CN220972403U - Booster station meter analysis electric power inspection system - Google Patents
Booster station meter analysis electric power inspection system Download PDFInfo
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- CN220972403U CN220972403U CN202323051962.3U CN202323051962U CN220972403U CN 220972403 U CN220972403 U CN 220972403U CN 202323051962 U CN202323051962 U CN 202323051962U CN 220972403 U CN220972403 U CN 220972403U
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- 238000007689 inspection Methods 0.000 title claims abstract description 27
- 210000001503 joint Anatomy 0.000 claims abstract description 6
- 229910000831 Steel Inorganic materials 0.000 claims description 51
- 239000010959 steel Substances 0.000 claims description 51
- 238000009434 installation Methods 0.000 claims description 10
- 230000000712 assembly Effects 0.000 claims description 4
- 238000000429 assembly Methods 0.000 claims description 4
- 230000002035 prolonged effect Effects 0.000 abstract 1
- 238000000034 method Methods 0.000 description 9
- 230000007246 mechanism Effects 0.000 description 2
- 230000009286 beneficial effect Effects 0.000 description 1
- 238000010276 construction Methods 0.000 description 1
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- 238000011161 development Methods 0.000 description 1
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Abstract
The utility model discloses a booster station meter analysis electric power inspection system, which comprises a robot body and a hoisting rail positioned above a switch cabinet, wherein the robot body is connected to the hoisting rail in a sliding manner, the hoisting rail is sequentially provided with a plurality of vertical hanging brackets along the extending direction of the hoisting rail, and the vertical hanging brackets are further provided with a diagonal bracket and a transverse bracket; the cable-stayed bracket is used for connecting the side surface of the vertical hanging bracket with the roof, and the transverse-stayed bracket is used for connecting the side surface of the vertical hanging bracket with the side wall; the hoisting track comprises a bent track and a straight track, and hoisting tracks in different paths are formed by butt joint combination of the bent track and the straight track; when the hoisting track is only provided with a straight track and the length of the vertical hanging frame is more than 0.7m, every other vertical hanging frame is provided with a transverse pulling bracket; when the hoisting track comprises a bent track and a straight track and the length of the vertical hanging frame is more than 1.1m, every other vertical hanging frame is provided with a transverse pulling bracket or a diagonal pulling bracket. The robot is stable in walking, service life is prolonged, and reading is accurate.
Description
Technical Field
The utility model relates to the technical field of electric power inspection, in particular to a booster station meter analysis electric power inspection system.
Background
The current robot is provided with a bionic mechanism generally, the joints of the mechanism are more, the structure is complex, and the robot is large and heavy and has low adaptability and loading capacity. The robot has more joints, and the decoupling control difficulty is higher in inverse kinematics solution, so that the accuracy of motion control is correspondingly improved. In addition, the dynamic performance of the robot is poor, and the requirement of indoor narrow space operation is not met.
The industrial use level is lower, and from the aspect of the application level, the robot is supposed to develop towards a small, compact and light mechanical structure in the current design, so that the robot can be conveniently carried while being used for up-and-down operation. In the current development, the inspection robot cannot meet the requirements of inspection tasks.
And due to the limitation of technical conditions, the manual inspection mode is still adopted for the inspection of part of photovoltaic power station electrical equipment, and the original manual inspection record and report form greatly limits the modern construction of power operation management. In order to meet the management requirement of 'unattended', in order to acquire all real-time monitoring information on each protection screen and switch cabinet, the booster station meter recognition analysis power inspection robot is developed in combination with the actual situation of the site.
Disclosure of utility model
The utility model aims to solve the technical problems in the prior art, and particularly creatively provides a booster station meter analysis power inspection system, which has the advantages of stable walking, service life improvement and accurate reading.
In order to achieve the above purpose, the utility model provides a booster station meter analysis power inspection system, which comprises a robot body and a hoisting track positioned above a switch cabinet, wherein the robot body is connected to the hoisting track in a sliding manner, the hoisting track is sequentially provided with a plurality of vertical hanging frames along the extending direction of the hoisting track, the hoisting track is fixedly connected with a roof through the vertical hanging frames, and the vertical hanging frames are further provided with a diagonal drawing bracket and a transverse drawing bracket; the transverse pulling support is used for connecting the side face of the vertical hanging frame with the side wall;
The hoisting track comprises a bent track and a straight track, and hoisting tracks in different paths are formed by butt joint combination of the bent track and the straight track; when the hoisting track is only provided with a straight track and the length of the vertical hanging frame is more than 0.7m, every other vertical hanging frame is provided with a transverse pulling bracket; when the hoisting track comprises a bent track and a straight track and the length of the vertical hanging frame is more than 1.1m, every other vertical hanging frame is provided with a transverse pulling bracket or a diagonal pulling bracket.
In the scheme, the method comprises the following steps: the vertical hanging brackets are arranged on the straight rails, when the length of the straight rails which are butted by the two bent rails is less than or equal to 1 meter and only 1 straight rail is arranged, one vertical hanging bracket is arranged on the straight rail in the middle, the other straight rails are at least provided with two vertical hanging brackets, and the distance range between the vertical hanging brackets on the same straight rail is 1.6 m-2.0 m. Stability of the hoisting track is improved, and support of the robot body is met.
In the scheme, the method comprises the following steps: when the distance between the hoisting track and the side wall is less than or equal to 6m, the vertical hanging frame is connected with the side wall through a horizontal pulling bracket; when the distance between the hoisting track and the side wall is more than 6m, the vertical hanging frame is connected with the roof through the inclined-pulling support. Satisfies the lateral support of the vertical hanging frame and avoids shaking.
In the scheme, the method comprises the following steps: the mounting position of the lifting rail is higher than the horizontal distance between the switch cabinet or the lifting rail and the switch cabinet, and the cabinet surface width of the switch cabinet is larger than that of the lifting rail; the distance between the vertical hanging frames at the head end and the tail end of the lifting rail and the end of the lifting rail is 150+/-10 mm. Namely avoiding the cabinet door setting of the switch cabinet and avoiding colliding with the cabinet door of the switch cabinet.
In the scheme, the method comprises the following steps: when a bus bridge or a bus bar is arranged above the lifting rail, the distance between the lower surface of the lifting rail and the top of the switch cabinet is more than or equal to 100mm.
In the scheme, the method comprises the following steps: the vertical hanging frame comprises a profile steel body, the vertical hanging frame is provided with a fixing base or a universal joint, the top end of the vertical hanging frame is fixed on a horizontal roof through the fixing base or is fixed on an inclined roof through the universal joint, the fixing base comprises a C-shaped clamping sleeve which is used for being clamped on one side of the profile steel body, the C-shaped clamping sleeve and the profile steel body are fixed together through a bolt assembly, two sides of the top of the C-shaped clamping sleeve are respectively provided with a hanging frame support lug which extends outwards horizontally, and the hanging frame support lugs are fixed on the roof through expansion bolts;
The bottom of vertical gallows is equipped with track fixed mounting spare, track fixed mounting spare is including being used for supporting the horizontal journal stirrup that leans on hoist and mount track top, be equipped with the mounting hole on the horizontal journal stirrup, the installation logical groove has been seted up to hoist and mount track top correspondence mounting hole, the horizontal journal stirrup is equipped with the mounting bolt, the nut part card of mounting bolt is in the installation logical inslot, and after the body of rod part of mounting bolt passed notch and the mounting hole in proper order of installation logical groove, locks through lock nut.
In the scheme, the method comprises the following steps: the profile steel body is provided with profile steel connecting pieces used for butt-jointing the lengthened profile steel body at intervals along the extending direction of the profile steel body, splicing holes are formed at two ends of the profile steel connecting pieces corresponding to the profile steel holes, and the profile steel connecting pieces are fixedly connected through bolt assemblies. The roof is applicable to the condition of higher roof height, can prolong the profile steel body, installs additional according to the roof height.
In the scheme, the method comprises the following steps: one end of the horizontal pulling support is fixed on the side wall through a fixed base, and the other end of the horizontal pulling support is arranged on the vertical hanging bracket through a fixed base or a connecting plate;
One end of the cable-stayed bracket is fixed on the side wall through a universal joint, and the other end of the cable-stayed bracket is arranged on the vertical hanging bracket through a universal joint or a connecting plate.
In the scheme, the method comprises the following steps: the height range of one end of the transverse pulling support and the inclined pulling support, which are fixed on the vertical hanging frame, from the upper surface of the rail is 220-260 mm;
At least two connecting holes are formed in the connecting plate and are respectively used for being fixed with the vertical hanging frame and the inclined pulling support or the transverse pulling support;
The universal joint comprises a first fixing seat and a second fixing seat, wherein the first fixing seat is used for being connected with the vertical hanging frame, the second fixing seat is used for being connected with the cable-stayed bracket, the first fixing seat and the second fixing seat are both provided with hinged lugs, and the first fixing seat and the second fixing seat are hinged together through a horizontally arranged hinged shaft, so that the angle between the first fixing seat and the second fixing seat is adjusted, and the inclination angle of the cable-stayed bracket is adjusted.
In the scheme, the method comprises the following steps: the axis of the profile steel hole of the profile steel body is parallel to the extending direction of the straight rail, the other end of the longitudinal transverse pulling support which is parallel to the extending direction of the straight rail is fixed on the profile steel body through a fixed base, and the other end of the transverse pulling support which extends towards one side of the straight rail is fixed on the vertical hanging bracket through a connecting plate;
The other end of the longitudinal cable-stayed bracket parallel to the extending direction of the straight rail is fixed on the profile steel body through a universal joint, and the other end of the transverse cable-stayed bracket extending towards one side of the straight rail is fixed on the vertical hanger through a connecting plate;
One end of the second fixing seat is hinged to the middle of the first fixing seat.
In summary, the beneficial effects of the utility model are as follows: the electronic meter realizes the functions of reading the meter of the important electrical equipment, identifying the state of the indicator lamp and inspecting the working state, solves the daily inspection requirement of the unattended power station, realizes 24-hour all-weather inspection capability and performs quick fault location and hidden trouble inspection. The lifting rail that sets up can supply the robot body to realize removing, and the vertical gallows that sets up simultaneously can stably install the lifting rail, and the support that draws to one side of setting and horizontal support that draws can provide horizontal holding power, avoids vertical gallows to rock to can ensure lifting rail's stability, guarantee robot body stable removal, the reading is accurate.
Drawings
Fig. 1 is a schematic diagram of the present utility model.
Fig. 2 is a perspective view of the present utility model.
Fig. 3 is a schematic view of a vertical bracket and a cross-pull bracket.
Fig. 4 is a schematic view of a vertical bracket and a diagonal bracket.
Fig. 5 is a schematic view of the connection of the lifting rail and the vertical support.
Fig. 6 is a perspective view of the universal joint.
Fig. 7 is a schematic view of a connection plate.
Fig. 8 is a schematic view of a stationary base.
Fig. 9 is a schematic view of an elongated section steel body.
Fig. 10 is a schematic view of a section steel connecting piece.
Detailed Description
The utility model is further illustrated by the following examples in conjunction with the accompanying drawings:
As shown in fig. 1 to 10, a booster station meter analysis power inspection system includes a robot body 10 and a hoisting rail 1 above a switch cabinet 11. Wherein, the model of the robot body 10 is DS-2RT20-V16L. The robot body 10 is connected onto the hoisting track 1 in a sliding manner, the hoisting track 1 is sequentially provided with a plurality of vertical hanging frames 2 along the extending direction of the hoisting track, the vertical hanging frames 2 are fixedly connected with a roof through the vertical hanging frames 2, and the vertical hanging frames 2 are further provided with a diagonal drawing bracket 3 and a transverse drawing bracket 4; the inclined pulling support 3 is used for connecting the side surface of the vertical hanging frame 2 with a roof, and the horizontal pulling support 4 is used for connecting the side surface of the vertical hanging frame 2 with a side wall;
The hoisting track 1 comprises a bent track 1b and a straight track 1a, wherein the bent track 1b and the straight track 1a are connected through a connecting piece, and the bent track 1b and the straight track 1a are in butt joint combination to form the hoisting track 1 with different paths; when the hoisting track 1 is only provided with a straight track 1a and the length of the vertical hanging frames 2 is more than 0.7m, every other vertical hanging frame 2 is provided with a transverse pulling bracket 4; when the hoisting track 1 comprises a bent track 1b and a straight track 1a, and the length of the vertical hanging frames 2 is more than 1.1m, every other vertical hanging frame 2 is provided with a transverse pulling bracket 4 or a diagonal pulling bracket 3.
The vertical hanging frames 2 are all arranged on the straight rail 1a, when the length of the straight rail 1a butted by the two bent rails 1b is less than or equal to 1 meter and only 1 straight rail is arranged, one vertical hanging frame 2 is arranged on the straight rail 1a in the middle, at least two vertical hanging frames 2 are arranged on the other straight rails 1a, and the distance between the vertical hanging frames 2 on the same straight rail 1a is 1.6 m-2.0 m. Stability of the hoisting rail 1 is improved, and support of the robot body 10 is satisfied.
When the distance between the hoisting track 1 and the side wall is less than or equal to 6m, the vertical hanging frame 2 is connected with the side wall through the horizontal pulling support 4; when the distance between the hoisting track 1 and the side wall is more than 6m, the vertical hanging frame 2 is connected with the roof through the inclined-pulling bracket 3. Satisfies the lateral support of the vertical hanging frame 2 and avoids shaking.
The mounting position of the hoisting track 1 is higher than the switch cabinet 11 or the horizontal distance between the hoisting track 1 and the switch cabinet 11 is larger than the cabinet surface width of the switch cabinet 11; the distance between the vertical hanging frames 2 at the head end and the tail end of the lifting rail 1 and the end of the lifting rail 1 is 150+/-10 mm. I.e. avoiding the cabinet door arrangement of the switch cabinet 11 and avoiding bumping into the cabinet door of the switch cabinet 11.
When a bus bridge or a bus bar is arranged above the lifting rail 1, the distance between the lower surface of the lifting rail 1 and the top of the switch cabinet 11 is more than or equal to 100mm.
Specifically, the vertical hanger 2 includes a section steel body a, the vertical hanger 2 is equipped with unable adjustment base 6 or universal joint 5, the vertical hanger 2 top is fixed on horizontal roof through unable adjustment base 6, or fix on the roof of slope through universal joint 5, unable adjustment base 6 is including being used for the C type chucking cover 6a of card in section steel body a one side, and fix C type chucking cover 6a and section steel body a together through the bolt assembly, the both sides at C type chucking cover 6a top all are equipped with the outward gallows journal stirrup 6b of level, gallows journal stirrup 6b passes through expansion bolts to be fixed on the roof.
One end of the horizontal pulling support 4 is fixed on the side wall through a fixed base 6, and the other end is arranged on the vertical hanging bracket 2 through the fixed base 6 or a connecting plate 7.
One end of the cable-stayed bracket 3 is fixed on the side wall through a universal joint 5, and the other end is arranged on the vertical hanging bracket 2 through the universal joint 5 or a connecting plate 7. The installation through grooves 1c at the top of the hoisting track 1 are two arranged side by side.
The height range of one end of the transverse pulling support 4 and the inclined pulling support 3 fixed on the vertical hanging bracket 2 from the upper surface of the rail is 220-260 mm.
Four connecting holes are formed in the connecting plate 7 and are respectively used for being fixed with the vertical hanging frame 2 and the cable-stayed bracket 3 or the transverse pulling bracket 4. The connecting plate 7 is also fixed on the vertical hanging bracket 2, the inclined-pulling bracket 3 or the horizontal-pulling bracket 4 through a bolt assembly.
The universal joint 5 comprises a first fixed seat 5a used for being connected with the vertical hanging frame 2 and a second fixed seat 5b used for being connected with the inclined pull support 3, wherein hinge lugs are arranged on the first fixed seat 5a and the second fixed seat 5b and are hinged together through hinge shafts which are horizontally arranged, so that the angle between the first fixed seat 5a and the second fixed seat 5b is adjusted, and the inclination angle of the inclined pull support 3 is adjusted. The first fixing seat 5a and the second fixing seat 5b are fixed together with the corresponding vertical hanging bracket 2 or the inclined pulling bracket 3 through bolt assemblies.
The axis of the profile steel hole of the profile steel body a is parallel to the extending direction of the straight rail 1a, the other end of the longitudinal transverse pulling support 4 parallel to the extending direction of the straight rail 1a is fixed on the profile steel body a through a fixing base 6, and the other end of the transverse pulling support 4 extending towards one side of the straight rail 1a is fixed on the vertical hanging bracket 2 through a connecting plate 7.
The other end of the longitudinal cable-stayed bracket 3 parallel to the extending direction of the straight rail 1a is fixed on the profile steel body a through a universal joint 5, and the other end of the transverse cable-stayed bracket 3 extending towards one side of the straight rail 1a is fixed on the vertical hanger 2 through a connecting plate 7; one end of the second fixing seat 5b is hinged to the middle of the first fixing seat 5 a.
The bottom of vertical gallows 2 is equipped with track fixed mounting spare 9, and track fixed mounting spare 9 is equipped with the mounting hole including being used for supporting the horizontal journal stirrup that leans on hoist and mount track 1 top on the horizontal journal stirrup, and the installation logical groove 1c has been seted up to hoist and mount track 1's top correspondence mounting hole, and the horizontal journal stirrup is equipped with the mounting bolt, and the nut part card of mounting bolt is in the installation logical groove 1c, and after the body of rod part of mounting bolt passed notch and the mounting hole of installation logical groove 1c in proper order, locks through lock nut.
The track fixing and mounting piece 9 comprises an upper horizontal support lug and a lower horizontal support lug, a vertical plate is connected between the upper horizontal support lug and the lower horizontal support lug, and the lower horizontal support lug is used for being connected with the hoisting track 1;
The bottom of vertical gallows 2 still is equipped with track fixed adaptor, and track fixed adaptor includes L template, and the vertical portion of L template passes through bolt assembly to be fixed on shaped steel body a, and the horizontal portion of L template passes through bolt assembly and the last horizontal journal stirrup of track fixed mounting 9 is together fixed.
The profile steel body a is provided with profile steel connecting pieces 12 for butt-jointing the lengthened profile steel body a at intervals along the extending direction of the profile steel body a, splicing holes are formed at two ends of the profile steel connecting pieces 12 corresponding to the profile steel holes, and the profile steel connecting pieces are fixedly connected through bolt assemblies. The roof height-adjustable steel body is applicable to the condition that the roof height is high, and can extend the steel body a and be additionally arranged according to the roof height. And the length of the vertical hanging frame 2 after being added is not more than 9m.
While embodiments of the present utility model have been shown and described, it will be understood by those of ordinary skill in the art that: many changes, modifications, substitutions and variations may be made to the embodiments without departing from the spirit and principles of the utility model, the scope of which is defined by the claims and their equivalents.
Claims (10)
1. The utility model provides a booster station meter analysis electric power inspection system, includes robot body (10) and hoist and mount track (1) that are located cubical switchboard (11) top, robot body (10) sliding connection is on hoist and mount track (1), its characterized in that: the hoisting track (1) is sequentially provided with a plurality of vertical hangers (2) along the extending direction of the hoisting track, the hoisting track is fixedly connected with a roof through the vertical hangers (2), and the vertical hangers (2) are also provided with a cable-stayed bracket (3) and a transverse pulling bracket (4); the cable-stayed bracket (3) is used for connecting the side surface of the vertical hanging bracket (2) with a roof, and the transverse pulling bracket (4) is used for connecting the side surface of the vertical hanging bracket (2) with a side wall;
The hoisting track (1) comprises a bent track (1 b) and a straight track (1 a), and the hoisting tracks (1) in different paths are formed by butt joint combination of the bent track (1 b) and the straight track (1 a); when the hoisting track (1) is only provided with the straight track (1 a) and the length of the vertical hanging frames (2) is more than 0.7m, every other vertical hanging frame (2) is provided with a transverse pulling bracket (4); when the hoisting track (1) comprises a bent track (1 b) and a straight track (1 a), and the length of each vertical hanger (2) is more than 1.1m, every other vertical hanger (2) is provided with a transverse pulling support (4) or a diagonal pulling support (3).
2. The booster station meter analysis power inspection system of claim 1, wherein: the vertical hanging frames (2) are arranged on the straight rails (1 a), when the length of the straight rails (1 a) butted by the two bent rails (1 b) is less than or equal to 1 meter and only 1 straight rail is arranged on the straight rails (1 a), one vertical hanging frame (2) is arranged in the middle, the rest straight rails (1 a) are at least provided with the two vertical hanging frames (2), and the interval range between the vertical hanging frames (2) on the same straight rail (1 a) is 1.6 m-2.0 m.
3. The booster station meter analysis power inspection system of claim 1, wherein: when the distance between the hoisting track (1) and the side wall is less than or equal to 6m, the vertical hanging frame (2) is connected with the side wall through the horizontal pulling support (4); when the distance between the hoisting track (1) and the side wall is more than 6m, the vertical hanging frame (2) is connected with the roof through the inclined pull bracket (3).
4. The booster station meter analysis power inspection system of claim 2, wherein: the mounting position of the hoisting rail (1) is higher than the switch cabinet (11) or the horizontal distance between the hoisting rail (1) and the switch cabinet (11) is larger than the cabinet surface width of the switch cabinet (11); the distance between the vertical hanging frames (2) at the head end and the tail end of the lifting rail (1) and the end of the lifting rail (1) is 150+/-10 mm.
5. The booster station meter analysis power inspection system of claim 1, wherein: when a bus bridge or a bus bar is arranged above the lifting rail (1), the distance between the lower surface of the lifting rail (1) and the top of the switch cabinet (11) is more than or equal to 100mm.
6. The booster station meter analysis power inspection system of claim 1, wherein: the vertical hanging frame (2) comprises a profile steel body (a), the vertical hanging frame (2) is provided with a fixed base (6) or a universal joint (5), and the top end of the vertical hanging frame (2) is fixed on a horizontal roof through the fixed base (6) or fixed on an inclined roof through the universal joint (5);
The fixing base (6) comprises a C-shaped clamping sleeve (6 a) which is used for being clamped at one side of the section steel body (a), the C-shaped clamping sleeve (6 a) and the section steel body (a) are fixed together through a bolt assembly, hanging bracket lugs (6 b) which extend outwards horizontally are arranged on two sides of the top of the C-shaped clamping sleeve (6 a), and the hanging bracket lugs (6 b) are fixed on a roof through expansion bolts;
The bottom of vertical gallows (2) is equipped with track fixed mounting spare (9), track fixed mounting spare (9) are including being used for supporting the horizontal journal stirrup that leans on hoist and mount track (1) top, be equipped with the mounting hole on the horizontal journal stirrup, installation logical groove (1 c) has been seted up to the top of hoist and mount track (1) corresponding mounting hole, the horizontal journal stirrup is equipped with the mounting bolt, the nut part card of mounting bolt is in installation logical groove (1 c), and after the body of rod part of mounting bolt passed notch and the mounting hole of installation logical groove (1 c) in proper order, locks through lock nut.
7. The booster station meter analysis power inspection system of claim 6, wherein: the steel section is characterized in that steel section holes are formed in the steel section body (a) at intervals along the extending direction of the steel section body (a), the steel section body (a) is provided with steel section connecting pieces (12) for butt-jointing the lengthened steel section body (a), splicing holes are formed in the two ends of the steel section connecting pieces (12) corresponding to the steel section holes, and the steel section connecting pieces are fixedly connected through bolt assemblies.
8. The booster station meter analysis power inspection system of claim 6, wherein: one end of the horizontal pulling support (4) is also fixed on the side wall through a fixed base (6), and the other end of the horizontal pulling support is arranged on the vertical hanging bracket (2) through the fixed base (6) or a connecting plate (7);
one end of the cable-stayed bracket (3) is also fixed on the side wall through a universal joint (5), and the other end is arranged on the vertical hanging bracket (2) through the universal joint (5) or a connecting plate (7).
9. The booster station meter analysis power inspection system of claim 8, wherein: the height range of one end of the transverse pulling support (4) and the inclined pulling support (3) fixed on the vertical hanging bracket (2) from the upper surface of the hanging rail (1) is 220-260 mm;
At least two connecting holes are formed in the connecting plate (7), and the two connecting holes are respectively used for being fixed with the vertical hanging frame (2) and the inclined pulling support (3) or the horizontal pulling support (4);
The universal joint (5) comprises a first fixing seat (5 a) used for being connected with the vertical hanging frame (2) and a second fixing seat (5 b) used for being connected with the inclined pulling support (3), wherein hinge lugs are arranged on the first fixing seat (5 a) and the second fixing seat (5 b) and are hinged together through hinge shafts which are horizontally arranged, so that the angle between the first fixing seat (5 a) and the second fixing seat (5 b) is adjusted, and the inclined angle of the inclined pulling support (3) is adjusted.
10. The booster station meter analysis power inspection system of claim 9, wherein: the axis of a profile steel hole of the profile steel body (a) is parallel to the extending direction of the straight rail (1 a), the other end of the longitudinal transverse pulling support (4) which is parallel to the extending direction of the straight rail (1 a) is fixed on the profile steel body (a) through a fixed base (6), and the other end of the transverse pulling support (4) which extends towards one side of the straight rail (1 a) is fixed on the vertical hanging bracket (2) through a connecting plate (7);
The other end of the longitudinal cable-stayed bracket (3) which is parallel to the extending direction of the straight rail (1 a) is fixed on the profile steel body (a) through a universal joint (5), and the other end of the transverse cable-stayed bracket (3) which extends towards one side of the straight rail (1 a) is fixed on the vertical hanger (2) through a connecting plate (7);
One end of the second fixing seat (5 b) is hinged to the middle of the first fixing seat (5 a).
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN202323051962.3U CN220972403U (en) | 2023-11-13 | 2023-11-13 | Booster station meter analysis electric power inspection system |
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CN202323051962.3U CN220972403U (en) | 2023-11-13 | 2023-11-13 | Booster station meter analysis electric power inspection system |
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CN220972403U true CN220972403U (en) | 2024-05-17 |
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CN202323051962.3U Active CN220972403U (en) | 2023-11-13 | 2023-11-13 | Booster station meter analysis electric power inspection system |
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