JP3186181U - Insulation cap - Google Patents

Abstract

An insulating cap is provided in which a bundle of wires of a plurality of electric wires is not removed even if an obstructive member such as a stopper is not arranged on the inner surface.
A plurality of elongated leg-shaped retaining members 6 extend downward from an opening edge member 4 in an insulating cap 1 and a sheath 22 of an insulated wire can be exposed between the retaining members. The retaining member is configured to be flexible and flexible so that the adhesive tape 26 is wound around the outer peripheral surface of the plurality of retaining members, and the adhesive surface on the inner surface of the adhesive tape is retained. Adhering one after another to the outer peripheral surface of the member, adhesive tape is also adhered to the outer peripheral surface of the insulated wire exposed from the gap, and each of the plurality of retaining members is connected to the outer peripheral surface of the insulated wire in the circumferential direction. Configure as follows.
[Selection] Figure 7

Description

  The present invention exposes and brings together the conductor terminals of a plurality of insulated wires (for example, wires with insulation coating, insulated wires such as 600V CV cables), and surrounds them with a known crimping means such as a ring sleeve. The present invention relates to an insulating cap that is attached to a bundle of wires formed by connecting conductor terminals by being crimped in a crimped manner so that the outer periphery of the bundle of wires is insulated and protected.

Conventionally, a bottomed cylinder having a bottom wall at one end and an opening at the other end, and a plurality of lock claws projecting from the inner surface toward the center on the inner surface of the peripheral wall of the cylinder It is widely known that an insulating cap is configured by arranging them at substantially equal intervals, including the insulating cap disclosed in Patent Document 1, for example.
When using the insulating cap, toward the inside of the cylindrical body, from the opening, a "multiple electric wire bundle", that is, a plurality of electric wire ends are brought together, and a connection tool such as a crimp sleeve is provided around the end. The lower end portion of the crimp sleeve, etc. of the above-mentioned “multi-wire connection bundle” is inserted by inserting a “multi-wire connection bundle” consisting of a plurality of wire ends in a bundle by tightening the crimp sleeve from the outer periphery. It is possible to prevent the “insulation bundle of a plurality of electric wires” from being inadvertently pulled out by being caught by “the plurality of lock claws protruding from the inner surface toward the center” of the insulation cap.

JP 2012-164444 A

As widely known in the art, the “bundling bundle of a plurality of electric wires” includes a thick one (for example, one in which a large number of electric wires are brought together) and a thin one (for example, one having few wires to be brought together).
Therefore, in the structure of the insulating cap described above, when it is put on a “bundling bundle of multiple wires” having a thickness corresponding to the inner diameter of the insulating cap, the crimp sleeve of the “bundling bundle of multiple wires” is used. The lower end portion is caught by “a plurality of lock claws protruding from the inner surface of the insulating cap toward the center portion”, and the “connection bundle of a plurality of electric wires” is prevented from being inadvertently removed.
However, if the “bundling bundle of multiple wires” has a relatively large diameter, the “plurality of locking claws protruding from the inner surface of the insulating cap toward the center” interferes with the operation of covering the insulating cap. There is a problem that becomes difficult.
In addition, when the “multi-wire connection bundle” has a relatively small diameter, there is a problem that even if the insulation cap is put on the corner “multi-wire connection bundle”, the insulation cap will come off accidentally and fall off. It was.
Therefore, in the past, various types of insulation caps with different inner diameters of the insulation caps must be prepared and correspond to the “bundling bundles of multiple wires” with different thicknesses. There is also a problem in the workplace where field workers have to selectively use various types of insulating caps.

Further, in the “insulation cap”, the “insulation cap” is provided with “plurality of locking claws” for engagement, and as described above, in the “insulation cap”, the “bundling bundle of multiple wires” is provided. Is engaged with the lower end of the crimp sleeve.
Therefore, in the completion inspection, it is difficult to determine whether or not the engagement state of the “lower end of the crimping sleeve” with respect to the “plurality of locking claws” is appropriately performed from the outside, and there is an omission work. However, there is a problem that is difficult to find.

An object of the present application is to solve the above-mentioned problems, and to provide an insulating cap that does not have an obstructive projection inside and can be inserted into a “connection bundle” of any size.
Another object of the present invention is to provide an insulating cap that can confirm and inspect at a glance the “mode of retaining work” of the insulating cap attached to the electric wire.
Another object of the present invention is to provide an insulating cap configured such that a “connection bundle” inserted inside the insulating cap is shielded from being seen from the outside.
Other problems, objects and advantages will be readily apparent from the drawings and the following description associated therewith.

The insulating cap according to the present invention is an insulating cap 1 for putting conductors 21 terminals of a plurality of electric wires 20 together, and covering them on a wire bundle 25 formed by crimping and connecting the conductors 21 terminals. 3 includes a peripheral wall member 3a surrounding the space 5 in which the connection bundle 25 is located, and a top member 3b located above the connection bundle 25, and the connection bundle 25 is inserted in the lower part. With an opening 3c for
Insulation in which a plurality of elongate foot-like retaining members 6 extend downward from the opening edge member 4 around the opening 3c, and the retaining members 6 are located inside. A gap 7 sufficient to allow the wire sheath 22 to be exposed;
The retaining member 6 is configured to be flexible and bendable so that it can be attached to the outer peripheral surface of the electric wire positioned inside, and the adhesive tape 26 is wound around the outer peripheral surfaces of the plurality of retaining members 6. In the state, the adhesive surface of the inner surface of the adhesive tape adheres to the outer peripheral surface of the retaining member 6 one after another, and the insulated wire coating 22 exposed from the gap 7 provided between the retaining members 6. The adhesive surface of the adhesive tape is also adhered to the outer peripheral surface, and each of the plurality of retaining members 6 is connected to the outer peripheral surface of the insulated wire coating in the circumferential direction.

  Preferably, among the plurality of retaining members 6, the intermediate position 6 d of one or the plurality of retaining members 6 is relative to the insulating coating portion of the insulated wire 20 that is present inside the retaining member 6. And a hole 8 through which a string 27 for connecting the retaining member 6 is passed.

More preferably, on the inner side of the opening edge member 4 of the opening 3c, the base portions 11a of a large number of narrow shielding members 11 projecting toward the central portion over the entire circumference are provided with narrow shielding members. 11 are arranged side by side with a small gap 15 between them so that they can be separated from each other,
The length of each of the shielding members 11 is such that an insertion hole 14 having a smaller diameter than the outer diameter of the wire bundle 25 to be inserted is formed in the central portion of the main portion 3 of the insulating cap. In the state where the connection bundle 25 that has passed through the insertion hole 14 is positioned with respect to the space 5 on the inner side, the crimping member of the connection bundle 25 in a state where the tip portions 11b of the respective shielding members 11 are respectively displaced upwardly. The length is set so as to be engaged with the lower end 23a of 23.

  More preferably, a refractory insulating padding is packed between the lower surface of the base portion 11a of the shielding member 11 and the lower end of the opening edge member 4 so that the conductive material is located on the inner side together with the entire lower surface of the shielding member 11. If the gap is formed so that the surface 21a of the material 21 can also be sealed, the opening 3c is completely closed by filling the gap with the filling, and the bottom of the main part 3 of the insulating cap. As viewed from the side, there is an advantage that the conductive portion 21 is hidden over the entire area.

As described above, in the insulating cap 1 of the present invention, a plurality of elongated leg-like retaining members 6 are extended downward from the opening edge member 4 around the opening 3c, and The retaining members 6 are provided with a gap 7 therebetween so as to expose the insulated wire coating 22 positioned on the inside, and the adhesive surface of the inner surface of the adhesive tape 26 is the outer periphery of the retaining member 6. The adhesive surface of the adhesive tape is adhered to the outer peripheral surface of the insulated wire coating 22 exposed from the gap 7 provided between the retaining members 6 one after another, and the retaining member 6 Since it is designed to be retained by the outer peripheral surface of the insulated wire covering 22 located below the main portion 3 of the insulating cap,
On the inner surface of the peripheral wall member 3a surrounding the space 5 for positioning the wire bundle 25, on the inner surface of the main body 3 of the cap 1 like the conventional product, It is advantageous in that there is no need to dispose a member that gets in the way.

As described above, in the present invention, since there is no obstructive member on the inner surface of the main portion 3 of the insulating cap, when the “multi-wire connection bundle 25” is finished to a relatively thin diameter, the main portion 3 can be easily inserted into the interior of the main body 3. On the other hand, even if the "multi-wire connection bundle 25" has a large diameter, the outer diameter is within the main portion 3 so long as it has a large diameter. There is a feature that one type of insulating cap 1 can accommodate large and small types of connection bundles 25 such that the “connection bundle 25” can be easily accommodated.
In this way, the feature of being able to deal with any “large and small” wire bundle is to reduce the types of insulation caps 1, simplify inventory management, and field workers can use a small number of types of insulation caps. There is an effect on the workplace in that it can cope with various types of “connection bundles 25” having different outer diameters.

  Furthermore, in the present invention, as a means for preventing the main body portion 3 of the insulating cap that is put on the “bundling bundle 25 of multiple wires” from the opening edge member 4 around the opening portion 3c, it is directed downward. A plurality of elongated leg-like retaining members 6 are extended, and the lower part 6b of the leg-like retaining member 6 is retained on the outer peripheral surface of the insulated wire covering 22 located below the main part 3 of the insulating cap. In construction completion inspection, it is possible to confirm at a glance the construction state of “maintenance work” of the main part 3 of the insulating cap and to improve the efficiency of the inspection work that can be inspected There is.

Further, in the present invention, as described above, as a means for preventing the main portion 3 of the insulating cap that is put on the “bundling bundle 25 of multiple wires”, the downward direction from the opening edge member 4 around the opening 3c. A plurality of elongate foot-like retaining members 6 are extended toward the outer periphery, and the lower part 6b of the foot-like retaining member 6 is arranged on the outer periphery of the insulated wire covering 22 located below the main portion 3 of the insulating cap. Attached to the surface, the adhesive tape 26 is wound from the outer periphery so that the lower part 6b of the foot-shaped retaining member 6 can be retained on the outer peripheral surface of the covering 22 of the insulated wire.
Accordingly, as can be understood from the state shown in FIG. 7, the “opening 3 c of the main portion 3 of the insulating cap” is closed with the adhesive tape 26, and the conductor (the live line becomes a live line) located inside the main portion 3. When it is desired that the crimping member 23 or the like is not visible from the outside, “the outer diameter dimension of the covering 22 of the insulated wire positioned below the main portion 3 of the insulating cap” and “the opening of the main portion 3 of the insulating cap” Even if there is a large step between the outer diameter of 3c (opening edge member 4) and it is difficult to close with the adhesive tape 26,

  In the present invention, the foot-shaped retaining member 6 is formed from the “opening edge member 4 of the opening 3c of the main portion 3 of the insulating cap having a large outer diameter” to the “insulation wire covering 22 having a small outer diameter”. The adhesive tape 26 that is inclined toward the outer peripheral surface of the insulated wire and wound around the outer peripheral surface of the insulated wire coating 22 is inclined toward the periphery of the “opening edge member 4 of the opening 3c of the main body 3”. There is an effect of facilitating winding by inducing the shape.

Further, on the inner side of the opening edge member 4 of the opening 3c, the base portions 11a of a large number of narrow shielding members 11 projecting toward the central portion over the entire circumference are connected to the narrow shielding members 11 mutually. Since they are arranged side by side with a small gap 15 between them so as to be separable, special measures are taken in a state in which the “connection bundle 25” is inserted into the main portion 3 of the insulating cap. Without any problem, the large number of shielding members 11 support the lower end of the crimping member 23 of the “connection bundle 25” from obliquely upward from the bottom, and the “connection bundle 25” is removed from the main body 3. There is an effect to prevent.
In addition, since the large number of narrow shielding members 11 are arranged in parallel with a slight gap 15 between them so as to be separable from each other over the entire circumference, Due to the arrangement, the outside and the inside of the main body 3 are cut off, a finger is accidentally inserted from the outside toward the inside, and an electric shock accident is caused by touching the live part (for example, 200 V) of the inside crimping member 23. There is a safety effect that reduces fear.

The front view for demonstrating the relationship between an insulation cap and a wiring bundle. The top view of an insulation cap. The bottom view of an insulation cap. The end view of the BB position in FIG. (A) is sectional drawing of the AA position in FIG. (B) is sectional drawing of the state which made the wiring bundle inserted position in the internal space of an insulation cap. The perspective view of the state where the wire bundle is inserted into the inner space of the insulation cap and the retaining member is placed along the outer periphery of the insulated wire is shown in FIG. (B) shows a state where there are a lot of insulation-coated wires constituting the wire bundle (the whole is thick). Cover the insulation coating part of the insulation coating wire that is placed inside using a string with the insulation cap placed on the “bundling bundle of multiple wires” and the retaining member along the outer periphery of the insulation coating wire. It is drawing for demonstrating the state which connected the securing member and wound the outer periphery with the adhesive tape, (A) is for rupturing a part of the adhesive tape, and passing the retaining member and the string The front view showing the relationship with a hole. (B) is a front view in which the positional relationship between the connection bundle and the shielding member can be understood except for a part of the adhesive tape on the front side, the peripheral wall of the main body, the retaining member, and the shielding member. . Fig. 1 shows an example of an external shape that differs from the insulation cap shown in Fig. 1 (example in which the planar shape is a rectangular shape). (A) shows a part of the peripheral wall of the main part of the insulation cap. The side view showing presence of an inner side shielding member. (B) is a bottom view of the insulating cap. (A) is a perspective view of "a wire bundle with two insulated wires". (B) is a top view of FIG. (A), and also shows the positional relationship with the main part 3E whose planar shape is a rectangular shape. (C) is a perspective view of “a wire bundle having three insulation-coated wires”. (D) is a top view of FIG. (C), and also shows the positional relationship with the main body 3 having a circular planar shape. (A) is shown in FIGS. 9B and 9D, “two and three insulated coated wires (each wire represents an example of a 600V CV cable, and the nominal cross-sectional area of each wire is shown in FIG. in the connection beam 25 "to the respective corresponding applicable inside diameter of the peripheral wall 3 of insulating cap 1 of 8mm ² ~1000mm ²⁾ as evident in the left column (Fig representing the right column reference) (Table) is there. (B) shows an example in which the insulation cap 1 shown in FIG. 5 is different in size, and the height dimension L1 of the main body 3 with respect to the inner diameter dimension Ф1 (each unit number represents mm) (each unit number is and (a) represents an example of the length dimension L2 (each unit number represents mm) of the retaining member 6. Cover the insulation coating part of the insulation coating wire that is placed inside using a string with the insulation cap placed on the “bundling bundle of multiple wires” and the retaining member along the outer periphery of the insulation coating wire. The partially broken front view for demonstrating the state which connected the securing member.

Embodiments of the present invention will be described below with reference to the drawings. 1, 5, 7, and 9, the connection bundle 25 is brought together in a crimped state in order to connect the conductor terminals of the well-known insulation-coated electric wires 20 (hereinafter also simply referred to as electric wires), and is apparent from the drawings. Thus, it is configured integrally.
In addition, the display of the connection bundle | flux 25 in a front view is slightly perspective-displayed so that it can understand that there are multiple electric wires.
21 is a conductor of a known electric wire, for example, a 600V CV cable, 22 is an insulation coating of the electric wire, 23 is a combination of the terminals of a plurality of conductors 21, 21, 21 as shown in FIGS. A crimping member formed of a known conductor for connection in a crimped state, for example, a member called a ring sleeve, a T-type connector, or the like. 23 a is a lower end of the crimping member 23, and is a stepped portion 23 a between the outer peripheral surface 21 a of the conductor 21 and the outer peripheral surface 23 b of the crimping member 23. 21b represents a cutting portion having an acute angle as is well known.

The insulating cap 1 for covering the connection bundle 25 in a well-known manner is made of a transparent material, for example, using a self-extinguishing soft resin material as is well-known.
As is well known, the main body 3 of the insulating cap 1 includes a peripheral wall member 3a surrounding the space 5 in which the connection bundle 25 is positioned, and a top member 3b positioned above the connection bundle 25. In the lower part, an opening 3c for inserting the wire bundle 25 is provided. Reference numeral 4 denotes the presence of an opening edge member constituting the periphery of the opening 3c.

  From the opening edge member 4 around the opening 3c, as shown in FIGS. 1, 5, 7 and the like, a plurality of (2 to 8) elongated foot-like retaining members 6 are directed downward. It is extended. The retaining member 6 may be formed of a separate material from the main body 3 and may be integrated with the main body 3, but the illustrated member is formed of the main body 3 and an integral material. 6a is a base portion connected to the opening edge member 4 of the main body portion 3, and 6b is tapered toward the tip, and the space between the retaining members 6 is narrowed as shown in FIG. 6A. However, the tip part formed so that two securing members 6 may not overlap is shown.

The space 7 between the plurality of retaining members 6 may be set at equal intervals. Moreover, you may make it an unequal space | interval in consideration of the convenience of the number of electric wires. The width of the gap 7 is provided with a gap 7 sufficient to allow the covering 22 of the insulated wire 20 positioned inside to be exposed on the surface as shown in FIG.
The retaining member 6 has elasticity so that it can be attached to the outer peripheral surface 22 of the electric wire 20 positioned on the inner side, and is configured to be bendable, for example, has a thin thickness.
The elasticity and the bendable configuration are such that when the adhesive tape 26 is wound around the outer peripheral surfaces of the plurality of retaining members 6 as shown in FIG. The adhesive surface of the adhesive tape 26 is adhered to the outer peripheral surface of the insulating wire coating 22 exposed from the gap 7 provided between the retaining members 6 one after another. And good. As described above, that is, as shown in FIG. 7, in the state where the adhesive tape 26 is wound around the outer peripheral surfaces of the plurality of retaining members 6 one after another, The coverings 22 exposed between 7 of the retaining members 6 are alternately connected one after another by the adhesive tape 26 in the circumferential direction, and the whole is firmly integrated. In addition, as said adhesive tape, what is necessary is just a tape normally used in the electric construction site, such as a tape called a well-known insulating vinyl tape.

As can be understood from FIG. 1, the insulation-coated electric wire 20 that is present inside the retaining member 6 at each intermediate position 6 d of one or all of the retaining members 6 among the plurality of retaining members 6. As can be understood from FIG. 7, a hole (also referred to as a through hole) 8 through which a string 27 for connecting the retaining member 6 is passed is provided for the insulating covering portion 22 of FIG. In the field, as is well known, a string that is also referred to as a “tie band” or an insulok (registered trademark) is used.
These strings may be passed through one or more through holes 8 at the time of shipment, but may be attached to one or more through holes 8 on site (see FIG. 4). Therefore, at the site, in the state of FIG. 6, the string 27 is attached to the hole 8 provided at each intermediate position 6d of the retaining member 6 as shown in FIG. The outer periphery of 20 is tightened and integrated together with the plurality of retaining members 6.

  Inside the opening edge member 4 of the opening 3c, a shielding means 10 made of a different material in advance is mounted. Alternatively, as shown in FIGS. 3 and 5, the shielding means 10 is formed of an integral material with respect to the member inside the opening edge member 4 of the main body 3. The configuration is such that the base portions 11a of a large number of narrow shielding members 11 projecting toward the central portion 14 are mounted as shown in FIGS. There are cuts 13 between the narrow shielding members 11, 11,... 11, respectively, and they are juxtaposed with a small gap 15 between them so that the shielding members 11 can be separated. .

The length of each of the shielding members 11 is such that an insertion hole 14 having a smaller diameter than the outer diameter of the wire bundle 25 to be inserted is formed in the central portion of the main portion 3 of the insulating cap. In the state where the connection bundle 25 that has passed through the insertion hole 14 is positioned with respect to the space 5 on the inner side, the crimping member of the connection bundle 25 in a state where the tip portions 11b of the respective shielding members 11 are respectively displaced upwardly. The length is set so as to be engaged with the lower end 23a of 23.
More specifically, the material of the shielding member 11 is the same as that of the main portion 3, and the thickness in the vertical direction in FIG. 5 is reduced to enable elastic bending. The degree of elasticity is such that the connection bundle 25 having an outer diameter that is thicker (larger) than the insertion hole 14 with respect to the insertion hole 14 in the center of the shielding means 10 can be understood from FIG. In the case of inserting upward, the tip (tip) 11b of each of the shielding members 11, 11,... 11 is directed upward so that it can be understood from FIG. Push up. In this case, the length of each of the shielding members 11, 11... 11 is such that the crimping member (ring sleeve) of the wire bundle 25 positioned in the space 5 of the main body 3 with the respective leading ends 11 b bent upward. 23) is set to a length that engages with the lower end (step portion 23a). Accordingly, there is an advantage that the wire bundle 25 cannot descend from the space 5 and stays at a predetermined place inside the space 5.
If the shielding members 11, 11... 11 are present, the conductive material (live wire) existing inside the main body 3 is not visible from the outside, preventing the fingertip from entering the inside from the outside, There is an advantage that does not occur.

Next, the insulating cap of FIGS. 1 and 5 has a circular shape as can be understood from FIGS. 2 and 3, and FIG. 8 showing an example different from these in terms of the planar shape will be described. The main portion 3E in FIG. 8 has a long square shape in plan view. Therefore, as shown in FIGS. 9 (A) and 9 (B), when the two electric wires 20 and 20 are bundled, the planar shape has a wider width as shown in FIG. 9 (B). In such a case, as a matter of course, the main body portion 3E having a long square shape in plan can be made to correspond exactly.
In the description of FIGS. 8 and 11, the configurations, functions, properties, and features of the members, etc., using the same reference numerals as those used in other FIGS. 1 to 11 are new in FIGS. 8 and 11. Except for matters relating to the description of the member configuration, combination, etc., it is the same as the description of the other FIGS. Therefore, a part of the overlapping description is omitted.

The use state in the above configuration will be described. The insulation cap 1 shown in the figure is prepared in advance by selecting a necessary size for the convenience of the site.
For example, the size shown in FIG. 10 is prepared. In the field, as can be understood from FIGS. 9 and 10, various kinds of electric wires having different sizes are connected in various combinations to form a connection bundle 25 of various sizes (outer dimensions).
Insulation caps 1 are selected and mounted corresponding to the outer dimensions of the connection bundles 25 (corresponding to the wire sizes shown in the left column of FIG. Selected).
In the mounting procedure, the insulating cap 1 having a corresponding dimension is put on the connection bundle 25 in the state shown in FIG. In the process of inserting the wire bundle 25 from the opening 3c of the main portion 3 of the insulating cap 1 toward the space 3, the respective leading ends 11b of the shielding member 11 in the shielding means 10 are pushed upward and bent, and FIG. It becomes like (B). In this case, each tip 11 b of the shielding member 11 is engaged with the stepped portion 23 a at the lower end of the crimping member 23.

Next, the retaining member 6 is made to follow the outer peripheral surface of the electric wire 20 as shown in FIG. Next, the string 27 passed through the through-hole 8 of the retaining member 6 (if the string 27 does not pass through the through-hole 8, an operator uses a hand-held string) is rotated to the outer periphery of the retaining member 6 to retain The outer periphery of the member 6 is tightened toward the electric wire 20 so that the retaining member 6 and the electric wire 20 are integrated. As a result, there is no fear that the insulating cap 1 will come off from the electric wire 20.
In addition, the winding of the string 27 around the plurality of electric wires 20 can be performed with all the electric wires 20 with the holding members 6 attached to the electric wires 20, as can be understood from FIGS. What is necessary is just to restrain using arbitrary means, such as winding the string 27 around the outer periphery with the member 6.
However, as can be understood from FIG. 11, the string 27 is wound around the outer periphery of one (or two) retaining member 6 and one electric wire 20 (or two electric wires 20) to hold the retaining member 6. And the electric wire 20 may be fixed. In this case, as can be understood from FIG. 11, a portion of the string 27 is sandwiched between the plurality of electric wires 20, and the upward movement is prevented, thereby exhibiting a strong retaining effect.

Further, if necessary, the adhesive tape 26 is wound around the outer periphery of the retaining member 6 as can be understood from FIG. In this case, it can be done with or without the string 27.
The adhesive tape 26 may be wound in the order of winding from the tip 6b of the retaining member 6 toward the outer peripheral portion of the opening edge member 4 of the main body 3 or from the outer peripheral portion of the opening edge member 4 of the main body 3. As shown in the figure, it may be wound toward the tip 6b of the retaining member 6. When the adhesive tape 26 is wound in this manner and the retaining member 6 and the wire covering 22 are pressed, the integration of the retaining member 6 and the wire 20 becomes firm, and the insulation cap 1 may be removed from the wire 20. No.

  When the adhesive tape 26 is wound around the outer periphery of the retaining member 6, the state shown in FIG. 6, that is, if the distal end of the retaining member 6 is attached to the outer peripheral surface of the electric wire 20, the adhesive tape 26 is pulled. Even when winding starts from the front end 6b of the stop member 6 toward the outer peripheral portion of the opening edge member 4 of the main body portion 3, the front end of the retaining member 6 as shown in the figure from the outer peripheral portion of the opening edge member 4 of the main body portion 3 Even in the case of winding toward 6b, the above-mentioned pulling is performed with respect to the "step" between the "opening edge member 4 of the main portion 3 having a relatively large diameter and the outer periphery of the plurality of electric wires 20 having a relatively small diameter". The stopping member 6 serves as a guide slope (inclined bridge), and the winding operation of the adhesive tape 26 is performed along the inclined surface of the retaining member 6 (guided by the inclined surface of the retaining member 6). Can be very easy and easy.

  In addition, the conductive material (live wire) existing inside the main body 3 is not visible from the outside by the adhesive tape 26, the fingertip does not enter the inside from the outside, and an electric shock accident does not occur. Furthermore, it is possible to prevent a ground fault from occurring due to an erroneous insertion of a metal needle or the like. In addition, the completion inspection also has the advantage that the state of the construction can be seen from the outside, so that the visual inspection becomes sufficient and can be done quickly.

   Furthermore, for example, when the position of the base portion 11a of the shielding member 11 shown in FIG. 11 is positioned about 10 mm above the opening edge member 4, that is, the lower surface of the base portion 11a and the opening edge member 4 When a gap is formed between the lower end, a space between the inner side of the opening edge member 4 and the base portion 11a of the shielding member 11 is filled with a refractory putty or similar adhesive, for example, an insulation filling. Thereby, the surface of the conductive material on the inside can be sealed together with the entire area of the lower surface of the shielding member 11. As described above, when the conductive portion is hidden over the entire area when viewed from the lower side, it is possible to prevent in advance that a metal needle or the like is erroneously inserted from the lower side and a ground fault occurs.

  In this field, the insulating cap 1 is often used with the ceiling 3b facing upward in the state shown in FIG. However, it may be used with the ceiling 3b of the insulating cap 1 facing sideways and downward. Therefore, those skilled in the art change and use the names of the top, bottom, left, and right depending on the form of use and circumstances. From such circumstances, in the present specification and the like (the scope of the utility model registration request, the description, etc.), in the usage of the terms of the upper, lower, left and right, assuming the case where it is used in the state of FIG. Although the direction of the insulating cap 1 will be described as “up”, it may be understood that the direction of the insulating cap 1 is changed depending on the form of use and circumstances.

1 ... Insulation cap,
3 ... Main part,
3E: a main part having a long square planar shape,
3a ... peripheral wall,
3b ... ceiling,
3c ... opening,
4 ... Opening edge member,
5 ... space,
6 ... retaining member,
6a ... original part,
6b ...
7 ... Gap,
8 ... through hole,
10: Shielding means,
11 ... shielding member,
11a: original part,
11b ...
13 ... cut,
14 ... insertion hole,
15 ... Gap,
20: Insulated coated electric wire or electric wire,
21: Conductor of electric wire,
22: Insulation coating of electric wire,
23 ... Crimping member (ring sleeve),
23a: lower end / step,
25 ... Connection bundle,
26 ... Adhesive tape (insulating vinyl tape),
27 ... String (Bundling band, Insulok)

Claims (4)

An insulating cap for bringing together conductor terminals in a plurality of electric wires and covering the connection bundle formed by crimping and connecting the conductor terminals, and in the main part, a space for positioning the connection bundle A peripheral wall member that surrounds the periphery, and a top member that is positioned at the top of the wire bundle, and at the bottom, an opening for inserting the wire bundle,
A plurality of elongate foot-like retaining members are extended downward from the opening edge member around the opening, and the insulation wires are covered between the retaining members. With enough space to allow exposure,
The retaining member is configured to be flexible and bendable so that it can be attached to the outer peripheral surface of the electric wire positioned inside, and the adhesive tape is wound around the outer peripheral surfaces of the plurality of retaining members. The adhesive surface on the inner surface of the adhesive tape adheres to the outer peripheral surface of the retaining member one after another, and the adhesive tape is also applied to the outer peripheral surface of the insulated wire coating exposed from the gap provided between the retaining members. An insulating cap characterized in that an adhesive surface is bonded, and each of the plurality of retaining members is connected to the outer peripheral surface of the insulated wire coating in the circumferential direction.   Among the plurality of retaining members, for the intermediate position of one or the plurality of retaining members, the retaining member is connected to the insulating covering portion of the insulating covering electric wire existing inside the retaining member. 2. The insulating cap according to claim 1, further comprising a hole for passing the string. Inside the opening edge member of the opening, in order to make it possible to separate the original portions of a large number of narrow shielding members that project toward the center over the entire circumference between the narrow shielding members. Are arranged side by side with a slight gap between them,
The length of each of the shielding members is such that an insertion hole having a smaller diameter than the outer diameter of the wire bundle to be inserted is formed in the central portion of the main portion of the insulating cap, and in the space inside the main portion. On the other hand, in the state where the wire bundle that has passed through the insertion hole is positioned, the tip of each of the shielding members is engaged with the lower end of the crimping member of the wire bundle and is hooked in a state where the tip of each shielding member is displaced upward. The insulating cap according to claim 1, wherein the insulating cap is set to a length.   Packing a pad of fire-resistant insulating material between the lower surface of the base part of the shielding member and the lower end of the opening edge member to seal the surface of the conductive material on the inner side together with the entire area of the lower surface of the shielding member. The insulating cap according to claim 3, wherein a gap is formed so as to be able to perform.

Images