Incoming line looped network high voltage distribution cabinet
Technical Field
The invention relates to the field of power distribution cabinets, in particular to an incoming line looped network high-voltage power distribution cabinet.
Background
The switch board of circulation on the existing market need be put to many positions on, and the ground of these positions is not necessarily smooth, is not vertical when leading to the switch board to put, and the degree of difficulty is great when not only combining the cabinet, still can lead to opening of qianmen not smooth sometimes because of the uneven reason in ground, is blocked by switch board itself or ground, influences the use.
Disclosure of Invention
The invention aims to solve the problems and designs an incoming line ring network high-voltage power distribution cabinet.
The technical scheme is that the incoming line looped network high-voltage power distribution cabinet comprises a power distribution cabinet body, wherein a power distribution cabinet supporting mechanism is arranged below the power distribution cabinet body, the power distribution cabinet supporting mechanism is composed of four supporting legs with adjustable heights, knobs which are respectively positioned on the supporting legs for adjusting the heights, locking valves which are respectively positioned on the supporting legs for fixing the heights of the supporting legs, a horizontal supporting plate which is fixedly arranged on the upper surfaces of the supporting legs, a level gauge which is fixedly arranged at the center of the upper surface of the horizontal supporting plate, a fixing hole which is positioned on the upper surface of the horizontal supporting plate and a plurality of circular openings which are positioned on the upper surface of the horizontal supporting plate, the power distribution cabinet body is provided with a cabinet body shell, and the cabinet body shell is composed of a left side plate which is fixed on the left side of the horizontal supporting, The switch board cabinet comprises a rear back plate, an arc discharging plate, an opening, a bottom plate, a cable inlet, a front door support bar, a front door baffle plate, a front door lock, a lock plate, a front door lock and a rear door lock, wherein the rear back plate is fixedly arranged at the rear of a horizontal support plate and is fixedly arranged at the rear back plate and is positioned between the arc discharging plate and the rear back, The front door handle is fixedly arranged on two sides of the upper part outside the front door and can lift the front door, the transparent observation window positioned at the central position of the front door jointly forms, an electric part containing mechanism is arranged in the power distribution cabinet body and consists of a tower-shaped shield sleeved on a cable inlet, a supporting frame fixedly arranged on the upper surfaces of a left side plate and a right side plate, a sulfur hexafluoride gas switch fixedly arranged on the supporting frame, a main shaft fixedly arranged in front of the sulfur hexafluoride gas switch, a switch frame connected with the main shaft and extending into the sulfur hexafluoride gas switch, and a sensor fixedly arranged below the sulfur hexafluoride gas switch, the power distribution cabinet body is provided with a switch auxiliary mechanism, and the switch auxiliary mechanism consists of an instrument box body fixedly arranged in front of the sulfur hexafluoride gas switch, hinges respectively fixedly arranged on the upper side and the lower side of the front of, The mechanism comprises a right opening door which is arranged on a hinge and can be opened and closed in a rotating mode, a door lock which is positioned in the middle of the left side outside the right opening door, a transparent observation window which is positioned above the outside of the right opening door, a main shaft outlet which is positioned in the mechanism box body and corresponds to the position of the main shaft, and a mechanism which is positioned in the mechanism box body and is sleeved with the main shaft.
The inlet wire looped netowrk high voltage distribution cabinet shell is made by the steel sheet, and its each part all need roll over certain angle, certain height and bend, need open the connecting hole that has the correspondence at the hookup location of every part, makes things convenient for the connection between the part.
The connecting holes are holes in corresponding positions on the two parts, the holes in the outer part are large, the holes in the inner part are small, and the two parts are connected through self-tapping screws.
The lower end of a front door in the front door mechanism of the cabinet body, which is bent, extends into the front door baffle, a hook-shaped clamping strip is arranged in front of the upper part of a front door supporting strip, certain long holes are required to be opened on the bent edges of the two sides of the front door and hung on the front door supporting strip, when the front door lock is opened, the front door can be lifted upwards through a front door handle and then taken out, and when the front door lock is locked, the front door can be lifted only and cannot be taken out.
The rear back plate in the cabinet shell and the upper surface of the mechanism box body in the switch auxiliary mechanism are equal in height and higher than the upper surface of a sulfur hexafluoride gas switch, and a cabinet top cover is fixedly mounted on the upper surfaces of the rear back plate in the cabinet shell and the mechanism box body in the switch auxiliary mechanism.
The improved cabinet is characterized in that a lifting ring hole is formed in the top cover of the cabinet body, a nut is welded at a position, corresponding to the lifting ring hole, of the lower surface of the top cover of the cabinet body, a lifting ring is arranged on the lifting ring hole, corresponding threads are arranged below the lifting ring, and the lifting ring is connected with the nut through threads.
A main shaft key corresponding to the main shaft is arranged in the switch auxiliary mechanism, and the mechanism is used for controlling the sulfur hexafluoride gas switch to be switched on and off by using the main shaft key.
The left side board and the right side board are folded inwards to a certain height, the bottom board is not in contact with the horizontal support board, and the bottom board is fixedly installed on the bent edges of the left side board and the right side board.
After the inlet wire looped netowrk high voltage distribution cabinet should transport the mounted position, put switch board supporting mechanism well, after the adjustment level, put inlet wire looped netowrk high voltage distribution cabinet on the horizontal support board fixed again, and the size of horizontal support board is unanimous with the appearance size of inlet wire looped netowrk high voltage distribution cabinet bottom surface, makes things convenient for the cabinet combining.
Incoming line looped netowrk high voltage distribution cabinet should be sprayed with the steel sheet and mould into same colour by the part of steel sheet preparation before the equipment for incoming line looped netowrk high voltage distribution cabinet elegant appearance.
According to the incoming line looped network high-voltage power distribution cabinet manufactured by the technical scheme, the power distribution cabinet supporting mechanism is added, and the horizontal position of the horizontal supporting plate is adjusted by adjusting the height of the supporting leg, so that the power distribution cabinet is placed neatly and attractively, and the problems that a front door cannot be opened and cabinet combination cannot be carried out due to uneven placement height of the power distribution cabinet in use are solved.
Drawings
Fig. 1 is a schematic structural diagram of the incoming-line looped network high-voltage power distribution cabinet of the invention;
fig. 2 is a front view of the incoming-line looped-network high-voltage power distribution cabinet according to the invention;
FIG. 3 is a partial view of the horizontal support plate of the present invention;
FIG. 4 is a partial view of the eye of the present invention;
FIG. 5 is a partial view of the arc discharge plate of the present invention;
in the figure, 1, a cabinet body of a power distribution cabinet; 2. supporting legs; 3. a knob; 4. a locking valve; 5. a horizontal support plate; 6. a level gauge; 7. a fixing hole; 8. a circular opening; 9. a left side plate; 10. a rectangular hole; 11. a right side plate; 12. a back panel; 13. unloading the arc plate; 14. opening a hole; 15. a base plate; 16. a cable inlet; 17. a front door support bar; 18. a front door baffle; 19. a front door; 20. a front door lock; 21. a locking plate; 22. a front door handle; 23. a transparent observation window; 24. a tower-type shroud; 25. a support frame; 26. a sulfur hexafluoride gas switch; 27. a main shaft; 28. a switch frame; 29. a sensor; 30. a mechanism box body; 31. a hinge; 32. opening the door at the right side; 33. a door lock; 34. a transparent viewing window; 35. a spindle outlet; 36. a mechanism; 37. connecting holes; 38. a hook-shaped clamping strip; 39. a top cover of the cabinet body; 40. a suspension ring hole; 41. a nut; 42. a hoisting ring; 43. a thread; 44. a main shaft key.
Detailed Description
The invention is described in detail below with reference to the accompanying drawings, and as shown in fig. 1-5, an incoming-line looped network high-voltage power distribution cabinet comprises a power distribution cabinet body 1, wherein a power distribution cabinet supporting mechanism is arranged below the power distribution cabinet body 1, the power distribution cabinet supporting mechanism is composed of four supporting legs 2 with adjustable heights, knobs 3 respectively positioned on the supporting legs 2 and used for adjusting the heights, locking valves 4 respectively positioned on the supporting legs 2 and used for fixing the heights of the supporting legs 2, a horizontal supporting plate 5 fixedly installed on the upper surfaces of the supporting legs 2, a level gauge 6 fixedly installed in the center of the upper surface of the horizontal supporting plate 5, a fixing hole 7 positioned on the upper surface of the horizontal supporting plate 5, and a plurality of circular openings 8 positioned on the upper surface of the horizontal supporting plate 5, the power distribution cabinet body 1 is provided with a cabinet body, A rectangular hole 10 for workers to work on the surface of the left side plate 9, a right side plate 11 fixed on the right side of the horizontal support plate 5 through a fixing hole 7, a back plate 12 fixedly installed behind the left side plate 9 and the right side plate 11 and fixed behind the horizontal support plate 5 through the fixing hole 7, an arc discharge plate 13 fixedly installed on the back plate 12, an opening 14 between the arc discharge plate 13 and the back plate 12, a bottom plate 15 fixedly installed on the bent edge of the left side plate 9 and the right side plate 11, a cable inlet 16 positioned on the bottom plate 15 and corresponding to the round opening 8, wherein the power distribution cabinet body 1 is provided with a cabinet body front door mechanism which consists of a front door support bar 17 fixedly installed in front of the left side plate 9 and the right side plate 11, a front door baffle plate 18 fixedly installed on the left side plate 9 and the right side plate 11 in front of the bottom plate 15, a front door 19 hung on the front door support bar 17 and placed on the front, The front door lock 20 is positioned in the middle of the upper part outside the front door 19 and fixedly installed on the front door 19, the lock plate 21 of the front door lock 20 is fixedly installed above the left side plate 9 and the right side plate 11, the front door handles 22 are fixedly installed on two sides of the upper part outside the front door 19 and can lift the front door 19, and the transparent observation window 23 is positioned at the central position of the front door 19, an electric part containing mechanism is arranged in the power distribution cabinet body 1 and comprises a tower-shaped shield 24 sleeved on the cable inlet 16, a support frame 25 fixedly installed on the upper surfaces of the left side plate 9 and the right side plate 11, a sulfur hexafluoride gas switch 26 fixedly installed on the support frame 25, a main shaft 27 fixedly installed in front of the sulfur hexafluoride gas switch 26, a switch frame 28 connected with the main shaft 27 and extending into the sulfur hexafluoride gas switch 26, and a sensor 29 fixedly installed below, the switch auxiliary mechanism is arranged on the power distribution cabinet body 1 and consists of a mechanism box body 30 fixedly arranged in front of a sulfur hexafluoride gas switch 26, hinges 31 respectively fixedly arranged at the upper and lower sides of the right side in front of the mechanism box body 30, a right opening door 32 arranged on the hinges 31 and capable of being opened and closed in a rotating mode, a door lock 33 positioned in the middle of the left side outside the right opening door 32, a transparent observation window 34 positioned above the outside of the right opening door 32, a main shaft outlet 35 positioned in the mechanism box body 30 and corresponding to the position of a main shaft 27, and a mechanism 36 positioned in the mechanism box body 30 and sleeved with the main shaft 27; the shell of the incoming line looped network high-voltage power distribution cabinet is made of a steel plate, each part of the incoming line looped network high-voltage power distribution cabinet needs to be bent at a certain angle and a certain height, and a corresponding connecting hole 37 needs to be formed in the connecting position of each part, so that the parts can be conveniently connected; the connecting holes 37 are holes at corresponding positions on the two parts, the holes outside are large, the holes inside are small, and self-tapping nails are used for connection; the lower end of a bent front door 19 in the front door mechanism of the cabinet body extends into a front door baffle 18, a hook-shaped clamping strip 38 is arranged in front of the upper part of a front door supporting strip 17, certain long holes are required to be formed on the bent edges on two sides of the front door 19 and hung on the front door supporting strip 17, when the front door lock 20 is opened, the front door 19 can be lifted upwards through a front door handle 22 and then taken out, and when the front door lock 20 is locked, the front door 19 can be lifted only and cannot be taken out; the height of the upper surfaces of the back plate 12 in the cabinet shell and the mechanism box body 30 in the switch auxiliary mechanism is equal to the height of the upper surface of the sulfur hexafluoride gas switch 26, and the cabinet top cover 39 is fixedly arranged on the upper surfaces of the back plate 12 in the cabinet shell and the mechanism box body 30 in the switch auxiliary mechanism; a hanging ring hole 40 is formed in the cabinet body top cover 39, a nut 41 is welded on the lower surface of the cabinet body top cover 39 and corresponds to the hanging ring hole 40, a hanging ring 42 is arranged on the hanging ring hole 40, a corresponding thread 43 is arranged below the hanging ring 42, and the hanging ring 42 is connected with the nut 41 through the thread 43; a main shaft key 44 corresponding to the main shaft 27 is arranged in the switch auxiliary mechanism, and the mechanism uses the main shaft key 44 to control the on and off of the sulfur hexafluoride gas switch 26; the left side plate 9 and the right side plate 11 are bent inwards to form a certain height, and the bottom plate 15 is fixedly arranged on the bent edges of the left side plate 9 and the right side plate 11 without being contacted with the horizontal supporting plate 5; after the incoming-line ring network high-voltage power distribution cabinet is transported to the installation position, the power distribution cabinet supporting mechanism is placed well, after the power distribution cabinet is adjusted to be horizontal, the incoming-line ring network high-voltage power distribution cabinet is placed on the horizontal supporting plate 5 to be fixed, the size of the horizontal supporting plate 5 is consistent with the appearance size of the bottom surface of the incoming-line ring network high-voltage power distribution cabinet, and cabinet combination is facilitated; incoming line looped netowrk high voltage distribution cabinet should be sprayed with the steel sheet and mould into same colour by the part of steel sheet preparation before the equipment for incoming line looped netowrk high voltage distribution cabinet elegant appearance.
The power distribution cabinet is characterized in that a power distribution cabinet supporting mechanism is arranged below a power distribution cabinet body, the power distribution cabinet supporting mechanism is composed of four supporting legs with adjustable heights, knobs which are respectively positioned on the supporting legs and used for adjusting the heights, locking valves which are respectively positioned on the supporting legs and used for fixing the heights of the supporting legs, a horizontal supporting plate which is fixedly arranged on the upper surface of the supporting legs, a level meter which is fixedly arranged at the center of the upper surface of the horizontal supporting plate, a fixing hole which is positioned on the upper surface of the horizontal supporting plate, and a plurality of round openings which are positioned on the upper surface of the horizontal supporting plate jointly form, the power distribution cabinet body is provided with a cabinet body shell, the cabinet body shell is composed of a left side plate which is fixed on the left side of the horizontal supporting plate through the fixing hole, a rectangular hole which is positioned on, The arc-discharging plate is fixedly arranged on the back plate, the opening between the arc-discharging plate and the back plate, the bottom plate is fixedly arranged on the bending edge of the left side plate and the right side plate, the cable inlet is positioned on the bottom plate and corresponds to the round opening, the cabinet body of the power distribution cabinet is provided with a cabinet body front door mechanism, the cabinet body front door mechanism comprises a front door supporting bar fixedly arranged in front of the left side plate and the right side plate, a front door baffle plate fixedly arranged on the left side plate and the right side plate in front of the bottom plate, a front door hung on the front door supporting bar and placed on the front door baffle plate, a front door lock positioned in the middle of the upper part outside the front door and fixedly arranged on the front door, a lock plate of the front door lock fixedly arranged above the left side plate and the right side plate, front door handles fixedly arranged on the two sides above the front door and capable of lifting the front, the electric part containing mechanism consists of a tower-shaped shield sleeved on a cable inlet, a support frame fixedly arranged on the upper surfaces of a left side plate and a right side plate, a sulfur hexafluoride gas switch fixedly arranged on the support frame, a main shaft fixedly arranged in front of the sulfur hexafluoride gas switch, a switch frame connected with the main shaft and extending into the sulfur hexafluoride gas switch, and a sensor fixedly arranged below the sulfur hexafluoride gas switch, wherein a switch auxiliary mechanism is arranged on a power distribution cabinet body, and the switch auxiliary mechanism consists of a mechanism box body fixedly arranged in front of the sulfur hexafluoride gas switch, hinges respectively and fixedly arranged on the upper side and the lower side of the right side in front of the mechanism box body, a right-hand door arranged on the hinges and capable of being opened and closed in a rotating manner, a door lock positioned in the middle of the left side outside of the right-hand door, The mechanism that is located the mechanism box and overlaps with the main shaft constitutes jointly, and switch board supporting mechanism adjusts the whole height and the levelness of switch board, and the opening of convenient cabinet combining and qianmen is closed, and the whole cabinet body uses the self-tapping screw to install, conveniently assembles and demolishs replacement spare part.
In the embodiment, the power distribution cabinet is placed, the tower-shaped shield is removed, the cable enters the power distribution cabinet from the underground through the round opening of the horizontal supporting plate and the cable inlet on the bottom plate, a high-voltage wire in the cable is connected into the sensor below the sulfur hexafluoride gas switch, current enters the sulfur hexafluoride gas switch through the sensor, the sulfur hexafluoride gas switch is sealed in the shell, sulfur hexafluoride gas is filled in the sulfur hexafluoride gas switch to play an arc extinguishing role, the safety interval is shortened, after the current is transmitted into the sulfur hexafluoride gas switch, the original spindle switch is switched off, the spindle switch is closed by using a spindle key, the current is switched on, a wire outlet is formed above the sulfur hexafluoride gas switch, and then the current is transmitted into the wire outlet cabinet through the wire outlet above the sulfur hexafluoride gas switch.
The technical solutions described above only represent the preferred technical solutions of the present invention, and some possible modifications to some parts of the technical solutions by those skilled in the art all represent the principles of the present invention, and fall within the protection scope of the present invention.