JP5345882B2 - Waterproof cap - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a waterproof cap with a plug (a coaxial connector), easy to attach to cables having various diameters and capable of easily discharging rain water when entering inside. <P>SOLUTION: The waterproof cap 10 includes a mounting part 11 opened at its upper side, a cylindrical body part 12 formed with its inner diameter having a fixed size to be equal to or larger than the inner diameter of the mounting part 11, and a terminal part 15 closing the cylindrical body part 12 at its lower side. The terminal part 15 consists of a terminal face 14 closing the cylindrical body part 12 at one side end face and extending continuously from one side end portion 12a of the cylindrical body part 12 into an approximately flat shape, and a plurality of slits 17 formed in a range of the terminal face 14 to freely pass therethrough cables having various outer diameters. <P>COPYRIGHT: (C)2011,JPO&amp;INPIT

Description

The present invention relates to a waterproof cap mounted so as to cover a connection portion between a cable and a signal input / output unit of an outdoor device.

In general, outdoor equipment such as antennas and boosters for TV reception-related equipment and satellite antenna converters are configured to draw the received signals and amplified signals indoors via coaxial cables. ing. For this reason, the outdoor device is formed so as to cover the connection portion so that, for example, rainwater or the like does not enter the connection portion between the signal input / output terminal and the coaxial cable of the outdoor device. The cover is covered with a waterproof cap to prevent intrusion of rainwater and the like.
Specifically, a waterproof cap having the structure shown in FIG. 9 is provided as a conventional waterproof cap. As shown in FIG. 9A, the waterproof cap 40 in this embodiment is arranged concentrically following the upper mounting portion 11 that is a portion to be mounted on a connection portion of an outdoor device, and the mounting portion 11. A main body portion 12 having an inner diameter that is the same size as the mounting portion 11 and a terminal portion 45 that is provided so as to close the main body portion 12 and gradually decreases in diameter toward the tip end. And so on. In the terminal portion 45, cutting markers 43 and 44 (for example, the marker 43 is for a 5C cable and the marker 44 is for a 3C cable are provided at positions corresponding to the outer diameter of the coaxial cable 20 to be used. = 75Ω cable).

As shown in FIG. 9B, the waterproof cap 40 and the coaxial cable 20 (in this embodiment, 5C cable) 20 configured as described above are first attached to the 5C cable marker 43 at the terminal end 45, for example. Cutting is performed by using known means such as scissors to form a cut end 43a in the end portion 45, and inserting the cut 43a through the 5C cable 20. Further, in this state, the end of the coaxial cable 20 is stripped into a predetermined shape so as to correspond to the coaxial connector 5 attached to the end of the 5C cable 20, and then the coaxial connector 5 is connected to the end of the coaxial cable 20. Assembling is completed by attaching to. When the assembly is completed in this way, the coaxial connector 5 is screwed to the signal input / output terminal 4 of the outdoor device 2 shown in FIG. 9C, and the mounting portion 11 of the waterproof cap 40 is connected to the signal input / output terminal 4. By mounting on the cylindrical pedestal 3 provided with the input / output terminals 4, the waterproof cap 40 is held on the cylindrical pedestal 3 and can cover the connection portion between the coaxial connector 5 and the signal input / output terminals 4. It is.

However, the waterproof cap 40 configured in this way is configured to perform the processing of the terminal end 45 (cut processing in this embodiment) in accordance with the outer diameter of the coaxial cable 20, so the coaxial connector 5 is attached to the coaxial cable 5. This can only be done after the waterproof cap 40 is attached to 20. Therefore, for example, there has been a problem that the step of stripping the coaxial cable 20 or mounting the coaxial connector 5 in a dangerous place such as a roof is forced.
In addition, even after the connection work is completed, rainwater that is wound up or blown by applying strong wind pressure due to strong winds such as a typhoon, for example, due to insufficient installation of a waterproof cap, is not enough. The case where it will permeate in the waterproof cap 40 from the part 11 is considered. However, in the embodiment of the prior art, the cut 43a formed in the positioning marker 43 and the external insulating end of the coaxial cable 20 are in close contact with each other, so that when rainwater enters, the rainwater does not flow out of the waterproof cap 40. There has been a problem that it may accumulate in the waterproof cap 40 and enter the worst connection portion to cause contact failure.

Therefore, in order to solve such a problem, a waterproof cap for cables shown in Japanese Utility Model Publication No. 1-009335 has been proposed. According to this gazette, the waterproof cap that covers the connection part of the signal input / output terminal and the coaxial cable of the outdoor equipment has a plurality of folding structures at the lower end of the waterproof cap, and a cable through hole with an expandable inner diameter is formed at the center. It is comprised so that it may comprise. And according to the waterproof cap for cables configured in this way, the through-hole can be expanded to the same diameter as the inner diameter of the upper cylindrical portion of the waterproof cap, so that even a cable with a plug can be applied. It is possible to realize a waterproof cap for cables with excellent workability without requiring a second effort of passing a waterproof cap through the cable in advance and then attaching a plug to the cable. Moreover, although it is not specified in the official gazette, it is assumed that even if rainwater enters the waterproof cap, it is assumed that the rainwater that has entered inside can easily flow out from the folded gap. It is considered that the protection of the system can be surely performed.

No. 1-009335

However, the waterproof cap having the folding structure as shown in the above-mentioned literature is applied to a cable with a plug using cables having various outer diameters (for example, 7C, 5C, 4C, etc.). Considering the case, we can see that it must be structured as follows. In other words, the size of the plug is roughly determined by the signal input / output terminals of the outdoor equipment, so even if the cable diameter changes, the plug will have the same size, but the cable will have different outer diameters. In order to adapt to this, the cable through hole is the thinnest cable (for example, 4C cable) among the cables planned to be used in order to hold the outer periphery of the coaxial cable by using a part of the through hole. The diameter of the through hole is sufficiently large so that it can be easily inserted when the plug is inserted. There is a need.
In other words, if the waterproof cap of this embodiment is to be adapted to cables of various diameters, the inner diameter of the cable through hole must be smaller than the diameter of the thinnest cable used for the above reasons. Therefore, the waterproof cap folding structure needs to be folded so that the folding portion becomes deeper. As a result, the diameter expansion operation of the cable through-hole for inserting the plug is, for example, a plug. It cannot be done by a simple method of expanding the diameter by simply pressing it into the through hole, and it is necessary to expand the diameter with a fingertip or with a jig or tool. There was a problem in that it was still difficult to insert.
Therefore, in this application, it was made to solve these problems.
The purpose is to provide a waterproof cap that can accommodate cables of various diameters.
Another object is to provide a waterproof cap that can be applied to a cable with a plug.
Another object is to provide a waterproof cap that can be easily assembled with a cable.
Another object is to provide a waterproof cap that can be easily discharged even if rainwater enters inside.

According to the first aspect of the present invention, one of the ends is closed at the end portion, and the other is formed of a cylindrical body having a mounting portion opened at the tip end side, and a predetermined treatment is applied to the end portion of the cylindrical body. by, in a state of inserting the cable into the interior of the tubular body so as to cover the connecting portion between the signal input and output portions of the cable and outdoor equipment, mountable to the mounting portion prior SL signal output portion In a waterproof cap,
The cylindrical body is provided so as to be concentrically arranged successively after the mounting portion, and a cylindrical main body formed so that the inner diameter thereof is the same as or larger than the inner diameter of the mounting portion. Department,
The termination is
A plane that closes the one side end face of the cylindrical body portion, and the end surface which extends continuously shaped substantially flat from one side end portion of the tubular body portion,
A through-hole formed in a substantially central portion of the end surface so as to penetrate the end surface with a size smaller than the outer diameter of the thinnest cable among the cables inserted into the cylindrical body When,
A plurality of slits formed in a direction from the periphery of the through hole toward the outside of the terminal surface, in order to allow insertion of cables having at least various outer shapes;
The plurality of slits are formed on the end surface so that they do not cross each other and so that the axis of the slit forming direction does not face the substantially central portion of the end surface. To do.

According to a second aspect of the present invention, in the waterproof cap according to the first aspect, the through hole is a polygonal square hole, and the slit is located outside the end face along each side of the square hole. It is formed in the direction toward

The invention according to claim 3, that the waterproof cap according to claim 1 or claim 2, the deepest portion of the slit, having a through hole passing through the end face so as to overlap with the slit It is characterized by.

According to the first aspect of the present invention, not only has excellent versatility that can cope with coaxial cables having various diameters, but even a coaxial cable with a plug attached in advance is waterproof. Since the end surface, which is the lower surface of the cap, can be inserted into the cable by simply pressing it against the plug, a waterproof cap with extremely good workability can be provided.
In addition, the waterproof cap of the present invention can be applied to a cable with a plug attached in advance, so that the cable is stripped in a dangerous place such as on the roof as in the prior art, and the connector is attached. This makes it possible to provide a waterproof cap that is optimal for safe work.
In addition, the waterproof cap of the present invention should be present in a state where it is sandwiched at an arbitrary position in the lower part of the vicinity of the plug, with the respective end portions of the end surface divided by the slits provided at the end portion. Since it does not slide down along the cable, there is no need to hold the waterproof cap with a fingertip during screwing of the plug, and it is easy to tighten the plug using a tool. be able to. Furthermore, if the waterproof cap is held in the vicinity of the plug, the waterproof cap can be moved up immediately after the tightening operation is completed, and a waterproof cap with extremely good workability can be provided.
Furthermore, even if the waterproof cap and cable can be easily attached in this way, the infiltrated rainwater can be drained downward from the slit gap, so even if rainwater enters the waterproof cap. Even if it does, water can be drained immediately and water can be prevented from entering the connection part between the outdoor equipment and the plug, resulting in poor contact.
Also, even in the worst conditions where rainwater is blown up by strong winds in typhoons, the intruded rainwater is not only drained immediately, but also has a longer length that covers the part below the connection part of the waterproof cap. Therefore, even if it enters from the end side , it does not reach the connection part.

In the waterproof cap of the present invention, a plurality of slits are formed so as not to intersect each other with respect to the end surface, and so that the axis of the slit forming direction does not face the substantially central portion of the end surface. Is done.
For this reason, each front end portion of the end surface divided by the slit comes into contact with the external insulator of the cable in a slightly inclined state with respect to the surface orthogonal to the axis of the cable .
Therefore, rainwater quickly flows down from the gap of the slit and does not accumulate in the waterproof cap, so that the connection between the outdoor device and the coaxial cable can be protected from rainwater.
When the through hole is a polygonal square hole, the slit is formed in the direction toward the outside of the end face along each side of the square hole constituting the through hole as described in claim 2. You just have to do it.

Next, according to the waterproof cap of the third aspect, a through hole penetrating the end face is formed in the innermost part of the slit so as to overlap with the slit . For this reason, when inserting a cable with a plug, even if a force is applied to the back of the slit due to the expansion of the slit, the force can be dispersed by the presence of the through-hole, and the innermost part of the slit is broken. Therefore, a more durable waterproof cap can be provided.

It is the schematic which shows the structure of the waterproof cap which concerns on 1st Embodiment of this invention, (a) is the perspective view seen from the side lower side of the waterproof cap, (b) shows the state which attached the coaxial cable to the waterproof cap. It is the perspective view seen from the side lower side. It is a schematic side view which shows the mounting method of the waterproof cap which concerns on 1st Embodiment of this invention, and the mounting method of the signal output terminal of the outdoor equipment which is connection object, (b), (c), (d) The waterproof cap indicated by is a cross-sectional view taken along line XX of the top view in FIG. It is the perspective view seen from the side lower side which shows other embodiment of the waterproof cap which concerns on 1st Embodiment of this invention. It is the schematic which shows the structure of the waterproof cap which concerns on 2nd Embodiment of this invention, (a) is the perspective view seen from the side lower side of the waterproof cap, (b) is the state which attached the coaxial cable to the waterproof cap. It is the perspective view seen from the side lower side. It is the schematic which shows the structure of the waterproof cap which concerns on 3rd Embodiment of this invention, (a) is the perspective view seen from the side lower side of the waterproof cap, (b) shows the state which attached the coaxial cable to the waterproof cap. It is the perspective view seen from the side lower side. It is the upper side figure and bottom view of various embodiment of the waterproof cap which concerns on embodiment of this invention. It is the schematic drawing of the waterproof cap which concerns on 3rd Embodiment of this invention, (a) is a bottom view of a waterproof cap, (b) is a bottom view when a waterproof cap is attached to a coaxial cable, (c) is (b) ) Is a side view when a waterproof cap is attached to the coaxial cable. It is the schematic drawing of the waterproof cap which concerns on 4th Embodiment of this invention, (a) is a bottom view of a waterproof cap, (b) is a bottom view when a waterproof cap is attached to a coaxial cable, (c) is a coaxial cable It is a side view when a waterproof cap is attached to. It is the schematic which shows the structure of the waterproof cap of a prior art, (a) is the perspective view seen from the side lower side of the waterproof cap, (b) is seen from the side lower side when attaching a coaxial cable to a waterproof cap It is a perspective view, (c) is the perspective view seen from the side lower side in the case of connecting to the signal input / output terminal of outdoor equipment.

A waterproof cap according to a first embodiment of the present invention will be described with reference to FIGS. In the figure, reference numeral 10 denotes a waterproof cap according to the first embodiment of the present invention. This waterproof cap 10 is formed of a flexible material such as a synthetic resin material, for example, and is formed of a cylindrical body 13 having an almost constant inner diameter that is open on the upper side and closed on the lower side as shown in the figure. .
Specifically, the cylindrical body 13 is an upper portion of the cylindrical body 13 that is a portion to be attached to the cylindrical pedestal 3 that is a connection portion of the outdoor device 2 that is the connection target shown in FIG. And a cylindrical main body formed so that the inner diameter thereof is the same as the inner diameter of the mounting portion. Part 12.
Further, on one end (lower side) end surface of the cylindrical main body portion 12, a terminal surface 14 continuously extended from the one end portion 12 a of the cylindrical main body portion 12 in a substantially flat shape, and the terminal end A terminal portion 15 is provided which includes a plurality of slits 17 formed in the range of the surface 14 so as to allow insertion of cables having at least various outer diameters.

As shown in FIG. 1B, the slit 17 formed in the first embodiment of the present invention is a cable in a state in which the plug 5 is assembled to the cable 20 in advance (the description will be more specifically described below). In order to achieve this, the description will be made using an example in which the coaxial cable 20 is used as the cable and the coaxial connector 5 is used as the plug.) The size does not exceed the end portion 15.
In addition, the slit 17 in this embodiment is provided in a cross shape so that the slit 17 is normally closed on one side opening surface of the cylindrical body 13, and the coaxial cable 20 is inserted into the waterproof cap 10. After that, the four clamping pieces 16 configured to clamp the external insulator 21 of the coaxial cable 20 with the biasing force are provided. For this reason, it is desirable that the waterproof cap 10 is made of a material having a good elasticity in addition to a flexible material such as a synthetic resin material. In order to increase the elastic force, for example, the thickness of the end face 14 may be increased as compared with the thickness of the cylindrical body 13. The slits 17 may be provided so as to spread in, for example, eight directions, and the number and shape of the slits 17 are not limited to the embodiment.

Furthermore, the inner diameter of the cylindrical body 13 may be matched with the outer diameter shape of the coaxial connector 5 to be used. Specifically, since the coaxial connector 5 in this embodiment is a method in which the external insulator 21 of the coaxial cable is crimped and fixed by the fixing ring 6, the coaxial connector 5 is provided in the fixing ring 6, and the fixing ring 6 is attached with a tool. Therefore, the knob 7 for reducing the diameter may be formed to have a size that can be sufficiently accommodated in the cylindrical body 13.
Further, the length of the cylindrical body 13 is lower than the connection portion so that it does not reach the connection portion even if it enters from the end portion 15 side in consideration of the worst condition in which rainwater is blown up by strong wind in a typhoon or the like. For example, the length of the cylindrical main body portion 12 is preferably long by experimentally determining the length of the cylindrical main body portion 12. For example, the length of the cylindrical main body portion 12 is the length of the coaxial connector 5. That is, it should be at least about 1.5 times or more.

Next, a procedure for assembling the waterproof cap 10 and the coaxial cable 20 configured as described above and a procedure for attaching the waterproof cap 10 to an outdoor device will be described with reference to FIG.
First, the procedure for assembling the waterproof cap 10 and the coaxial cable 20 will be described. As shown in FIGS. 2 (a) and 2 (b), the coaxial cable 20 to which the coaxial connector 5 is attached is pressed toward the direction of arrow A from below the end face 14 of the waterproof cap 10, while the slit 17 As shown in FIG. 2C, the coaxial cable 20 is inserted until the coaxial connector 5 protrudes outward from the mounting portion 11. At this time, the clamping piece 16 is pushed up in the insertion direction of the coaxial cable 20 as shown in the drawing, that is, upward, and the waterproof cap 10 is coaxially driven by the urging force of the clamping piece 16. The cable 20 is held at an arbitrary position.

Next, a procedure for attaching to the outdoor device 2 will be described. This operation starts by screwing the coaxial connector 5 to the signal output terminal 4 of the outdoor device 2. At this time, the waterproof cap 10 exists in a state of being sandwiched at an arbitrary lower position in the vicinity of the coaxial connector 5 for the reason described above, and does not slide down along the coaxial cable 20. In this screwing operation, it is not necessary to hold the waterproof cap 10 with a fingertip or the like, and the coaxial connector 5 can be easily tightened using a wrench or the like.
When the coaxial connector 5 is screwed in this way, as shown in FIG. 2D, the waterproof cap 10 is pushed up in the direction of arrow B, and the mounting portion 11 of the waterproof cap 10 is placed below the outdoor equipment 2. The waterproof cap 10 can be held by the cylindrical pedestal 3 and can cover the connection portion of the coaxial connector 5 and the signal output terminal 4 by being fitted into the provided cylindrical pedestal 3. If the cylindrical pedestal 3 is formed so that the circumferential diameter is slightly larger than the inner diameter of the waterproof cap 10, the waterproof cap 10 is sandwiched and held by the cylindrical pedestal 3 and does not fall off. Further, when the waterproof cap 10 is mounted on the cylindrical pedestal 3, if the waterproof cap 10 is moved in the direction of arrow B, the holding piece 16 that is curved so as to be recessed inside the waterproof cap 10 is It is pushed downward by friction between the piece 16 and the external insulator 21 of the coaxial cable 20 and protrudes to bend below the waterproof cap 10 and holds the external insulator 21 of the coaxial cable 20 with its urging force. By sandwiching, the waterproof cap 10 can be prevented from sliding downward. For this reason, it is desirable that the waterproof cap 10 is made of a flexible material such as a synthetic resin material as described above, and has an excellent elastic force and a viscous material.

Next, different embodiments of the waterproof cap 10 according to the first embodiment of the present invention will be described with reference to FIG. The difference between the waterproof cap 10 of this different embodiment and the waterproof cap 10 of the first embodiment lies in the difference in the end portion 15 as shown well in the figure. That is, the waterproof cap 10 according to the embodiment of the present invention is intended to be easily mounted by simply pressing the end portion 15 of the waterproof cap 10 to the coaxial cable 20 to which the coaxial connector 5 is previously mounted. If the final stage 15 is formed long downward as in the prior art, the presence of the long clamping piece 16 may obstruct the insertion of the coaxial connector 5, or conversely, In order to facilitate the insertion of the connector 5, the sandwiching piece 16 is configured to be bent deeply inward of the waterproof cap 10, and when the waterproof cap 10 is mounted on the cylindrical base 3 of the outdoor device 2, the waterproof cap 10 is moved upward. In order to prevent the pinching piece 16 from being long and not folded back even if it is moved, the pinching piece 16 does not remain inside the waterproof cap 10. Is the defined dimensions of the terminal portion 15.
In the embodiment of the present invention, as shown in FIG. 3A-1, the substantially central portion of the end surface 14 is axially oriented with respect to the substantially central portion of the one end surface of the cylindrical main body portion 12. As shown in FIG. 3 (b) -1 from a position projecting outwardly (downward in the figure) by substantially the same dimension as the radius of the cylindrical main body 12 (R in FIG. 3 (a) -1). , The substantially central portion of the end surface 14 is directed toward the inner side in the axial direction (upward in the drawing) with respect to the substantially central portion of the one end surface of the cylindrical main body 12 (see FIG. 3 (b) -1 indicates that the end surface 14 may be formed so as to be located anywhere between the positions recessed by substantially the same dimensions as R).

Next, the waterproof cap 30 of 2nd Embodiment which concerns on embodiment of this invention is demonstrated using FIG. The difference between the second embodiment and the first embodiment is the difference in the inner diameter of the cylindrical main body 12. According to this embodiment, as shown in FIG. 4A, following the mounting portion 11, the inner diameter is successively arranged concentrically so as to have a constant dimension larger than the inner diameter of the mounting portion 11. It is comprised so that the cylindrical main-body part 12 provided so that it may be provided.
As shown in FIG. 4B, the waterproof cap 30 of the second embodiment according to the embodiment of the present invention is used when attaching an external component such as a filter or attenuator indicated by 9 in the figure. It is for use. Therefore, the inner diameter of the cylindrical main body 12 (that is, the diameter of the terminal portion 15) may be configured such that the external component 9 is sufficiently accommodated.
Further, the length of the cylindrical main body 12 is such that a waterproof cap 30 is provided to attach the mounting portion 11 to the cylindrical pedestal 3 after the signal input terminal 9 a of the external component 9 is connected to the outdoor equipment 2. The length is such that the signal output side (the lower side in the figure) of the external component 9 does not come into contact with the end surface 14 even if it moves upward, and rainwater is blown up by strong wind and enters from the end surface 14 side. Even so, the length may be such that it does not reach the connection portion between the signal output terminal 9 b of the external component 9 and the coaxial connector 5 of the coaxial cable 20. As an example, in a state where the signal output terminal 9b and the coaxial connector 5 are connected, the length of the cylindrical main body portion 12 positioned below the coaxial connector 5 is at least about 1 to 5 times the length of the coaxial connector 5. That's all you need.
Furthermore, in the second embodiment, a through hole 18 having a diameter d is formed so as to penetrate substantially the center of the end surface 14, so that the coaxial connector 5 reaches the external component 9 having a larger diameter. The insertion operation is made easy. The inner diameter d of the through hole 18 is formed so that the waterproof cap 30 is thinner than the narrowest diameter (D in FIG. 4B) of the corresponding coaxial cable 20 (for example, 7C to 4C cable). That's fine.
Needless to say, the through hole 18 may be adapted to the waterproof cap 10 of the first embodiment.

Next, the waterproof cap of 3rd Embodiment which concerns on embodiment of this invention is demonstrated using FIG. The difference between the third embodiment and the above-described embodiment is that a through-hole 19 that penetrates the end surface 14 is provided at the innermost part of the slit 17 provided in the end portion 15 so as to overlap the slit 17. It is. According to this embodiment, as shown in FIG. 5B, when the holding piece 16 is expanded when the coaxial connector 5 having a large outer diameter is inserted, the slit 17 Since the force applied to the innermost portion of the slit 17 is dispersed and the innermost portion of the slit 17 is prevented from being broken, the waterproof cap 10 having higher durability can be provided.

Here, with reference to FIG. 6, a specific configuration example of the termination portion 15 corresponding to the first to third embodiments will be collectively shown. In this figure, a top view is shown on the left side and a bottom view is shown on the right side.
Incidentally, these configuration examples shown in FIG. 6 are not particularly shown, but it goes without saying that they may be applied to the second embodiment.
FIG. 6A is a schematic view showing the end portion 15 of the waterproof cap 10 of the first embodiment already described in detail, and FIG. 6B is another view of the first embodiment shown in FIG. In the embodiment, the through hole 18 is provided in the substantially central portion of the terminal end portion 15.
FIG. 6C is a schematic view of the waterproof cap 10 according to another embodiment of the third embodiment of the present invention, and is an example in which the through hole 18 is not provided in the substantially central portion of the terminal end portion 15. FIG. 6D is a schematic view of the waterproof cap 10 of the third embodiment already described in detail, and a through hole 18 is formed in a substantially central portion of the terminal end portion 15.
Further, FIG. 6 (e) and FIG. 6 (f) show an example provided with a termination portion different from the termination portion 15 adapted to the first and third embodiments, and this embodiment will be described in detail below. It is 4th Embodiment of this invention.

The terminal part 15 provided in the waterproof cap according to the fourth embodiment and the terminal part 15 provided in the waterproof cap already described in detail are different in configuration in the following two points. First, a through-hole indicated by 28 in FIGS. 6 (e) and 6 (f). Although this through hole 28 is formed in the substantially central portion of the terminal end portion 15 as in the above embodiment, the dimension is smaller than the outer diameter of the thinnest coaxial cable 20 inserted into the waterproof cap 10. It is different in that it is formed by a square hole penetrating the end face 14.
Next is the slit 17. The slits 17 according to the fourth embodiment of the present invention are formed in the direction from the side 28a of the through hole 28 toward the outside of the end surface 14, and the slits 17 do not cross each other. In addition, it is arranged so that the axis of the slit 17 in the formation direction does not face the substantially central portion of the end face 14.
6 (e) and FIG. 6 (f) may be the round hole 18 as in the above embodiment, but in this case, the slit 17 is formed in the tangential direction of the through hole 18. The slits 17 may be arranged so as to have the above-described arrangement.

Here, the waterproof cap 10 of the third embodiment having the end portion 15 configured as shown in FIG. 6D, and the fourth embodiment having the end portion 15 configured as shown in FIG. 6E. With respect to the waterproof cap 10 of the embodiment, the difference will be specifically described with reference to FIGS. 7 and 8. In this figure, FIG. 7 is a schematic drawing of a waterproof cap according to a third embodiment of the present invention, (a) is a bottom view of the waterproof cap, (b) is a bottom view when the waterproof cap is attached to the coaxial cable, (C) is a side view when a waterproof cap is attached to a coaxial cable. 8 is a schematic view of a waterproof cap according to a fourth embodiment of the present invention, (a) is a bottom view of the waterproof cap, (b) is a bottom view when the waterproof cap is attached to the coaxial cable, c) is a side view when a waterproof cap is attached to the coaxial cable.

First, it is 3rd Embodiment shown by FIG. As shown in FIG. 7B, when the waterproof cap 10 is inserted into the coaxial cable 20, the holding pieces 16 are expanded by opening the slit 17, and at the same time, the four holding pieces 16 have their own energizing force. Thus, the external insulator 21 of the coaxial cable 20 is sandwiched. Specifically, as shown in FIG. 7 (c), the opening end 18 a of the through hole 18 inside the waterproof cap 10 and the periphery of the opening end 18 a of the through hole 18, that is, the front end portion inside the holding piece 16. 16a is in contact with the external insulator 21 of the coaxial cable 20, thereby sandwiching the external insulator 21 of the coaxial cable 20.
That is, the waterproof cap 10 in this embodiment is perpendicular to the axis of the coaxial cable 20 of the outer insulator 21 in the coaxial cable 20 with the tip portions 16a of the clamping pieces 16 including the open ends 18a of the four through holes 18. It is configured so as to sandwich a circumference substantially parallel to the surface to be moved.

An arrow shown in FIG. 7C schematically shows the flow of water in the waterproof cap 10 thus configured. As shown in this figure, rain water (shown by solid arrows) flowing down the surface of the waterproof cap 10 travels under the end portion 15 to the front end portion 16a of the holding piece 16 or the front end. After flowing from the portion 16a to the coaxial cable 20, it flows down. On the other hand, if the waterproof cap 10 is not properly attached and rainwater enters the inside of the waterproof cap 10, this rainwater (shown by a broken arrow) flows down to the bottom of the end portion 15, Although it collects around the open end 18a of the through-hole 18, it eventually flows down downward from the gap of the slit 17 and does not collect in the waterproof cap, so the connection between the outdoor equipment 2 and the coaxial cable 20 The part can be protected from rainwater.

Next is a fourth embodiment shown in FIG. Similarly to the above embodiment, in this embodiment, when the waterproof cap 10 is inserted into the coaxial cable 20, the sandwiching pieces 16 are expanded by opening the slits 17, and at the same time, the four sandwiching pieces 16 have the energizing force that they have. Thus, the external insulator 21 of the coaxial cable 20 is sandwiched (see FIG. 8B). Specifically, as shown in FIG. 8C, the side 28 a of the through hole 28 inside the waterproof cap 10 and the periphery of the side 28 a of the through hole 28, that is, the front end portion 16 a inside the holding piece 16 are provided. Each of the external insulators 21 of the coaxial cable 20 is sandwiched by contacting the external insulator 21 of the coaxial cable 20. However, as described above, the slits 17 in this embodiment are formed in the direction from the side 28a of the through hole 28 toward the outside of the end surface 14, and the end points of the slits 17 do not cross each other. In addition to being arranged on the surface 14, the slit 17 is formed in such an arrangement that the axis in the direction in which the slit 17 is formed does not face the substantially central portion of the end surface 14. The shape is not symmetric like the sandwiching piece 16 of the embodiment of FIG. When the coaxial cable 20 is inserted, the sandwiching piece 16 formed in such a shape is bent downward and comes into contact with the external insulator 21 of the coaxial cable 20 so that the contact surface is inclined to the right side in the figure. Abut.
In other words, the waterproof cap 10 in this embodiment is different from the third embodiment in that it has the distal end portion 16a of the sandwiching piece 16 including the open ends 18a of the four through holes 18, each of which is an external insulation in the coaxial cable 20. The body 21 is configured to be sandwiched with a slight inclination with respect to a plane orthogonal to the axis of the coaxial cable 20.

An arrow shown in FIG. 8C schematically shows the flow of water in the waterproof cap 10 thus configured. As shown in this figure, rain water (shown by solid arrows) flowing down the surface of the waterproof cap 10 travels under the end portion 15 to the front end portion 16a of the holding piece 16 or the front end. After flowing from the portion 16a to the coaxial cable 20, it flows down. On the other hand, if the waterproof cap 10 is not properly attached and rainwater enters the inside of the waterproof cap 10, this rainwater (shown by a broken arrow) flows down to the bottom of the end portion 15, It flows around the opening end 18a of the through-hole 18, but as described above, the opening end 18a and its peripheral edge (that is, the tip end portion 16a of the holding piece 16) are slightly inclined and contact the external insulator 21 of the coaxial cable 20. By being in contact, rainwater quickly flows downward from the gap of the slit 17 and does not accumulate in the waterproof cap, so that the connection portion between the outdoor device 2 and the coaxial cable 20 can be protected from rainwater. In other words, the waterproof cap according to the fourth embodiment of the present invention has a very good drainage performance of rainwater that has entered from the above embodiment.
Taking these into consideration, the waterproof cap according to the embodiment of the present invention is flexible, such as a synthetic resin material, excellent in elastic force, and has viscosity, and repels rainwater and the like as described above. It is desirable that the material is made of a material having good water repellency. For example, it may be formed of vinyl chloride.

As described above, according to the waterproof cap according to the embodiment of the present invention, not only has excellent versatility capable of supporting coaxial cables having various diameters, but also the coaxial cable 20 to which the coaxial connector 5 is previously attached. Even so, since the end face 15 of the waterproof cap can be inserted into the coaxial cable 20 simply by pressing the coaxial connector 5 against the coaxial connector 5, a waterproof cap with extremely good workability can be provided.
In addition, the waterproof cap according to the embodiment of the present invention is compatible with the coaxial cable 20 to which the coaxial connector 5 is attached in advance, so that the coaxial cable 20 in a dangerous place such as on the roof as in the prior art is used. It is not necessary to perform dangerous work such as stripping or attaching the coaxial connector 5, and it is possible to provide a waterproof cap with excellent safety in the attaching work.
Further, the waterproof cap according to the embodiment of the present invention is coaxial without causing the waterproof cap to slide down along the coaxial cable 20 due to the presence of the clamping piece 16 formed by dividing the end surface 14 by the slit 17. Since it can be held in an arbitrary position below the vicinity of the connector 5, there is no need to hold the waterproof cap with a fingertip or the like in the screwing operation of the coaxial connector 5, and a wrench can be used. All tightening operations can be performed easily. Furthermore, by holding the waterproof cap in the vicinity of the coaxial connector 5, it is possible to provide a waterproof cap with extremely good workability, such as being able to move the waterproof cap upward immediately after the screwing operation is completed.
Furthermore, even if the coaxial cable 20 provided with the coaxial connector 5 in advance can be easily attached in this way, rainwater that has entered the waterproof cap can be drained from the lower end. Even if rainwater enters the inside, it can be drained immediately and water can be prevented from entering the connecting portion between the outdoor equipment 2 and the connector 5 to cause poor contact.
Even in the worst conditions where rainwater is blown up by strong winds in a typhoon or the like, not only the rainwater that has entered is drained immediately, but also the length below the connecting portion (ie, the cylindrical main body 12) is lengthened. By forming, even if it penetrates from the termination | terminus part 15 side, it does not reach a connection part.

Furthermore, in the waterproof cap according to the third embodiment, the through-hole 19 is provided in the innermost part of the slit 17 so that the holding piece 16 is expanded when the coaxial connector 5 having a large outer diameter is inserted. Even if a force is applied to the inner part of the slit 17, the through hole 19 disperses the force and prevents the innermost part of the slit 17 from being broken, thus providing a waterproof cap with even higher durability. it can.

Furthermore, in the waterproof cap of the fourth embodiment, due to the characteristic arrangement of the slits 17, each of the coaxial cables 20 has the tip portions 16 a of the holding pieces 16 including the open ends 18 a of the four through holes 18. Since it is configured so as to be sandwiched in a state slightly inclined with respect to a plane orthogonal to the axis of the rainwater, rainwater quickly flows downward from the gap of the slit 17 and does not collect in the waterproof cap. And the connection part of the coaxial cable can be protected from rainwater.

Note that, as exemplified below, the present invention can be implemented by appropriately changing the configuration of each part without departing from the spirit of the present invention.
The embodiment already described in detail shows an example in which a coaxial cable is used for the description. However, the embodiment is not particularly limited to this embodiment, and other embodiments connected to the signal input / output terminal of the outdoor device 2 are not limited thereto. Needless to say, it can be adapted to cables.

2 ... Outdoor equipment, 3 ... Cylindrical base, 4 ... Signal output terminal (signal input terminal), 5 ... Coaxial connector, 6 ... Fixing ring, 7 ... Knob, 9 ... External parts (filter, attenuator), 10 ... Waterproof cap (first embodiment, third embodiment), 11 ... mounting portion, 12 ... cylindrical main body portion, 12a ... open end, 13 ... cylindrical body, 14 ... terminal surface, 15 ... terminal portion, 16 ... clamping Piece, 16a ... Tip portion of sandwiching piece, 17 ... Slit, 18 ... Through hole, 18a ... Open end, 19 ... Through hole, 20 ... Coaxial cable, 21 ... External insulator, 28 ... Square hole, 28a ... Side, 30 ... Waterproof cap (second embodiment), 40 ... Waterproof cap (prior art), 43 ... Positioning marker, 43a ... Cut, 44 ... Positioning marker, 45 ... Terminal.

Claims (3)

One end is closed at the end portion, and the other is formed of a cylindrical body provided with a mounting portion opened at the front end side, and by applying a predetermined treatment to the end portion of the cylindrical body, in while inserting the cable, in the cable and so as to cover the connecting portion between the signal input and output portions of the outdoor equipment, waterproof cap can be attached to the mounting portion prior SL signal input-output unit,
The cylindrical body is provided so as to be concentrically arranged successively after the mounting portion, and a cylindrical main body formed so that the inner diameter thereof is the same as or larger than the inner diameter of the mounting portion. Department,
The termination is
A plane that closes the one side end face of the cylindrical body portion, and the end surface which extends continuously shaped substantially flat from one side end portion of the tubular body portion,
A through-hole formed in a substantially central portion of the end surface so as to penetrate the end surface with a size smaller than the outer diameter of the thinnest cable among the cables inserted into the cylindrical body When,
A plurality of slits formed in a direction from the periphery of the through hole toward the outside of the terminal surface, in order to allow insertion of cables having at least various outer shapes;
The plurality of slits are formed on the end surface so that they do not cross each other and so that the axis of the slit forming direction does not face the substantially central portion of the end surface. Waterproof cap. The said through-hole is a polygonal square hole, The said slit is formed in the direction which goes to the outer side of the said termination | terminus surface along each edge | side of the said square hole . Waterproof cap. The waterproof cap according to claim 1 or 2 , further comprising a through-hole penetrating through the end surface so as to overlap with the slit at the innermost portion of the slit.

Images