CN215067054U - Join in marriage net monitoring and salvage device based on electric wire netting GIS - Google Patents

Abstract

The utility model provides a distribution network monitoring and rush-repair device based on a power grid GIS, which comprises an installation box, a box cavity, a sealing door, an observation window, a movable handle, a partition plate, a main processor, an auxiliary processor, a movable maintenance platform structure, a heat dissipation air guide cylinder structure, a clamping and fixing plate structure, a supporting leg, a supporting plate, a T-shaped rotating rod and a movable wheel, wherein the box cavity is arranged at the front side of the interior of the installation box; the sealing door hinge is arranged on the right side of the front end of the installation box; the observation windows are respectively embedded in the upper side and the lower side of the interior of the sealing door; the movable handle bolt is arranged in the middle of the right end of the sealing door; the partition plate bolt is arranged in the middle of the inner wall of the box cavity. The utility model has the advantages that: through the arrangement of the movable maintenance platform structure, the movable maintenance platform is matched with the movable support of the movable plate and can move back and forth for use, and meanwhile, the auxiliary maintenance work of the maintenance platform is facilitated.

Description

Join in marriage net monitoring and salvage device based on electric wire netting GIS

Technical Field

The utility model belongs to the technical field of join in marriage net monitoring and salvage, especially, relate to a join in marriage net monitoring and salvage device based on electric wire netting GIS.

Background

The distribution network comprises overhead line, cable, shaft tower, distribution transformer, isolator, reactive power compensator and some subsidiary facilities etc. plays the network that important distribution electric energy effect in the power network, salvagees the in-process to the distribution network and can salvage the device through the distribution network monitoring and monitor to learn concrete condition, thereby arrange the plan work of salvageing.

However, the existing distribution network monitoring and first-aid repair device also has the problems that the device is not convenient to be matched for dismounting and using and the device is not convenient to assist in heat dissipation and protection.

Therefore, the distribution network monitoring and first-aid repair device based on the power grid GIS is very necessary to be invented.

SUMMERY OF THE UTILITY MODEL

In order to solve the technical problem, the utility model provides a join in marriage net monitoring and salvage device based on electric wire netting GIS to solve current joining in marriage net monitoring and salvage device the device based on electric wire netting GIS's that current protective effect is relatively poor, the single and inconvenient regulation fluid entering speed's of protection mode problem. A distribution network monitoring and first-aid repair device based on a power grid GIS comprises an installation box, a box cavity, a sealing door, an observation window, a movable handle, a partition plate, a main processor, an auxiliary processor, a movable maintenance platform structure, a heat dissipation air guide cylinder structure, a clamping and fixing plate structure, supporting legs, supporting plates, a T-shaped rotating rod and movable wheels, wherein the box cavity is formed in the front side of the interior of the installation box; the sealing door hinge is arranged on the right side of the front end of the installation box; the observation windows are respectively embedded in the upper side and the lower side of the interior of the sealing door; the movable handle bolt is arranged in the middle of the right end of the sealing door; the partition plate bolt is arranged in the middle of the inner wall of the box cavity; the main processor and the auxiliary processor are respectively arranged on the mobile maintenance platform structure; the movable maintenance platform structure is respectively arranged on the upper side inside the partition plate and the lower side inside the installation box; the heat dissipation gas cylinder structure is arranged in the clamping fixing plate structure; the clamping and fixing plate structures are respectively arranged on the periphery of the inner wall of the box cavity; the supporting legs are respectively installed on the periphery of the lower end of the installation box through bolts; the support plates are respectively welded at the lower parts of the left end and the right end of the installation box, and the support plates are internally connected with T-shaped rotating rods in a threaded manner; the movable wheel is movably embedded at the lower end of the T-shaped rotating rod; the clamping and fixing plate structure comprises a threaded pipe, a protection pad, a mounting bearing, a threaded column, an assembling plate and a radiating fin, wherein the mounting bearing is embedded in the right side of the outer wall of the threaded pipe; the protective pad is glued on the outer wall of the threaded pipe; the mounting bearings are respectively embedded in the periphery of the inside of the mounting box and the middle part of the right side of the assembling plate; one end of the threaded column is in threaded connection with the threaded pipe, and the other end of the threaded column is embedded with an installation bearing; and the radiating fins are arranged on the left surface of the assembling plate through bolts.

Preferably, the heat dissipation gas cylinder structure comprises a vertical pipe, an inlet and outlet hole, a movable hose, a mounting box, a supporting plate, a rotating motor and a fan blade, wherein the vertical pipe is embedded in the rear side of the inside of the heat dissipation fin, and the front part of the vertical pipe is provided with the inlet and outlet hole; one end of the movable hose is embedded in the upper end of the vertical pipe, and the other end of the movable hose is embedded in the lower end of the mounting box; the supporting plate is arranged in the middle of the mounting box through a bolt, and the rotating motor is arranged on the upper surface of the supporting plate through a bolt; the fan blades are embedded on an output shaft of the rotating motor.

Preferably, the movable maintenance platform structure comprises a movable plate, an anti-skid pad, a first slide rail, a second slide rail, a rotating motor and a threaded rod, wherein the first slide rail and the second slide rail are respectively inserted into the left side and the right side of the lower end of the movable plate, and the movable plate is respectively inserted into the upper side of the inside of the partition plate and the lower side of the inside of the installation box; the anti-skid pad is glued on the upper surface of the moving plate; the first sliding rail and the second sliding rail are respectively installed on the left side and the right side of the upper side in the partition board and the left side and the right side of the lower side in the installation box through bolts; the rotating motors are respectively installed in the middle parts of the upper part and the lower part of the rear wall of the installation box through bolts; the threaded rod is embedded on an output shaft of the rotating motor and is in threaded connection with the middle part inside the moving plate.

Preferably, the threaded pipe and the threaded column are movably supported in the installation box and on the right side of the assembling plate through installation bearings respectively, and the protective pad on the outer wall of the threaded pipe is a rubber pad.

Preferably, the assembly plate cooperates with the heat sink to sandwich the primary processor and the secondary processor, respectively.

Preferably, the access hole at the front part of the vertical pipe corresponds to the groove of the radiating fin.

Preferably, the upper end of the movable hose corresponds to a fan blade inside the mounting box, and the fan blade is movably supported by the rotating motor.

Preferably, the main processor and the auxiliary processor are respectively arranged on the upper part of the movable plate, and the movable plate is movably supported by the first sliding rail and the second sliding rail respectively.

Preferably, the rotating motor is connected with the moving plate through a threaded rod.

Compared with the prior art, the beneficial effects of the utility model are that:

1. the utility model discloses in, screwed pipe and threaded column's setting, length is adjusted at the rotation in-process to the cooperation assembly board removes the use.

2. The utility model discloses in, the setting of equipment board and fin, supplementary heat dissipation when cooperation owner processor and deputy processor are fixed uses.

3. The utility model discloses in, the setting of installation bearing and protection pad, can cooperate screwed pipe and screw thread post activity to support and supplementary rotation use.

4. The utility model discloses in, standpipe and the setting in business turn over hole, the cooperation fin absorbs the heat and uses.

5. The utility model discloses in, the setting of activity hose and mounting box, when making the intercommunication be connected to mounting box cooperation standpipe, supplementary standpipe activity.

6. The utility model discloses in, fan blade and rotating electrical machines's setting, the rotation in-process produces suction and absorbs and radiating work.

7. The utility model discloses in, movable plate, first slide rail and second slide rail, the back-and-forth movement is used when cooperation movable plate activity is supported, also is convenient for provide the platform of maintaining supplementary maintenance's work simultaneously.

8. The utility model discloses in, the setting of rotation motor and threaded rod, the automatic cooperation movable plate back-and-forth movement of being convenient for is used.

Drawings

Fig. 1 is a schematic structural diagram of the present invention.

Fig. 2 is a schematic structural view of the clamping fixing plate structure of the present invention.

Fig. 3 is a schematic structural diagram of the heat dissipation gas cylinder structure of the present invention.

Fig. 4 is a schematic structural diagram of the mobile maintenance platform structure of the present invention.

In the figure:

1. installing a box; 2. a tank cavity; 3. a sealing door; 4. an observation window; 5. a movable handle; 6. a partition plate; 7. a main processor; 8. a secondary processor; 9. a mobile maintenance platform structure; 91. moving the plate; 92. a non-slip mat; 93. a first slide rail; 94. a second slide rail; 95. rotating the motor; 96. a threaded rod; 10. a heat dissipation gas cylinder structure; 101. a vertical tube; 102. an inlet and outlet hole; 103. a flexible hose; 104. mounting a box; 105. a support plate; 106. a rotating electric machine; 107. a fan blade; 11. clamping a fixed plate structure; 111. a threaded pipe; 112. a protection pad; 113. mounting a bearing; 114. a threaded post; 115. assembling a plate; 116. a heat sink; 12. supporting legs; 13. a support plate; 14. a T-shaped rotating rod; 15. the wheel is moved.

Detailed Description

The invention is further described below with reference to the accompanying drawings:

example (b):

as shown in the attached figure 1, a distribution network monitoring and first-aid repair device based on a power grid GIS comprises an installation box 1, a box cavity 2, a sealing door 3, an observation window 4, a movable handle 5, a partition plate 6, a main processor 7, an auxiliary processor 8, a movable maintenance platform structure 9, a heat dissipation gas guide cylinder structure 10, a clamping and fixing plate structure 11, supporting legs 12, supporting plates 13, a T-shaped rotating rod 14 and movable wheels 15, wherein the box cavity 2 is arranged on the front side inside the installation box 1; the sealing door 3 is hinged on the right side of the front end of the installation box 1; the observation windows 4 are respectively embedded in the upper side and the lower side of the interior of the sealing door 3; the movable handle 5 is mounted in the middle of the right end of the sealing door 3 through a bolt; the partition plate 6 is mounted in the middle of the inner wall of the box cavity 2 through bolts; the main processor 7 and the secondary processor 8 are respectively arranged on a mobile maintenance platform structure 9; the mobile maintenance platform structure 9 is respectively arranged at the upper side inside the partition plate 6 and the lower side inside the installation box 1; the heat dissipation gas cylinder structure 10 is arranged in the clamping fixing plate structure 11; the clamping fixing plate structures 11 are respectively arranged on the periphery of the inner wall of the box cavity 2; the supporting legs 12 are respectively installed on the periphery of the lower end of the installation box 1 through bolts; the support plates 13 are respectively welded at the lower parts of the left end and the right end of the installation box 1, and T-shaped rotating rods 14 are connected to the interior of the support plates 13 through threads; the moving wheel 15 is movably embedded at the lower end of the T-shaped rotating rod 14.

As shown in fig. 2, in the above embodiment, specifically, the clamping fixing plate structure 11 includes a threaded pipe 111, a protection pad 112, a mounting bearing 113, a threaded column 114, an assembling plate 115 and a heat sink 116, and the mounting bearing 113 is embedded in the right side of the outer wall of the threaded pipe 111; the protective pad 112 is glued on the outer wall of the threaded pipe 111; the mounting bearings 113 are respectively embedded in the periphery of the inside of the mounting box 1 and the middle part of the right side of the assembling plate 115; the rotating threaded pipe 111 rotates and matches with the threaded column 114 to drive the radiating fins 116 on the assembling plate 115 to clamp and fix the main processor 7 and the secondary processor 8; one end of the threaded column 114 is in threaded connection with the threaded pipe 111, and the other end of the threaded column is embedded with an installation bearing 113; the left surface of the assembling plate 115 is bolted with a cooling fin 116.

As shown in fig. 3, in the above embodiment, specifically, the heat dissipation gas cylinder structure 10 includes a vertical pipe 101, an access hole 102, a flexible hose 103, a mounting box 104, a support plate 105, a rotating motor 106 and a wind vane 107, the vertical pipe 101 is embedded in the rear side of the inside of the heat sink 116, and the access hole 102 is opened in the front of the vertical pipe 101; one end of the movable hose 103 is embedded at the upper end of the vertical pipe 101, and the other end of the movable hose is embedded at the lower end of the mounting box 104; the supporting plate 105 is mounted in the middle of the mounting box 104 through bolts, and the rotating motor 106 is mounted on the upper surface of the supporting plate 105 through bolts; in the using process, the rotating motor 106 drives the fan blades 107 to rotate to suck air; the fan blades 107 are embedded on an output shaft of the rotating motor 106; the hot air is exhausted by the air sucked by the cooperation of the vertical pipe 101, the inlet and outlet hole 102, the movable hose 103 and the mounting box 104 to dissipate heat, so that the work is finished.

As shown in fig. 4, in the above embodiment, specifically, the mobile maintenance platform structure 9 includes a moving plate 91, a non-slip mat 92, a first slide rail 93, a second slide rail 94, a rotating motor 95 and a threaded rod 96, the first slide rail 93 and the second slide rail 94 are respectively inserted into the left and right sides of the lower end of the moving plate 91, and the moving plate 91 is respectively inserted into the upper side inside the partition plate 6 and the lower side inside the installation box 1; placing the main processor 7 and the secondary processor 8 on the moving plate 91, and then driving the rotating motor 95 to rotate in cooperation with the threaded rod 96 so as to slide the moving plate 91 on the first slide rail 93 and the second slide rail 94 and enter the box cavity 2; the anti-skid pad 92 is glued on the upper surface of the moving plate 91; the first slide rail 93 and the second slide rail 94 are respectively installed on the left side and the right side of the upper side in the partition board 6 and the left side and the right side of the lower side in the installation box 1 through bolts; the rotating motor 95 is respectively installed in the middle parts of the upper part and the lower part of the rear wall of the installation box 1 through bolts; the heat emitted from the main processor 7 and the sub-processor 8 is extracted by the heat sink 116; the threaded rod 96 is embedded in an output shaft of the rotating motor 95, and the threaded rod 96 is in threaded connection with the middle part inside the moving plate 91.

In the above embodiment, specifically, the rotating motor 95 is a 23HD motor.

In the above embodiment, specifically, the rotating electrical machine 106 is a model 28H2P3205a4 motor.

Principle of operation

The utility model discloses a theory of operation: respectively placing the main processor 7 and the secondary processor 8 on the movable plate 91, then driving the rotating motor 95 to rotate in cooperation with the threaded rod 96 so as to enable the movable plate 91 to slide on the first slide rail 93 and the second slide rail 94 and enter the box cavity 2, after the movable plate enters the box cavity 2, driving the rotating threaded pipe 111 to rotate in cooperation with the threaded column 114 to drive the radiating fins 116 on the assembling plate 115 to clamp the main processor 7 and the secondary processor 8 for fixation, closing the sealing door 3 for sealing after fixation, respectively enabling the main processor 7 and the secondary processor 8 to be connected with the man-machine interaction device and the information acquisition system during use, respectively conveying and processing acquired information through the main processor 7 and the secondary processor 8 and displaying the acquired information from the man-machine interaction device, then detecting and rush-repair work is carried out through the information displayed by the man-machine interaction device, driving the rotating motor 106 to drive the fan blades 107 to rotate and suck air during use, the heat emitted by the main processor 7 and the secondary processor 8 is extracted by the heat sink 116 and then exhausted by the standpipe 101, the access hole 102, the flexible hose 103 and the mounting box 104.

Utilize technical scheme, or technical personnel in the field are in the utility model discloses under technical scheme's the inspiration, design similar technical scheme, and reach above-mentioned technological effect, all fall into the utility model discloses a protection scope.

Claims (8)

1. A distribution network monitoring and rush-repair device based on a power grid GIS is characterized by comprising an installation box (1), a box cavity (2), a sealing door (3), an observation window (4), a movable handle (5), a partition plate (6), a main processor (7), an auxiliary processor (8), a movable maintenance platform structure (9), a heat dissipation gas cylinder structure (10), a clamping fixing plate structure (11), supporting legs (12), supporting plates (13), a T-shaped rotating rod (14) and movable wheels (15), wherein the box cavity (2) is formed in the front side of the interior of the installation box (1); the sealing door (3) is hinged on the right side of the front end of the installation box (1); the observation windows (4) are respectively embedded in the upper side and the lower side of the interior of the sealing door (3); the movable handle (5) is mounted in the middle of the right end of the sealing door (3) through a bolt; the partition plate (6) is mounted in the middle of the inner wall of the box cavity (2) through bolts; the main processor (7) and the auxiliary processor (8) are respectively arranged on the mobile maintenance platform structure (9); the mobile maintenance platform structure (9) is respectively arranged at the upper side inside the partition plate (6) and the lower side inside the installation box (1); the heat dissipation gas cylinder structure (10) is arranged in the clamping fixing plate structure (11); the clamping fixing plate structures (11) are respectively arranged on the periphery of the inner wall of the box cavity (2); the supporting legs (12) are respectively installed on the periphery of the lower end of the installation box (1) through bolts; the support plates (13) are respectively welded at the lower parts of the left end and the right end of the installation box (1), and T-shaped rotating rods (14) are connected to the support plates (13) through threads; the moving wheel (15) is movably embedded at the lower end of the T-shaped rotating rod (14); the clamping and fixing plate structure (11) comprises a threaded pipe (111), a protection pad (112), a mounting bearing (113), a threaded column (114), an assembling plate (115) and a radiating fin (116), wherein the mounting bearing (113) is embedded in the right side of the outer wall of the threaded pipe (111); the protective pad (112) is glued on the outer wall of the threaded pipe (111); the mounting bearings (113) are respectively embedded in the periphery of the interior of the mounting box (1) and the middle part of the right side of the assembling plate (115); one end of the threaded column (114) is in threaded connection with the threaded pipe (111), and the other end of the threaded column is embedded with an installation bearing (113); and a cooling fin (116) is bolted on the left surface of the assembling plate (115).

2. The distribution network monitoring and first-aid repair device based on the power grid GIS as claimed in claim 1, wherein the threaded pipe (111) and the threaded column (114) are movably supported in the installation box (1) and on the right side of an assembly plate (115) through an installation bearing (113), a rubber pad is adopted as a protection pad (112) on the outer wall of the threaded pipe (111), and the assembly plate (115) is matched with a cooling fin (116) to clamp the main processor (7) and the secondary processor (8) respectively.

3. The distribution network monitoring and first-aid repair device based on the power grid GIS is characterized in that the heat dissipation gas cylinder structure (10) comprises a vertical pipe (101), an inlet and outlet hole (102), a movable hose (103), a mounting box (104), a supporting plate (105), a rotating motor (106) and fan blades (107), the vertical pipe (101) is embedded in the rear side of the inside of the radiating fin (116), and the inlet and outlet hole (102) is formed in the front part of the vertical pipe (101); one end of the movable hose (103) is embedded at the upper end of the vertical pipe (101), and the other end of the movable hose is embedded at the lower end of the mounting box (104); the supporting plate (105) is mounted in the middle of the interior of the mounting box (104) through bolts, and a rotating motor (106) is mounted on the upper surface of the supporting plate (105) through bolts; the fan blades (107) are embedded on an output shaft of the rotating motor (106).

4. Distribution network monitoring and emergency repair device based on grid GIS, according to claim 3, characterized in that the access holes (102) in the front of the vertical pipes (101) correspond to the grooves of the heat dissipation fins (116).

5. The distribution network monitoring and first-aid repair device based on the power grid GIS as claimed in claim 3, wherein the upper end of the movable hose (103) corresponds to the fan blade (107) inside the mounting box (104), and the fan blade (107) is movably supported by the rotating motor (106).

6. The distribution network monitoring and first-aid repair device based on the power grid GIS is characterized in that the movable maintenance platform structure (9) comprises a movable plate (91), an anti-skid pad (92), a first slide rail (93), a second slide rail (94), a rotating motor (95) and a threaded rod (96), the first slide rail (93) and the second slide rail (94) are respectively inserted into the left side and the right side of the lower end of the movable plate (91), and the movable plate (91) is respectively inserted into the upper side inside the partition plate (6) and the lower side inside the installation box (1); the antiskid pad (92) is glued on the upper surface of the moving plate (91); the first sliding rail (93) and the second sliding rail (94) are respectively installed on the left side and the right side of the upper side in the partition plate (6) and the left side and the right side of the lower side in the installation box (1) through bolts; the rotating motors (95) are respectively installed in the middle parts of the upper part and the lower part of the rear wall of the installation box (1) through bolts; the threaded rod (96) is embedded on an output shaft of the rotating motor (95), and meanwhile, the threaded rod (96) is in threaded connection with the middle part inside the moving plate (91).

7. The distribution network monitoring and first-aid repair device based on the power grid GIS as claimed in claim 6, wherein the main processor (7) and the auxiliary processor (8) are respectively placed on the upper portion of the movable plate (91), and the movable plate (91) is movably supported by the first sliding rail (93) and the second sliding rail (94) respectively.

8. Distribution network monitoring and emergency repair device based on grid GIS, according to claim 6, characterized in that the rotating motor (95) is connected to the moving plate (91) through a threaded rod (96).

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