b, 12c, 12d, 12e, and 12f formed on the side wall 12 .

In this way, while the air discharged from the second control unit 40 travels along the sidewall 12 of the housing, heat generated inside the housing is discharged to the outside.

In addition, a tenth air passage part 47b is also formed on the upper edge of the second side surface 43 so that the moving air generated by the cooling fan inside the second control unit 40 can be discharged, but most of the moving air It is discharged through the ninth air passage part 47a of the first upper surface 41.

The first control unit 20 also has a second handle 22a on the front side 22, and the first communication signal transmission/reception unit 30a also has a third handle 32aa on the front side 32a, so that the user can It is possible to assemble by holding the second handle or the third handle.

In addition, an eleventh air passage part 47c is formed in the center of the upper surface 41 of the second control unit 40, and the air discharged through the eleventh air passage part 47c is passed through the seventh communication signal transmission/reception unit. (30 g) can be supplied to the bottom.

4A and 4B are modified examples of the first control unit 20 and the first communication signal transmission/reception unit 30a, with a plurality of air passages 27a and 27b formed on the top surfaces 21 and 31a and the side surfaces 23 and 33a. ; 37aa, 37ab) are formed.

Although not shown, a plurality of air passages are formed on the bottom surfaces of the first control unit 20 and the first communication signal transmission/reception unit 30a, so that the first air passage part of the second control unit 40 ( 47c), the air discharged from the first control unit 20 and the first communication signal transmission and reception unit 30 passes through a plurality of air passages formed on the top, side and bottom surfaces of the communication signal transmission and reception unit and the control unit. The heat from the can be cooled.

In the present invention, the width of the second control unit 40 is larger than the width of the first control unit and the communication signal transmitting and receiving unit located at the top, and the air discharged from the edge of the upper surface of the second control unit 40 is directed to the side wall 12 of the housing. ) and the empty space of the guide wall 50 assembled on the side wall, and discharged to the outside through the third to eighth air passage parts 12a, 12b, 12c, 12d, 12e, and 12f formed on the side wall 12. This prevents heat generation inside the system.

In addition, it is possible to easily assemble the guide wall 50 to the side wall 12, and the user can easily assemble each unit to the housing 10 by holding the handle.

The above description is only an illustrative example of the technical idea of the present invention, and those skilled in the art will be able to make various modifications and variations without departing from the essential characteristics of the present invention. Therefore, the embodiments disclosed in the present invention are not intended to limit the technical idea of the present invention, but to explain, and the scope of the technical idea of the present invention is not limited by these embodiments. The protection scope of the present invention should be construed according to the claims below, and all technical ideas within the scope equivalent thereto should be construed as being included in the scope of the present invention.

10: housing 20: first control unit
30a, 30b, 30c, 30d, 30e, 30f, 30g: first to seventh communication signal transmitting and receiving units
40: second control unit

Claims (3)

A modulator 111 that modulates the transmission signal, a first transmission filter 112 that primarily removes noise of the modulated signal, and a transmission amplification that amplifies the signal whose noise has been removed by the first transmission filter 112 unit 113, a second transmit filter 114 that secondarily removes noise from the signal amplified by the transmit amplifier 113, and a first receive filter 115 that first removes noise from the received signal. A reception amplifier 116 that amplifies the received signal from which noise is primarily removed, a demodulator 117 that demodulates the amplified received signal, and a second reception filter that secondarily removes noise from the demodulated signal ( 118), the first communication signal transmitting and receiving unit 30a;
a housing 10 into which the first communication signal transmitting/receiving unit 30a can be inserted and including an upper wall 11, both side walls 12, a bottom surface 13 and a rear surface 19;
Guide walls 50 assembled to both side walls 12 of the housing 10, respectively;
a second control unit (40) directly assembled to both side walls (12) at the bottom of both side walls (12) of the housing (10); and
A first control unit 20 assembled to the guide wall 50; includes,
The first communication signal transmitting and receiving unit (30a) is located between the first and second control units (20, 40) and is assembled to the guide wall (50),
The second control unit 40 extends downward from the first front part 42, the first upper surface 41, the first upper surface 41 and is located at the rear of the first front part 42. It includes a second side 43 and a cooling fan mounted therein,
A ninth air passage part 47a is formed at both edges of the first upper surface 41,
The guide wall 50 includes an end face 51 composed of protrusions 51b at both edges and concave portions 51a between the protrusions 51b at both edges,
The ninth air passage portion 47a is aligned with the concave portion 51a so that the air discharged by the cooling fan rises from the ninth air passage portion 47a through the concave portion 51a;
The housing 10 further includes third to eighth air passage portions 12a, 12b, 12c, 12d, 12e, and 12f formed on both side walls,
The air rising through the concave portion 51a may be discharged to the outside through the third to eighth air passage portions 12a, 12b, 12c, 12d, 12e, and 12f,
The housing 10 has a first protruding guide 15 into which the second control unit 40 can be fit and fitted at the inner lower part of both side walls 12 and a plurality of protruding guides formed along the first protruding guide 15. Including a first circular concave portion 16 of,
The second control unit 40 includes a first concave guide 44 fitted with the first protruding guide 15,
The guide wall 50 includes second to third protruding guides 52a and 52b into which the first control unit 20 and the first communication signal transmitting and receiving unit 30a can be matched and fitted, the second to third A second circular concave portion 56 formed in each of the protruding guides 52a and 52b and a plurality of bolt holes 57 that can be assembled to the side wall 12 of the housing 10,
The second control unit 40 has a first width W1,
A second width W2 of the same size as that of the first control unit 20 and the first communication signal transmitting and receiving unit 30a,
The protrusions 51b at both edges have a third width W3,
The first width (W1) is larger than the second width (W2) by the sum of two of the third widths (W3). delete delete

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