JP5342981B2 - communication unit - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a communication unit which suppresses expansion in scale caused by enlarging a circuit board. <P>SOLUTION: The communication unit 5 includes a housing 10 divided from a body 11 and a cover 12 and a circuit board 20 accommodated in the housing 10. In the housing 10, an intermediate body 30 is accommodated in which the circuit board 20 is placed, respectively. In the state where the intermediate body 30 with the circuit board 20 placed therein is accommodated in the housing 10 and the cover 12 is mounted over the body 11, the intermediate body 30 and the circuit board 20 are held vertically between the body 11 and the cover 12, thereby fixing the intermediate body 30 and the circuit board 20. <P>COPYRIGHT: (C)2011,JPO&amp;INPIT

Description

  The present invention relates to a communication unit including a plurality of circuit boards housed in a housing.

  As the communication unit, for example, a communication unit that is attached to the main body of a watt hour meter that is a measuring instrument and communicates the amount of power measured by the watt hour meter with an external device is known (for example, Patent Document 1). reference).

A configuration of a conventional communication unit will be described with reference to FIG.
As shown in FIG. 13, the communication unit 100 forms a box-shaped housing 110 by fitting a body 120 and a cover 130 to each other. The two circuit boards 140 and 141 are accommodated in the internal space of the housing 110. These circuit boards 140 and 141 are electrically connected to each other by a harness 142. The four corners of the circuit board 140 are fixed to the body 120 by four screw members 150, and the four corners of the circuit board 141 are fixed to the cover 130 by four screw members 151. Thereby, each movement of the circuit boards 140 and 141 in the housing 110 is restricted.

JP-A-2005-274203

  In the case where the circuit boards 140 and 141 are fixed to the body 120 and the cover 130 by the screw members 150 and 151, respectively, the through holes for inserting the screw members 150 and 151 into the circuit boards 140 and 141, respectively. And a space for mounting the screw head is required. Therefore, the space for mounting electronic components on the circuit boards 140 and 141 and the space for forming the wiring pattern are limited accordingly. As a result, the circuit boards 140 and 141 must be enlarged in order to secure a space for mounting electronic components on the circuit boards 140 and 141 and a space for forming a wiring pattern. As a result, there is a problem that the communication unit 100 is increased in size.

  The present invention has been made in view of the above circumstances, and an object of the present invention is to provide a communication unit that suppresses an increase in size of a communication unit due to an increase in size of a circuit board.

In the following, means for achieving the above object and its effects are described.
(1) The invention according to claim 1 is a communication unit that is connected to a measuring instrument and transmits information measured by the measuring instrument to the terminal device by communicating with the terminal device. The communication unit includes a housing attached to the measuring instrument, an intermediate body housed in the housing, and a plurality of circuit boards placed on the intermediate body, An intermediate body in which at least a part of the intermediate body is housed and divided into a body that opens at one side and a cover that is attached to the body and covers an opening portion of the body, and on which the plurality of circuit boards are mounted Is housed in the body and the cover is attached to the body, the intermediate body and the plurality of circuit boards are fixed by being sandwiched between the body and the cover. Is the fact that the gist of the.

  According to this invention, since the intermediate body and the plurality of circuit boards are fixed by attaching the cover to the body, the screw member for fixing these circuit boards, which has been conventionally required, is omitted. Can do. Therefore, since the formation of the through hole for inserting the screw member into each circuit board and the space for mounting the screw head is omitted, the circuit board can be prevented from being enlarged due to the through hole and the space. it can. As a result, an increase in size of the communication unit due to an increase in size of the circuit board can be suppressed.

Further, the invention according to claim 1, wherein the communication between the person the communication unit and the terminal device is a radio communication, the plurality of circuit boards, antenna circuit board for transmitting a radio signal to the terminal device And a control circuit board that generates the radio signal, and a power supply circuit board that supplies power to the antenna circuit board and the control circuit board. The antenna circuit board, the control circuit board, and the power supply circuit board include: The power circuit board is placed between the antenna circuit board and the control circuit board, respectively.

( 2 ) The invention according to claim 2 is the communication unit according to claim 1 , wherein the antenna circuit board is provided with an antenna member for transmitting the radio signal and a ground board for grounding the antenna member. The intermediate body is provided with an antenna support portion that supports the antenna member and a grounding substrate, and a mounting portion that is spaced apart from the antenna support portion in the thickness direction of the grounding substrate. Is the gist.

According to the present invention, by providing the intermediate body with the antenna support portion and the placement portion, the distance in the thickness direction of the ground substrate between the antenna member placed on them and the ground substrate can be maintained constant. it can. Therefore, it is possible to suppress the adverse effect of the radio characteristics due to the unstable distance.

( 3 ) The invention according to claim 3 is the communication unit according to claim 1 or 2 , wherein at least two circuit boards of the plurality of circuit boards are used as the intermediate body. A support portion that is spaced apart from each other in the thickness direction and extends in the thickness direction of the circuit board is provided, and the support portion penetrates the support portion in a direction perpendicular to the thickness direction of the circuit board. The gist is that a through hole is provided.

According to this invention, the heat generated in the circuit board by the through hole can be radiated from the circuit board to the outside.
Specifically, by providing a support portion in the intermediate body, a plurality of circuit boards are stacked in a state of being separated in the thickness direction of the circuit board. On the other hand, heat is trapped between the thickness directions of the circuit boards in the plurality of circuit boards by the support portion.

  In that respect, in the present invention, since the support part is provided with a through hole, the heat between the plurality of circuit boards is radiated to the outside through the through hole, and the performance is deteriorated due to the heat of the circuit board. Can be suppressed.

( 4 ) The invention according to claim 4 is the communication unit according to any one of claims 1 to 3 , wherein the communication unit includes a circuit board of the plurality of circuit boards. The gist is that a lens for radiating the provided light emitting element to the outside of the communication unit is provided, and the intermediate body is provided with a positioning portion for determining the position of the lens with respect to the one circuit board.

According to this invention, since the positioning part is provided in the intermediate body, the positioning part can be omitted from the housing. Therefore, simplification of the shape of the housing can be achieved.
In addition, since the lens is positioned by the positioning unit, the distance between the lens and the light emitting element in the thickness direction of the circuit board is stabilized as compared with the configuration in which the positioning unit is omitted.

  ADVANTAGE OF THE INVENTION According to this invention, the communication unit which suppressed the enlargement of the communication unit resulting from the enlargement of a circuit board can be provided.

The system figure which shows the system of the road meter reading provided with the unit about one Embodiment which actualized the communication unit of this invention. The block diagram which shows the circuit structure of the communication unit of the embodiment. The perspective view which shows the disassembled perspective structure of the communication unit of the embodiment. (A)-(c) The perspective view which shows the perspective structure of the intermediate body about the intermediate body of the communication unit of the embodiment. About the attachment aspect of the antenna circuit board and intermediate body of the communication unit of the embodiment, (a) The perspective view which looked at the attachment aspect from the top, (b) The perspective view which looked at the attachment aspect from the bottom. About the communication unit of the embodiment, (a) an exploded perspective view showing a state before the power circuit board and the intermediate body are attached, (b) a perspective view showing a state after the power circuit board and the intermediate body are attached. Figure. About the communication unit of the embodiment, (a) a perspective view showing an exploded perspective structure before the control circuit board and the intermediate body are attached, (b) a state after the control circuit board and the intermediate body are attached FIG. The perspective view which shows the relationship between a lens, an intermediate body, and a light emitting diode about the communication unit of the embodiment. About the communication unit of the embodiment, (a) a perspective view showing an exploded perspective structure of a state before the circuit board is attached to the intermediate body, (b) a plan view of the state where the circuit board is attached to the intermediate body as viewed from above Figure. (A) The perspective view which shows the perspective structure which looked at the cover from the downward direction about the communication unit of the embodiment, (b) The perspective view which shows the state after accommodating the intermediate body in the body, and the cover. Sectional drawing which shows the cross-section of the unit about the communication unit of the embodiment. The flowchart which shows the manufacturing flow of the unit about the communication unit of the embodiment. The perspective view which shows the disassembled perspective structure inside the unit about the conventional communication unit. 2A is a perspective view showing a perspective structure of a conventional communication unit with a circuit board fixed to a body and a cover, and FIG. 2B is a cross-sectional view showing a sectional structure of the unit.

With reference to FIGS. 1-12, in order to perform on-road meter-reading as a communication unit of this invention, one Embodiment actualized as a communication unit connected to the watt-hour meter is described.
First, a road meter reading system 1 will be described with reference to FIG.

  As shown in FIG. 1, the system 1 includes a portable maintenance terminal 2 carried by a maintenance worker and one or more measuring instruments (meter reading meters) installed in a housing complex such as a detached house or a condominium. A certain watt-hour meter 3 is provided. The watt-hour meter 3 is provided with a power meter 4 for measuring the amount of power used. In addition, a communication unit 5 is connected to the watt-hour meter 3 for transmitting the amount of power used measured by the power meter 4 to the outside.

  The system 1 communicates with each other by wireless communication between the maintenance terminal 2 and the communication unit 5. As this wireless communication, for example, a specific low power wireless having a wireless communication frequency of 429 MHz is used. Further, the maintenance terminal 2 and the communication unit 5 are uniquely assigned communication addresses, and the transmission destination and the transmission source of the transmission data can be uniquely specified. Accordingly, the maintenance worker can communicate information such as the individual power consumption of the watt-hour meter 3 through the wireless communication between the maintenance terminal 2 and the communication unit 5 without directly confirming the numerical value displayed on the power meter 4 visually. Can be obtained.

As shown in FIG. 2, the circuit of the communication unit 5 includes an antenna circuit unit 5A, a control circuit unit 5B, and a power supply circuit unit 5C.
The antenna circuit unit 5A transmits and receives radio signals to and from the maintenance terminal 2. Further, the power supply circuit unit 5C is provided with a power supply connection unit 5D serving as a plug blade that is electrically connected to the power meter 4, and supplies operating power to the control circuit unit 5B.

  The control circuit unit 5B includes a reception unit 5E that receives a radio signal from the power meter 4, a radio communication circuit unit 5F that receives a signal from the antenna circuit unit 5A, and a control unit 5G that transmits a signal to the radio communication circuit unit 5F. It is comprised by. Signals are input to the control unit 5G from the antenna circuit unit 5A and the reception unit 5E, respectively. Based on these signals, the control unit 5G obtains information such as the amount of power used from the power meter 4 or transmits a signal to the maintenance terminal 2 in response to a request from the maintenance terminal 2 as a wireless communication circuit unit. Or sending to 5F. Further, the control circuit unit 5B is provided with a switch connection unit 5H that is connected to a switch 6 that operates on / off of power supply from a trunk line (not shown) to a detached house or an apartment house. Further, the control unit 5G transmits a signal for controlling on / off of the power supply to the switch via the switch connection unit 5H.

Next, the configuration of the communication unit 5 will be described with reference to FIGS. In FIG. 9B, the control circuit board 20B is omitted.
Hereinafter, the longitudinal direction of the communication unit 5 is referred to as “left-right direction”, and the short direction is referred to as “front-rear direction”. A direction perpendicular to both the left-right direction and the front-rear direction is defined as “up-down direction”. The side on which the plug blade 22 is disposed in the left-right direction is referred to as the “left side”. The side on which the plug blade 22 is arranged in the front-rear direction is referred to as “front side”. In each of the left-right direction and the front-rear direction, the direction toward the outside of the housing 10 is “outward”, and the direction toward the inside is “inward”. In the vertical direction, the direction in which the body 11 is arranged is “upward”, and the direction in which the cover 12 is arranged is “downward”. In the present embodiment, the vertical direction is the thickness direction of the circuit board (grounding board).

  As shown in FIG. 3, the communication unit 5 includes a housing 10 having an attachment portion 11 a attached to the main body of the watt hour meter 3 (see FIG. 1), and three circuit boards 20 housed in the housing 10. And the intermediate body 30 on which the circuit board 20 is placed. The communication unit 5 is provided with a lens 40 for displaying the operation of the communication unit 5.

  The housing 10 includes a body 11 that is provided with an attachment portion 11a and is formed in a substantially box shape that opens upward, and a cover 12 that is fitted to the body 11 and covers the opening SG. The body 11 and the cover 12 are fixed by fastening the screw members SC1 to each other at the four corners. The body 11 and the cover 12 are each molded by injection molding a thermoplastic resin such as polyacetal or polycarbonate.

  In addition, a plug blade holding member 13 that is a separate member from the housing 10 and is formed in a substantially flat plate shape is provided at a location where the plug blade is disposed in the housing 10. The stopper blade holding member 13 is formed by injection molding a thermoplastic resin containing a reinforcing agent such as glass fiber.

  The circuit board 20 includes an antenna circuit board 20A on which the antenna circuit section 5A (see FIG. 2) is formed, a control circuit board 20B on which the control circuit section 5B (see FIG. 2) is formed, and a power supply circuit section 5C (see FIG. 2). And a power supply circuit board 20C on which a reference is formed. The control circuit board 20B and the power circuit board 20C are each formed in a substantially rectangular flat plate shape, and a large number of electronic component groups 21 such as resistors and capacitors are mounted thereon. In addition, three plug blades 22 are attached to the power circuit board 20C via lead wires 21a. These plug blades 22 are arranged in the left-right direction of the housing 10. The plug blades 22 are respectively held by the plug blade holding member 13 by being inserted into the through holes 13 a of the plug blade holding member 13. Then, the blade 22 is fixed to the blade fixing portion 11f provided on the body 11 by the screw member SC2.

  The intermediate body 30 is a single member, and is molded as a block body by injection molding an electrically insulating resin material. An antenna circuit board 20A, a power circuit board 20C, and a control circuit board 20B are attached to the intermediate body 30 in order from the lower side in the vertical direction.

  As shown in FIG. 4A, the intermediate body 30 has a rectangular frame-shaped main body portion 31, and extends substantially upward from the left side in the left-right direction of the main body portion 31. It is comprised by the support part 32 formed in a shape.

  The main body portion 31 is provided with a frame body portion 31a and a substrate mounting portion 31b provided inside the frame body portion 31a. The substrate mounting portion 31b extends inward from the frame body portion 31a and is formed in a substantially U shape in plan view as viewed from above. The substrate mounting portion 31b is provided with two first connection portions 31c that extend along the front-rear direction and connect the portions of the substrate mounting portion 31b that are separated in the front-rear direction. The first connecting part 31c is formed to be flush with the substrate mounting part 31b. Further, the frame body portion 31a is provided so as to protrude above the substrate mounting portion 31b and the first connecting portion 31c.

  A control circuit support portion 31d extending upward from the frame body portion 31a is provided on the right side in the left-right direction of the frame body portion 31a. Two claw-shaped first restricting portions 31e are provided on both sides of the control body support portion 31d in the front-rear direction of the frame body portion 31a. Two claw-shaped second restricting portions 31f are provided below the first restricting portions 31e and inward in the front-rear direction.

  The support portion 32 is provided with four through holes 32a penetrating the support portion 32 in the left-right direction, spaced apart in the front-rear direction. Further, the support portion 32 is provided with two ribs 32f that extend outward from the support portion 32 in the left-right direction and are connected to the main body portion 31 in the front-rear direction. The ribs 32f are respectively provided between the front and rear directions of the through holes 32a.

  On the rear side in the front-rear direction of the support portion 32, a lens placement portion 32b for placing the lens 40 is provided. Further, as shown in FIG. 4B, at both ends in the front-rear direction of the support portion 32, there are substrate placement portions 32c that are formed in a step shape and on which the control circuit substrate 20B (see FIG. 3) is placed. Is provided. A third restricting portion 32 d that protrudes inward in the left-right direction is provided at the center and the lower side in the front-rear direction of the support portion 32.

  As shown in FIG. 4C, an antenna support portion 33 extending downward from the first connection portion 31c is provided below each first connection portion 31c. Two of the antenna support portions 33 on the right side in the left-right direction are provided with two protrusions 33a that protrude downward from the lower end portion in the front-rear direction. Between the left and right directions of the first connecting portions 31c, a second connecting portion 34 extending along the left and right direction connecting the first connecting portions 31c to each other is provided. The upper surface of the second connecting part 34 is formed to be flush with the upper surfaces of the substrate mounting part 31b and the first connecting part 31c. The lower surface of the second connecting portion 34 is formed so as to be flush with the lower surface of the antenna support portion 33.

  As shown in FIG. 5A, the antenna circuit board 20A includes a substantially J-shaped antenna member 23 in a plan view from below, a grounding substrate 24 for grounding to which the antenna member 23 is connected, and the grounding. The insulating sheet 25 covers the upper side of the substrate 24. The outer peripheral edge shape of the ground substrate 24 is substantially the same shape as the inner peripheral edge shape of the frame body portion 31a. The insulating sheet 25 is formed in substantially the same shape as the ground substrate 24.

  A pair of connection portions 23 a that protrude upward and are connected to the ground substrate 24 are provided at the end of the antenna member 23. The antenna member 23 and the ground substrate 24 are electrically connected by inserting the connection portion 23 a through a pair of connection holes 24 a provided in the ground substrate 24. The grounding board 24 is mounted with a first harness 21b connected to the control circuit board 20B. Further, insertion holes 23b through which the protrusions 33a are inserted are respectively provided at positions corresponding to the protrusions 33a (see FIG. 5B) in the antenna member 23.

  In addition, the antenna member 23 is attached to the intermediate body 30 from the lower side, and the ground substrate 24 is mounted on the intermediate body 30 from the upper side, whereby the antenna circuit board 20A is attached to the intermediate body 30. Specifically, the lower surface of the grounding substrate 24 comes into contact with the upper surfaces of the substrate mounting portion 31b, the first connecting portion 31c, and the second connecting portion 34. At this time, the lower surface of the support portion 32 and the second restricting portion 31f cover portions of both ends in the left-right direction of the insulating sheet 25 from above. As a result, the upward movement of the ground substrate 24 and the insulating sheet 25 from the substrate placement portion 31b is regulated. The antenna member 23 is placed on the lower surfaces of the antenna support portion 33 and the second connecting portion 34 in a state where the insertion hole 23b is inserted into the protrusion portion 33a. With the above configuration, the distance between the antenna member 23 and the ground substrate 24 in the vertical direction is held by the main body 31.

  As shown in FIG. 6A, the power circuit board 20C is disposed above the antenna circuit board 20A. A recess 26 through which the first restricting portion 31e is inserted is provided at a location corresponding to the first restricting portion 31e of the power circuit board 20C. The power circuit board 20C is provided with a second harness 21c that supplies power from the power circuit board 20C to the control circuit board 20B by being connected to the control circuit board 20B.

  As shown in FIG. 6B, when the power circuit board 20C is attached to the intermediate body 30, the power circuit board 20C is placed on the upper surface of the frame body portion 31a. At this time, the 1st control part 31e and the recessed part 26 mutually engage. Further, the power circuit board 20 </ b> C is disposed so as to engage with the inner peripheral edge of the support portion 32. As described above, the movement of the power supply circuit board 20C in the left-right direction and the front-rear direction is regulated. Further, the third restricting portion 32d (see FIG. 6A) covers the power circuit board 20C from above. As a result, the upward movement of the power supply circuit board 20C from the board placement part 31b is regulated.

  Further, substantially the entire surface of the power circuit board 20C is covered with the antenna circuit board 20A. Here, the substantially entire surface of the power supply circuit board 20C refers to the entire mounting area of the electronic component group 21 mounted on the power supply circuit board 20C (the broken line area R1 in FIG. 6A) and each electronic component electrically. It suffices to include at least one of the entire wiring pattern forming regions to be connected. It is not always necessary to cover the entire surface of the power supply circuit board 20C. In the present embodiment, the antenna circuit board 20A is configured to cover the entire region R1 of the power circuit board 20C.

  As shown in FIG. 7A, the control circuit board 20B is connected to the modular jack 21d corresponding to the switch connection portion 5H, the first connector 21e to which the first harness 21b is connected, and the second harness 21c. The second connector 21f is mounted. A light emitting diode 21g (see FIG. 8) is mounted on the control circuit board 20B. The light emitting diode 21g is covered from below by the lens 40. The lens 40 is sandwiched between the lens mounting portion 32b and the control circuit board 20B from the up and down direction. The control circuit support portion 31d of the intermediate body 30 is provided with a recess 31g that fits with the modular jack 21d.

  As shown in FIG. 7B, the control circuit board 20B includes a light receiving unit 21h corresponding to the receiving unit 5E, a first control IC 21j corresponding to the wireless communication circuit unit 5F, and a second corresponding to the control unit 5G. A control IC 21k is mounted. The control circuit board 20B is placed on the board placement part 32c and the control circuit support part 31d. As a result, both ends of the control circuit board 20B in the left-right direction are supported by the intermediate body 30. Further, the left and right end portions of the control circuit board 20 </ b> B are fitted to the inner peripheral edge of the support portion 32. This restricts the movement of the control circuit board 20B in the front-rear direction and the left-right direction. In the state where the control circuit board 20B is placed on the intermediate body 30, the first harness 21b and the second harness 21c are connected to the first connector 21e and the second connector 21f, respectively.

  The first harness 21b is inserted through the harness insertion part 32e and drawn outward in the left-right direction from the support part 32, and is drawn from the support part 32 inward in the left-right direction across the support part 32 from above. The second harness 21c is inserted through the through hole 32a and pulled out from the support portion 32 in the left-right direction, and is extended from the support portion 32 inward in the left-right direction across the support portion 32 from above.

  As described above, the circuit board 20A to 20C is held in the intermediate body 30 to some extent by only mounting the antenna circuit board 20A, the control circuit board 20B, and the power supply circuit board 20C on the intermediate body 30. Accordingly, the screw members for attaching the circuit boards 20A to 20C to the intermediate body 30 are omitted.

  As shown in FIG. 8, the lens mounting portion 32b is provided with a main body portion 32b1 on which the lens 40 is mounted and a first protrusion 32b2 protruding upward from a central portion in the left-right direction of the main body portion 32b1. ing. The main body portion 32b1 has an inclined portion 32b3 that is inclined upward as it goes inward in the front-rear direction from the support portion 32, and extends inward from the inner end portion in the front-rear direction of the inclined portion 32b3 and is perpendicular to the vertical direction. And a flat portion 32b4 having an upper surface formed in a flat shape. A second protrusion 32b5 extending upward from the first protrusion 32b2 is provided on the upper portion of the first protrusion 32b2.

  The lens 40 is provided with a base 41 placed on the flat surface portion 32b4 and two extension portions 42 extending outward from the base 41 in the front-rear direction. The light from the light emitting diode 21g is exposed to the outside of the housing 10 through these extensions 42, respectively. Each extension portion 42 is provided with an inclined portion 43 corresponding to the inclined portion 32b3 and a protruding portion 44 extending upward from the extension portion 42.

  When the lens 40 is placed on the lens placement portion 32b, the first protrusion 32b2 is fitted into the recess 45 formed between the extension portions 42 in the front-rear direction. Thereby, the outward movement of the lens 40 in the left-right direction and the front-rear direction is restricted. Further, the inclined portion 43 is provided in the extended portion 42 of the lens 40, so that the lens 40 is not held by the lens mounting portion 32b even if it is mounted on the lens mounting portion 32b in an upside down direction.

  In a state where the control circuit board 20B is placed above the lens 40, the protrusion 44 contacts the outer peripheral edge of the control circuit board 20B, so that the movement of the lens 40 inward in the front-rear direction is restricted. Become.

  Further, the second protrusion 32b5 is fitted into the recess 27 provided in the control circuit board 20B (see FIG. 7B). Thereby, the position of the lens 40 and the control circuit board 20B can be determined with high accuracy.

  As shown in FIG. 9A, an intermediate body restriction projecting inward in the left-right direction from the side wall 11b is provided at the center position in the front-rear direction of the right-hand side wall 11b1 in the left-right direction of the side wall 11b of the body 11. A portion 11c is provided. When the intermediate body 30 is stored in the body 11, a part of the frame body portion 31 a is inserted between the intermediate body regulating portion 11 c and the bottom wall 11 d of the body 11 in the vertical direction.

  As shown in FIG. 9B, in a state where the intermediate body 30 is housed in the body 11, the intermediate body regulating portion 11c covers the upper surface of the power circuit board 20C from above. With this configuration, the movement of the intermediate body 30 in the vertical direction is regulated.

  A plurality of ribs 11e extending toward the inside of the body 11 are provided on the side wall 11b. Since the ribs 11e are close to the side surfaces of the main body 31, the movement of the intermediate body 30 in the left-right direction and the front-rear direction is restricted.

  As shown in FIG. 10A, the upper wall 12a of the cover 12 is provided with a first upper restricting portion 12b and a second upper restricting portion 12c, respectively. The restricting portions 12b and 12c restrict the upward movement of the intermediate body 30 and the control circuit board 20B in a state where the cover 12 is attached to the body 11. Further, at a position corresponding to the light receiving portion 21h in the upper wall 12a, a window hole 12d, and a light transmitting portion 12e (see FIG. 10B) that closes the window hole 12d and is formed of a transparent resin material, Is provided. As a result, when the light receiving unit 21h receives an optical signal such as infrared rays from the power meter 4 (see FIG. 1) via the light transmitting unit 12e, the control circuit board 20B (see FIG. 10B) Information such as the amount of power used by the meter 4 can be obtained.

  Two first upper regulating portions 12b are provided on the left side in the left-right direction of the upper wall 12a so as to be separated in the front-rear direction. One second upper restriction portion 12c is provided on the right side of the upper wall 12a in the left-right direction. The first upper restricting portion 12b is formed in a substantially L shape in a plan view in the front-rear direction, and the second upper restricting portion 12c is formed in a substantially L shape in a plan view in the left-right direction.

  As shown in FIG. 10B, the first upper restricting portion 12b covers the upper end surface of the support portion 32 and a part of the upper surface of the control circuit board 20B, and the second upper restricting portion 12c is formed on the control circuit board 20B. The substrate cutout 28 is covered from the rear and top in the front-rear direction.

With the above configuration, the cover 12 restricts the upward movement of the intermediate body 30 and restricts the upward and forward / backward movement of the control circuit board 20B.
As shown in FIG. 11, the intermediate body restricting portion 11 c and the first upper restricting portion 12 b cover the both ends in the left-right direction of the intermediate body 30 from the upper side, which is caused by the upward movement of the intermediate body 30. Thus, it is possible to suppress tilting with respect to a plane defined by the left-right direction and the front-rear direction.

  The intermediate body 30 and the circuit boards 20 </ b> A to 20 </ b> C are arranged so as to be biased to the right side in the housing 10. Thereby, a space S <b> 1 is provided between the support portion 32 and the housing 10 in the left-right direction. The space S <b> 1 is larger than the space S <b> 2 between the right and left ends of the main body 31 and the circuit boards 20 </ b> A to 20 </ b> C and the housing 10. Heat generated by the electronic component group 21 between the power circuit board 20C and the control circuit board 20B is radiated to the space S1 through the through hole 32a. In the space S1, a space from which the first harness 21b and the second harness 21c are drawn is secured.

  As described above, the circuit boards 20A to 20C and the intermediate body 30 that are attached to the intermediate body 30 are accommodated in the body 11 and the body 11 and the cover 12 are fixed. It is fixed with respect to the housing 10.

Next, with reference to FIG. 12, the manufacturing method of the communication unit 5 is demonstrated.
As shown in FIG. 12, the manufacturing process of the communication unit 5 is divided into a board attaching process for attaching the circuit boards 20 </ b> A to 20 </ b> C to the intermediate body 30 and a housing process for housing the intermediate body 30 in the housing 10. A storage process is performed after a board | substrate attachment process.

  Specifically, the antenna circuit board 20A is attached to the intermediate body 30 in step S10 (see FIG. 5). Next, in step S11, the power circuit board 20C is attached to the intermediate body 30 (see FIG. 6). Next, in step S12, the lens 40 is attached to the intermediate body 30 (see FIG. 7). Next, in step S13, the control circuit board 20B is attached to the intermediate body 30 (see FIG. 7). As a result, the lens 40 is held in a state of being sandwiched between the intermediate body 30 and the control circuit board 20B. Next, in step S14, the first harness 21b and the second harness 21c are connected to the first connector 21e and the second connector 21f. Thus, the board attaching process is completed.

  Next, in step S15, the intermediate body 30 to which the circuit boards 20A to 20C are attached is stored in the body 11 (see FIG. 9). At this time, the stopper blade holding member 13 is attached to the stopper blade 22, and the stopper blade 22 is fixed to the body 11 using the screw member SC2. Next, in step S16, the cover 12 is fitted to the body 11 (see FIG. 11). As a result, the intermediate body 30 is held by being sandwiched between the body 11 and the cover 12 from above and below. Next, in step S17, the body 11 and the cover 12 are fixed by the screw member SC1. Thus, the storage process is completed and the assembly of the communication unit 5 is completed.

  By the way, in the conventional communication unit 100 shown in FIG. 14, from the viewpoint of ease of assembly of the unit 100, the body 120 and the cover 130 to which the circuit boards 140 and 141 are fixed by the screw members 150 and 151, respectively, are work tables (not shown). In this state, the circuit boards 140 and 141 were connected to each other by the harness 142 (see FIG. 14A). Therefore, the harness 142 becomes long and the harness 142 is easily affected by noise. Further, although the harness 142 is housed in the space between the circuit boards 140 and 141, the harness 142 is poorly accommodated (see FIG. 14B). Thereby, when the body 120 and the cover 130 are fitted to each other, there is a problem that the harness 142 is caught between the fitting portions.

  In this regard, in this embodiment, since the power supply circuit board 20C and the control circuit board 20B are attached to the intermediate body 30, each harness is placed in a state in which the power supply circuit board 20C and the control circuit board 20B are close to each other as compared with the conventional configuration. 21b and 21c can be connected to each connector 21e and 21f. Therefore, the length of each harness 21b, 21c for connecting to each connector 21e, 21f can be made shorter than that of the conventional configuration. Therefore, the above-mentioned problem can be solved.

According to the communication unit 5 of the present embodiment, the following effects can be obtained.
(1) According to the present embodiment, the antenna circuit board 20A, the control circuit board 20B, and the control circuit board 20B are respectively placed on the intermediate body 30, and the intermediate body 30 in this state is placed in the vertical direction by the body 11 and the cover 12. By sandwiching, the intermediate body 30 is fixed. Therefore, the screw member for fixing each circuit board 20A-20C can be omitted. This eliminates the space for mounting the through holes and screw heads through which the screw members are inserted into the circuit boards 20A to 20C. Therefore, the large sizes of the circuit boards 20A to 20C due to the through holes and the spaces. Can be suppressed. As a result, the increase in size of the communication unit 5 due to the increase in size of the circuit boards 20A to 20C can be suppressed. In addition, the number of parts of the communication unit 5 is reduced, and the communication unit 5 can be easily manufactured.

  (2) According to the present embodiment, the antenna member 23 is placed on the antenna support portion 33 provided in the intermediate body 30, and the ground substrate 24 is placed on the substrate placement portion 31b. Therefore, the distance in the vertical direction between the antenna member 23 and the ground substrate 24 can be kept constant. As a result, the adverse effect of the radio characteristics of the antenna circuit board 20A due to the unstable distance can be suppressed.

  By the way, when the antenna support portion and the substrate placement portion are formed as separate members, an assembly error occurs because the antenna support portion and the substrate placement portion are assembled to form an intermediate. Due to this error, the distance between the antenna member 23 and the ground substrate 24 may vary. In this respect, in the present embodiment, since the intermediate body 30 is formed as a single member, the occurrence of the assembly error is avoided, so that the variation in the distance can be suppressed.

  (3) According to the present embodiment, the grounding substrate 24 covers the entire power circuit board 20C from below. Therefore, noise generated from the power supply circuit board 20C is blocked by the ground board 24, so that the influence of the noise on the antenna member 23 can be suppressed.

  (4) According to the present embodiment, the power supply circuit board 20 </ b> C is covered from above by the intermediate body regulating portion 11 c provided on the body 11. Accordingly, since the intermediate body 30 is sandwiched between the intermediate body restricting portion 11c and the bottom wall 11d of the body 11, the movement of the intermediate body 30 in the vertical direction can be restricted. Further, since the power circuit board 20C is sandwiched between the frame body portion 31a and the intermediate body restricting section 11c from the vertical direction, the vertical movement of the power circuit board 20C can be regulated.

  (5) According to the present embodiment, the control circuit board 20B is sandwiched between the support part 32 and the second upper restriction part of the cover 12, so that the movement of the control circuit board 20B in the vertical direction is restricted. Become. Therefore, the control circuit board 20B can be stably held in the housing 10.

  Further, by covering the support portion 32 from above with the first upper regulating portion 12 b of the cover 12, the intermediate body 30 is sandwiched between the body 11 and the cover 12 from above and below. Therefore, the movement of the intermediate body 30 in the vertical direction can be restricted.

  (6) According to the present embodiment, the support portion 32 is provided with the through hole 32a. Therefore, the heat generated by the electronic component group 21 between the power circuit board 20C and the control circuit board 20B in the vertical direction can be radiated to the outside of the intermediate body 30 by the through holes 32a. As a result, it is possible to suppress a decrease in performance due to the heat of the circuit boards 20A to 20C.

  (7) According to the present embodiment, since the ground substrate 24 is sandwiched from above and below by the substrate placement portion 31b, the second restricting portion 31f, and the lower surface of the support portion 32, the intermediate substrate 30 alone is used for the ground substrate 24. Movement in the vertical direction can be restricted.

  Further, since the power supply circuit board 20C is sandwiched between the third restricting portion 32d and the upper surface of the frame body portion 31a, the movement of the power supply circuit board 20C in the vertical direction can be restricted only by the intermediate body 30. As described above, it is possible to omit the portion for restricting the movement of the ground substrate 24 and the power supply circuit board 20C in the vertical direction in the housing 10, and the shape of the housing 10 can be simplified.

  (8) According to this embodiment, since the lens mounting portion 32 b is provided in the intermediate body 30, the lens mounting portion can be omitted from the housing 10. Therefore, the shape of the housing 10 can be simplified.

  Further, since the lens 40 is positioned by the lens mounting portion 32b, the distance in the vertical direction between the lens 40 and the light emitting diode 21g is stabilized as compared with the configuration in which the lens mounting portion is omitted from the communication unit. .

  Further, the lens 40 and the control circuit board 20B are positioned by the first protrusion 32b2 and the second protrusion 32b5 of the lens mounting portion 32b. Since the first protrusion 32b2 and the second protrusion 32b5 are injection-molded as a part of the intermediate body 30, their positional accuracy is equivalent to the mold accuracy. Therefore, as compared with the case where the first protrusion and the second protrusion are provided separately, the assembly error of the first protrusion and the second protrusion can be omitted, and the positional accuracy is improved. As a result, it is possible to improve the positional accuracy between the lens 40 and the light emitting diode 21g mounted on the control circuit board 20B.

  (9) According to the present embodiment, since the intermediate body 30 is formed as a single member, the circuit board 20A to 20C in the vertical direction is compared with a configuration in which the intermediate body 30 is formed by combining a plurality of members. The distance can be determined with high accuracy. Further, the number of parts of the communication unit 5 can be reduced.

  (10) According to the present embodiment, the ground substrate 24 is arranged between the power circuit board 20C and the antenna member 23 in the vertical direction. Therefore, the influence of the noise of the power supply circuit board 20C on the antenna member 23 can be reduced as compared with the configuration in which the antenna members in the vertical direction of the ground board and the power supply circuit board are arranged.

  (11) According to the present embodiment, the second harness 21c is inserted through the through hole 32a and connected to the second connector 21f. Therefore, the length of the second harness 21c can be shortened as compared with the configuration in which the second harness bypasses the support portion and is connected to the second connector. Further, compared with a configuration in which a cutout portion for inserting the second harness is provided in the control circuit board, and the cutout portion is inserted and connected to the second connector, the electronic component group 21 and the wiring pattern of the control circuit board 20B are compared. Space can be secured.

  (12) According to the present embodiment, the rib 32 f is provided on the support portion 32, so that the strength reduction due to the through hole 32 a provided in the support portion 32 can be suppressed. Therefore, the through hole can be formed larger than the configuration of the support portion in which the rib is omitted. As a result, the heat generated between the power circuit board 20C and the control circuit board 20B in the vertical direction can enhance the heat radiation effect to the outside rather than the power circuit board 20C and the control circuit board 20B.

(13) According to the present embodiment, since the shape of the grounding substrate 24 is substantially the same as the shape of the inner peripheral edge of the frame body portion 31a, the movement of the grounding substrate 24 in the front-rear direction and the left-right direction can be restricted.
(14) According to the present embodiment, when the first restricting portion 31e and the recess 26 are fitted, the movement of the power circuit board 20C in the front-rear direction is restricted. Thereby, it is possible to prevent the power supply circuit board 20 </ b> C from being displaced from the intermediate body 30 during the step of storing the intermediate body 30 in the body 11 (step S <b> 15). Therefore, the communication unit 5 can be manufactured easily.

  (15) According to the present embodiment, both the left and right ends of the control circuit board 20B are supported by the board placement part 32c and the recess 31g, so that the control circuit board 20B is stably placed on the intermediate body 30. be able to.

  (16) According to the present embodiment, the intermediate body 30 is formed of an electrically insulating resin material. Therefore, when a wiring pattern is formed in a portion of each circuit board 20A to 20C corresponding to a portion of the intermediate body 30 that covers each circuit board 20A to 20C from above and below, the intermediate body is electrically connected to a metal material or the like. Compared with the structure shape | molded with material, the short circuit of a wiring pattern can be suppressed.

(17) According to the present embodiment, the movement of the intermediate body 30 in the front-rear direction and the left-right direction can be restricted by the rib 11 e of the body 11.
(18) According to this embodiment, the lens mounting portion 32b is provided with the inclined portion 32b3, and the lens 40 is formed with an inclined portion corresponding to the inclined portion 32b3. Therefore, it can suppress that the lens 40 is assembled in the state arrange | positioned with respect to the lens mounting part 32b on the opposite side of an up-down direction, and the opposite side of the front-back direction.

  (19) According to this embodiment, after the circuit boards 20 </ b> A to 20 </ b> C are placed on the intermediate body 30, the intermediate body 30 is stored in the body 11. Therefore, the communication unit 5 can be easily manufactured as compared with the case where the power circuit board 20C and the control circuit board 20B are attached after the intermediate body 30 is stored in the body 11. Further, by placing the circuit boards 20A to 20C on the intermediate body 30 in advance, it is possible to easily connect the harnesses 21b and 21c to the connectors 21e and 21f.

  (20) According to the present embodiment, the control circuit board 20B and the antenna circuit board 20A are arranged at the ends in the vertical direction. Therefore, the receiving part which receives the information from the electric power meter 4 can be provided in the control circuit board 20B. Thereby, the number of lead wires of the second harness 21c that connects the power circuit board 20C and the control circuit board 20B can be reduced. Further, compared with a configuration in which the antenna circuit board is arranged at the center in the vertical direction, wireless communication by the antenna circuit board 20A can be performed favorably.

  (21) According to the present embodiment, the intermediate body 30 and the circuit boards 20 </ b> A to 20 </ b> C are arranged so as to be biased to the right side with respect to the housing 10. Therefore, the heat generated by the electronic component group 21 between the power circuit board 20C and the control circuit board 20B in the vertical direction is released to the space S1 through the through hole 32a. Since the space S1 is formed larger than the space S2, the heat dissipation effect can be improved as compared with the configuration in which the through hole is provided on the space S2 side.

  Further, since this space S1 also serves as a space for pulling outward from the support portion 32 of the first harness 21b and the second harness 21c, the first 1-harness 21b and the second harness 21c are accommodated in the housing 10. Can do. Therefore, it is possible to prevent the harness 142 generated in the conventional communication unit 100 from being sandwiched between the body 120 and the cover 130.

  (22) According to the present embodiment, the configuration in which the intermediate body 30 with the circuit boards 20 </ b> A to 20 </ b> C attached is housed in the housing 10 is applied to the communication unit 5. Therefore, the communication unit 5 can be made compact with respect to the communication unit 5 that has a plurality of functions and has a complicated circuit configuration.

(Other embodiments)
The communication unit of the said embodiment is not limited to the said embodiment, For example, the following changes are possible. Further, the following modifications are not only applied to the above-described embodiment, but can also be applied when different modifications are combined with each other.

  According to the embodiment, in the manufacturing process of the communication unit 5, the storing process is performed after the completion of the board mounting process, but the manufacturing process of the communication unit 5 is not limited to this. For example, after performing steps S10 and S11 of the board attachment process, step S15 of the storage process may be performed, and thereafter, steps S12 to S14 of the board attachment process may be performed. In particular, in this embodiment, since the space S1 is formed, even if the communication unit 5 is manufactured in the above-described process, the connection work between the harness and the connector in step S14 can be easily performed.

According to the above embodiment, the intermediate body 30 is formed as a single member, but the intermediate body 30 can also be formed by assembling a plurality of members.
According to the above embodiment, the lens placement portion 32 b is provided in the intermediate body 30, but the lens placement portion 32 b can also be provided in the body 11.

According to the embodiment, the light emitting diode 21g is used as the light emitting element, but other light emitting elements other than the light emitting diode 21g may be used.
According to the above embodiment, at least one of the first restricting portion 31e, the second restricting portion 31f, and the third restricting portion 32d can be omitted from the intermediate body 30. In this case, a part corresponding to the restriction part may be formed in the body 11. In short, the intermediate body 30 can only place the circuit boards 20A to 20C, and the body 11 and the cover 12 can restrict the vertical movement of the intermediate body 30 and the circuit boards 20A to 20C.

  In the above embodiment, the antenna circuit board 20A, the power supply circuit board 20C, and the control circuit board 20B are stacked in order from the lower side to the upper side of the intermediate body 30, but the order of arrangement of these circuit boards 20A to 20C in the vertical direction is as follows. It is not limited to. For example, the arrangement positions of the control circuit board 20B and the power circuit board 20C can be reversed.

  In the above embodiment, all the circuit boards 20A to 20C are attached to the intermediate body 30, but only the power circuit board 20C and the control circuit board 20B are attached to the intermediate body 30, and the antenna circuit board 20A is attached to the body 11, for example. It can also be set as the structure attached.

  In the said embodiment, although the communication unit 5 was attached to the watt-hour meter 3, the communication unit 5 can also be attached to other measuring instruments provided with other meter-reading meters, such as another water meter and a gas meter.

  In the above embodiment, the communication unit 5 is attached to the main body of the watt hour meter 3, but the communication unit 5 can also be attached to the power meter 4 and other devices (not shown) attached to the watt hour meter 3.

  In the above embodiment, the light receiving unit 21h is mounted as the receiving unit 5E of the control circuit board 20B, and the optical signal such as infrared rays from the power meter 4 is received. However, the configuration of the receiving unit 5E is limited to this. Never happen. For example, an antenna member may be mounted as the receiving unit 5E so that radio waves from the power meter 4 are received. Further, the control circuit board 20B and the power meter 4 can be connected to each other by a cable to obtain information on the power meter 4.

  In the above embodiment, the specific low power radio is used as the radio communication between the communication unit 5 and the maintenance terminal 2, but other radio such as infrared rays may be used as the radio communication between the communication unit 5 and the maintenance terminal 2. it can.

  In the above embodiment, the communication unit 5 and the maintenance terminal 2 perform wireless communication, but the communication method between the communication unit 5 and the maintenance terminal 2 is not limited to this. For example, the communication unit 5 and the maintenance terminal 2 can be connected to each other by a cable so that communication between the communication unit 5 and the maintenance terminal 2 can be performed.

  In the above embodiment, the system 1 is a road meter reading in which a maintenance worker performs wireless communication with the communication unit 5 at the maintenance terminal 2, but the system 1 is not limited to this. For example, a central control device that performs batch control by wirelessly communicating with a plurality of watt-hour meters 3 as a terminal device is installed, and this device transmits information obtained by the device to a base station such as a power company. Remote meter reading may be used.

  In the said embodiment, although it was the structure for connecting the plug blade 22 to the single phase 3 wire in which the three blades were arranged, the structure of the plug blade 22 is not limited to this. For example, it can also be set as the structure for connecting to the single phase 2 line | wire in which the two plug blades 22 are arrange | positioned.

DESCRIPTION OF SYMBOLS 1 ... System, 2 ... Maintenance terminal (terminal device), 3 ... Electricity meter (measuring instrument), 4 ... Electricity meter, 5 ... Communication unit, 5A ... Antenna circuit part, 5B ... Control circuit part, 5C ... Power supply circuit part 5D: Power supply connection section, 5E: Reception section, 5F: Wireless communication circuit section, 5G: Control section, 5H: Switch connection section, 6: Switch, 10: Housing, 11: Body, 11a: Mounting section, 11b, 11b1 ... side wall, 11c ... intermediate body restricting portion, 11d ... bottom wall, 11e ... rib, 11f ... plug blade fixing portion, 12 ... cover, 12a ... upper wall, 12b ... first upper restricting portion, 12c ... second Upper regulating part, 12d ... window hole, 12e ... translucent part, 13 ... plug blade holding member, 13a ... through hole, 20 ... circuit board, 20A ... antenna circuit board, 20B ... control circuit board, 20C ... power circuit board, 21 ... electronic component group, 21a ... lead wire, 21b ... first Harness, 21c ... second harness, 21d ... modular jack, 21e ... first connector, 21f ... second connector, 21g ... light emitting diode (light emitting element), 21h ... light receiving part, 21j ... first control IC, 21k ... second Control IC, 22 ... Plug blade, 23 ... Antenna member, 24 ... Grounding substrate, 24a ... Connection hole, 25 ... Insulating sheet, 26 ... Recess, 27 ... Recess, 28 ... Substrate notch, 30 ... Intermediate, 31 ... Main body Part 31a ... frame body part 31b ... substrate mounting part (mounting part ) 31c ... first connecting part 31d ... control circuit support part 31e ... first restricting part 31f ... second restricting part 31g ... Recessed portion, 32 ... support portion, 32a ... through hole, 32b ... lens placement portion, 32c ... substrate placement portion, 32d ... third restriction portion, 32e ... harness insertion portion, 32f ... rib, 32b1 ... main body portion, 32b2 ... First protrusion ( -Decided Me portion) 32b3 ... inclined portion, 32b4 ... flat portion, 32B5 ... second protrusion (positioning portion), 33 ... antenna support section, 33a ... protrusion, 34 ... second connecting portion, 40 ... lens, 41 ... Base part 42 ... Extension part 43 ... Inclined part 44 ... Projection part 45 ... Recessed part SC1, SC2 ... Screw member.

Claims (4)

A communication unit that is connected to a measuring instrument and transmits information measured by the measuring instrument to the terminal device by communicating with the terminal device,
The communication unit includes a housing attached to the measuring instrument, an intermediate body housed in the housing, and a plurality of circuit boards placed on the intermediate body,
The housing is divided into a body in which at least a part of the intermediate body is housed and one of which opens, and a cover that is attached to the body and covers an opening portion of the body,
The intermediate body and the plurality of circuit boards are sandwiched between the body and the cover in a state where the intermediate body on which the plurality of circuit boards are placed is housed in the body and the cover is attached to the body. is fixed by,
The communication between the communication unit and the terminal device is wireless communication,
The plurality of circuit boards include an antenna circuit board that transmits a radio signal to the terminal device, a control circuit board that generates the radio signal, a power supply circuit board that supplies power to the antenna circuit board and the control circuit board, Consisting of
The antenna circuit board, the control circuit board, and the power circuit board are respectively mounted on the intermediate body,
The communication unit , wherein the power supply circuit board is disposed between the antenna circuit board and the control circuit board . The communication unit according to claim 1,
The antenna circuit board is provided with an antenna member for transmitting the radio signal and a grounding board for grounding the antenna member,
The intermediate body is provided with an antenna support portion for supporting the antenna member and a mounting portion for mounting the grounding substrate and a mounting portion spaced from the antenna support portion in the thickness direction of the grounding substrate. Communication unit. The communication unit according to claim 1 or 2,
The intermediate body is provided with at least two circuit boards out of the plurality of circuit boards spaced apart from each other in the thickness direction of the circuit board and a support portion extending in the thickness direction of the circuit board,
The communication unit according to claim 1, wherein the support portion is provided with a through hole that passes through the support portion in a direction perpendicular to a thickness direction of the circuit board. In the communication unit as described in any one of Claims 1-3,
The communication unit is provided with a lens for radiating a light emitting element provided on one circuit board of the plurality of circuit boards to the outside of the communication unit,
The communication unit, wherein the intermediate body is provided with a positioning portion that determines a position of a lens with respect to the one circuit board.

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