JP5992945B2 - Insulated waveguide - Google Patents

Description

  The present invention relates to an insulated waveguide, and more particularly, to an insulated waveguide that is constituted by a plurality of waveguides and in which adjacent waveguides are fastened via an insulator.

  2. Description of the Related Art Conventionally, an insulated waveguide is known in which adjacent waveguides are fastened with an insulator in order to prevent damage to electrical equipment due to a surge current or electric shock to an operator.

  For example, when such an insulated waveguide is constituted by two waveguides, the opening 202a of the waveguide 202 and the opening 204a of the waveguide 204 face each other as shown in FIG. The flange 202b located at the end where the opening 202a of the waveguide 202 is formed and the flange 204b located at the end where the opening 204a of the waveguide 204 is formed are insulated members. Insulating waveguide 200 is fabricated by fastening waveguide 202 and waveguide 204 with insulating screw 208 and nut 210 while sandwiching 206.

At this time, the insulating member 206 is formed with a hole 206a through which the opposing openings 202a and 204a communicate.

  Here, the configuration of the insulating waveguide according to the conventional technique will be described more specifically with reference to FIG.

  FIG. 2 is a perspective view illustrating a schematic configuration of an insulating waveguide according to the prior art, and FIG. 3 is a cross-sectional view taken along the line AA of FIG.

The insulated waveguide 100 shown in FIG. 2 has a configuration in which three waveguides 102, 104, and 106 are fastened, and the waveguide 102 and the waveguide 104 are fastened via an insulating member 108. In addition, the waveguide 104 and the waveguide 106 are fastened via the insulating member 110.

  Specifically, the waveguide 102 has a rectangular plate-shaped flange 102-2a formed at one end portion of the main body portion 102-1 of the rectangular waveguide and a substantially disc shape at the other end portion. The flange 102-2b is formed.

And eight through-holes 102-4 are formed in the flange 102-2b at equal intervals along the outer periphery. The through hole 102-4 is designed to have a diameter that matches the hole 108-2 (described later) and the through hole 104-4 (described later) of the insulating member 108, and a screw 112 (described later). A screw groove into which the screw shaft can be screwed is formed.

  In the waveguide 104, a substantially disc-shaped flange 104-2a is formed at one end of the main body 104-1 of the rectangular waveguide, and a substantially disc-shaped flange 104- is formed at the other end. 2b is formed.

In the flanges 104-2a and 104-2b, eight through holes 104-4 are formed at equal intervals along the outer periphery. The eight through-holes 104-4 formed in the flange 104-2a have an opening 102-3a opened at the other end of the main body 102-1 and one end of the main body 104-1. When the opening 104-3a that is opened is disposed so as to face the opening 104-3a, the eight through-holes 102-4 formed in the flange 102-2b can be communicated with each other. The through hole 104-4 is designed to have a diameter that matches the through hole 102-4 and a hole 108-2 (described later) of the insulating member 108, and a screw shaft of a screw 112 (described later) is screwed. A thread groove that can be mated is formed.

Further, the insulating member 108 has a substantially disc shape, and a hole 108-1 having a shape capable of communicating the opening 102-3a and the opening 104-3a is formed in a substantially central portion. In addition, when the opening 102-3a and the opening 104-3a are arranged to communicate with each other, the eight through holes 102-4 formed in the flange 102-2b and the 8 formed in the flange 104-2a are provided. Eight hole portions 108-2 are formed at positions where the through holes 104-4 can communicate with each other. The hole 108-2 is designed to have a diameter that coincides with the through holes 102-4 and 104-4, and has a screw groove into which a screw shaft of a screw 112 (described later) can be screwed.

  The waveguide 106 has a substantially disc-shaped flange 106-2a formed at one end of the main body portion 106-1 of the rectangular waveguide, and a rectangular plate-shaped flange 106-2b formed at the other end. Is formed.

And eight through-holes 106-4 are formed in the flange 106-2a at equal intervals along the outer periphery. The eight through-holes 106-4 formed in the flange 106-2a have an opening 104-3b opened at the other end of the main body 104-1 and one end of the main body 106-1. When the opening 106-3a that is opened is disposed so as to be opposed, the eight through holes 104-4 formed in the flange 104-2b are formed at positions where they can communicate with each other. The through hole 106-4 is designed to have a diameter that matches the through hole 104-4 and a hole 110-2 (described later) of the insulating member 110, and a screw shaft of a screw 112 (described later) is screwed. A thread groove that can be mated is formed.

Further, the insulating member 110 has a substantially disk shape, and a hole 110-1 having a shape capable of communicating the opening 104-3b and the opening 106-3a is formed at a substantially central portion. In addition, when the opening 104-3b and the opening 106-3a are arranged to communicate with each other, the eight through holes 104-4 formed in the flange 104-2b and the 8 formed in the flange 106-2a are provided. Eight holes 110-2 are formed at positions where the through holes 106-4 can communicate with each other. The hole 110-2 is designed to have a diameter that coincides with the through holes 104-4 and 106-4, and has a screw groove into which a screw shaft of a screw 112 (described later) can be screwed.

  When the waveguide 102 and the waveguide 104 are fastened, first, the insulating member 108 is sandwiched between the flange 102-2b and the flange 104-2a.

  At this time, the opening 102-3a and the opening 104-3a face each other and communicate with each other through the hole 108-1.

  Further, the eight through-holes 102-4 formed in the flange 102-2b and the eight through-holes 104-4 formed in the flange 104-2a are in communication with each other through the hole 108-2.

  After that, screws 112 made of an insulating resin are inserted from the eight through holes 102-4 of the flange 102-2b, and the screw shafts with the thread grooves are formed as the through holes 102-4 and the holes 108-2. And by passing through the through-hole 104-4 and screwing the tip end of the screw shaft protruding from the through-hole 104-4 to a nut 114 made of an insulating resin, the waveguide 102 and the waveguide 104 is concluded.

  At this time, a spring washer 116 made of an insulating resin and a washer 118 made of an insulating resin are disposed between the screw head of the screw 112 and the flange 102-2b.

Further, a washer 120 made of an insulating resin is disposed between the nut 114 and the flange 104-2a.

  When the waveguide 104 and the waveguide 106 are fastened, first, the insulating member 110 is sandwiched between the flange 104-2b and the flange 106-2a.

  At this time, the opening 104-3b and the opening 106-3a face each other and communicate with each other through the hole 110-1.

  Further, the eight through-holes 104-4 formed in the flange 104-2b and the eight through-holes 106-4 formed in the flange 106-2a are in communication with each other through the hole 110-2.

  Thereafter, screws 112 made of an insulating resin are inserted from the eight through holes 106-4 of the flange 106-2a, and the screw shaft on which the screw grooves are formed is connected to the through holes 106-4 and the holes 110-2. And by passing through the through hole 104-4 and screwing the tip of the screw shaft protruding from the through hole 104-4 to the nut 114 made of an insulating resin, the waveguide 104 and the waveguide 106 is fastened.

  At this time, a spring washer 116 made of an insulating resin and a washer 118 made of an insulating resin are disposed between the screw head of the screw 112 and the flange 106-2a.

Furthermore, a washer 120 made of an insulating resin is disposed between the nut 114 and the flange 104-2b.

  As described above, when the insulating waveguide 100 is manufactured, members such as the insulating members 108 and 110, the screw 112, the nut 114, the spring washer 116, and the washers 118 and 120 are manufactured using an insulating material such as an insulating resin. I had to.

  For this reason, since each member described above made of an insulating material is more expensive than, for example, a metal member, there has been a problem that the manufacturing cost of the insulating waveguide 100 is increased. .

  In addition, each member made of the insulating material described above deteriorates over time in a shorter period of time compared to that made of metal, so compared to the case where a waveguide is fastened using a metal material. As a result, the period during which a stable fastening force can be obtained has been shortened.

Furthermore, in order to improve workability, for example, a nut plate made of an insulating resin or the like can be used in place of the nut 114. However, such a resin nut plate is expensive, and an insulating waveguide is used. Since the manufacturing cost of 100 will be further increased, the nuts 114 must be fixed to the screws 112 respectively, and the workability when manufacturing the insulated waveguide 100 can be improved. It was pointed out that this was not possible.

  Note that the prior art that the applicant of the present application knows at the time of filing a patent application is not an invention related to a known literature invention, and therefore there is no prior art document information to be described in the present specification.

  The present invention has been made in view of the various problems of the conventional techniques as described above. The object of the present invention is inexpensive, can improve workability, and is stable. An object of the present invention is to provide an insulated waveguide capable of obtaining a fastening force for a long period of time.

  In order to achieve the above-described object, the present invention is an insulating waveguide configured by a plurality of waveguides, in which adjacent waveguides are fastened via an insulating member, and is made of an insulating material and adjacent waveguides. A first through hole provided in the first flange of one of the tubes, a hole provided in the insulating member, and a first through hole in the other of the adjacent waveguides. A substantially cylindrical insertion portion that is inserted into a communicating hole formed by a second through-hole provided in the flange of 2 and has a length that covers the entire inner diameter portion of the communicating hole; and the inserting portion Formed on one end side of the cylindrical portion, abutting the first flange and projecting from the first through hole, and formed on the other end side of the insertion portion. Abuts around the opening of the second through hole in the second flange A metal nut having a support member having a cylindrical hook part, a metal screw inserted so that a screw head is positioned at the protruding part of the support member, and abutting the hook part An insulating waveguide for fixing the metal screw by a member, wherein the metal nut member is a metal nut plate capable of fixing a plurality of the metal screws. It is.

Further, the present invention is the invention described above, the support member includes a first member the protrusion portion of the cylindrical shape constituting the insertion portion is provided, the cylindrical shape constituting the insertion portion A second member provided with the flange on the other part ,
The support member when inserted into a hole through the communicating, said cylinder part side of the cylindrical shape constituting the first member is inserted from the first through hole, forming the second member The other side of the shape is inserted through the second through hole.

Further, the present invention is the invention described above, the the first member and the second member, the bore through the communication, as with other portions of the part and the cylindrical shape of the cylindrical contact It is a thing.

  In addition, the present invention is an insulating waveguide configured by a plurality of waveguides, in which adjacent waveguides are fastened via an insulating member, and is made of an insulating material, and one of the adjacent waveguides The first through hole provided in the first flange in the waveguide, the hole provided in the insulating member, and the second flange in the other of the adjacent waveguides. A substantially cylindrical insertion portion that is inserted into the communicating hole formed by the second through hole and has a length that covers the entire inner diameter portion of the communicating hole, and one end side of the insertion portion Formed on the other end side of the insertion portion and in contact with the first flange and protruding from the first through hole, and the second flange on the second flange side. A cylindrical flange contacting the periphery of the opening of the two through holes The metal screw is inserted by a metal nut member so that the metal screw is inserted so that the screw head is positioned at the projecting portion of the support member and is in contact with the flange portion. The support member includes a first member in which the protruding portion is provided in a part of the cylindrical shape constituting the insertion portion, and the cylindrical shape constituting the insertion portion. When the support member is inserted into the communicating hole, a part of the cylindrical shape that constitutes the first member is placed on the other part. The other part side of the cylindrical shape that is inserted from the first through hole and constitutes the second member is inserted from the second through hole, and the first member and the second member Means the circle in the communicating hole. A fitting portion of a predetermined length having a shape in which a part of the shape and the other part of the cylindrical shape are fitted to each other without generating a gap; and the fitting portion of the first member and the second portion One of the fitting portions has an inner diameter side that matches the insertion portion, and an outer diameter side that is smaller than the insertion portion, and the other of the fitting portion of the first member and the second fitting portion is an outer portion. The diameter side coincides with the insertion portion, and the inner diameter side is smaller than the insertion portion.

Further, the present invention is the invention described above, the metal nut member is obtained as is the metal nut plate which can be fixed a plurality of the metal screw.

The present invention is the above-described invention, wherein a metal spring washer and a metal washer are disposed between the screw head of the metal screw and the protruding portion. .

  Since the present invention is configured as described above, the present invention has an excellent effect that it is inexpensive, can improve workability, and can obtain a stable fastening force for a long period of time.

FIG. 1 is a cross-sectional view of a prior art insulated waveguide fabricated with two waveguides. FIG. 2 is a perspective view of a schematic configuration of an insulating waveguide according to a conventional technique manufactured by three waveguides. FIG. 3 is a cross-sectional view taken along line AA in FIG. FIG. 4 is a schematic configuration perspective view of an insulated waveguide according to the present invention manufactured by three waveguides. 5 is a cross-sectional view taken along line BB in FIG. FIG. 6 is an enlarged view of a fastening portion fastened by a fastening member via a support member. FIG. 7 is an explanatory view showing a modification of the support member.

  Hereinafter, an example of an embodiment of an insulated waveguide according to the present invention will be described in detail with reference to the accompanying drawings.

In the following description, the same or equivalent components as those of the conventional insulated waveguide described with reference to FIGS. 1 to 3 are denoted by the same reference numerals as those used above. Therefore, the detailed configuration and description of the function and effect will be omitted as appropriate.

  The insulated waveguide according to the present invention is constituted by a plurality of waveguides, and the adjacent waveguides are fastened via an insulating member. For example, the insulated waveguide is constituted by three waveguides. When the adjacent waveguides are fastened, a through hole formed in the flange of one waveguide and a through hole formed in the flange of the other waveguide are provided in the insulating member. It is in a state of being communicated by a hole, and a support member made of an insulating material such as an insulating resin is inserted into the communicated hole, and is fastened by a metal fastening member via the support member. This is different from the above-described insulated waveguide 100.

Hereinafter, with reference to FIG. 4 to FIG. 6, an insulating waveguide according to the present invention manufactured by three waveguides will be described in detail.

  Here, FIG. 4 shows a schematic configuration perspective view of the insulated waveguide according to the present invention, and FIG. 5 shows a sectional view taken along line BB of FIG. Moreover, FIG. 6 shows an enlarged view of the fastening portion fastened by the fastening member via the support member.

The insulated waveguide 10 shown in FIG. 4 has a configuration in which three waveguides 12, 14, and 16 are fastened, and the waveguide 12 and the waveguide 14 are fastened via an insulating member 18. In addition, the waveguide 14 and the waveguide 16 are fastened through the insulating member 20.

  More specifically, the waveguide 12 has a rectangular plate-shaped flange 12-2a formed at one end of the main body 12-1 of the rectangular waveguide, and a substantially disc shape at the other end. The flange 12-2b is formed.

In the flange 12-2b, eight through holes 12-4 are formed at equal intervals along the outer periphery. The through hole 12-4 coincides with a hole 18-2 (described later) and a through hole 14-4 (described later) of the insulating member 18, and the support member 50 (described later). Designed to match the outer diameter.

  The waveguide 14 has a substantially disc-shaped flange 14-2a formed at one end of a rectangular waveguide main body 14-1, and a substantially disc-shaped flange 14-2 at the other end. 2b is formed.

In the flanges 14-2a and 14-2b, eight through holes 14-4 are formed at equal intervals along the outer periphery. The eight through-holes 14-4 formed in the flange 14-2a have an opening 12-3a opened at the other end of the main body 12-1, and one end of the main body 14-1. When the opening 14-3a that is opened is disposed so as to face the opening 14-3a, the eight through holes 12-4 formed in the flange 12-2b can be communicated with each other. Further, the through hole 14-4 coincides with the through hole 12-4 and a hole 18-2 (described later) of the insulating member 18, and also coincides with the outer diameter of the support member 50 (described later). Designed to the diameter.

The insulating member 18 has a substantially disk shape, and a hole 18-1 having a shape capable of communicating the opening 12-3a and the opening 14-3a is formed at a substantially central portion. In addition, when the opening 12-3a and the opening 14-3a are arranged to communicate with each other, the eight through holes 12-4 formed in the flange 12-2b and the 8 formed in the flange 14-2a are provided. Eight hole portions 18-2 are formed at positions where the through holes 14-4 can communicate with each other. The hole 18-2 is designed to have a diameter that matches the through holes 12-4 and 14-4 and that matches the outer diameter of the support member 50 (described later).

  The waveguide 16 has a substantially disc-shaped flange 16-2a formed at one end of a rectangular waveguide body 16-1, and a rectangular plate-shaped flange 16-2b at the other end. Is formed.

In the flange 16-2a, eight through holes 16-4 are formed at equal intervals along the outer periphery. The eight through-holes 16-4 formed in the flange 16-2a have an opening 14-3b opened at the other end of the main body 14-1, and one end of the main body 16-1. When the opening portion 16-3a that is opened is disposed to face each other, the eight through holes 14-4 formed in the flange 14-2b are formed at positions where they can communicate with each other. Further, the through hole 16-4, holes 20 -2 through hole 14-4 and the insulating member 20 (to be described later.) And match and, consistent with the outer diameter of the support member 50 (described later.) Designed to the diameter.

The insulating member 20 has a substantially disc shape, and a hole 20-1 having a shape capable of communicating the opening 14-3b and the opening 16-3a is formed in a substantially central portion. In addition, when the opening 14-3b and the opening 16-3a are arranged to communicate with each other, the eight through holes 14-4 formed in the flange 14-2b and the 8 formed in the flange 16-2a are provided. Eight holes 20-2 are formed at positions where the through holes 106-4 can communicate with each other. The hole 20-2 is designed to have a diameter that matches the through holes 14-4 and 16-4 and that matches the outer diameter of the support member 50 (described later).

The support member 50 is composed of two members, a first member 52 in which a screw head is positioned when fastened by the screw 22 and a second member 54 in which a nut is positioned when fastened by the screw 22, and is inserted into a hole (that is, The through-hole 12-4, the hole 18-2 and the through-hole 14-4 are formed in communication with each other, the through-hole 16-4, the hole 20-2 and the through-hole 14-4 are formed in communication with each other. It is configured to cover all the inner diameter portion of the hole.

  The first member 52 has a substantially cylindrical shape, and has an outer diameter that matches the diameters of the through holes 12-4 and 16-4 and the holes 18-2 and 20-2, and the through holes 12-4 and 16-4. And the insertion portion 52-1 inserted into the holes 18-2 and 20-2, and the outer diameter is larger than the diameter of the through holes 12-4 and 16-4, and is inserted into the through holes 12-4 and 16-4. The protrusion part 52-2 which protrudes from the through-holes 12-4 and 16-4 without being formed.

  Each of the insertion portion 52-1 and the protruding portion 52-2 has an inner diameter that coincides with a screw shaft of the screw 22 (described later), and a screw groove into which the screw shaft can be screwed is formed on the inner diameter. Is formed.

  Further, the insertion portion 52-1 is inserted from, for example, the through holes 12-4 and 16-4, and the insertion portion 52 is in a state where the protruding portion 52-2 is in contact with the flanges 12-2 b and 16-2 a. -1 is a length L1 that reaches the central portion of the insulating members 18 and 20.

In addition, in order to relieve the crushing by the clamping force of the screw 22, the protruding portion 52-2 preferably has a thickness, and the thickness T1 is, for example, 4.5 mm to 7 mm, and more preferably, 4.5 mm. Furthermore, the thickness T2 of the insertion portion 52-2 is 2 mm, for example.

  The second member 54 has a substantially cylindrical shape, and has an outer diameter that matches the diameters of the through hole 14-4 and the holes 18-2 and 20-2, and the through hole 14-4 and the holes 18-2 and 20-2. -2 inserted into -2 and the flange formed so as to contact the periphery of the opening of the through hole 14-4 at the flanges 14-2a and 14-2b when the insertion portion 54-1 is inserted A portion 54-2 is formed.

  The insertion portion 54-1 and the flange portion 54-2 have an inner diameter that matches the screw shaft of the screw 22 (described later), and a screw groove into which the screw shaft can be screwed is formed on the inner diameter. Has been.

  Further, the insertion portion 54-1 is inserted from the through hole 14-4, and when the flange portion 54-2 is in contact with the flanges 14-2a and 14-2b, the distal end portion 54 of the insertion portion 54-1. -1a reaches a substantially central portion of the hole portions 18-2 and 20-2 of the insulating members 18 and 20, and has a length L2 that contacts the tip portion 52-1a of the insertion portion 52-1 in the first member 52. In addition, the front-end | tip part 54-1a is a shape which does not produce a clearance gap when contact | abutting with the front-end | tip part 52-1a.

A thickness T3 of the insertion portion 54-1 is, for example, 2 mm. Moreover, the thickness of the collar part 54-2 is 2 mm-7 mm, for example, More preferably, it is 4.5 mm.

  When the waveguide 12 and the waveguide 14 are fastened, first, the insulating member 18 is put between the flange 12-2b and the flange 14-2a.

  At this time, the opening 12-3a and the opening 14-3a face each other and communicate with each other through the hole 18-1.

  Further, the eight through holes 12-4 formed in the flange 102-2b and the eight through holes 14-4 formed in the flange 14-2a are in communication with each other through the hole 18-2.

  Thereafter, the first member 52 is inserted from the eight through holes 12-4 of the flange 12-2b, and the second member 54 is inserted from the eight through holes 14-4 of the flange 14-2a. 4. The support member 50 is disposed in a hole formed in communication with the hole 18-2 and the through hole 14-4.

  At this time, in the support member 50, the distal end portion 52-1a of the insertion portion 52-1 of the first member 52 and the distal end portion 54-1a of the insertion portion 54-1 of the second member 54 come into contact with each other, and the first member The projecting portion 52-2 in 52 abuts on the flange 12-2b, and the flange portion 54 in the second member 54 abuts on the flange 14-2a.

  Next, the metal screw 22 is inserted from the first member 52 of the support member 50, and the screw shaft formed with the screw groove is protruded from the second member 54 through the first member 52 and the second member 54. The waveguide 12 and the waveguide 14 are fastened by screwing the leading end of the waveguide to the metal nut plate 24.

  At this time, a metal spring washer 26 and a metal washer 28 are disposed between the screw head of the screw 22 and the protruding portion 52-2 of the first member 52.

Further, the screw 22, nut plate 24, spring washer 26, and washer 28 as fastening members can be made of metal and can be manufactured at low cost. The member can be obtained at a low cost, and the manufacturing cost of the insulating waveguide 10 can be reduced.

  Next, when the waveguide 14 and the waveguide 16 are fastened, first, the insulating member 20 is sandwiched between the flange 14-2b and the flange 16-2a.

  At this time, the opening 14-3b and the opening 16-3 face each other and communicate with each other through the hole 20-1.

  Furthermore, the eight through-holes 14-4 formed in the flange 14-2b and the eight through-holes 16-4 formed in the flange 16-2a are in communication with each other through the hole 20-2.

  Thereafter, the first member 52 is inserted from the eight through holes 16-4 of the flange 16-2a, and the second member 54 is inserted from the eight through holes of the flange 14-2b. The support member 50 is disposed in a hole formed in communication with the portion 20-2 and the through hole 14-4.

  At this time, in the support member 50, the distal end portion 52-1a of the insertion portion 52-1 of the first member 52 and the distal end portion 54-1a of the insertion portion 54-1 of the second member 54 come into contact with each other, and the first member The projecting portion 52-2 in 52 comes into contact with the flange 16-2a, and the flange portion 54 in the second member 54 comes into contact with the flange 14-2b.

  Next, the metal screw 22 is inserted from the first member 52 of the support member 50, and the screw shaft formed with the screw groove is protruded from the second member 54 through the first member 52 and the second member 54. The waveguide 14 and the waveguide 16 are fastened by screwing the leading end of the waveguide to the metal nut plate 24.

  At this time, a metal spring washer 26 and a metal washer 28 are disposed between the screw head of the screw 22 and the protruding portion 52-2 of the first member 52.

Further, the screw 22, nut plate 24, spring washer 26, and washer 28 as fastening members can be made of metal and can be manufactured at low cost. The member can be prepared at low cost, and the manufacturing cost of the insulating waveguide 10 can be reduced.

By producing the insulated waveguide 10 using the three waveguides 12, 14, and 16 as described above, the insulation between the waveguide 12 and the waveguide 14 and the conductivity can be improved. The insulated waveguide 10 that maintains the insulation between the wave tube 14 and the waveguide 16 can be manufactured.

  As described above, the insulated waveguide 10 according to the present invention fixes the waveguides 12 and 14 and the insulating member 18 in the two waveguides 12 and 14 connected via the insulating member 18. The support member 50 is formed so as to cover all the inner diameter surfaces of the communicating holes in the communicating holes (through holes 12-4, 14-4 and the hole 18-2) formed for the purpose, and made of an insulating material. The metal screw 22 inserted into the support member 50 is fixed by the metal nut plate 24.

  The support member 50 is made of two members, a first member 52 and a second member 54. When the support member 50 is inserted into the communicating hole, the through hole 12-4 in the flange 12-2b of the waveguide 12 is used. The first member 52 is inserted from the through hole 14-4, and the second member 54 is inserted from the through hole 14-4 in the flange 14-2a of the waveguide 14.

  Similarly, in the two waveguides 14 and 16 connected via the insulating member 20, the communicating holes (through holes 14-) formed to fix the waveguides 14 and 16 and the insulating member 20 are fixed. 4, 16-4 and the hole 20-2) are formed so as to cover all the inner diameter surfaces of the communicating holes, and a support member 50 made of an insulating material is inserted and inserted into the support member 50. The screw 22 and the metal nut plate 24 were used for fixing.

When the support member 50 is inserted into the communicating hole, the first member 52 is inserted from the through hole 16-4 in the flange 16-2a of the waveguide 16, and the flange 14- of the waveguide 14 is inserted. The second member 54 is inserted from the through hole 14-4 in 2b.

  Thereby, in the insulated waveguide 10 by this invention, since the metal which can be produced cheaply as a fastening member (screw 22, nut plate 24, spring washer 26, washer 28) is used, it is insulating material. Compared to the insulating waveguide 100 according to the prior art in which adjacent waveguides are connected using the fastening members (screws 112, nuts 114, spring washers 116, washers 118, 120) made by Therefore, the insulating waveguide 10 can be manufactured at low cost and the manufacturing cost of the insulating waveguide 10 can be suppressed.

  In addition, in the insulated waveguide 10 according to the present invention, since the metal nut plate 24 that can be manufactured at low cost is used, the number of parts in the fastening member can be reduced, and the workability by the operator can be reduced. Will improve.

Furthermore, according to the insulated waveguide 10 according to the present invention, since the metal screw 22 and the nut plate 24 are used, the adjacent waveguide using the screw 112 and the nut 114 made of an insulating material such as resin. Compared with the insulating waveguide 100 according to the prior art which is configured to fasten the tube, the aging deterioration of the fastening member is improved, and the fastening force of the adjacent waveguide can be stably maintained for a longer period of time. Will be able to.

  The embodiment described above can be modified as shown in the following (1) to (7).

  (1) In the above-described embodiment, the waveguide is constituted by the three waveguides 12, 14, and 16, and the adjacent waveguides are made of metal fastening members (screws 22) together with the support member 50 via the insulating members. The nut plate 24, the spring washer 26, and the washer 28) are used for fastening, but the present invention is not limited to this.

  That is, if the adjacent waveguides are fastened together with the support member 50 through the insulating member using a metal fastening member (screw 22, nut plate 24, spring washer 26, washer 28), You may make it comprise using two waveguides or four or more waveguides.

  (2) In the above-described embodiment, eight through holes are provided in the flange used when fastening with the adjacent waveguide. However, the present invention is not limited to this. The number of through holes provided in the flange may be 2 to 7, or 9 or more.

  (3) In the above-described embodiment, the main body portions 12-1, 14-1, and 16-1 of the three waveguides 12, 14, and 16 are rectangular waveguides. However, the present invention is not limited to this. Of course, the main body portions 12-1, 14-1, and 16-1 may be circular waveguides.

  (4) In the above-described embodiment, the nut plate 24 is used. However, the present invention is not limited to this, and a metal nut is used instead of the nut plate 24. Also good.

  (5) In the above-described embodiment, the distal end portion 52-1a of the insertion portion 52-1 in the first member 52, and the distal end portion 54- of the insertion portion 54-1 in the insertion portion 54-1 in the second member 54. 1a is in contact with the substantially central portions of the holes 18-2 and 20-2 of the insulating members 18 and 20, but it is of course not limited to this. For example, the insulating member 18 The tip 52-1a and the tip 54-1a may be in contact with somewhere in the 20 holes 18-2 and 20-2, or the through holes 12-4, 14-4, 16 -4 may abut.

  (6) In the above-described embodiment, the through-hole 12-4, the hole 18-2, the hole communicating with the through-hole 14-4, the through-hole 16-2, the hole 20-2, and the through-hole 14-4. When the first member 52 and the second member 54 are inserted into the holes communicating with each other, the distal end portion 52-1a of the insertion portion 52-1 and the distal end portion 54-1a of the insertion portion 54-1 are connected to the hole portion 18-. 2 and 20-2 are contacted at substantially the center part, but it is needless to say that the present invention is not limited to this.

  That is, the shape of the distal end portion 52-1a of the insertion portion 52-1 in the first member 52 and the shape of the distal end portion 54-1a of the insertion portion 54-1 in the second member 54 are as shown in FIG. It is good also as a shape which mutually fits without producing a clearance gap.

  Specifically, in the first member 52, the fitting portion 52-1b is provided by a predetermined length L3 from the distal end portion 52-1a of the insertion portion 52-1.

  The fitting portion 52-1b is designed such that the inner diameter coincides with the insertion portion 52-1, and the outer diameter is smaller than that of the insertion portion 52-1.

  Further, in the second member 54, the fitting portion 54-1b is provided by a predetermined length L3 from the distal end portion 54-1a of the insertion portion 54-1.

  The fitting portion 54-1b is designed so that the outer diameter matches the insertion portion 54-1, the inner diameter is larger than the insertion portion 54-1, and the outer diameter of the fitting portion 52-1b. Yes.

  Accordingly, the first member is connected to the hole through which the through hole 12-4, the hole 18-2, and the through hole 14-4 are communicated, and the hole through which the through hole 16-2, the hole 20-2, and the through hole 14-4 are communicated. 52 and the second member 54 are inserted, the fitting portion 52-1b of the insertion portion 52-1 and the fitting portion 54-1b of the insertion portion 54-1 are connected to the holes 18-2 and 20-2. In this case, the fitting is performed without generating a gap.

  (7) You may make it combine suitably the embodiment shown above and the modification shown in said (1) thru | or (6).

  The present invention is suitable for use as a connection waveguide connecting an antenna and a wireless communication device.

10, 100, 200 Insulated waveguide 12, 14, 16, 102, 104, 106, 202, 204 Waveguide 12-2a, 12-2b, 14-2a, 14-2b, 16-2a, 16-2b , 102-2a, 102-2b, 104-2a, 104-2b, 106-2a, 106-2b Flange 12-3a, 14-3a, 14-3b, 16-3a, 102-3a, 104-3a, 104 -3b, 106-3a Opening 12-4, 14-4, 16-4, 102-4, 104-4, 106-4 Through-hole 18, 20, 108, 110, 206 Insulating material 18-1, 18- 2, 20-1, 20-2, 108-1, 108-2, 110-1, 110-2 hole 22 screw (made of metal)
24 Nut plate (made of metal)
26 Spring washer (metal)
28 Washer (Metal)
50 Support member 52 1st member 52-1 Insertion part 52-2 Protrusion part 52-1a, 54-1a Tip part 52-1b, 54-1b Fitting part 54 2nd member 54-2 Eaves part 112, 208 Screw ( (Made of resin)
114, 210 Nut (made of resin)
116 Spring washer (Resin)
118, 120 washers (made of resin)

Claims (6)

In an insulated waveguide configured by a plurality of waveguides and fastening adjacent waveguides via an insulating member,
Made of insulating material,
The first through hole provided in the first flange of one of the adjacent waveguides, the hole provided in the insulating member, and the other guide of the adjacent waveguides. A substantially cylindrical insertion portion having a length that is inserted into a communicating hole formed by a second through hole provided in a second flange of the wave tube and covers the entire inner diameter portion of the communicating hole; ,
A cylindrical protruding portion formed on one end side of the insertion portion, contacting the first flange and protruding from the first through hole;
A support member that is formed on the other end side of the insertion portion and has a cylindrical flange that abuts around the opening of the second through hole in the second flange,
Insulating waveguide for inserting a metal screw so that a screw head is positioned at the projecting portion of the support member, and fixing the metal screw with a metal nut member so as to contact the flange portion Because
The insulated waveguide, wherein the metal nut member is a metal nut plate capable of fixing a plurality of the metal screws. The insulated waveguide according to claim 1, wherein
The support member includes a first member portion on the projecting portion of the cylindrical shape is provided which constitutes the insertion portion, the flange portion is provided on the other portion of the cylindrical shape constituting the insertion portion A second member,
Said cylindrical when inserting the support member into the hole through the communication is that a portion side of the cylindrical shape constituting the first member is inserted from the first through hole, constituting the second member The other part side of the shape is inserted from the second through hole. The insulated waveguide according to claim 2, wherein
Wherein the first member and the second member, said in communication with the bore, an insulating waveguide and another portion is characterized in that the abutment portion and the cylindrical shape of the cylindrical shape. In an insulated waveguide configured by a plurality of waveguides and fastening adjacent waveguides via an insulating member,
Made of insulating material,
The first through hole provided in the first flange of one of the adjacent waveguides, the hole provided in the insulating member, and the other guide of the adjacent waveguides. A substantially cylindrical insertion portion having a length that is inserted into a communicating hole formed by a second through hole provided in a second flange of the wave tube and covers the entire inner diameter portion of the communicating hole; ,
A cylindrical protruding portion formed on one end side of the insertion portion, contacting the first flange and protruding from the first through hole;
A support member that is formed on the other end side of the insertion portion and has a cylindrical flange that abuts around the opening of the second through hole in the second flange,
Insulating waveguide for inserting a metal screw so that a screw head is positioned at the projecting portion of the support member, and fixing the metal screw with a metal nut member so as to contact the flange portion Because
The support member includes a first member in which the protruding portion is provided in a part of the cylindrical shape that constitutes the insertion portion, and a collar portion in the other portion of the cylindrical shape that constitutes the insertion portion. A second member,
When the support member is inserted into the communicating hole, a part of the cylindrical shape constituting the first member is inserted from the first through hole, and the cylinder constituting the second member The other part side of the shape is inserted from the second through hole,
The first member and the second member have a predetermined shape having a shape in which the part of the cylindrical shape and the other part of the cylindrical shape are fitted to each other without generating a gap in the communicating hole. It has a fitting part of length,
Either one of the fitting part of the first member and the second fitting part has an inner diameter side that matches the insertion part, and an outer diameter side that is smaller than the insertion part,
An insulating waveguide characterized in that either one of the fitting portion of the first member and the second fitting portion has an outer diameter side that coincides with the insertion portion and an inner diameter side that is smaller than the insertion portion. The insulated waveguide according to claim 4, wherein
The metal nut member, an insulating waveguide which is a metal nut plate which can be fixed a plurality of said metal screw. The insulated waveguide according to any one of claims 1, 2, 3, 4 or 5,
An insulated waveguide, wherein a metal spring washer and a metal washer are disposed between a screw head of the metal screw and the protrusion.