Shed housing

Abstract

A shed housing is disclosed. The shed housing covers an insulator including at least one shed. The shed housing includes a receiving cavity allowing an upper surface and a lower surface of the shed to be received in the receiving cavity. The shed housing is provided with a mounting hole through which the insulator passes, and an opening corresponding to the mounting hole. The opening communicates the mounting hole with an outer edge of the shed housing. The mounting hole communicates with the receiving cavity. A first connecting portion and a second connecting portion cooperating with the first connecting portion are arranged respectively on both ends of the opening. When the first connecting portion is connected to the second connecting portion, the shed housing is closed along a circumferential direction. The shed housing is able to receive the entire piece of shed, and can be assembled on the shed without any additional connecting components, which is convenient and high-efficient and has good effect on preventing pollution flashover and rain flashover.

Claims

1. A shed housing for covering an insulator including at least one shed, comprising a receiving cavity to allow an upper surface and a lower surface of the shed to be received in the receiving cavity, wherein the shed housing comprises an upper shed housing body and a lower shed housing body, a concave dovetail groove is provided on the lower surface of the upper shed housing body, a protrusion corresponding to the concave dovetail groove is provided on an outer edge of the lower shed housing body, through joining the protrusion with the concave dovetail groove, the upper shed housing body is joined with the lower shed housing body to form the receiving cavity, wherein the shed housing is provided with a mounting hole through which the insulator passes, and an opening corresponding to the mounting hole, the opening communicates the mounting hole with an outer edge of the shed housing, the mounting hole communicates with the receiving cavity, a first connecting portion and a second connecting portion cooperating with each other are arranged respectively on both ends of the opening, and when the first connecting portion is connected to the second connecting portion, the shed housing is closed along a circumferential direction, wherein a first groove is provided on a portion of the first connecting portion located on the upper shed housing body, and a first strap is provided on a portion of the second connecting portion located on the upper shed housing body, wherein the first groove is provided with at least one first protrusion and the first strap is provided with at least one first through hole fitting the at least one first protrusion, and wherein the first protrusion cooperates with the first through hole to connect the first strap with the first groove and close the shed housing along a circumferential direction.

2. The shed housing of claim 1, wherein a second groove is provided on a portion of the first connecting portion located on the lower shed housing body, and a second strap is provided on a portion of the second connecting portion located on the lower shed housing body, wherein the second strap cooperates with the second groove to close the lower shed housing body along a circumferential direction.

3. The shed housing of claim 2, wherein when the first groove is connected to the first strap, an upper surface of the second connecting portion is flush with a surface of the upper shed housing body, and when the second groove is connected to the second strap, a lower surface of the second connecting portion is flush with a surface of the lower shed housing body.

4. The shed housing of claim 2, wherein the second groove is provided with at least one second protrusion, and the second strap is provided with at least one second through hole fitting the second protrusion.

5. The shed housing of claim 1, wherein the shed housing includes an extended portion extending outward from a tip of the shed, and the first connecting portion and the second connecting portion extend along an upper surface of the extended portion.

6. The shed housing of claim 1, wherein the insulator includes an insulating core, and a distance from an edge of the mounting hole to the tip of the shed along a surface of the shed is smaller than a distance from the tip of the shed to a junction between the insulating core and the surface of the shed along the surface of the shed.

7. The shed housing of claim 6, wherein a distance from the edge of the mounting hole of the shed housing to the junction between the insulating core and the surface of the shed along the surface of the shed is one-third of a distance from the insulating core to the tip of the shed along the surface of the shed.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

(1) FIG. 1 is a perspective diagram illustrating a shed housing 100 with an unclosed opening mounted on a shed 10 according to Embodiment One of the present disclosure.

(2) FIG. 2 is a perspective diagram illustrating the shed housing 100 according to Embodiment One of the present disclosure.

(3) FIG. 3 is a top view of the shed housing 100 with the unclosed opening mounted on the shed 10 according to Embodiment One of the present disclosure.

(4) FIG. 4 is a schematic diagram illustrating a cross section of the shed housing 100 with the unclosed opening mounted on the shed 10 along a J-J plane according to Embodiment One of the present disclosure.

(5) FIG. 5 is an enlarged view of a portion A of the shed housing 100 with the unclosed opening mounted on the shed 10 according to Embodiment One of the present disclosure.

(6) FIG. 6 is a bottom view of the shed housing 100 with the unclosed opening mounted on the shed 10 according to Embodiment One of the present disclosure.

(7) FIG. 7 is an enlarged view of a portion B of the shed housing 100 according to Embodiment One of the present disclosure.

(8) FIG. 8 is a perspective diagram illustrating the shed housing 100 with a closed opening mounted on the shed 10 according to Embodiment One of the present disclosure.

(9) FIG. 9 is a bottom view of the shed housing 100 with the closed opening mounted on the shed 10 according to Embodiment One of the present disclosure.

(10) FIG. 10 is a perspective diagram illustrating a shed housing 200 with an unclosed opening mounted on the shed 20 according to Embodiment Two of the present disclosure.

(11) FIG. 11 is a bottom view of the shed housing 200 with the unclosed opening mounted on the shed 20 according to Embodiment Two of the present disclosure.

(12) FIG. 12 is an enlarged view of a portion C of the shed housing 200 with the unclosed opening mounted on the shed 20 according to Embodiment Two of the present disclosure.

(13) FIG. 13 is an exploded view of an upper shed housing body 210 and a lower shed housing body 220 according to Embodiment Two of the present disclosure.

(14) FIG. 14 is an enlarged view of a portion D of the upper shed housing body 210 according to Embodiment Two of the present disclosure.

(15) FIG. 15 is an enlarged view of a portion E of the lower shed housing body 220 according to Embodiment Two of the present disclosure.

(16) FIG. 16 is a perspective diagram illustrating a shed housing 300 according to Embodiment Three of the present disclosure.

(17) FIG. 17 is an enlarged view of a portion F of the shed housing 300 according to Embodiment Three of the present disclosure.

(18) FIG. 18 is a top view of the shed housing 300 according to Embodiment Three of the present disclosure.

(19) FIG. 19 is an enlarged view of a portion G of the shed housing 300 according to Embodiment Three of the present disclosure.

(20) FIG. 20 is a perspective view of a shed housing 400 according to Embodiment Four of the present disclosure.

(21) FIG. 21 is an enlarged view of a portion H of the shed housing 400 according to Embodiment Four of the present disclosure.

(22) FIG. 22 is a bottom view of the shed housing 400 according to Embodiment Four of the present disclosure.

(23) FIG. 23 is an enlarged schematic view of a portion I of the shed housing 400 according to Embodiment Four of the present disclosure.

(24) FIG. 24 is a top view of the shed housing 500 with an unclosed opening mounted on a shed 50 according to Embodiment Five of the present disclosure.

(25) FIG. 25 is a schematic diagram illustrating a cross section of the shed housing 500 with the unclosed opening mounted on the shed 50 along a K-K plane according to Embodiment Five of the present disclosure.

DETAILED EMBODIMENTS

(26) As required, detailed embodiments of the present disclosure are disclosed herein. However, it is to be understood that the disclosed embodiments are merely exemplary of the disclosure, which may be embodied in various forms. Therefore, specific details disclosed herein are not to be interpreted as limiting, but merely as a basis for the claims and as a representative basis for teaching one skilled in the art to variously employ the present disclosure in virtually any appropriate manner, including employing various features disclosed herein in combinations that might not be explicitly disclosed herein.

Embodiment One

(27) As shown in FIGS. 1 to 4, an insulator includes an insulating core 11, and further includes a shed 10 extending outward from an outer surface of the insulating core 11 in a direction perpendicular to the insulating core 11. The insulator may include at least one shed 10 and a shed housing 100 may cover an outer surface of the shed 10. The shed housing 100 is divided into an upper shed housing body 110 and a lower shed housing body 120 by a tip of the shed 10. Both the upper shed housing body 110 and the lower shed housing body 120 are conical-shaped and together form a receiving cavity 150. Both an upper surface and a lower surface of the shed 10 may be received in the receiving cavity 150. The shed housing 100 is provided with a mounting hole 170.

(28) The shed housing 100 is provided with an opening 160 corresponding to the mounting hole 170. The opening 160 communicates with the mounting hole 170 and an outer edge of the shed housing 100, so that the shed housing 100 may be mounted on the insulator by opening and closing of the opening 160. The receiving cavity 150, the opening 160 and the mounting hole 170 communicate with each other. Both ends of the opening 160 are provided with a first connecting portion 130 and a second connecting portion 140 respectively. The first connecting portion 130 and the second connecting portion 140 may cooperate with and be connected with each other. When the first connecting portion 130 is connected to the second connecting portion 140, the shed housing 100 is closed along a circumferential direction.

(29) The upper shed housing body 110 extends outward from the tip of the shed 10 to form an extended portion 180. Both the first connection portion 130 and the second connection portion 140 extend along an upper surface of the extended portion 180, and the mounting hole 170 communicates with an outer edge of the extended portion 180. Alternatively, the extension portion 180 may also be formed by extending the lower shed housing body 120 outwardly, or may be provided separately.

(30) As shown in FIG. 5, which is an enlarged view of a portion A of the shed housing 100, a groove 131 is provided on a portion of the first connecting portion 130 located on the upper shed housing body 110, and the groove 131 is step-shaped. A strap 141 is provided on a portion of the second connecting portion 140 located on the upper shed housing body 110, and the strap 141 is formed by extending a surface of the upper shed housing body 110 around the center of the insulating core 11. The groove 131 may cooperate with the strap 141. When the groove 131 fits and is connected to the strap 141, the shed housing 100 is closed along a circumferential direction. The connection portion has a same thickness as the shed housing 100, so the surface of the upper shed housing body may have smooth transition at a joining of the opening 160.

(31) As shown in FIG. 5 and FIG. 6, a groove 132 is provided on a portion of the first connecting portion 130 located on the lower shed housing body 120, and the groove 132 is step-shaped. A strap 142 is provided on a portion of the second connecting portion 140 located on the lower shed housing body 120, and the strap 142 is formed by extending the lower shed housing body 120 around the center of the insulating core 11. The groove 132 may fit the strap 142. When the groove 132 fits and is connected to the strap 142, the shed housing 100 is closed along a circumferential direction. The connection portion has a same thickness as the shed housing 100, so the surface of the lower shed housing body 120 may have smooth transition at a joining of the opening 160.

(32) As shown in FIG. 5 and FIG. 7, the first connecting portion 130 and the second connecting portion 140 are connected by a locking structure. Specifically, the locking structure includes a protrusion and a through-hole cooperating with the protrusion. When the protrusion cooperates with and is connected to the through hole, the protrusion extends out of the through holes slightly. A protrusion 1311 and a through hole 1312 are provided on the groove 131 of the first connecting portion 130 located on the upper shed housing body 110, and the protrusion 1311 and the through hole 1312 are distributed at both ends of the groove 131 along a radial direction of the shed housing 100. The protrusion 1311 is arranged near the connecting hole 170, the through hole 1312 is arranged near the outer edge of the shed housing 100, and centers of the protrusion 1311 and the through hole 1312 are located on a same radial line. A through hole 1411 and a protrusion 1412 are provided on the strap 141 of the second connecting portion 140 located on the upper shed housing body 110. The through hole 1411 is positioned to correspond to the position of the protrusion 1311, and the protrusion 1412 is positioned to correspond to the position of the through hole 1312. The through hole 1312 is arranged on a lower surface of the strap 141, and extends downward along the insulating core 11. The protrusion 1311 and the through hole 1411 have diameters such that the protrusion 1311 fits the through hole 1411 tightly, and the protrusion 1312 and the through hole 1412 have diameters such that the protrusion 1312 fits the through hole 1412 tightly, that is, the through hole 1411 may be sleeved on the protrusion 1311, and the through hole 1312 may be sleeved on the protrusion 1412, so that the groove 131 is connected to the strap 141.

(33) A protrusion 1321 is provided in the groove 132 of the first connecting portion 130 located on the lower shed housing body 120, and a through hole 1421 is provided in the strap 142 of the second connecting portion 140 located on the lower shed housing body 120 and at a position corresponding to the position of the protrusion 1321. The protrusion 1321 and the through hole 1421 have diameters such that the protrusion 1321 fits the through hole 1421 tightly, that is, the through hole 1421 may be sleeved on the protrusion 1321, so that the groove 132 is connected to the strap 142.

(34) In this embodiment, the first connecting portion 130 has the protrusion 1311 and the through hole 1312 provided on the upper shed housing body 110, and the protrusion 1321 provided on the lower shed housing body 120, and the second connecting portion 140 has the through hole 1411 and the protrusion 1412 provided on the upper shed housing body 110, and the through hole 1421 provided on the lower shed housing body 120. Alternatively, all the protrusions may be provided on the first connecting portion 130, and all the through holes corresponding to the protrusions may be provided on the second connecting portion 140. The amount of pairs of the protrusion and the through hole may not be limited to three as mentioned above, that is, the amount and the size of the protrusions and the through holes on the first connecting portion 130 and the second connecting portion 140 can be adjusted according to the actual size of the shed housing. The above protrusions have a same size and each is a cylindrical protrusion. Of course, the shape of each protrusion may not be limited to the cylindrical shape, or the protrusion 1311, the protrusion 1321 and the protrusion 1412 may have different shapes from each other.

(35) As shown in FIG. 8 and FIG. 9, when the first connecting portion 130 and the second connecting portion 140 are joined together, the shed housing 100 has continuous transition at the joining. The joining has a same thickness as other portions of the shed housing 100. The protrusion 1311, the protrusion 1321 and the protrusion 1421 slightly protrude from the surface of the shed housing 100 relative to the corresponding through holes.

(36) In this embodiment, the connection structure is integrated with the shed housing 100, so that the shed housing 100 may be sleeved on the shed 10 and joined in the circumferential direction without any additional connection structure. There is no need to make model to produce additional connecting components, so it is simple for manufacturing and processing, with a lower cost. When the protrusion is fitted into the through hole, the protrusion extends slightly out of the through hole relative to the surface of the shed housing. In this way, the protrusion may resist tension at the opening to a certain extent, and withstand the through hole in the horizontal direction to ensure the reliability of the connection between protrusion and through hole. The extended portion 180 may further increase the creepage distance of the insulator. In order to meet the actual needs, the protrusion may also be substantially flush with the surface of the shed housing. The first connecting portion and the second connecting portion may be joined together by overlapping the first connecting portion and the second connecting portion to a certain extent, and the joining has a thickness slightly different from other portions of the shed housing.

Embodiment Two

(37) As shown in FIGS. 10-12, the shed housing 200 in this embodiment has substantially the same configuration as the shed housing 100 in Embodiment One, except that neither the upper shed housing body 210 nor the lower shed housing body 220 of the shed housing 200 completely covers on the upper surface and the lower surface of the shed 20, and the upper shed housing body 210 and the lower shed housing body 220 are separately provided and should be joined to form a receiving cavity for covering the shed 20. Specifically, a distance from the mounting hole of the shed housing 200 to a boundary between the insulating core 21 and the shed 20 along the surface of the shed 20 is one-third of a distance from the insulating core 21 to the tip of the shed 20 along the surface of the shed 20.

(38) As shown in FIGS. 13-15, in this embodiment, the upper shed housing body 210 and the lower shed housing body 220 are joined together to form a receiving cavity through a connecting structure in a form of a dovetail groove. A concave dovetail groove 211 is provided on the lower surface of the upper shed housing body 210 around the insulating core 21, and configured to be connected to lower shed housing body 220. The lower shed housing body 220 is annular-shaped, and a hole through which the insulating core 21 passes is provided in the middle of the lower shed housing body 220. A protrusion 222 corresponding to the concave dovetail groove 211 is provided on an outer edge of the lower shed housing body 220. The protrusion 222 is arranged in a circumferential direction around the insulating core 21. The protrusion 222 is able to be joined with the concave dovetail groove 211 to form a receiving cavity for receiving the shed 20. Of course, the upper shed housing body 210 and the lower shed housing body 220 may be joined together in other manners, such as buckle and lock.

(39) In this embodiment, the manufacturing and processing of the shed housing 200 may be further simplified by converting a complex configuration into a way of joining the upper shed housing body 210 and the lower shed housing body 220, to reduce the manufacturing cost. The shed housing 200 do not cover the upper surface and the lower surface of the shed 20 completely, so that the material consumption and the cost can be reduced, meanwhile the effect on preventing pollution flashover and rain flashover can be achieved.

Embodiment Three

(40) As shown in FIGS. 16-19, the shed housing 300 in this embodiment has substantially the same structure as the shed housing 100 in Embodiment One, with a difference that the first connecting portion 330 and the second connecting portion 340 are different from the first connecting portion 130 and the second connecting portion 140 in the shed housing 100.

(41) Portions of the first connecting portion 330 and the second connecting portion 340 located on the upper shed housing body 310 are the same as those on the shed housing 100. A strap 331 is provided on a portion of the first connecting portion 330 located on the lower shed housing body 320 and is formed by extending the lower shed housing body 320 around the insulating core in a circumferential direction of the shed housing 300. There is no connecting portion provided on a portion of the second connecting portion 340 located on the lower shed housing body 320. That is, the first connecting portion 330 and the second connecting portion 340 are formed by joining the strap 331 provided on a portion of the first connecting portion 330 located on the lower shed housing body 320 and a strap 341 provided on a portion of the second connecting portion 340 located on the upper shed housing body 310.

(42) For the shed housing 300 in this embodiment, the portion of the first connecting portion 330 located on the lower shed housing body 320 and the portion of the second connecting portion 340 located on the lower shed housing body 320 may be joined together by joining the straps directly. In this way, the manufacturing and processing of the connecting portions of the shed housing 300 can be further simplified, and the manufacturing cost can be reduced.

Embodiment Four

(43) As shown in FIGS. 20-23, the shed housing 400 in this embodiment has substantially the same structure as the shed housing 100 in Embodiment One, with a different that the first connecting portion 430 and the second connecting portion 440 are different from the first connecting portion 130 and the second connecting portion 140 in the shed housing 100.

(44) A groove 431 is provided in a portion of the first connecting portion 430 located on the upper shed housing body 410. The length of the groove 431 extending along a radial direction of the shed housing 400 is less than the length of the shed housing 400. A strap 441 cooperating with the groove 431 is provided on a portion of the second connecting portion 440 located on the upper shed housing body 410, and the strap 441 has a same structure as the strap 141 of the shed housing 100. A groove 432 is provided on a portion of the first connecting portion 430 located on the lower shed housing body 420. The groove 432 extends along the radial direction of the shed housing 400 to the extended portion 480. The length of the groove 432 extending along the radial direction of the shed housing 400 is less than the length of the shed housing 400. A strap 442 cooperating with the groove 432 is provided on a portion of the second connecting portion 440 located on the lower shed housing body 420. The strap 441 extends along the radial direction of the shed housing 400 to an outer edge of the extended portion 480. That is, the second connecting portion 440 formed by the strap 441 and the strap 442 and the first connecting portion 430 formed by the groove 431 and the groove 432 are closed at the outer edge of the shed housing 400, and respectively form V-shaped connecting portions with an opening along the radial direction of the shed housing 400 at the mounting hole 470 of the shed housing. The first connecting portion 430 and the second connecting portion 440 are embedded and connected to each other along a latitudinal direction of the shed housing 400, so that the shed housing 400 is closed in the circumferential direction.

(45) In this embodiment, the protrusion 4311 and the protrusion 4312 are arranged on the groove 431 in the radial direction of the shed housing 400. The through hole 4411 corresponding to the protrusion 4311 and the through hole 4412 corresponding to the protrusion 4312 are arranged on the strap 441. The protrusion 4321 and the protrusion 4322 are arranged on the groove 432 in the radial direction of the shed housing 400. The through hole 4321 corresponding to the protrusion 4321 and the through hole 4322 corresponding to the protrusion 4322 are provided on the strap 442.

(46) In this embodiment, the amount of pairs of the protrusion and the through hole on the groove 431, the strap 441, the groove 432, and the strap 442 may be adjusted according to actual needs. The protrusions are provided on the grooves, and the through holes are provided on the straps, so that protrusions can protrude outward from the shed housing naturally during connecting, to avoid contacting the shed and affecting the connection effect of the shed housing. The double V-shaped connection structure can increase the area of the connecting portions of the shed housing, to make the connection firmer.

Embodiment Five

(47) As shown in FIGS. 24-25, the shed housing 500 of in this embodiment has substantially the same structure as the shed housing 100 in Embodiment One, except that a sleeve 591 and a sleeve 592 are provided on the shed housing 500 at the mounting hole 570. The sleeve 591 and the sleeve 592 extend away from the surface of the shed housing 500 along an axial direction of the insulating core 51. Inner diameters of the sleeve 591 and the sleeve 592 fit an outer diameter of the insulating core 51, inner walls of the sleeve 591 and the sleeve 592 fit an outer wall of the insulating core 51 closely. The sleeve 591 extends upward away from the upper surface of the upper shed housing body 510 along the axial direction of the insulating core 51. The sleeve 592 extends downward away from the lower surface of the lower shed housing body 520 along the axial direction of the insulating core 51.

(48) In this embodiment, the shed housing 500 is provided with sleeves covering the outer wall of the insulating core. These sleeves are connected to the insulating core tightly to strengthen the strength of the connection between the shed housing and the insulating core, to further ensure the tightness and reliability of the shed being covered by the shed housing. The diameter and height of each sleeve can be designed according to the actual situation. The shed housing can also be provided with only one sleeve or without sleeve.

(49) Although the present disclosure and its technical features have been described as above, it should be understood that there are numerous modifications of the illustrated embodiments described above which will be readily apparent to one skilled in the art, such as many variations and modifications in the above configurations and materials, including combinations of features disclosed herein that are individually disclosed or claimed herein, explicitly including additional combinations of such features. These modifications and/or combinations fall within the technical field of the present disclosure and fall into the scope of the appended claims.