CN109160052B - GIS bus duct transportation tool structure - Google Patents

Abstract

The invention discloses a GIS bus duct transportation tool structure which comprises two fixed bases and at least two connecting plates, wherein the fixed bases are provided with at least one first placing groove, a first locking hole and a first lifting hole, and the connecting plates are provided with two connecting grooves, a second locking hole and a second lifting hole.

Description

GIS bus duct transportation tool structure

Technical Field

The invention relates to the technical field of high-voltage power transmission and transformation equipment, in particular to a GIS bus pipeline transportation tool structure.

Background

GIS (Gas Insulated Switchgear) is the English abbreviation of the gas-insulated fully-enclosed combined electrical apparatus. The GIS consists of a breaker, a disconnecting switch, a grounding switch, a transformer, a lightning arrester, a bus, a connecting piece, an outgoing terminal and the like, all the equipment or parts are sealed in a metal grounded shell, SF6 insulating gas with certain pressure is filled in the equipment or parts, and the equipment or the parts are also called SF6 totally-enclosed combined electrical apparatus.

Because GIS has advantages such as area is little, the whole seal of component is not disturbed by the environment, operational reliability is high, transportation and simple to operate, superior breaking property, loss are few and noise is low, so obtain wide application in high voltage transmission and transformation equipment technical field.

However, in the existing transportation mode, the metal pipelines with electrical equipment installed in a sealing mode are usually packaged and fixed in the wooden boxes respectively, each metal pipeline needs a wooden box, then the wooden boxes are loaded and transported in a stacking mode, each metal pipeline needs to be detached from the wooden box during installation, and obviously, the transportation mode has the defects of complex working procedures and high cost.

In view of the above, the present inventors have developed and designed the present invention by intensively conceived and actively studied and improved attempts to solve various drawbacks and inconveniences caused by the above-mentioned imperfection in the structural design of the GIS bus duct transportation tool.

Disclosure of Invention

The invention aims to provide a GIS bus duct transportation tool structure, which is simple in stacking process and low in transportation cost when being matched with a GIS bus duct for transportation.

In order to achieve the above object, the solution of the present invention is:

The utility model provides a GIS bus duct transportation frock structure, its includes two unable adjustment base and two at least connecting plates, unable adjustment base be equipped with at least a first standing groove, first locking hole and first lifting hole, with first standing groove is corresponding, first locking hole is close to first standing groove setting, first lifting hole sets up the both sides at first standing groove, the connecting plate is equipped with two spread grooves and second locking hole, two spread grooves set up at the both ends of connecting plate, with the spread groove is corresponding, the second locking hole is close to the spread groove setting.

The fixed base comprises a first fixed bottom plate and first supporting ribs, wherein the first placing grooves, the first locking holes and the first lifting holes are formed in the first supporting ribs, the first supporting ribs are fixed on the first fixed bottom plate, and the first supporting ribs and the first fixed bottom plate are in an inverted T shape.

The connecting plate is provided with a second lifting hole, the two connecting grooves are formed in two ends of the connecting plate, and the second lifting hole is formed in the other two ends of the connecting plate.

The soft cushion layer is arranged on the connecting plate and embedded in the connecting groove.

The tooling structure further comprises a reinforcing bottom plate, and two ends of the reinforcing bottom plate are detachably fixed below the two fixing bases respectively.

And at least one adjusting groove is formed in each of two ends of the reinforcing bottom plate.

The tooling structure further comprises an auxiliary base, wherein the auxiliary base is provided with a second placing groove, a third locking hole and a third lifting hole, the third locking hole corresponds to the second placing groove, the third locking hole is close to the second placing groove, and the third lifting hole is arranged on two sides of the second placing groove.

The auxiliary base comprises a second fixed bottom plate and second supporting ribs, the second placing grooves, third locking holes and third lifting holes are formed in the second supporting ribs, the second supporting ribs are fixed on the second fixed bottom plate, and the second supporting ribs and the second fixed bottom plate are in an inverted T shape.

After the scheme is adopted, the GIS bus duct is lifted and fixed on the fixed base by the connecting plate firstly when being matched with the GIS bus duct, and then the GIS bus duct is lifted and stacked together by the connecting plate according to the sequence from bottom to top, the middle and the two sides, the GIS bus duct is matched and transported by the mode, only the two fixed bases and the connecting plate are utilized, the GIS bus duct can be directly lifted down for installation according to the sequence from top to bottom when being installed, the problem that when the GIS bus duct is matched and transported by the wooden box, the wooden box is required to be customized according to the specification of the GIS bus duct, the GIS bus duct is packaged and fixed in the wooden box, the wooden box packaged with the GIS bus duct is packaged and transported in a stacking mode, and then the GIS bus duct is detached from the wooden box when being matched and transported by the GIS bus duct is installed, and the GIS bus duct is simple in stacking process and low in transportation cost.

Drawings

FIG. 1 is a schematic view of a fixing base according to a preferred embodiment of the present invention;

FIG. 2 is a schematic view of a connecting plate according to a preferred embodiment of the present invention;

FIG. 3 is a schematic view of the auxiliary base according to the preferred embodiment of the present invention;

FIG. 4 is a first view of a state of use according to the preferred embodiment of the present invention;

FIG. 5 is a second usage state diagram of the preferred embodiment of the present invention.

Detailed Description

In order to further explain the technical scheme of the invention, the invention is explained in detail by specific examples.

As shown in fig. 1 to 5, a preferred embodiment of a GIS bus duct transportation tool structure according to the present invention includes two fixing bases 1 and at least two connection plates 2, the fixing bases 1 are provided with at least one first placement groove 11, a first locking hole 12 and a first lifting hole 13, the first locking hole 12 is disposed near the first placement groove 11 corresponding to the first placement groove 11, the first lifting hole 13 is disposed at two sides of the first placement groove 11, in this embodiment, the fixing bases 1 are provided with three first placement grooves 11, and the three first placement grooves 11 are disposed on the fixing bases 1 at equal intervals, the connection plates 2 are provided with two connection grooves 21, a second locking hole 22 and a second lifting hole 23, the two connection grooves 21 are disposed at two ends of the connection plates 2, the second locking hole 22 is disposed near the connection grooves 21 corresponding to the connection grooves 21, and the second lifting hole 23 is disposed at the other two ends of the connection plates 2.

Above-mentioned unable adjustment base 1 includes first PMKD 14 and first supporting rib 15, first standing groove 11, first locking hole 12 and first lifting hole 13 all set up on first supporting rib 15, first supporting rib 15 is fixed on first PMKD 14, be the shape of falling the T between first supporting rib 15 and the first PMKD 14, through being equipped with first PMKD 14, increased unable adjustment base 1 and the area of contact of placing the face, thereby make unable adjustment base 1 have the better supporting property.

When the invention is used, the GIS bus duct 5 is stacked or matched for transportation, the GIS bus duct 5 comprises a rear end flange cover 51, a duct body 52 and a front end flange cover 53, the rear end flange cover 51 and the front end flange cover 53 are detachably arranged and fixed at two ends of the duct body 52 by bolts and nuts respectively, and a first locking hole 12 on the fixed base 1 and a second locking hole 22 on the connecting plate 2 can be matched with flange screw holes on the rear end flange cover 51 and the front end flange cover 53.

When stacking or transporting one section of GIS bus duct 5, firstly taking two connecting plates 2, matching and aligning the second locking hole 22 of one connecting plate 2 with a flange screw hole at the top of the rear end flange cover 51, locking the connecting plate 2 at the top of the rear end of the GIS bus duct 5 by using bolts and nuts, matching and aligning the second locking hole 22 of the other connecting plate 2 with a flange screw hole at the top of the front end flange cover 53, and locking the connecting plate 2 at the top of the front end of the GIS bus duct 5 by using bolts and nuts; then, hoisting the GIS bus duct 5 into a first placing groove 11 positioned in the middle of the fixed base 1 by using hoisting equipment through a second hoisting hole 23 on the two connecting plates 2, placing the front end and the rear end of the GIS bus duct 5 into the first placing grooves 11 of the two fixed bases 1 respectively, matching and aligning the first locking hole 12 of one fixed base 1 with a flange screw hole at the bottom of the rear end flange cover 51, locking the fixed base 1 at the bottom of the rear end of the GIS bus duct 5 by using bolts and nuts, matching and aligning the first locking hole 12 of the other fixed base 1 with a flange screw hole at the bottom of the front end flange cover 53, and locking the fixed base 1 at the bottom of the front end of the GIS bus duct 5 by using bolts and nuts; then, the GIS bus duct 5 is hoisted to a stacking area to complete stacking operation or to a transport vehicle to carry out transport operation by using hoisting equipment through the second hoisting holes 23 on the two connecting plates 2 and the first hoisting holes 13 on the two fixed bases 1.

When stacking or transporting at least two sections of GIS bus ducts 5, the manner of hoisting the first section of GIS bus duct 5 to the fixed base 1 is the same as the manner of stacking or transporting one section of GIS bus duct 5, which is not described herein, and when hoisting the rest of GIS bus ducts 5, the GIS bus duct 5 may be hoisted into the first placing groove 11 on one side of the hoisted GIS bus duct 5 according to the sequence of from bottom to top, first middle to last two sides, or the GIS bus duct 5 may be hoisted into the connecting groove 21 of the connecting plate 2 fixed on the upper end of the hoisted GIS bus duct 5; the manner of hoisting the rest of the GIS bus duct 5 into the first placement groove 11 is the same as the hoisting manner of the first section of GIS bus duct 5, and will not be described in detail herein; the manner in which the rest of the GIS bus duct 5 is lifted into the connecting slot 21 is different from the lifting manner of the first GIS bus duct 5 in that: the GIS bus duct 5 is hoisted into the connecting grooves 21 of the connecting plates 2 fixed at the upper ends of the hoisted GIS bus duct 5, the front end and the rear end of the GIS bus duct 5 are respectively placed in the connecting grooves 21 of the two connecting plates 2, the second locking hole 22 of one connecting plate 2 is matched and aligned with the flange screw hole at the bottom of the rear end flange cover 51, the connecting plate 2 is locked at the bottom of the rear end of the GIS bus duct 5 by using bolts and nuts, the second locking hole 22 of the other connecting plate 2 is matched and aligned with the flange screw hole at the bottom of the front end flange cover 53, and the connecting plate 2 is locked at the bottom of the front end of the GIS bus duct 5 by using bolts and nuts.

Through the mode, the GIS bus duct 5 is stacked or transported, only two fixing bases 1 and the connecting plates 2 are utilized, the cost of stacking or transporting the GIS bus duct 5 is greatly reduced, and the GIS bus duct stacking device has the advantage of simple working procedures.

The front ends and/or the rear ends of the GIS bus ducts 5 are/is lifted together, a connecting plate 2 is arranged between two adjacent GIS bus ducts 5 in the transverse direction, connecting grooves 21 at two ends of the connecting plate 2 are respectively propped against the side walls of the GIS bus ducts 5 at two sides, second locking holes 22 at two ends of the connecting plate 2 are respectively aligned with flange screw holes at the front ends and/or the rear ends of the GIS bus ducts 5 at two sides in a matched manner, the GIS bus ducts 5 at two sides are fixedly connected through the connecting plate 2 by utilizing bolts and nuts, and the adjacent GIS bus ducts 5 are fixedly connected by being provided with the connecting plate 2, so that the GIS bus ducts 5 lifted together are more stable and firm in the whole structure.

The soft cushion layer 24 is arranged on the connecting plate 2, the soft cushion layer 24 is embedded in the connecting groove 21, and the hard connecting plate 2 can be prevented from directly contacting the GIS bus duct 5 and damaging the side wall of the GIS bus duct by arranging the soft cushion layer 24.

Above-mentioned frock structure still includes strengthening bottom plate 3, and the both ends of strengthening bottom plate 3 are detachable respectively fixes in the below of two unable adjustment base 1, through being equipped with strengthening bottom plate 3 and two unable adjustment base 1 of fixed connection for unable adjustment base 1's structure is more stable, firm, further, also makes the GIS busbar tube 5 of fixing on unable adjustment base 1 more stable, firm on overall structure.

The two ends of the reinforcing bottom plate 3 are provided with at least one adjusting groove 31, in this embodiment, the two ends of the reinforcing bottom plate 3 are provided with two adjusting grooves 31, the adjusting grooves 31 are in a strip shape in the longitudinal direction of the GIS bus duct 5, and the adjusting grooves 31 are arranged at equal intervals in the transverse direction of the GIS bus duct 5, because the fixing base 1 is fixed below the GIS bus duct 5, the position cannot be adjusted secondarily, and the reinforcing bottom plate 3 is provided with the adjusting grooves 31, so that the reinforcing bottom plate 3 is fixedly installed below the fixing base 1, and the condition that the reinforcing bottom plate 3 cannot be installed is avoided.

The above-mentioned frock structure still includes auxiliary base 4, and auxiliary base 4 is equipped with a second standing groove 41, a third locking hole 42 and a third lifting hole 43, and corresponding with second standing groove 41, third locking hole 42 is close to second standing groove 41 setting, and third lifting hole 43 sets up in the both sides of second standing groove 41. The auxiliary base 4 includes a second fixing base 44 and a second supporting rib 45, the second placing groove 41, the third locking hole 42 and the third lifting hole 43 are all disposed on the second supporting rib 45, the second supporting rib 45 is fixed on the second fixing base 44, and an inverted T-shape is formed between the second supporting rib 45 and the second fixing base 44.

Firstly, when stacking or transporting a section of GIS bus duct 5, can adopt auxiliary base 4, because auxiliary base 4's length is short, can avoid longer unable adjustment base 1 to influence the hoist and mount in stacking or the transportation. Secondly, because the GIS bus duct 5 has the difference in length, because after the longer GIS bus duct 5 is fixed on the fixed base 1, the shorter GIS bus duct 5 can only fix one end thereof on the fixed base 1, and the other end can not be fixed on another fixed base 1, at this time, the auxiliary base 4 can be adopted, one end of the shorter GIS bus duct 5 is fixed on the fixed base 1 first, and the other end is fixed on the auxiliary base 4, the GIS bus duct 5 is fixed on one end of the auxiliary base 4 and is fixedly connected with the connecting plate 2, the other end of the connecting plate 2 is propped against the side wall of the longer GIS bus duct 5, the connecting plate 2 is also connected with a binding piece, one end of the binding piece is fixedly connected with one second locking hole 22 on the connecting plate 2, and the other end bypasses the longer GIS bus duct 5 and is fixedly connected with another second locking hole 22 of the connecting plate 2. By being connected with connecting plate 2 and ligature piece for shorter GIS busbar tube 5 can be more stable, firm fix on unable adjustment base 1.

The above examples and drawings are not intended to limit the form or form of the present invention, and any suitable variations or modifications thereof by those skilled in the art should be construed as not departing from the scope of the present invention.

Claims (8)

1. A GIS bus duct transportation tool structure comprises a duct body and flange covers connected to two ends of the duct body; the method is characterized in that: the transportation tool structure comprises two fixed bases and at least two connecting plates;

The fixing base is provided with at least one first placing groove, a first locking hole and a first lifting hole, the first locking hole corresponds to the first placing groove, the first locking hole is arranged close to the first placing groove, the first lifting hole is arranged at two sides of the first placing groove, the fixing base comprises a first fixing bottom plate and first supporting ribs, the first placing groove, the first locking hole and the first lifting hole are all arranged on the first supporting ribs, and the first supporting ribs are fixed on the first fixing bottom plate; the first placing groove of the fixed base is used for placing the pipeline body, the first supporting rib of the fixed base is positioned on the inner side surface of the flange cover, and the first locking hole on the first supporting rib is matched with the flange screw hole on the flange cover;

The connecting plate is provided with two connecting grooves and a second locking hole, the two connecting grooves are arranged at two ends of the connecting plate and correspond to the connecting grooves, and the second locking hole is arranged close to the connecting grooves; the connecting groove of the connecting plate is matched with the pipeline body, and the second locking hole on the connecting plate is matched with the flange screw hole of the flange cover.

2. The GIS bus duct transportation tooling structure of claim 1, wherein: the first support ribs and the first fixed bottom plate are in an inverted T shape.

3. The GIS bus duct transportation tooling structure of claim 1, wherein: the connecting plate is provided with a second lifting hole, the two connecting grooves are formed in two ends of the connecting plate, and the second lifting hole is formed in the other two ends of the connecting plate.

4. The GIS bus duct transportation tooling structure of claim 1, wherein: the soft cushion layer is arranged on the connecting plate and embedded in the connecting groove.

5. The GIS bus duct transportation tooling structure of claim 1, wherein: the tooling structure further comprises a reinforcing bottom plate, and two ends of the reinforcing bottom plate are detachably fixed below the two fixing bases respectively.

6. The GIS bus duct transportation tooling structure of claim 5, wherein: and at least one adjusting groove is formed in each of two ends of the reinforcing bottom plate.

7. The GIS bus duct transportation tooling structure of claim 1, wherein: the tooling structure further comprises an auxiliary base, wherein the auxiliary base is provided with a second placing groove, a third locking hole and a third lifting hole, the third locking hole corresponds to the second placing groove, the third locking hole is close to the second placing groove, and the third lifting hole is arranged on two sides of the second placing groove.

8. The GIS bus duct transportation tooling structure of claim 7, wherein: the auxiliary base comprises a second fixed bottom plate and second supporting ribs, the second placing grooves, third locking holes and third lifting holes are formed in the second supporting ribs, the second supporting ribs are fixed on the second fixed bottom plate, and the second supporting ribs and the second fixed bottom plate are in an inverted T shape.