CN214755149U - GIS and wiring structure thereof - Google Patents

Abstract

The utility model belongs to the technical field of high-voltage switches, in particular to a GIS and a wiring structure thereof, wherein the wiring structure comprises a transverse wiring piece which is used for being arranged along the transverse extension of a box-dividing shell, the transverse wiring piece is used for being placed in an interval space formed between two adjacent box-dividing shells when in use, and a transversely extending wiring channel is arranged in the transverse wiring piece; the top of the transverse wiring piece is provided with a penetration port for a cable to penetrate in, and one end of the transverse wiring piece is provided with a penetration port for the cable to penetrate out; the wiring structure also comprises a vertical wire groove communicated with the transverse wiring piece, and the vertical wire groove is used for guiding the cable to extend downwards; the wiring structure further comprises a bottom wiring piece used for communicating the vertical linear groove with the control cubicle, and the bottom wiring body extends transversely. The spacing space between two adjacent box shells is used for accommodating the transverse wiring piece, and the transverse wiring piece is hidden by the box shells and cannot be seen from the outside. The overall aesthetic property is improved, thereby bringing greater economic benefit.

Description

GIS and wiring structure thereof

Technical Field

The utility model belongs to the technical field of high tension switchgear, concretely relates to GIS and wiring structure thereof.

Background

With the increasingly strong market competition of switches at home and abroad, high-voltage switch products gradually develop towards miniaturization, low cost, high reliability and the like, and users increasingly emphasize the appearance while emphasizing the quality in product purchasing. As shown in the chinese patent application with application publication No. CN111198338A and fig. 1 to 3, gas insulated metal enclosed switchgear (GIS) in the market at present basically adopts a three-phase split-box type design, where the GIS includes a chassis and functional elements such as a circuit breaker, a disconnecting switch, and a grounding switch installed on the chassis, and cables of the functional elements need to be connected to a central control cabinet for centralized control. As shown in fig. 1 and 3, the circuit breaker includes a three-phase box housing 102 arranged in a straight line, a main circuit conductor is located in the box housing 102, the box housing 102 is horizontally disposed on a bottom frame, and other functional elements such as a disconnecting switch and an earthing switch are all arranged above the box housing 102. In the prior art, in order to connect cables 104 of various functional elements into a control cubicle 103, the cables 104 are arranged on one side or two sides of a product, a main trunking 101 is fixed on a chassis, the main trunking 101 extends along a branch box housing 102, and the main trunking 101 is arranged at least on one side of the branch box housing 102. The cables 104 are collected to the main trunk 101 through the branch trunk separately from each use position, specifically, as shown in fig. 1 to 3, a side trunk 105 is disposed on one side of the branch trunk housing 102, a top trunk 106 is disposed on the top, the top trunk 106 simultaneously spans the middle branch trunk housing 1021 and the two side branch trunk housings 1022, an end trunk 107 is fixed to an end of the branch trunk housing 102, each branch trunk (including the side trunk 105, the top trunk 106, and the end trunk 107) is finally connected to the main trunk 101, and the cables 104 enter the corresponding branch trunk and then enter the main trunk 101.

The current wiring mode has the following problems: the branch line grooves are more in number and exposed outside, the extension lengths of the branch line grooves in the vertical direction are different, the appearance is messy on the whole, and the whole aesthetic feeling is poor. And most cables need turn round when extending from the top down and put in the outside of branch case casing, and the cable use amount is great, and overall cost is higher.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a GIS wiring structure to solve the technical problem of poor aesthetic feeling of the wiring mode in the prior art; a GIS using the wiring structure is also provided to solve the technical problem.

In order to achieve the above object, the utility model provides a GIS's wiring structure's technical scheme is: a wiring structure of a GIS, comprising:

the transverse wiring piece is used for being arranged in a manner of transversely extending along the box dividing shell, the transverse wiring piece is used for being placed in a space formed between the two adjacent box dividing shells when in use, and a transversely extending wiring channel is arranged in the transverse wiring piece;

the top of the transverse wiring piece is provided with a penetration port for a cable to penetrate in, and one end of the transverse wiring piece is provided with a penetration port for the cable to penetrate out;

the vertical linear groove is communicated with the transverse wiring piece and is used for guiding the cable to extend downwards;

the bottom wiring piece extends transversely and is used for communicating the vertical linear groove with the control cubicle.

The beneficial effects are that: after the transversely extending transverse wiring piece is arranged, cables above the transverse wiring piece can enter the transverse wiring piece, and then enter the control cubicle through the vertical linear groove and the bottom wiring piece. The transverse wiring piece can be used for centralized wiring, the branches of the wire grooves are fewer, the cable does not need to be bent greatly, the use amount of the cable is less, and the overall cost is lower. The utility model discloses well utilize the interval space between the adjacent bipartition case casing to hold horizontal wiring spare, horizontal wiring spare is hidden by the branch case casing, and the outside can't be seen. The overall aesthetic property is improved, thereby bringing greater economic benefit.

As a further optimized scheme, the transverse wiring piece comprises a grid bridge, and the shape of the side part of the grid bridge is consistent with the shape of the periphery of the box dividing shell so as to be matched and placed between two adjacent box dividing shells;

one end of the grid bridge frame is opened to form the through hole.

The beneficial effects are that: the grid bridge frame is convenient for bend into with the branch case casing periphery shape unanimous to put into between the branch case casing the adaptation, need not fix the grid bridge frame, direct support place just can, it is more convenient to assemble.

As a further optimized scheme, the transverse wiring piece further comprises a slot cover buckled at the top of the grid bridge frame, and the slot cover is used for being matched with the corresponding two branch box shells to surround the cable;

the slot cover is provided with the penetrating port for the cable to penetrate through.

The beneficial effects are that: the capping can cooperate with two branch case casings that correspond, forms the parcel protection to the cable, prevents that the cable is impaired.

As a further optimized scheme, the bottom wiring part comprises a bottom frame, the bottom frame comprises two transverse steel beams extending along the transverse direction, the two transverse steel beams are arranged at intervals along the longitudinal direction, a longitudinal steel beam is connected between the two transverse steel beams, and the longitudinal steel beam is used for supporting the box separating shell;

the bottom wiring part also comprises a cover plate and a bottom plate which are fixedly packaged on the upper side and the lower side of the transverse steel beam and the longitudinal steel beam, and the cover plate, the bottom plate, the transverse steel beam and the longitudinal steel beam are matched to form an inner cable channel positioned in the underframe;

the vertical linear groove is supported on the cover plate, and a penetrating port for a cable to penetrate through is formed in the cover plate.

The beneficial effects are that: utilize GIS's chassis and apron, bottom plate to form interior cable channel, intercommunication vertical wire casing to lead to the collection accuse cabinet with the cable, utilize the chassis to arrange the cable, make the cable can direct downwardly extending, reduce the use of cable, reduce cost.

The utility model discloses GIS's technical scheme is: a GIS, comprising:

the circuit breaker comprises three-phase box separating shells, wherein the box separating shells extend along the transverse direction and are sequentially arranged along the longitudinal direction perpendicular to the transverse direction;

the control cubicle is used for connecting a cable;

the GIS further comprises:

the transverse wiring piece is used for being arranged in a manner of transversely extending along the box dividing shell, the transverse wiring piece is used for being placed in a space formed between the two adjacent box dividing shells when in use, and a transversely extending wiring channel is arranged in the transverse wiring piece;

the top of the transverse wiring piece is provided with a penetration port for a cable to penetrate in, and one end of the transverse wiring piece is provided with a penetration port for the cable to penetrate out;

the vertical linear groove is communicated with the transverse wiring piece and is used for guiding the cable to extend downwards;

the bottom wiring piece extends transversely and is used for communicating the vertical linear groove with the control cubicle.

The beneficial effects are that: after the transversely extending transverse wiring piece is arranged, cables above the transverse wiring piece can enter the transverse wiring piece, and then enter the control cubicle through the vertical linear groove and the bottom wiring piece. The transverse wiring piece can be used for centralized wiring, the branches of the wire grooves are fewer, the cable does not need to be bent greatly, the use amount of the cable is less, and the overall cost is lower. The utility model discloses well utilize the interval space between the adjacent bipartition case casing to hold horizontal wiring spare, horizontal wiring spare is hidden by the branch case casing, and the outside can't be seen. The overall aesthetic property is improved, thereby bringing greater economic benefit.

As a further optimized scheme, the transverse wiring piece comprises a grid bridge, and the shape of the side part of the grid bridge is consistent with the shape of the periphery of the box dividing shell so as to be matched and placed between two adjacent box dividing shells;

one end of the grid bridge frame is opened to form the through hole.

The beneficial effects are that: the grid bridge frame is convenient for bend into with the branch case casing periphery shape unanimous to put into between the branch case casing the adaptation, need not fix the grid bridge frame, direct support place just can, it is more convenient to assemble.

As a further optimized scheme, the transverse wiring piece further comprises a slot cover buckled at the top of the grid bridge frame, and the slot cover is used for being matched with the corresponding two branch box shells to surround the cable;

the slot cover is provided with the penetrating port for the cable to penetrate through.

The beneficial effects are that: the capping can cooperate with two branch case casings that correspond, forms the parcel protection to the cable, prevents that the cable is impaired.

As a further preferred solution, the bottom wiring member comprises a bottom frame,

the chassis comprises two transverse steel beams extending along the transverse direction, the two transverse steel beams are arranged at intervals along the longitudinal direction, a longitudinal steel beam is connected between the two transverse steel beams, and the longitudinal steel beam is used for supporting the box separation shell;

the bottom wiring part also comprises a cover plate and a bottom plate which are fixedly packaged on the upper side and the lower side of the transverse steel beam and the longitudinal steel beam, and the cover plate, the bottom plate, the transverse steel beam and the longitudinal steel beam are matched to form an inner cable channel positioned in the underframe;

the vertical linear groove is supported on the cover plate, and a penetrating port for a cable to penetrate through is formed in the cover plate.

The beneficial effects are that: utilize GIS's chassis and apron, bottom plate to form interior cable channel, intercommunication vertical wire casing to lead to the collection accuse cabinet with the cable, utilize the chassis to arrange the cable, make the cable can direct downwardly extending, reduce the use of cable, reduce cost.

As a further optimized scheme, the GIS further comprises a circuit breaker operating mechanism, wherein the circuit breaker operating mechanism is positioned between the corresponding end of the branch box shell and the junction control cabinet;

the box body of the circuit breaker operating mechanism is arranged higher than the transverse steel beam, and the cover plate and the bottom plate extend to the control cubicle, so that the inner cable channel extends to the control cubicle;

or, the bottom of the box body of the circuit breaker operating mechanism is located below the top surface of the transverse steel beam, the bottom wiring piece further comprises a bottom wire groove fixedly arranged on the outer side of the transverse steel beam, the bottom wire groove and the transverse steel beam are matched to form an outer cable channel, a through hole for communicating the inner cable channel with the outer cable channel is formed in the transverse steel beam, and the outer cable channel extends to the position of the convergence control cabinet.

As a further optimized solution, the GIS further includes a limiting member located above the transverse wiring member, and the limiting member can be in stop-fit with the transverse wiring member to prevent the transverse wiring member from jumping up.

The beneficial effects are that: after the limiting part is arranged, even if the transverse wiring piece moves upwards due to wiring when in use, the limit of the movement of the transverse wiring piece can be limited, and the transverse wiring piece is prevented from being separated from the box separating shell.

Drawings

FIG. 1 is a left side view of a prior art GIS;

FIG. 2 is a top view at A of FIG. 1;

FIG. 3 is a right side view of a GIS of the prior art;

fig. 4 is a left side view of the GIS of the present invention in embodiment 1;

fig. 5 is a schematic view showing the fitting between the transverse wiring member and the box body in the GIS of the present invention in embodiment 1;

FIG. 6 is a schematic view of the transverse wire member of FIG. 5;

fig. 7 is a schematic view showing a vertical linear groove in the GIS of the present invention in embodiment 1;

fig. 8 is a schematic view showing the cooperation of the transverse wiring member, the vertical linear groove and the bottom wire groove in the GIS of the present invention in embodiment 1;

description of reference numerals: 101. a main wire slot; 102. a box separating shell; 1021. a middle phase distribution box shell; 1022. a side phase split box shell; 103. a control cubicle; 104. a cable; 105. a lateral wire groove; 106. a top wire slot; 107. an end wire slot; 201. a chassis; 2011. a transverse steel beam; 2012. a longitudinal steel beam; 202. a box separating shell; 2021. a middle phase distribution box shell; 2022. a side phase split box shell; 203. a circuit breaker operating mechanism; 204. a control cubicle; 205. a cable; 206. a vertical linear slot; 2061. an opening; 207. a transverse wiring member; 2071. a grid bridge; 2072. a slot cover; 208. a top plate; 209. a cover plate; 210. a base plate; 211. limiting channel steel; 212. a bottom wire trough.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more clearly understood, the present invention is further described in detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the invention, i.e., the described embodiments are only some, but not all embodiments of the invention. The components of embodiments of the present invention, as generally described and illustrated in the figures herein, may be arranged and designed in a wide variety of different configurations.

Thus, the following detailed description of the embodiments of the present invention, presented in the accompanying drawings, is not intended to limit the scope of the invention, as claimed, but is merely representative of selected embodiments of the invention. Based on the embodiment of the present invention, all other embodiments obtained by the person skilled in the art without creative work belong to the protection scope of the present invention.

It is noted that relational terms such as "first" and "second," and the like, may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. Without further limitation, elements recited by the phrase "comprising an … …" do not exclude the inclusion of such elements in processes or methods.

In the description of the present invention, unless otherwise expressly specified or limited, the terms "mounted," "connected," and "connected" when they are used are to be construed broadly, e.g., as meaning either a fixed connection, a removable connection, or an integral connection; can be mechanically or electrically connected; either directly or indirectly through intervening media, or may be interconnected between two elements. The specific meaning of the above terms in the present invention can be understood by those skilled in the art from the specific situation.

In the description of the present invention, it should be noted that, unless explicitly stated or limited otherwise, the term "provided" may be used in a broad sense, for example, the object of "provided" may be a part of the body, or may be arranged separately from the body and connected to the body, and the connection may be a detachable connection or a non-detachable connection. The specific meaning of the above terms in the present invention can be understood by those skilled in the art from the specific situation.

The present invention will be described in further detail with reference to examples.

The utility model provides a GIS's embodiment 1:

as shown in fig. 4 to 8, the GIS in this embodiment is a three-phase box-separated structure, and includes a chassis 201, the chassis 201 includes two horizontal steel beams 2011, the horizontal steel beams 2011 extend in a horizontal direction, and the two horizontal steel beams 2011 are arranged in a longitudinal interval, the chassis 201 further includes a longitudinal steel beam 2012 connecting the two horizontal steel beams 2011, and functional elements such as a circuit breaker, a disconnecting switch, a grounding switch and the like are fixedly mounted on the chassis 201. In this embodiment, the circuit breaker includes a three-phase horizontal box casing 202, a main conductor is disposed in the box casing 202, the box casing 202 extends in a horizontal direction (left and right directions in fig. 4), the three-phase box casing 202 is arranged at intervals in a longitudinal direction, and the box casing 202 is supported on a longitudinal steel beam 2012. As shown in fig. 5, the three-phase split case 202 is a middle phase split case 2021 at the middle and side phase split cases 2022 at both sides. In this embodiment, the transverse steel beam 2011 is a transversely extending channel steel, the openings of the two channel steels are arranged in a reverse manner, so that possibility is provided for integral hoisting and transportation of the GIS, and the channel steel comprises an upper wing surface and a lower wing surface; and longitudinal steel beams 2012 are i-beams.

The GIS further comprises a breaker operating mechanism 203 and a control cubicle 204 which are fixed on the underframe 201, the breaker operating mechanism 203 is located between one end of the box separating shell 202 and the control cubicle 204, the GIS further comprises a cable 205, the cable 205 is a secondary control cable, and the cable 205 is connected into the control cubicle 204 from each use part to realize centralized control. Here, the bottom surface of the box of the circuit breaker operating mechanism 203 is sunk to the transverse steel beam 2011 and is higher than the lower wing surface of the transverse steel beam 2011.

In order to lead cables 205 to the control cubicle 204, the GIS further includes a transverse wiring member 207 and a vertical wire slot 206, the structure of the transverse wiring member 207 is as shown in fig. 5, 6 and 8, the transverse wiring member 207 extends along the transverse direction, the transverse wiring members 207 are arranged in two along the longitudinal direction, and the arrangement position of the transverse wiring member 207 is between two adjacent box-dividing housings 202, namely, between the middle box-dividing housing 2021 and the side box-dividing housing 2022. As can be seen from fig. 5, the outer circumferential surfaces of the box-divided housings 202 are circular, and a space is naturally formed between the tops of two adjacent box-divided housings 202, in which the transverse wiring member 207 is located. The transverse wiring member 207 is provided with a wiring channel inside, the cable 205 can transversely pass through the transverse wiring member 207, the transverse wiring member 207 comprises a grid bridge 2071, the grid bridge 2071 extends along the transverse direction, the grid bridge 2071 is of a frame type structure, the shape of the side surface of the grid bridge 2071 is consistent with the shape of the outer peripheral surface of the box separation shell 202, and the grid bridge can be fittingly placed between the two box separation shells 202. The transverse wiring member 207 further includes a slot cover 2072 fastened on the top of the mesh bridge 2071, and the inner edge of the slot cover 2072 has a limit fastener to limit the slot cover 2071 and prevent the slot cover 2072 from loosening and falling off. The limiting buckle utilizes the material rigidity of the slot cover 2072, and is convenient to process. As shown in fig. 6, the slot cover 2072 has a plurality of segments, and the adjacent segments are connected by a snap or a buckle for easy assembly and disassembly.

By providing the slot cover 2072, the cable 205 in the mesh bridge 2071 and the mesh bridge 2071 can be protected by being engaged with the outer peripheral surfaces of the two adjacent box casings 202. Since the transverse wiring members 207 are buried in the space between the adjacent two casing housings 202 and cannot be seen from the outside, the overall beauty is improved. As shown in fig. 4, the cable 205 is mostly used above the box casing 202, and an insertion opening is opened in the slot cover 2072 for the cable 205 to pass through in order to allow the cable 205 to enter the transverse wiring member 207 downward.

The GIS further comprises a vertical slot 206, the vertical slot 206 is located at one end of the box-separating housing 202, the vertical slot 206 is communicated with the transverse wiring member 207 and is used for guiding the cable 205 downwards, the structure of the vertical slot 206 can adopt a common slot structure, as shown in fig. 8, one end of the vertical slot 206 is provided with an opening 2061, the opening 2061 is opposite to one end of the transverse wiring member 207, and the cable 205 penetrates through the transverse wiring member 207 and then penetrates into the vertical slot 206 and is guided downwards to extend. In the present embodiment, the number of the vertical wire grooves 206 is the same as the number of the transverse wiring members 207, and both are two. A top plate 208 is fixed on the top of the vertical slot 206, and a through opening is arranged on the top plate 208 for the cable 205 to penetrate.

As shown in fig. 7 and 8, a cover plate 209 is fixedly mounted on the top of the two longitudinal steel beams 2012, the cover plate 209 extends to the circuit breaker actuator 203, and a bottom plate 210 is fixed on the lower wing surface of the longitudinal steel beams 2012, and since the bottom surface of the circuit breaker actuator 203 is higher than the lower wing surface of the longitudinal steel beams 2012, the bottom plate 210 can extend to the bottom of the circuit breaker actuator 203. A closed space is formed as an inner cable passage by the cover plate 209, the bottom plate 210, the longitudinal steel beams 2012, the box of the circuit breaker operating mechanism 203, and the two longitudinal steel beams 2012. Because the box of the circuit breaker operating mechanism 203 is blocked, the cable cannot directly extend to the junction box 204, as shown in fig. 7, a bottom wire slot 212 is fixed outside two longitudinal steel beams 2012, the bottom wire slot 212 and the longitudinal steel beams 2012 surround to form a closed outer cable channel, and the outer cable channel extends to the junction box 204. In order to connect the inner cable passage inside and the outer cable passage outside, a through-hole is opened in the transverse steel beam 2011 for a cable to pass through. The vertical linear groove 206 is fixed on the cover plate 209, the upper opening of the cover plate 209 is used for the cable 205 to penetrate downwards into the bottom frame 201, and after the cable penetrates into the control cubicle 204, the cable 205 is plugged by fireproof mud after being assembled, so that the control cubicle 204 is ensured to have waterproof performance.

The utility model discloses in, the cable 205 of horizontal wiring piece 207 top all enters into horizontal wiring piece 207 and again through vertical line groove 206, chassis 201 department enter into converge accuse cabinet 204, the cable 205 of vertical line groove 206 top directly enters into vertical line groove 206, chassis 201 department and then enters into converge accuse cabinet 204 through the mouth of wearing of roof 208. Since the cable 205 itself is heavy, the bottom of the transverse wiring member 207 is directly supported on the box body 202 without being limited above after the cable 205 is threaded. However, in actual manufacturing, the stopper channel 211 is usually arranged above the lateral wiring member 207, and the stopper channel 211 is suspended above the lateral wiring member 207, but does not contact the lateral wiring member 207, and is used to restrict upward movement of the lateral wiring member 207 and prevent upward movement. The limiting channel steel 211 is fixed on the upper shell of the isolating switch.

In this embodiment, the limiting channel 211 is used to limit the upward movement limit of the transverse wiring member 207, so as to form a limiting member.

The cable channel formed by the chassis 201, the cover 209, the bottom plate 210 and the bottom wire slot 212 together in this embodiment communicates with the control cubicle 204 and the vertical wire slot 206, thereby forming a bottom wiring member.

In actual use, the type of the transverse steel beam 2011 may be changed, for example, the transverse steel beam 2011 may be angle steel, rectangular steel, or the like, and the type of the longitudinal steel beam 2012 may also be changed.

The utility model discloses GIS's embodiment 2:

in embodiment 1, the limiting member is a limiting channel steel. In this embodiment, the limiting member may be an L-shaped plate fixed to the top surface of the box-dividing housing, and the transverse edge of the L-shaped plate limits the transverse wiring member.

Of course, in actual use, even if there is no stopper, the lateral wiring member and the cable do not move upward under the weight of the cable and the lateral wiring member, and therefore, the stopper can be eliminated.

The utility model discloses GIS's embodiment 3:

in embodiment 1, the bottom surface of the box body of the circuit breaker operating mechanism is slightly higher than the bottom surface of the transverse steel beam, and the box body of the circuit breaker operating mechanism prevents a cable from directly penetrating into the control cubicle. In this embodiment, the bottom surface of the box body of the circuit breaker operating mechanism is slightly higher than the top surface of the transverse steel beam, the cover plate and the bottom plate extend rightwards to the right side of the circuit breaker operating mechanism and are connected with the bottom plate at the control cubicle, at this moment, an inner cable channel formed by the cover plate, the bottom plate, the two transverse steel beams and the longitudinal steel beam is communicated with the vertical linear groove and the control cubicle, and at this moment, a bottom line slot can be cancelled.

The utility model discloses GIS's embodiment 4:

in embodiment 1, the chassis constitutes a part of the bottom wiring member. In this embodiment, the bottom wiring member may be a main line slot additionally fixed to the outer side of the bottom chassis, the cable in the vertical line slot extends downward and horizontally into the main line slot, and the main line slot communicates the vertical line slot and the control cubicle.

The utility model discloses GIS's embodiment 5:

in example 1, the transverse wiring member includes a grid bridge and a slot cover. In this embodiment, the slot cover may be eliminated, and only the grid bridge is reserved.

The utility model discloses GIS's embodiment 6:

in example 1, the transverse wiring member comprises a grid bridge. In this embodiment, the transverse wiring member may be a wire casing fixed in an interval space formed by two adjacent box-dividing housings, and of course, in order to be better inserted into the interval space, a side wall of the wire casing is preferably designed to be arc-shaped and consistent with the outer peripheral shape of the box-dividing housing.

Of course, in actual manufacturing, if the space between two adjacent box shells is large, the shape of the wire slot may not be designed to be consistent with the peripheral shape of the box shell.

The utility model discloses GIS's embodiment 7:

in embodiment 1, the top plate on the vertical wire groove is provided with a through hole for the cable to penetrate. In this embodiment, if all cables are vertically aligned with the transverse wiring member, the through hole in the top plate may be eliminated.

The utility model discloses GIS's embodiment 8:

in embodiment 1, a transverse wiring body is provided between any two adjacent box-dividing housings. In this embodiment, only one lateral wiring body may be provided.

The utility model discloses GIS's wiring structure's concrete embodiment:

the wiring structure of the GIS includes a horizontal wiring member, a vertical linear slot and a bottom wiring body, and the structure is the same as that in each embodiment of the GIS, which is not described herein again.

Finally, it should be noted that the above mentioned embodiments are only preferred embodiments of the present invention, and not intended to limit the present invention, and although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications may be made without inventive effort to the technical solutions described in the foregoing embodiments, or equivalents may be substituted for some of the technical features. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (10)

1. A wiring structure of a GIS is characterized in that: the method comprises the following steps:

the transverse wiring piece (207) is used for transversely extending along the box dividing shell (202), the transverse wiring piece (207) is used for being placed in a space formed between two adjacent box dividing shells (202) when in use, and a transversely extending wiring channel is arranged in the transverse wiring piece (207);

the top of the transverse wiring piece (207) is provided with a penetration port for the penetration of the cable (205), and one end of the transverse wiring piece (207) is provided with a penetration port for the penetration of the cable (205);

a vertical linear groove (206) communicating with the transverse wiring member (207), the vertical linear groove (206) being for guiding the cable (205) to extend downward;

and the bottom wiring piece extends transversely and is used for communicating the vertical linear groove (206) with the control cubicle (204).

2. The wiring structure of the GIS according to claim 1, wherein: the transverse wiring piece (207) comprises a grid bridge (2071), and the shape of the side part of the grid bridge (2071) is consistent with the shape of the periphery of the box separation shell (202) so as to be matched and placed between the two adjacent box separation shells (202);

one end of the grid bridge (2071) is opened to form the through-out port.

3. The wiring structure of the GIS according to claim 2, wherein: the transverse wiring piece (207) further comprises a slot cover (2072) buckled at the top of the grid bridge (2071), and the slot cover (2072) is used for being matched with the corresponding two-box shell (202) to surround the cable (205);

the slot cover (2072) is provided with the penetrating port for the cable (205) to penetrate through.

4. The wiring structure of the GIS according to claim 1, 2 or 3, wherein: the bottom wiring piece comprises a bottom frame (201), the bottom frame (201) comprises two transverse steel beams (2011) extending along the transverse direction, the two transverse steel beams (2011) are arranged at intervals along the longitudinal direction, a longitudinal steel beam (2012) is connected between the two transverse steel beams (2011), and the longitudinal steel beam (2012) is used for supporting the box separating shell (202);

the bottom wiring piece further comprises a cover plate (209) and a bottom plate (210) which are fixedly packaged on the upper side and the lower side of the transverse steel beam (2011) and the longitudinal steel beam (2012), and the cover plate (209), the bottom plate (210), the transverse steel beam (2011) and the longitudinal steel beam (2012) are matched to form an inner cable channel positioned in the chassis (201);

the vertical linear groove (206) is supported on the cover plate (209), and a penetrating port for a cable (205) to penetrate through is formed in the cover plate (209).

5. A GIS, comprising:

the circuit breaker comprises three-phase box separation shells (202), wherein the box separation shells (202) extend along the transverse direction, and the three-phase box separation shells (202) are sequentially arranged along the longitudinal direction perpendicular to the transverse direction;

the control cubicle (204) is accessed by a cable (205); the method is characterized in that:

the GIS further comprises:

the transverse wiring piece (207) is used for transversely extending along the box dividing shell (202), the transverse wiring piece (207) is used for being placed in a space formed between two adjacent box dividing shells (202) when in use, and a transversely extending wiring channel is arranged in the transverse wiring piece (207);

the top of the transverse wiring piece (207) is provided with a penetration port for the penetration of the cable (205), and one end of the transverse wiring piece (207) is provided with a penetration port for the penetration of the cable (205);

a vertical linear groove (206) communicating with the transverse wiring member (207), the vertical linear groove (206) being for guiding the cable (205) to extend downward;

and the bottom wiring piece extends transversely and is used for communicating the vertical linear groove (206) with the control cubicle (204).

6. The GIS of claim 5 wherein: the transverse wiring piece (207) comprises a grid bridge (2071), and the shape of the side part of the grid bridge (2071) is consistent with the shape of the periphery of the box separation shell (202) so as to be matched and placed between the two adjacent box separation shells (202);

one end of the grid bridge (2071) is opened to form the through-out port.

7. The GIS of claim 6 wherein: the transverse wiring piece (207) further comprises a slot cover (2072) buckled at the top of the grid bridge (2071), and the slot cover (2072) is used for being matched with the corresponding two-box shell (202) to surround the cable (205);

the slot cover (2072) is provided with the penetrating port for the cable (205) to penetrate through.

8. The GIS of claim 5, 6 or 7 wherein: the bottom wiring piece comprises a bottom frame (201), the bottom frame (201) comprises two transverse steel beams (2011) extending along the transverse direction, the two transverse steel beams (2011) are arranged at intervals along the longitudinal direction, a longitudinal steel beam (2012) is connected between the two transverse steel beams (2011), and the longitudinal steel beam (2012) is used for supporting the box separating shell (202);

the bottom wiring piece further comprises a cover plate (209) and a bottom plate (210) which are fixedly packaged on the upper side and the lower side of the transverse steel beam (2011) and the longitudinal steel beam (2012), and the cover plate (209), the bottom plate (210), the transverse steel beam (2011) and the longitudinal steel beam (2012) are matched to form an inner cable channel positioned in the chassis (201);

the vertical linear groove (206) is supported on the cover plate (209), and a penetrating port for a cable (205) to penetrate through is formed in the cover plate (209).

9. The GIS of claim 8 wherein: the GIS also comprises a breaker operating mechanism (203), wherein the breaker operating mechanism (203) is positioned between the corresponding end of the box separating shell (202) and the control cubicle (204);

the box body of the circuit breaker operating mechanism (203) is arranged higher than the transverse steel beam (2011), and the cover plate (209) and the bottom plate (210) extend to the control cubicle (204) so that the inner cable channel extends to the control cubicle (204);

or, the bottom half of circuit breaker operating mechanism (203) is located the below of horizontal girder steel (2011) top surface, and bottom wiring spare is still including setting firmly bottom wire casing (212) in horizontal girder steel (2011) outside, and bottom wire casing (212) forms outer cable channel with horizontal girder steel (2011) cooperation, be equipped with the through-hole of cable channel in the intercommunication, outer cable channel on horizontal girder steel (2011), outer cable channel extends to converge accuse cabinet (204) department.

10. The GIS of claim 5, 6 or 7 wherein: the GIS further comprises a limiting piece located above the transverse wiring piece (207), and the limiting piece can be matched with the transverse wiring piece (207) in a stopping mode so as to prevent the transverse wiring piece (207) from jumping up.

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