CN208981488U - A kind of power distribution room drainage arrangement - Google Patents

Abstract

The utility model relates to a kind of power distribution room drainage arrangements, including the reservoir being connected below ground and with the bottom of cable duct is arranged in and the blowoff basin being connected below ground and with the bottom of reservoir is arranged in, equipped with the float-ball type drainage mechanism that multiple height are different in reservoir, blowoff basin is interior to be equipped with immersible pump.Compared with prior art, in the utility model, water energy in cable duct is enough discharged into reservoir in real time, it avoids cable duct that ponding situation occurs, is discharged into blowoff basin automatically in addition, the water energy accumulated in reservoir enough passes through float-ball type drainage mechanism, and it is discharged by immersible pump, the power supply safety of power supply line's pipeline has been effectively ensured, and needn't manually carry out multioperation, good reliability；The blowoff basin for draining has been separately provided, and immersible pump has been arranged in blowoff basin, the water in reservoir can be discharged in time.

Description

A kind of power distribution room drainage arrangement

Technical field

The utility model belongs to power distribution room technical field of drainage, is related to a kind of power distribution room drainage arrangement.

Background technique

In pitch processing plant area, power supply line's pipeline of power distribution room is mostly embedded in the cable duct of underground.Work as distribution Room may occur ponding situation, seriously affect power supply line's pipeline after rainy season intakes or level of ground water rises in cable duct Power supply safety.Currently, the draining of power distribution room mostly uses artificial drainage mode, and it is not only complicated for operation, it needs to continue to carry out people Work monitoring, and be easy to that safety accident occurs because of human error, reliability is insufficient.In addition, some power distribution room drainage arrangements are In one plash of underground excavation of power distribution room, and an immersible pump is placed in plash, it will be in plash by immersible pump Water discharge.However, the area due to plash is often larger, so that the water level in plash takes a long time just rise to The priming level of immersible pump leads to draining not in time.

Utility model content

The purpose of this utility model is exactly to provide a kind of power distribution room row to overcome the problems of the above-mentioned prior art Water installations.

The purpose of this utility model can be achieved through the following technical solutions:

A kind of power distribution room drainage arrangement, the power distribution room are equipped with cable duct below ground, are equipped with electricity in the cable duct Cable, the drainage arrangement include that the reservoir being connected below ground and with the bottom of cable duct is arranged in and is arranged on ground The blowoff basin being connected below face and with the bottom of reservoir, the interior float-ball type row different equipped with multiple height of the reservoir Water dispenser structure, the blowoff basin is interior to be equipped with immersible pump.

Further, the bottom level of the reservoir is less than the bottom level of cable duct, the bottom of the blowoff basin Portion's height is less than the bottom level of reservoir, is flowed into reservoir naturally and water storage convenient for the water in cable duct by gravity Water in pond flows into blowoff basin naturally by gravity.Moreover it is possible to avoid the water level in cable duct excessively high.

Further, the internal diameter of the blowoff basin is less than the internal diameter of reservoir.After water in reservoir flows into blowoff basin, Due to the internal diameter very little of blowoff basin, the water level in blowoff basin can be made to rise very rapidly up to the priming level of immersible pump, in time will Water discharge.

Further, drainpipe, the float-ball type draught engine are equipped between the bottom and blowoff basin of the reservoir Structure is located at the top of drainpipe.Each float-ball type drainage mechanism is adapted with the top of corresponding drainpipe, is used for the draining The top closure or opening of pipe.

Further, the drainpipe is inclined between reservoir and blowoff basin.When the top of drainpipe is opened Afterwards, the water in reservoir flows into blowoff basin naturally through drainpipe.

Further, the float-ball type drainage mechanism includes that bracket inside reservoir is arranged in, is arranged on bracket Guide sleeve and along the vertical direction run through guide sleeve and floating ball component compatible with the top of drainpipe.When in reservoir When water level rises, floating ball component is moved upwards, and the top of drainpipe is opened；After water level decreasing in reservoir, it is being oriented to Under the guiding role of set, floating ball component is moved downward, and by the top closure of drainpipe.

Further, the floating ball component includes running through guide sleeve along the vertical direction and leading with what guide sleeve was slidably connected To bar, the floating ball being arranged at the top of guide rod and guide rod bottom and plug compatible with the top of drainpipe are set. Plug gets lodged in the top of drainpipe, by the top closure of drainpipe；When the water level in reservoir rises, floating ball is floated up, And guide rod, plug is driven to move up, the top of drainpipe is opened.

Further, the liquidometer being electrically connected with immersible pump is equipped in the blowoff basin.The draining of liquidometer real-time monitoring Water level in pond, after rising above the warning line, immersible pump is actuated for draining.

The utility model is in practical application, when power distribution room is after rainy season intakes or level of ground water rises, in cable duct Water flows into reservoir, and accumulates in reservoir；When the water level in reservoir rises to the minimum float-ball type draught engine of height When the priming level of structure, the top of corresponding drainpipe is opened, and the water in reservoir enters in blowoff basin, and is arranged by immersible pump Out；When the water level in reservoir constantly rises, the different float-ball type drainage mechanism of multiple height successively starts, and makes in reservoir Water is discharged into blowoff basin simultaneously by multiple drainpipes, avoids that ponding situation occurs.

Compared with prior art, the utility model has the following characteristics that

1) water energy in cable duct is enough is discharged into reservoir in real time, avoids cable duct that ponding situation occurs, in addition, reservoir The water energy of middle accumulation enough passes through float-ball type drainage mechanism and is discharged into blowoff basin automatically, and is discharged by immersible pump, and confession has been effectively ensured The power supply safety of electric line pipeline, and needn't manually carry out multioperation, good reliability；

2) blowoff basin for draining has been separately provided, and immersible pump has been arranged in blowoff basin, it can be in time by water storage Water discharge in pond.

Detailed description of the invention

Fig. 1 is the structural schematic diagram of the utility model；

Description of symbols in figure:

1-cable duct, 2-reservoirs, 3-blowoff basins, 4-immersible pumps, 5-drainpipes, 6-brackets, 7-guide sleeves, 8-guide rods, 9- floating ball, 10-plugs, 11-liquidometers.

Specific embodiment

The utility model is described in detail in the following with reference to the drawings and specific embodiments.The present embodiment is with the utility model Implemented premised on technical solution, the detailed implementation method and specific operation process are given, but the guarantor of the utility model Shield range is not limited to the following embodiments.

Embodiment:

Power distribution room is equipped with cable duct 1 below ground, and cable, a kind of power distribution room as shown in Figure 1 are equipped in the cable duct 1 Drainage arrangement, including the reservoir 2 being connected below ground and with the bottom of cable duct 1 is arranged in and is arranged below ground And the blowoff basin 3 being connected with the bottom of reservoir 2, the interior float-ball type drainage mechanism different equipped with multiple height of reservoir 2, row Immersible pump 4 is equipped in pond 3.

Wherein, the bottom level of reservoir 2 is less than the bottom level of cable duct 1, and the bottom level of blowoff basin 3 is less than water storage The bottom level in pond 2.The internal diameter of blowoff basin 3 is less than the internal diameter of reservoir 2.The row of being equipped between the bottom and blowoff basin 3 of reservoir 2 Water pipe 5, float-ball type drainage mechanism are located at the top of drainpipe 5.Drainpipe 5 is inclined between reservoir 2 and blowoff basin 3.

Float-ball type drainage mechanism include the guide sleeve 7 being arranged in bracket 6 inside reservoir 2, setting on the frame 6 and Run through guide sleeve 7 and floating ball component compatible with the top of drainpipe 5 along the vertical direction.Floating ball component includes along the vertical direction Through guide sleeve 7 and be slidably connected with guide sleeve 7 guide rod 8, the floating ball 9 at the top of guide rod 8 is set and setting is being led To 8 bottom of bar and plug 10 compatible with the top of drainpipe 5.The liquidometer being electrically connected with immersible pump 4 is equipped in blowoff basin 3 11。

In practical application, the water in cable duct 1 flows into water storage when power distribution room is after rainy season intakes or level of ground water rises In pond 2, and accumulate in reservoir 2；When the water level in reservoir 2 rises to the starting of the minimum float-ball type drainage mechanism of height When water level, the top of corresponding drainpipe 5 is opened, and the water in reservoir 2 enters in blowoff basin 3, and is discharged by immersible pump 4；When Water level in reservoir 2 constantly rises, and the different float-ball type drainage mechanism of multiple height successively starts, and makes the water in reservoir 2 It is discharged into simultaneously into blowoff basin 3 by multiple drainpipes 5, avoids that ponding situation occurs.

It can understand the above description of the embodiments is intended to facilitate those skilled in the art and use practical It is novel.Person skilled in the art obviously easily can make various modifications to these embodiments, and illustrating herein General Principle be applied in other embodiments without having to go through creative labor.Therefore, the utility model is not limited to above-mentioned Embodiment, those skilled in the art's announcement according to the present utility model, do not depart from improvement that the utility model scope is made and Modification should be all within the protection scope of the utility model.

Claims (8)

1. a kind of power distribution room drainage arrangement, the power distribution room is equipped with cable duct (1) below ground, sets in the cable duct (1) There is cable, which is characterized in that the drainage arrangement includes that setting is being connected below ground and with the bottom of cable duct (1) Reservoir (2) and setting are in the blowoff basin (3) being connected below ground and with the bottom of reservoir (2), the reservoir (2) equipped with the float-ball type drainage mechanism that multiple height are different in, the blowoff basin (3) is interior to be equipped with immersible pump (4).

2. a kind of power distribution room drainage arrangement according to claim 1, which is characterized in that the bottom of the reservoir (2) Height is less than the bottom level of cable duct (1), and the bottom level of the blowoff basin (3) is less than the bottom level of reservoir (2).

3. a kind of power distribution room drainage arrangement according to claim 1, which is characterized in that the internal diameter of the blowoff basin (3) Less than the internal diameter of reservoir (2).

4. a kind of power distribution room drainage arrangement according to claim 1, which is characterized in that the bottom of the reservoir (2) Drainpipe (5) are equipped between blowoff basin (3), the float-ball type drainage mechanism is located at the top of drainpipe (5).

5. a kind of power distribution room drainage arrangement according to claim 4, which is characterized in that drainpipe (5) inclination is set It sets between reservoir (2) and blowoff basin (3).

6. a kind of power distribution room drainage arrangement according to claim 4, which is characterized in that the float-ball type drainage mechanism packet It includes the guide sleeve (7) being arranged in the internal bracket (6) of reservoir (2), setting on bracket (6) and runs through along the vertical direction and lead To set (7) and floating ball component compatible with the top of drainpipe (5).

7. a kind of power distribution room drainage arrangement according to claim 6, which is characterized in that the floating ball component includes along perpendicular Histogram is to through guide sleeve (7) and the guide rod (8) being slidably connected with guide sleeve (7), the floating ball being arranged at the top of guide rod (8) (9) and it is arranged in guide rod (8) bottom and plug (10) compatible with the top of drainpipe (5).

8. a kind of power distribution room drainage arrangement according to claim 1, which is characterized in that be equipped in the blowoff basin (3) The liquidometer (11) being electrically connected with immersible pump (4).