JP4302660B2 - Cover device - Google Patents

Description

  The present invention relates to a cover device mounted on an insulation protection object.

  In order to prevent an electric shock accident due to a tool or the like coming into contact with an electric wire when performing work such as construction in the vicinity of the electric wire, a plurality of electric wire protective tubes are arranged in the axial direction and attached to the electric wire. A cover device is attached to a butt portion where two adjacent wire protection pipes are abutted, and the two wire protection pipes are connected to each other, and close-up of a tool or the like on the butt portion is prevented.

  The cover device is a cylindrical device made of an electrically insulating material, and is divided and discontinuously formed at one place in the circumferential direction. This cover device is arranged so as to open both ends in the circumferential direction and cover the abutting portion, and is mounted with both ends in the circumferential direction closed.

  As another conventional technique, there is shown a wire insulation cover used for repairing a local covering of a wire. This electric wire insulation cover is configured such that two cover pieces are connected to each other by a hinge so as to be angularly displaceable, and are formed into a cylindrical shape in a closed state (see, for example, Patent Document 1).

JP 7-274374 A

In such a cover device, it is not only necessary to prevent contact with the electric wire, but the final purpose is to prevent an electric shock, and when a tool etc. comes into contact with the cover device in consideration of creeping discharge etc. It is necessary to have a withstand voltage so as not to cause a short circuit between the electric wire and the tool. In particular, when a high voltage transmission line or the like is attached to an electric wire having a high potential difference from a ground potential, a higher withstand voltage, for example, a withstand voltage of 30,000 V or more is required. A cover device having a voltage is desired.
An object of the present invention is to provide a cover device having a high withstand voltage.

The present invention is a cover device to be attached to the butting portion of two wire protection pipes that are butted in the axial direction, which is an insulation protection object,
A cover body made of an electrically insulating material;
The cover body
A cylindrical cover base that is divided in the circumferential direction and has a hinge portion at an intermediate portion between both ends in the circumferential direction;
Two occlusion bodies that are respectively provided at both ends in the circumferential direction of the cover base, the surfaces facing each other are formed in a concavo-convex shape, and are fitted to each other and close between the both ends in the circumferential direction of the cover base;
An engagement recess into which the wire protection tube is fitted, and
A taper-shaped guide portion that is formed on at least one of the axial end portions and expands toward the outside in the axial direction,
A jacket made of an electrically insulating material and attached to the cover body in a state of covering the hinge part,
An outer shell that is elastically deformable and elastically holds the cover body so that both ends in the circumferential direction approach each other;
The closing body is provided in a state of projecting radially outward from both ends in the circumferential direction of the cover base,
The closure, between the circumferential ends of the cover base body, circumferential ends of the mantle body has a cover and wherein the step portion abutting is formed.

According to the present invention, the cover main body has a cylindrical shape and includes a cover base that is divided in the circumferential direction, and two closing bodies that are respectively provided at both ends in the circumferential direction of the cover base. It is divided in the circumferential direction. The cover body is attached to the insulation target so as to cover the butted portions of the two wire protection pipes that are abutted in the axial direction as the insulation protection target by the cover base, and the contact of the article with the insulation protection target is performed. Can be prevented. The mutually opposing surfaces of each closure are formed in an uneven shape. Each closing body can be fitted to each other to close between the circumferential ends of the cover base. Accordingly, it is possible to prevent the article from being inserted into the cover base through the end portions in the circumferential direction of the cover base. Also, the mutually opposing surfaces of each closing body are formed in an uneven shape, and from the inner surface of the cover base to the surface exposed to the outside of each closing body through the opposing surfaces of each closing body The creepage distance can be increased. As a result, the withstand voltage at the portion where the edge is cut in the circumferential direction of the cover main body can be increased while suppressing the protruding amount of each closing body from the cover base. Therefore, a small and high withstand voltage cover device can be realized.
The cover body has a tapered guide portion that is formed on at least one of both axial end portions and expands toward the outside in the axial direction. As a result, the cover main body can be attached to one electric wire protective tube first, and the other electric wire protective tube can be inserted after being relatively displaced in the axial direction. The cover body has an engagement recess into which the wire protective tube is fitted. As a result, the cover device is engaged with the insulation protection object, positioned in the axial direction, and prevented from being displaced.

Further , a mantle body to be attached to the cover body is provided. By covering the cover main body with this jacket, the withstand voltage can be increased as compared with the case where only the cover main body is provided.

Moreover, the cover base | substrate has a hinge part in the intermediate part between the circumferential direction both ends. As a result, the portions on both sides connected by the hinge portion of the cover base can be easily angularly displaced. As a result, the cover body can be easily opened and closed. Therefore, it is possible to facilitate the mounting operation of the cover main body to the insulating object. Furthermore, the cover main body can be formed in an open state and can be attached to an insulation object in a closed state. If it can shape | mold in the state which opened the cover main body, the die cutting in each obstruction body will become easy, and a cover main body can be manufactured easily. Then, the outer shell is attached to the cover body so as to cover the hinge portion, and the cover body is elastically held by the outer shell so that both ends in the circumferential direction approach each other. Although the withstand voltage of the hinge portion is low, a high withstand voltage can be ensured by covering the hinge portion with the jacket. Further, by elastically holding the cover body by the outer shell, the cover body can be held in a closed state, and the cover body can be prevented from being undesirably opened.
In addition, since the stepped portion is formed between the both ends in the circumferential direction of the cover base and the both ends in the circumferential direction of the outer cover body in the closing body , the outer body is displaced in the direction away from the hinge portion. Can be blocked . Accordingly, the outer shell can be mounted at a suitable position, and the outer shell can be prevented from being undesirably detached.

The present invention is also characterized in that the cover body and the outer shell have different colors.
According to the present invention, when the cover device is used over a long period of time, for example, when the cover device is worn due to repeated contact with trees or the like, the degree of wear can be easily determined from the appearance color of the cover device. Can do.

  According to the present invention, it is possible to increase the creepage distance from the inner surface of the cover base to the surface exposed to the outside of each closing body through the mutually facing surfaces of each closing body. In addition, a cover device having a high withstand voltage can be realized.

Also, cover the cover body by overcoat member, it is possible to increase the withstand voltage.

Also, the cover body, it is possible to easily open and close by a hinge portion, it is possible to facilitate the mounting operation of the insulating object of the cover body. Furthermore, it is possible to mold the cover body in an open state, and it becomes easy to remove the mold from each closing body, and the cover body can be easily manufactured. Furthermore, a high withstand voltage can be ensured by covering the hinge portion with the jacket. Further, by elastically holding the cover body by the outer shell, the cover body can be held in a closed state, and the cover body can be prevented from being undesirably opened. In addition, the outer shell can be mounted at a suitable position, and the outer shell can be prevented from being undesirably detached.

  Further, according to the present invention, the degree of wear of the cover device can be easily determined from the appearance color of the cover device.

  FIG. 1 is an exploded perspective view of a cover device 1 according to an embodiment of the present invention. FIG. 2 is a perspective view showing a mounting state of the cover device 1. The cover device 1 is a device that is attached to an insulation protection object. In order to prevent accidents such as electric shock accidents and short circuit accidents, the cover device 1 is used by being attached to an insulating protective material. The insulation protection target is, for example, equipment for supplying electric power, and specifically, is an electric wire 2 and an insulator that supports the electric wire 2. In the present embodiment, the object to be insulated is the butting portion 4 of the two wire protection tubes 3 attached to the wire 2.

  A plurality of electric wire protection tubes 3 are attached to the electric wire 2 in the axial direction. The cover device 1 is attached to a butting portion 4 constituted by two adjacent wire protection tubes 3 butting each other in the axial direction. The cover device 1 is particularly preferably attached to the butt portion 4 of the wire protection tube 3 attached to the electric wire 2, which is also called a high-voltage power transmission line having a high potential difference with respect to the ground potential.

  The cover device 1 includes a cover main body 10 made of an electrically insulating material, and an outer body 11 made of an electrically insulating material. The cover device 1 is provided so that the cover main body 10 covers the butting part 4, and the outer body 11 is provided so as to cover the cover main body 10, and is attached to the butting part 4. The electrically insulating material may be, for example, a synthetic resin such as polyethylene and polypropylene, and the cover body 10 and the outer shell 11 may be the same material or different materials.

  FIG. 3 is a front view showing the cover device 1 viewed from the wire protection tube 3 side in a state where the cover device 1 is attached to one end of the wire protection tube 3. FIG. 4 is a rear view showing the cover device 1 as viewed from the side opposite to the wire protection tube 3 in a state where the cover device 1 is attached to one end of the wire protection tube 3. FIG. 5 is a side view seen from the right side of FIG. FIG. 6 is a plan view seen from the upper side of FIG. FIG. 7 is a plan view seen from the lower side of FIG. The cover body 10 has a cylindrical shape, and is attached to the wire protection tube 3 so as to surround the wire protection tube 3 over the entire circumference in the circumferential direction. Therefore, the cover device 1 is attached to the butt portion 4 in a state of enclosing each electric wire protection tube 3 over the entire circumference in the circumferential direction.

  The wire protective tube 3 is formed with engaging projections 7 projecting outward in the radial direction at both ends in the axial direction. The wire protection tube 3 has a substantially cylindrical shape and a tube base 5 that is divided at one place in the circumferential direction, two legs 6 that protrude radially outward from both circumferential ends of the tube base 5, and It has a wall 8 that covers the base (base end) of each leg 6 from the outside, and the cross-sectional shape perpendicular to the axial direction is non-circular. Each engagement convex part 7 of both axial direction both ends is the same structure, and the electric wire protection tube 3 is plane-symmetrical regarding the virtual plane perpendicular | vertical to the axial direction arrange | positioned in the center of an axial direction.

  The cover main body 10 is positioned with respect to the wire protection tube 3 in the axial direction by using the engaging convex portion 7 and is prevented from being displaced in the axial direction. The cover body 10 is positioned in the circumferential direction with respect to the wire protection tube 3 using the legs 6 and the wall bodies 8 of the wire protection tube 3, and is prevented from being displaced in the circumferential direction. Thus, the cover main body 10 is positioned with respect to the wire protection tube 3 with respect to the axial direction and the circumferential direction, and is mounted in a state where displacement is prevented.

  By this, the cover apparatus 1 can connect the two electric wire protection tubes 3 to be abutted by attaching to the abutting portion 4. Therefore, the cover apparatus 1 is also a so-called joint. As shown in FIG. 1, the cover device 1 can be attached to the abutting portion 4 in a state where the two wire protection tubes 3 are abutted first, and as shown in FIGS. With one wire protection tube 3 attached to one end, another wire protection tube 3 is inserted in the axial direction while being displaced relative to the cover device 1 to cover each wire protection tube 3. It is also possible to make a butt in the apparatus 1 and to put the cover device 1 on the butt 4.

  Furthermore, as another embodiment, as a configuration in the case where it is attached to one wire protection tube 3 first and another wire protection tube 3 is inserted later, A configuration in which the cover main body 10 is integrally formed at one end may be employed. In this configuration, it is not necessary to provide the engaging projection 7 at one end of the wire protection tube 3, and means for positioning and preventing displacement of the wire protection tube 3 formed integrally with the cover body 10. Is unnecessary.

  FIG. 8 is a front view showing the cover body 10 in a closed state. FIG. 9 is a front view showing the cover body 10 in an opened state. FIG. 10 is a front view seen from the left side of FIG. FIG. 11 is a bottom view seen from the lower side of FIG. 12 is a plan view seen from the upper side of FIG. FIG. 13 is a perspective view showing the cover body 10 as viewed from the inside with the cover body 10 opened. FIG. 14 is a perspective view showing the cover body 10 as viewed from the outside with the cover body 10 opened. 3 to 7 together, the cover main body 10 has a cylindrical shape and is divided at one place in the circumferential direction over the entire length in the axial direction. Accordingly, the cover main body 10 has a cylindrical shape that is discontinuous in one circumferential direction and is discontinuous in the circumferential direction. The cover body 10 is cylindrical and has a cover base 15 that is divided at one place in the circumferential direction over the entire length in the axial direction, and two closing bodies 17a provided at both circumferential ends 16a and 16b of the cover base 15, respectively. 17b.

  The cover base body 15 has a hinge portion 18 in the middle portion in the circumferential direction, specifically, in the center portion in the circumferential direction, and two base body portions 20a and 20b arranged on both sides in the circumferential direction of the hinge portion 18 are provided. The hinge portion 18 is connected so as to be relatively angularly displaceable. The hinge portion 18 is a thin hinge formed thinner than the remaining portions, that is, the base portions 20a and 20b, and the hinge portion 18 and the base portions 20a and 20b are integrated.

  The cover base 15 can be opened and closed by the relative angular displacement of the base portions 20a and 20b. The cover base body 15 may be configured such that the circumferential end portions 16a and 16b are in contact with each other in the closed state. However, in the present embodiment, the cover base body 15 is configured to be spaced apart, and the cross-sectional shape perpendicular to the axis is substantially a horseshoe. Shape. Moreover, the cover base | substrate 15 can be opened to such an extent that the circumferential direction both ends 16a and 16b and the hinge part 18 are arrange | positioned along substantially one virtual plane. The cover body 10 can be opened and closed by such opening and closing of the cover base 15.

  Each closing body 17a, 17b is provided so as to protrude from the circumferential end portions 16a, 16b of the cover base 15 substantially along the tangential direction of the outer peripheral surface at both circumferential end portions. In the state where the cover base 15 is closed, the opposing surfaces of the closing bodies 17a and 17b are formed in an uneven shape and are fitted to each other. By fitting each closing body 17a, 17b, it is possible to close the gap between the circumferential ends 16a, 16b of the cover base 15, specifically, the gap between the circumferential ends 16a, 16b. .

  More specifically, each of the closing bodies 17a and 17b extends from the circumferential end portions 16a and 16b substantially along the tangential direction of the outer peripheral surface at the circumferential end portions with the cover base 15 closed. There are a plurality of projecting walls 24a and 24b and five projecting strips 21a and 21b in the present embodiment that project from the surface portions of the extending walls 24a and 24b facing each other so as to approach each other. Each extending wall 24a, 24b is extended so that it may mutually approach as it goes to a front-end | tip part. Each protrusion 21a, 21b is spaced apart from each other in the extending direction of each extending wall 24a, 24b and extends along the axial direction.

  In each closed body 17a, 17b, with the cover base 15 closed, each protrusion 21b of the other closing body 17b fits between each protrusion 21a of one closing body 17a, and the other closing body 17b. Each protrusion 21a of one closure body 17a fits between each protrusion 21b. In this way, the respective closing bodies 7a and 17b are fitted to each other.

  Each protrusion 21a, 21b is configured by forming a plurality of ribs 23a, 23b on both sides in the thickness direction of the plate-like main body portions 22a, 22b. Each of the ribs 23 a and 23 b is formed so that the protruding height from the main body portions 22 a and 22 b becomes smaller toward the tip end portion of the main body portion 22. Therefore, each protrusion 21a, 21b is formed in a taper shape, and has a structure that can be easily fitted to each other.

  Further, each base portion 20a, 20b of the cover base 15 has two engaging recesses 27a, 27b; 28a, extending in the circumferential direction at a position near the hinge 18 in the intermediate portion in the axial direction and spaced in the axial direction. 28b is formed. The engaging convex portion 7 of the wire protective tube 3 inserted from the axial one end portion 30 side of the cover main body 10 is fitted in each engaging concave portion 27a, 27b disposed near the axial one end portion 30 of the cover main body 10. Get stuck. Engaging convex portions 7 of the wire protection tube 3 inserted from the axial direction one end portion 31 side of the cover main body 10 are formed in the engaging concave portions 28 a and 28 b arranged near the other axial end portion 31 of the cover main body 10. Fit. When the engaging convex portion 7 of the wire protection tube 3 is fitted into each of the engagement recesses 27a and 27b; 28a and 28b, the wire protection tube 3 and the cover body 10 are engaged and positioned in the axial direction. , Displacement is prevented.

  Further, at least one of the axial end portions 30, 31 of the cover main body 10, in the present embodiment, the other end portion 31 in the axial direction is a tapered guide that expands outward in the axial direction. Part 32 is formed. The guide portion 32 is formed on the cover base 15. By forming the guide portion 32, the wire protection tube 3 is first attached to the portion on the one end portion 30 side in the axial direction, and the other wire protection tube 3 is relatively rearward in the axial direction. When inserting by displacing, it can be made easy to insert.

  Thus, the cover main body 10 has a non-uniform shape in the axial direction, is a complicated shape having the protrusions 21a, 21b, etc., and is injection-molded in an open state. In such an open state, the mold can be easily removed and can be easily manufactured. Further, by adopting a configuration having the hinge portion 18, even if it is molded in an open state, it can be closed and formed into a cylindrical shape.

  Referring to FIGS. 3 to 8, the outer shell 11 has a cylindrical shape and is divided at one place in the circumferential direction over the entire length in the axial direction. Accordingly, the outer shell 11 has a cylindrical shape that is discontinuous in one circumferential direction and is discontinuous in the circumferential direction. The outer body 11 may be configured such that the circumferential end portions 40a and 40b are in contact with each other, but in the present embodiment, the outer body 11 is configured to be separated from each other, and the cross-sectional shape perpendicular to the axis is a horseshoe shape.

  The outer shell 11 is attached to the cover body 10 so as to cover the hinge portion 18 from the outside. As a result, it is possible to prevent the hinge portion 18 that is formed thin and has a low withstand voltage from being exposed, and to increase the withstand voltage of the cover device 1.

  The outer shell 11 is mounted such that the circumferential end portions 40 a and 40 b abut against the circumferential end portions 16 a and 16 b of the cover base 15. Both end portions in the axial direction of the outer shell 11 are tapered so as to be tapered, and the both end portions in the axial direction are in contact with the cover body 10 over the entire circumference in the circumferential direction or between the cover body 10 and the outer cover body 10. Has almost no gap. As described above, the edge portion including both the axial end portions and the circumferential end portions 40a and 40b is in contact with or close to the cover main body 10, and the remaining portion is arranged at a distance from the cover main body 10. A space is formed between 10 and the outer shell 11. Thereby, a space can be formed and the withstand voltage can be increased, and the peripheral portion can be brought into contact with or close to the cover body 10 to prevent the entry of articles or the like into the space.

  The outer shell 11 is elastically deformable and can be opened and closed elastically so that the circumferential end portions 40a and 40b are moved closer to or away from each other. As described above, the outer shell 11 has a horseshoe shape in cross section perpendicular to the axis, and can be attached to the cover body 10 by being elastically deformed and opened. By attaching the cover body 10 to the cover body 10 in this way, the outer cover body 11 is sandwiched so that the cover body 10 is closed by the elastic recovery force, specifically, the both circumferential ends of the cover body 10 are approached. As a result, the cover body 10 formed in the open state as described above can be held in the closed state.

  Each closing body 17a, 17b is provided in a state of projecting radially outward from both circumferential ends 16a, 16b of the cover base 15, and both the circumferential ends 16a, 16b of the cover base 15 and each closing body 17a. , 17b are formed with step portions 25a, 25b, respectively. The cover base 15 is formed in the vicinity of the circumferential end portions 16a and 16b so as to approach each other as it goes toward the circumferential end portions 16a and 16b. It is a configuration. In addition, even when guided away from the hinge portion 18, further displacement is prevented at the position where the step portions 25a and 25b abut. Therefore, the outer shell 11 is mounted at a suitable position. Further, in a state where the outer shell 11 is mounted, the outer surface of the outer shell 11 and the outer surfaces of the respective closing bodies 17a and 17b can be made flush or almost flush with each other to reduce the bulge. Accordingly, it is possible to prevent the outer shell 11 from being undesirably detached due to the article being caught.

  Further, the cover body 10 and the outer shell 11 have different colors such as “black” and “yellow”. As a result, when the outer shell 11 is worn and a portion of the cover body 10 that should be covered with the outer shell 11 is exposed, it can be easily visually confirmed from the color difference that the portion is exposed. .

  According to such a cover device 1, the cover main body 10 has the respective closing bodies 17 a and 17 b, and an article is inserted into the cover base 15 through the circumferential ends 16 a and 16 b of the cover base 15. Can be prevented. Further, the opposing surfaces of the respective closing bodies 17a and 17b are formed in a concavo-convex shape, and from the inner surface of the cover base 15 to the surfaces exposed to the outside through the opposing surfaces of the respective closing bodies 17a and 17b. Creepage distance to reach can be increased. Accordingly, the withstand voltage at the portion where the edge is cut in the circumferential direction of the cover main body 10 can be increased while the dimensions of the respective closing bodies 17a and 17b are kept small. Therefore, the small and high withstand voltage cover device 10 can be realized.

Further, the cover base 15 has a hinge portion 18, and the base portions 20 a and 20 b on both sides connected by the hinge portion 18 can be easily angularly displaced. As a result, the cover body 10 can be easily opened and closed. Therefore, the mounting work of the cover body 10 on the butting portion 4 can be facilitated. Further, the cover body 10 can be molded in an open state and can be attached to the butt portion 4 in a closed state. If the cover body 10 can be molded with the cover body 10 open, the cover body 10 having a complicated shape such as each closing body can be injection-molded, and die-cutting can be easily performed. Can be easily formed. The outer shell 11 is attached to the cover main body 10 so as to cover the hinge portion 18, and the cover main body 10 is elastically held by the outer shell 11 so that both end portions in the circumferential direction approach each other. Although the withstand voltage of the hinge portion 18 is lowered, it is possible to ensure a high withstand voltage by covering the hinge portion 18 with the outer shell 11. Further, by elastically holding the cover body 10 by the outer shell 11, the cover body 10 can be held in a closed state, and the cover body 10 can be prevented from being undesirably opened. Thus, the withstand voltage can be increased as compared with the case where only the cover body 10 is provided.
The above-described embodiment is merely an example of the present invention, and the configuration can be changed.

1 is an exploded perspective view of a cover device 1 according to an embodiment of the present invention. FIG. 3 is a perspective view showing a mounting state of the cover device 1. FIG. 3 is a front view showing the cover device 1 as viewed from the wire protection tube 3 side in a state of being attached to one end of the wire protection tube 3. FIG. 3 is a rear view showing the cover device 1 viewed from the side opposite to the wire protection tube 3 in a state of being attached to one end of the wire protection tube 3. It is a side view seen from the right side of FIG. It is a top view seen from the upper side of FIG. It is a top view seen from the lower side of FIG. It is a front view shown in the state where cover body 10 was closed. It is a front view shown in the state where cover body 10 was opened. It is a front view seen from the left side of FIG. It is a bottom view seen from the lower side of FIG. FIG. 10 is a plan view seen from the upper side of FIG. 9. It is a perspective view shown from the inner side in the state which opened the cover main body. It is a perspective view shown from the outside in the state where the cover body 10 is opened.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 Cover apparatus 2 Electric wire 3 Electric wire protective tube 4 Butting | matching part 10 Cover main body 11 Outer body 15 Cover base | substrate 17a, 17b Closure body 18 Hinge part 21a, 21b Projection

Claims (2)

A cover device attached to a butt portion of two wire protection pipes butt in the axial direction as an insulation protection object,
A cover body made of an electrically insulating material;
The cover body
A cylindrical cover base that is divided in the circumferential direction and has a hinge portion at an intermediate portion between both ends in the circumferential direction;
Two occlusion bodies that are respectively provided at both ends in the circumferential direction of the cover base, the surfaces facing each other are formed in a concavo-convex shape, and are fitted to each other and close between the both ends in the circumferential direction of the cover base;
An engagement recess into which the wire protection tube is fitted, and
A taper-shaped guide portion that is formed on at least one of the axial end portions and expands toward the outside in the axial direction,
A jacket made of an electrically insulating material and attached to the cover body in a state of covering the hinge part,
An outer shell that is elastically deformable and elastically holds the cover body so that both ends in the circumferential direction approach each other;
The closing body is provided in a state of projecting radially outward from both ends in the circumferential direction of the cover base,
The closure, between the circumferential ends of the cover base body, a cover and wherein the step portion is formed circumferential ends of said mantle body abuts.   The cover device according to claim 1, wherein the cover body and the outer shell have different colors.

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