CN209823258U - 10KV integrated transformer station complete equipment - Google Patents

Abstract

The utility model relates to a 10KV integrated transformer station complete equipment, which comprises a bearing component, a transformer and a JP cabinet; the transformer is provided with a high-voltage terminal and a low-voltage terminal, the high-voltage terminal is connected with a high-voltage wire, the low-voltage terminal is connected with a bus, and the other end of the bus is electrically connected with a circuit breaker in the JP cabinet; a low-voltage line is led out from the lower port of the circuit breaker in the JP cabinet; still including the low pressure subassembly of being qualified for the next round of competitions that is used for guiding the low-voltage line, the low pressure subassembly of being qualified for the next round of competitions includes the rear end mounting, the rear end mounting is including being used for fixing the clamp to the pole, one end is fixed in on the clamp and the extension rod of horizontal extension, the opening just overlaps a plurality of spouts on the extension rod up, set up the C type clamping bar on the spout opening respectively, the spiro union is in the fastening nut of clamping bar tip and set up the jackscrew on the spout lateral wall, two curb plates of spout are penetrated to the both ends level of C type clamping bar, its tip butt is on the extension rod when the jack. The utility model discloses the low-voltage line of JP cabinet is qualified for the next round of competitions comparatively regularly, uses comparatively safely.

Description

10KV integrated transformer station complete equipment

Technical Field

The utility model relates to a distribution equipment, in particular to 10KV integration becomes platform complete sets.

Background

The pole-mounted transformer widely used in China at present generally comprises a distribution transformer, a drop-out fuse, a lightning arrester, a comprehensive distribution box, iron accessories and other materials.

The circuit generally follows the high-pressure side inlet wire of transformer, follows the low pressure side outlet wire of transformer to on the circuit breaker of access JP cabinet, then the low-voltage line is connected to on the follow-up pole from the circuit breaker lower extreme, supplies to each user. The existing pole-mounted transformer is simple in structure, economical and applicable.

However, the existing pole-mounted transformer still has a defect in use, wherein wiring from the JP cabinet to the low-voltage line of a follow-up electric pole is often scattered, and a flashover phenomenon often occurs between the low-voltage lines when the electric pole is blown by wind and rains, so that potential safety hazards exist.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a 10KV integration becomes platform complete sets, its JP cabinet's low-voltage line is qualified for the next round of competitions comparatively regularly, uses comparatively safely.

The above object of the present invention can be achieved by the following technical solutions: a10 KV integrated transformer station complete equipment comprises two bearing components, wherein the bearing components can be fixed on two electric poles, and the two bearing components are distributed up and down; a transformer is fixedly connected to the upper bearing assembly, and a JP cabinet is fixedly connected to the lower bearing assembly; the top of the transformer is provided with a high-voltage terminal and a low-voltage terminal, the high-voltage terminal is connected with a high-voltage wire, the low-voltage terminal is connected with a bus, and the other end of the bus is electrically connected with a circuit breaker in the JP cabinet; a low-voltage line is led out from the lower port of the circuit breaker in the JP cabinet; 10KV integration becomes platform complete sets still including the low pressure subassembly of being qualified for the next round of competitions that is used for guiding the low-voltage line, the low-voltage subassembly of being qualified for the next round of competitions is including setting up the rear end fixing piece on the pole, the rear end fixing piece is including being used for fixing the clamp to the pole, one end is fixed in on the clamp and the extension rod of horizontal extension, the opening just overlaps a plurality of spouts on the extension rod up, set up the C type clamping bar on the spout opening respectively, the spiro union is in the fastening nut of clamping bar tip and set up the jackscrew on the spout lateral wall, two curb plates of spout are penetrated to the both ends level of C type clamping bar, its tip butt is on.

By adopting the technical scheme, when the device is used, the jackscrew is unscrewed to adjust the position of the sliding groove, and after the adjustment is finished, the jackscrew is screwed down to fix the position of the sliding groove; the chutes are spaced reliably and uniformly; then clamping the clamping rod on the corresponding low-voltage line and enabling two ends of the clamping rod to penetrate through the two side plates of the sliding groove; then, the fastening bolt is tightened, and the low-voltage wire is clamped between the clamping rod and the side wall of the sliding groove and is kept fixed.

Like this JP cabinet uses the clamping bar to walk the line to the low-voltage line of follow-up pole as the benchmark, has comparatively effectual safe distance each other, and the wiring is regular, uses comparatively safely.

The setting of spout and jackscrew is provided with another advantage and lies in, and in the actual installation, the low-voltage line is in order to adapt to being qualified for the next round of competitions and subsequent wiring of JP cabinet, and its interval needs to carry out the adjustment of minizone temporarily, and the setting of spout and jackscrew makes the adjustment comparatively convenient.

The utility model discloses further set up to: the jackscrew is in threaded connection with the lower part of the chute.

Through adopting above-mentioned technical scheme, the jackscrew can not influence the line of walking of low-voltage line, does not also influence fastening nut's installation and dismantlement.

The utility model discloses further set up to: the low-voltage outlet assembly comprises a front end guide piece used for guiding the low-voltage lines to move upwards from the outlet end of the JP cabinet to the rear end fixing piece side by side.

Through adopting above-mentioned technical scheme, in the in-service use, in view of the forming mode of cable, the low-voltage line comes out the back from JP cabinet outlet end, and each low-voltage line can mutual interference, leads to the low-voltage line that reachs rear end fixing piece department to receive the front end influence to have certain scattered phenomenon, sets up the front end guide piece that is used for guiding the low-voltage line to go out wire end side by side to rear end fixing piece department from JP cabinet in the low-voltage subassembly of being qualified for the next round of competitions for this reason.

The utility model discloses further set up to: the front end guide piece comprises a base plate and a plurality of guide barrels, the base plate is horizontally fixed on the bearing assembly, the guide barrels are fixed on the base plate, two ports of each guide barrel are perpendicular to each other, the middle of each guide barrel is in smooth transition, one port of each guide barrel corresponds to the direction of a JP cabinet, the other port of each guide barrel faces upwards, the guide barrels are arranged in the horizontal plane at intervals in the direction of the X axis and are also arranged at intervals in the direction of the Y axis, the direction of the X axis is parallel to the plane formed by the low-voltage lines, and the direction of the Y axis is perpendicular to the plane formed by the low-voltage lines.

By adopting the technical scheme, the low-voltage wire penetrates out of the JP cabinet and then penetrates into the corresponding guide cylinder, so that the low-voltage wire is not easy to interfere with other low-voltage wires and does not appear to be scattered; meanwhile, the upward port of the guide cylinder can guide the low-voltage wire to extend upwards, so that the low-voltage wire can reach the rear end fixing piece conveniently, and the wiring is more regular.

The utility model discloses further set up to: the front end guide piece further comprises a pressing plate, the pressing plate is C-shaped, the pressing plate presses all low-voltage wires at the wire outlet end of the JP cabinet, and two ends of the pressing plate are fixedly connected with the substrate.

By adopting the technical scheme, the pressing plate fixes all the low-voltage lines in advance, so that the low-voltage lines are not easy to scatter in the following.

The utility model discloses further set up to: the bearing assembly comprises two channel steels and four opposite-pulling bolts, wherein the two channel steels are fixed on the electric pole in a back-to-back mode, the openings of the two channel steels are arranged on the electric pole, the four opposite-pulling bolts are connected with the two opposite-pulling bolts at the convex edges of the anchor ears, the two opposite-pulling bolts are respectively connected with the two sides of the electric pole, and the bearing assembly is matched with the channel steels to form a square structure to be clamped on the electric.

Through adopting above-mentioned technical scheme, bearing component's structure is comparatively simple, and the installation is comparatively convenient.

The utility model discloses further set up to: the 10KV integrated transformer station complete equipment also comprises a high-voltage wire inlet assembly for guiding the high-voltage wire to run; the high-voltage wire inlet assembly comprises C-shaped rods, a mounting plate, compression nuts, insulators, sliding sleeves and positioning pieces, wherein the number of the C-shaped rods is two, the C-shaped rods are clamped on the two electric poles through opening sides respectively, external threads are arranged at the end parts of the C-shaped rods, the mounting plate is horizontally arranged, two holes are formed in the two ends of the mounting plate respectively, the two ends of the C-shaped rods penetrate through the two holes in the corresponding end of the mounting plate, the compression nuts are screwed at the end parts of the C-shaped rods, the sliding sleeves are multiple and sleeved on the mounting plate, the insulators are fixed on the; the high-voltage wire is fixedly connected with the corresponding insulator along the wiring direction.

Through adopting above-mentioned technical scheme, during the use, fix one or more high-voltage inlet wire subassemblies on two poles, get rid of the positioning action of setting element, adjust the position of each location sliding sleeve, make as far as possible to have reliable and even interval between the sliding sleeve, adjust the positioning action that resumes the setting element after accomplishing, and then have between the insulator reliable and even interval, fixed each high-voltage line and the insulator that corresponds in the wiring direction.

Each high-voltage line that causes the transformer uses high-voltage terminal and corresponding insulator as the benchmark to walk the line like this, has comparatively effectual safe distance each other, and the wiring is regular, uses comparatively safely.

To sum up, the utility model discloses following beneficial effect has:

1. after the rear end fixing piece is arranged, the JP cabinet and the low-voltage line of the follow-up electric pole are wired by taking the clamping bar as a reference, effective safe distance exists between the two lines, wiring is regular, and use is safe.

2. Set up the front end guide spare for the low-voltage line has obtained the guide from one section of JP cabinet leading-out terminal to rear end fixed part department and has fixed, and the low-voltage line is more regular.

Drawings

FIG. 1 is a schematic perspective view of a 10KV integrated substation complete equipment;

FIG. 2 is an enlarged view of portion A of FIG. 1;

FIG. 3 is a schematic structural diagram of a rear end fixing member in the low voltage outlet assembly;

FIG. 4 is a schematic structural diagram of a high voltage outlet assembly;

fig. 5 is a cross-sectional view of a spacer.

In the figure, 1, an electric pole; 2. a load bearing assembly; 20. hooping; 21. channel steel; 22. oppositely pulling the bolts; 3. a transformer; 30. a high voltage terminal; 31. a low voltage terminal; 4. a JP cabinet; 5. a high-voltage line; 6. a low voltage line; 7. a high voltage inlet wire assembly; 70. a C-shaped rod; 71. mounting a plate; 710. a strip hole; 711. positioning holes; 72. a compression nut; 73. an insulator; 74. a sliding sleeve; 740. a filling section; 75. a positioning member; 750. covering; 751. closing the plate; 752. a top rod; 753. a baffle plate; 754. a spring; 755. a handle; 80. a front end guide; 800. a substrate; 801. a guide cylinder; 802. pressing a plate; 81. a rear end fixing member; 810. clamping a hoop; 811. an extension rod; 812. a chute; 813. a clamping bar; 814. fastening a nut; 815. carrying out top thread; 9. and a bus bar.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

Examples

Referring to fig. 1 and 4, the 10KV integrated transformer station complete equipment comprises two bearing components 2, wherein the two bearing components 2 can be fixed on two electric poles 1, and are distributed up and down; a transformer 3 is fixedly connected to the upper bearing component 2, and a JP cabinet 4 is fixedly connected to the lower bearing component 2; a high-voltage terminal 30 and a low-voltage terminal 31 are arranged at the top of the transformer 3, a high-voltage wire 5 is connected to the high-voltage terminal 30, a bus 9 is connected to the low-voltage terminal 31, and the other end of the bus 9 is electrically connected with a circuit breaker in the JP cabinet 4; a low-voltage wire 6 is led out from the lower port of the circuit breaker in the JP cabinet 4; a high-voltage wire inlet assembly 7 for guiding the wiring of the high-voltage wire 5 is arranged on the two electric poles 1 and above the transformer 3; the high-voltage wire inlet assembly 7 comprises C-shaped rods 70, a mounting plate 71, compression nuts 72, insulators 73, sliding sleeves 74 and positioning pieces 75, wherein the number of the C-shaped rods 70 is two, the C-shaped rods 70 are clamped on the two electric poles 1 through opening sides respectively, external threads are arranged at the end parts of the C-shaped rods 70, the mounting plate 71 is horizontally arranged, two holes are formed in two ends of the mounting plate 71 respectively, two ends of each C-shaped rod 70 penetrate through the two holes in the corresponding end of the mounting plate 71, the compression nuts 72 are screwed at the end parts of the C-shaped rods 70, the sliding sleeves 74 are multiple and sleeved on the mounting plate 71, the insulators 73 are fixed on the mounting plate; the high-voltage wire 5 is fixed to the corresponding insulator 73 in the wiring direction.

During the use, fix one or more high-voltage inlet wire subassembly 7 on two poles 1, get rid of the positioning action of setting element 74, adjust the position of each location sliding sleeve 74, make as far as possible to have reliable and even interval between the sliding sleeve 74, resume the positioning action of setting element 74 after the regulation is accomplished, and then have had reliable and even interval between the insulator 73, fixed each high-voltage line 5 and the insulator 73 that corresponds in the wiring direction.

Therefore, the high-voltage wires 5 leading to the transformer 3 are wired by taking the high-voltage terminal 30 and the corresponding insulator 73 as references, effective safe distances are reserved between the high-voltage terminals and the corresponding insulators, wiring is regular, and the use is safe.

Another advantage of the sliding sleeve 74 and the positioning member 74 is that the distance between the high voltage wires 5 and the high voltage terminals 30 of the transformer 3 or the high voltage wires 5 at the inlet end needs to be adjusted temporarily in a small range during the actual installation process, and the sliding sleeve 74 and the positioning member 74 are arranged to facilitate the adjustment.

The mounting plate 71 is provided with a through strip hole along the length direction, the through direction of the strip hole is perpendicular to the vertical direction, the insulator 73 comprises a porcelain bushing, a screw rod and a nut, the screw rod is fixedly connected to the porcelain bushing, the nut is matched with the screw rod, the screw rod is matched with the through direction of the strip hole to penetrate through the strip hole, and the nut, the screw rod and the porcelain bushing are matched and clamped on the sliding sleeve 74.

After the arrangement, the screw rod of the insulator 73 is connected with the middle area of the sliding sleeve 74, and compared with the connection at the edge position, the stress structure is more reasonable; meanwhile, the sliding sleeve 74 does not need to be additionally provided with an area for installing the screw rod, and the size of the sliding sleeve is small, so that the sliding sleeve is convenient to arrange on the installation plate 71.

In practical use, the porcelain bushing and the nut on the insulator 73 have a tendency of extruding the sliding sleeve 74 in opposite directions, and when the nut is screwed too tightly, the porcelain bushing and the nut can make the inner wall of the sliding sleeve 74 fit on the mounting plate 71, so that the sliding of the sliding sleeve 74 is influenced. Therefore, a filling part 740 is fixedly arranged in the sliding sleeve 74, the filling part 740 is positioned in the elongated hole 710, two ends of the filling part are respectively connected with two inner walls of the sliding sleeve 74, and a hole for the insulator 73 to pass through is formed in the filling part 740.

After the arrangement, the filling part 740 supports the middle part of the sliding sleeve 74, so that the sliding sleeve 74 is not easy to deform, and the sliding smoothness is ensured.

Positioning holes 711 are formed at intervals along the length direction below the mounting plate 71, and the positioning member 75 is disposed at the lower portion of the sliding sleeve 74 and the output end thereof can penetrate through the sliding sleeve 74 and be inserted into the corresponding positioning hole 711.

When the output end of the positioning member 75 is inserted into the positioning hole 711, it can limit the movement of the sliding sleeve 74 on the mounting plate 71; on the contrary, when the output end of the positioning member 75 exits the positioning hole 711, the sliding sleeve 74 can slide on the mounting plate 71 for adjustment; the adjustment is more convenient. The positioning member 75 is disposed at the lower portion of the sliding sleeve 74, which is advantageous in that it does not affect the installation and removal of the insulator 73, and the positioning position is reasonable.

Referring to fig. 5, the positioning member 75 includes a cover 750 with an opening at one end, a sealing plate 751 fixed at the opening end of the cover 750, a rod 752 disposed along the axis of the cover 750 and having two ends penetrating through the closed end of the cover 750 and the sealing plate 751, a baffle 753 slidably connected to the cover 750 and fixedly connected to the rod 752, and a spring 754 disposed in the cover 750 and pushing the baffle 753 toward the sealing plate 751, wherein the sealing plate 751 is fixedly connected to the lower portion of the sliding sleeve 74.

Referring to fig. 4 and 5, in use, under the action of the spring 754, the rod 752 can be reliably inserted into the positioning hole 711 to position the sliding sleeve 74; when the position of the sliding sleeve 74 is to be adjusted, the push rod 752 is pulled downward by hand to separate the end portion from the positioning hole 711, so that the position of the sliding sleeve 74 can be adjusted, and the use is convenient.

A lifting handle 755 is fixedly connected to one end of the top rod 752, which is far away from the positioning hole 711, so that the top rod 752 can be conveniently pulled out.

Referring to fig. 1 and 3, the 10KV integrated substation complete equipment further includes a low-voltage outgoing line assembly for guiding the low-voltage line 6 to be outgoing, the low-voltage outgoing line assembly includes a rear end fixing piece 81 arranged on the electric pole 1, the rear end fixing piece 81 includes a clamp 810 fixed on the electric pole 1, an extension rod 811 with one end fixed on the clamp 810 and extending horizontally, a plurality of sliding grooves 812 with an upward opening and sleeved on the extension rod 811, C-shaped clamping rods 813 arranged on the openings of the sliding grooves 812 respectively, fastening nuts 814 screwed on the ends of the clamping rods 813, and jackscrews 815 arranged on the side walls of the sliding grooves 812, two ends of the C-shaped clamping rods 813 penetrate through two side plates of the sliding grooves 812 horizontally, and the ends of the jackscrews 815 abut against the extension rod 811 when being screwed.

When the device is used, the jackscrew 815 is unscrewed to adjust the position of the sliding groove 812, and after the adjustment is finished, the jackscrew 815 is screwed down to fix the position; there is a reliable and uniform spacing between the runners 812; then the clamping rod 813 is clamped on the corresponding low-voltage wire 6, and two ends of the clamping rod 813 penetrate through two side plates of the sliding groove 812; tightening of the tightening bolt 814 is then initiated, and the low voltage wire 6 is clamped between the clamping bar 813 and the side wall of the sliding channel 812 and held in place.

Like this JP cabinet 4 uses clamping bar 813 as the benchmark to walk the line to the low-voltage line 6 of follow-up pole 1, has comparatively effectual safe distance each other, and the wiring is regular, uses comparatively safely.

Another advantage of the arrangement of the sliding groove 812 and the top wire 815 is that in the actual installation process, in order to adapt to the outgoing line and the subsequent wiring of the JP cabinet 4, the distance between the low-voltage lines 6 needs to be adjusted temporarily in a small range, and the arrangement of the sliding groove 812 and the top wire 815 makes the adjustment more convenient.

The top thread 815 is screwed to the lower portion of the sliding groove 812, which is advantageous in that the top thread 815 does not affect the routing of the low voltage wire 6 and the installation and removal of the fastening nut 814.

Referring to fig. 1 and 2, in practical use, after the low voltage wires 6 come out from the outlet end of the JP cabinet 4 in view of the molding manner of the cable, the low voltage wires 6 interfere with each other, so that the low voltage wires 6 reaching the rear end fixing piece 81 are affected by the front end to have a certain scattering phenomenon, and therefore a front end guide 80 for guiding the low voltage wires 6 from the outlet end of the JP cabinet 4 to the rear end fixing piece 81 side by side is arranged in the low voltage wire outlet assembly.

The front end guide 80 includes a base plate 800 horizontally fixed to the load bearing member 2 and a plurality of guide cylinders 801 fixed to the base plate 800, two ports of the guide cylinders 801 are perpendicular to each other and have a smooth transition in the middle, one port of the guide cylinder 801 corresponds to the direction of the JP cabinet 4 and the other port is disposed upward, the plurality of guide cylinders 801 are disposed at intervals in the direction along the X axis in the horizontal plane and are also disposed at intervals in the direction along the Y axis, wherein the direction of the X axis is parallel to the plane formed by the plurality of low-voltage lines 6, and the direction of the Y axis is perpendicular to the plane formed by the plurality of low-voltage lines 6.

After the arrangement, the low-voltage wire 6 penetrates out of the JP cabinet 4 and then penetrates into the corresponding guide cylinder 801, so that the low-voltage wire 6 is not easy to interfere with other low-voltage wires 6 and does not appear to be scattered; meanwhile, the upward port of the guide cylinder 801 can guide the low-voltage wire 6 to extend upwards, so that the low-voltage wire can reach the rear end fixing piece 81 conveniently, and the wiring is more regular.

The front end guide 80 further comprises a pressing plate 802, the pressing plate 802 is C-shaped, the pressing plate 802 presses all the low-voltage wires 6 at the outlet end of the JP cabinet 4, and two ends of the pressing plate 802 are fixedly connected with the substrate 800.

The pressing plate 802 fixes all the low-voltage lines 6 in advance, and prevents the subsequent scattering.

Referring to fig. 1, bearing component 2 is including being fixed in staple bolt 20 on the pole 1, two channel-section steels 21 that the opening carried on the back the body and connecting four split bolts 22 of two channel-section steels 21, and channel-section steel 21 is taken and is put on the convex border of staple bolt 20, has two split bolts 22 to connect channel-section steel 21 from the both sides of pole 1 respectively, and cooperation channel-section steel 21 forms the square structure card cover on pole 1. The structure of the bearing component 2 is simple, and the installation is convenient.

The embodiment of this embodiment is the utility model discloses preferred embodiment is not according to this restriction the utility model discloses a protection scope, so: all equivalent changes made according to the structure, shape and principle of the utility model are covered within the protection scope of the utility model.

Claims (7)

1. A10 KV integrated transformer station complete equipment is characterized in that: the electric pole comprises two bearing components (2), wherein the bearing components (2) can be fixed on two electric poles (1), and the two bearing components (2) are distributed up and down; a transformer (3) is fixedly connected to the upper bearing component (2), and a JP cabinet (4) is fixedly connected to the lower bearing component (2); a high-voltage terminal (30) and a low-voltage terminal (31) are arranged at the top of the transformer (3), a high-voltage wire (5) is connected to the high-voltage terminal (30), a bus (9) is connected to the low-voltage terminal (31), and the other end of the bus (9) is electrically connected with a circuit breaker in the JP cabinet (4); a low-voltage wire (6) is led out from the lower port of the circuit breaker in the JP cabinet (4); 10KV integration transformer station complete sets still includes the low pressure subassembly of being qualified for the next round of competitions that is used for guiding low voltage line (6), the low pressure subassembly of being qualified for the next round of competitions is including setting up rear end mounting (81) on pole (1), rear end mounting (81) are including being used for fixing hoop (810) to pole (1), one end is fixed in on hoop (810) and extension rod (811) that the level extends, a plurality of spouts (812) on extension rod (811) are just overlapped to the opening up, set up C type clamping bar (813) on spout (812) opening respectively, the spiro union is in fastening nut (814) of clamping bar (813) tip and is set up jackscrew (815) on spout (812) lateral wall, the both ends level of C type clamping bar (813) pierces through two curb plates of spout (812), its tip butt is on extension rod (811) when jackscrew (815) are screwed up.

2. The 10KV integrated substation complete equipment according to claim 1, characterized in that: the jackscrew (815) is screwed on the lower part of the sliding groove (812).

3. The 10KV integrated substation complete equipment according to claim 1, characterized in that: the low voltage outlet assembly includes a front end guide (80) for guiding the low voltage line (6) from the outlet end of the JP cabinet (4) side by side up to a rear end retainer (81).

4. The 10KV integrated substation complete equipment according to claim 3, wherein: the front end guide (80) comprises a base plate (800) horizontally fixed on the bearing component (2) and a plurality of guide cylinders (801) fixed on the base plate (800), two ports of each guide cylinder (801) are perpendicular to each other, the middle of each guide cylinder is in smooth transition, one port of each guide cylinder (801) corresponds to the direction of a JP cabinet (4), the other port of each guide cylinder faces upwards, the guide cylinders (801) are arranged at intervals in the direction of an X axis in the horizontal plane and are also arranged at intervals in the direction of a Y axis, the direction of the X axis is parallel to the plane formed by the low-voltage lines (6), and the direction of the Y axis is perpendicular to the plane formed by the low-voltage lines (6).

5. The 10KV integrated substation complete equipment according to claim 4, characterized in that: the front end guide piece (80) further comprises a pressing plate (802), the pressing plate (802) is C-shaped, the pressing plate (802) is pressed on all low-voltage lines (6) at the outlet end of the JP cabinet (4), and two ends of the pressing plate (802) are fixedly connected with the substrate (800).

6. The 10KV integrated substation complete equipment according to claim 1, characterized in that: bearing component (2) including being fixed in staple bolt (20) on pole (1), two channel-section steel (21) that the opening carried on the back set up and connect four of two channel-section steel (21) to draw bolt (22), channel-section steel (21) are taken and are put on staple bolt (20) convex border, have two to draw bolt (22) to connect channel-section steel (21) from the both sides of pole (1) respectively, cooperation channel-section steel (21) form the square structure card cover on pole (1).

7. The 10KV integrated substation complete equipment according to claim 1, characterized in that: the 10KV integrated transformer station complete equipment also comprises a high-voltage wire inlet assembly (7) for guiding the wiring of the high-voltage wire (5); the high-voltage wire inlet assembly (7) comprises C-shaped rods (70), an installation plate (71), compression nuts (72), insulators (73), sliding sleeves (74) and positioning pieces (75), the C-shaped rods (70) are two in number and clamped on the two electric poles (1) through opening sides respectively, external threads are arranged at the end portions of the C-shaped rods (70), two holes are formed in the horizontal portions and two ends of each of the installation plates (71), two holes in the corresponding ends of the installation plates (71) are penetrated through two ends of each of the C-shaped rods (70), the compression nuts (72) are screwed at the end portions of the C-shaped rods (70), the sliding sleeves (74) are multiple in number and sleeved on the installation plates (71), the insulators (73) are fixed on the installation plates (71), and the positioning pieces (75) are connected to the sliding sleeves (74) and can; the high-voltage wire (5) is fixedly connected with the corresponding insulator (73) along the wiring direction.