CN213682473U - Basement drainage system - Google Patents

Abstract

The utility model relates to a basement drainage system, include: a plurality of water collection wells disposed in the basement; the water pipes are communicated with two adjacent water collecting wells; the control unit is arranged above the basement; the water pump is arranged in the water collecting well and is in communication connection with the control unit; locate in the sump pit, and communication connection in control unit's floater liquid level switch, the height position of the floater liquid level switch of a plurality of sump pits increases progressively in proper order, triggers through the liquid level in the sump pit and opens corresponding floater liquid level switch, sends the signal to control unit, triggers corresponding water pump and opens. The utility model discloses make full use of water pump and water collection well reduce the cloth pump cost. Individual pump failures do not cause water level overflow. When the drainage capacity of a certain water collecting well cannot be met, accumulated water can enter other water collecting wells through the water pipe, and therefore drainage is assisted.

Description

Basement drainage system

Technical Field

The utility model relates to a building construction field indicates a basement drainage system especially.

Background

At present, a plurality of water collecting wells are arranged in a basement, and each water collecting well is internally provided with an independent water pump and an independent pipeline and is connected to a building equipment automatic control system to perform liquid level alarm. However, drainage devices of all water collecting wells of the basement are independent, partial water pumps are probably not needed all the time, redundant devices exist, and the property maintenance cost is high in the future.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to overcome prior art's defect, provide a basement drainage system, mutual independence between the drainage device of each sump pit of solving prior art basement possibly has partial water pump not to need to use always, has unnecessary device, the big problem of property maintenance cost in the future.

The technical scheme for realizing the purpose is as follows:

the utility model provides a basement drainage system, include:

a plurality of water collection wells disposed in the basement;

the water pipes are communicated with two adjacent water collecting wells;

the control unit is arranged above the basement;

the water pump is arranged in the water collecting well and is in communication connection with the control unit;

locate in the sump, and communication connection in control unit's floater liquid level switch, a plurality of the height position of the floater liquid level switch of sump increases progressively in proper order, triggers through the liquid level in the sump to open corresponding floater liquid level switch, to control unit signals triggers corresponding water pump to open.

The basement drainage system of the utility model is further improved in that,

the bottom surface of the water pipe is higher than the bottom surface of the water collecting well.

The basement drainage system of the utility model is further improved in that,

and a plurality of water collecting wells are arranged at intervals along the bottom of the wall body of the basement.

The basement drainage system of the utility model is further improved in that,

the water level monitoring device is arranged on the water collecting well and is in communication connection with the control unit.

The basement drainage system of the utility model is further improved in that,

the water level monitoring device also comprises a liquid level alarm which is in communication connection with the water level monitor.

The utility model discloses basement drainage system's beneficial effect:

the utility model discloses a with each sump pit intercommunication, all set up floater liquid level switch in every sump pit, and floater liquid level switch's high position is different to can trigger and open the water pump that corresponds, with make full use of water pump and sump pit, reduce the cloth pump cost. And in some cases individual pump failures do not cause water level overflow. In addition, when the drainage capacity of a certain water collecting well cannot be met, accumulated water can enter other water collecting wells through the communicating pipe, and therefore drainage is assisted. When the water surface fluctuation of the water collecting well is larger, the floating ball is easily started by mistake, and the water surface fluctuation can be reduced by the drainage mode, so that the water pump can be protected more reliably.

Drawings

Fig. 1 is the schematic view of the basement drainage system of the utility model.

Detailed Description

The invention will be further explained with reference to the drawings and the specific embodiments.

Referring to fig. 1, a schematic diagram of the basement drainage system of the present invention is shown. As shown in fig. 1, the utility model discloses basement drainage system includes:

a plurality of water collection wells 20 disposed in the basement 10;

water pipes 30 communicated with two adjacent water collecting wells 20;

a control unit disposed above the basement 10;

a water pump 40 disposed in the sump 20 and communicatively connected to the control unit;

the floating ball liquid level switches are arranged in the water collecting wells 20 and are in communication connection with the control unit, the height positions of the floating ball liquid level switches of the water collecting wells 20 are sequentially increased in an increasing mode, the corresponding floating ball liquid level switches are triggered to be opened through the liquid level in the water collecting wells 20, signals are sent to the control unit, and the corresponding water pumps 40 are triggered to be opened.

As a preferred embodiment of the basement drainage system, the bottom surface of the water pipe 30 is higher than the bottom surface of the water collecting well 20. In this embodiment, when the water collecting well 20 is at a normal water level at ordinary times, the position of the pre-buried water pipe 30 is 20cm higher than the bottom surface of the water collecting well 20, so that the water level of one water collecting well 20 is higher, and when reaching the water pipe 30, the water pipe 30 is discharged into the adjacent water collecting well 20.

As a preferred embodiment of the basement drainage system, a plurality of water collecting wells 20 are arranged along the bottom of the wall of the basement 10 at intervals.

As a preferred embodiment of the basement drainage system, the basement drainage system further comprises a water level monitor disposed in the water collecting well 20 and connected to the control unit in communication. The water level can be monitored in a control unit of the duty room, so that the water level is prevented from overflowing to the ground.

As the utility model discloses a basement drainage system's a preferred embodiment still includes communication connection in water level monitor's liquid level alarm.

Specifically, the sump 20 is used for storing accumulated rainwater in the basement, so that the water pump is prevented from being started and stopped frequently, and the service life of the water pump is prolonged. And the template supports and pours concrete to form the water collecting well during the construction of the main body structure.

The water pipes 30 are used to communicate with all the water collection wells 20, and when the water level in one water collection well 20 reaches the position of the water pipe 30, the water is drained to the next water collection well 20 through the water pipe 30. The water pipe 30 needs to be pre-buried in the basement construction, and related plugging needs to be done, so that the condition that the water pipe cannot be communicated due to concrete plugging is avoided.

The water pump 40 pumps and discharges the sump 20. The water pump 40 is installed after the structure is completed and the sump 20 is cleaned. The utility model discloses still include the water pump power cabinet 41 of being connected with water pump 40, water pump power cabinet 41 and the control unit communication connection for opening according to opening of trigger signal control water pump and stopping, inspection water pump trouble, water level liquid level height etc. need install after the relevant decorative cover is accomplished to the wall.

The float level switch is a device which changes the state of the float level switch by the buoyancy of liquid to achieve the control purpose. The water pump is connected by a cable, is arranged above the liquid level, is internally provided with a switch, and when the liquid level reaches or falls to a certain height, changes the original vertical or inclined state when the floating ball liquid level switch changes, and then changes the state of the internal switch, and transmits a signal to the control unit for triggering the water pump in the water collecting well where the floating ball liquid level switch is arranged to be started so as to discharge water.

The height positions of the floating ball liquid level switches in the water collecting wells are different, when accumulated water is increased, the water level rises along with the accumulated water, and the floating ball at the lowest water level firstly provides a signal for starting the water pump; and triggering the water pump to drain.

When the first water pump can not meet the drainage of the corresponding water collecting well, the excessive water quantity in the water collecting well reaches the second water collecting well through the water pipe, and the second water pump is started. When the second water pump can not be satisfied, the starting water pumps are continuously increased until all the water pumps are started. If some water pumps are in failure and cannot be started, accumulated water continues to rise, the liquid level gives an alarm, and an alarm signal is uploaded to an on-duty room.

The utility model discloses basement drainage system's beneficial effect does:

the utility model discloses a with each sump pit intercommunication, all set up floater liquid level switch in every sump pit, and floater liquid level switch's high position is different to can trigger and open the water pump that corresponds, with make full use of water pump and sump pit, reduce the cloth pump cost. And in some cases individual pump failures do not cause water level overflow. In addition, when the drainage capacity of a certain water collecting well cannot be met, accumulated water can enter other water collecting wells through the water pipe, and therefore drainage is assisted. When the water surface fluctuation of the water collecting well is larger, the floating ball is easily started by mistake, and the water surface fluctuation can be reduced by the drainage mode, so that the water pump can be protected more reliably.

The present invention has been described in detail with reference to the embodiments shown in the drawings, and those skilled in the art can make various modifications to the present invention based on the above description. Therefore, certain details of the embodiments should not be construed as limitations of the invention, which are intended to be covered by the following claims.

Claims (5)

1. A basement drainage system, comprising:

a plurality of water collection wells disposed in the basement;

the water pipes are communicated with two adjacent water collecting wells;

the control unit is arranged above the basement;

the water pump is arranged in the water collecting well and is in communication connection with the control unit;

locate in the sump, and communication connection in control unit's floater liquid level switch, a plurality of the height position of the floater liquid level switch of sump increases progressively in proper order, triggers through the liquid level in the sump to open corresponding floater liquid level switch, to control unit signals triggers corresponding water pump to open.

2. The basement drainage system of claim 1,

the bottom surface of the water pipe is higher than the bottom surface of the water collecting well.

3. The basement drainage system of claim 1,

and a plurality of water collecting wells are arranged at intervals along the bottom of the wall body of the basement.

4. The basement drainage system of claim 1,

the water level monitoring device is arranged on the water collecting well and is in communication connection with the control unit.

5. The basement drainage system of claim 4,

the water level monitoring device also comprises a liquid level alarm which is in communication connection with the water level monitor.

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