CN216142097U - Simple water supply device with direct water outlet and water tower water outlet - Google Patents

Abstract

The utility model discloses a simple water supply device with direct water outlet and water outlet of a water tower, which comprises a pipe body and a liquid level control module, the liquid level control module is arranged at the upper end of the pipe body, the pipe body is provided with a water storage area, the bottom of the water storage area is provided with a water pumping module, a bidirectional water outlet valve is arranged above the water pumping module and is connected with a water inlet pipeline, the end of the water inlet pipeline is branched to form a water storage pipeline and a water outlet pipeline, the end of the water storage pipeline is connected with a floating water outlet device, so that the floating water outlet device is arranged in a water tower, the end of the water outlet pipeline is connected with a water outlet tap, a water falling one-way valve is arranged above the two-way water outlet valve, the water storage area above the water dropping one-way valve extends outwards to form a regulating pipeline, the tail end of the regulating pipeline is connected to the water storage pipeline, and a one-way pressure valve is arranged on the water storage pipeline.

Description

Simple water supply device with direct water outlet and water tower water outlet

Technical Field

The utility model belongs to the field of water supply, and particularly relates to a simple automatic water supply control device which is light in structure, easy to assemble and erect, capable of selecting direct water supply and water supply of a water tower to effectively provide irrigation or fire-fighting water, and particularly suitable for being erected and used in remote areas.

Background

Tap water is an indispensable basic resource in daily life, and no matter a building or an apartment house, a proper tap water supply pipeline is pre-erected so as to be convenient for residents to use at any time and meet the requirements on life.

However, tap water is not a natural product, but is an artificially produced product, and in consideration of practical factors, it is often installed in densely populated places or residential areas, and in the case of remote areas, it is not necessary to arrange a pipeline for tap water in advance, and therefore it is necessary to manage to take water by itself, for example, in temporary residences or agricultural irrigation places.

For the task of requiring water to be taken by oneself, a water pumping motor is usually arranged at a ground water source, and a simple pipeline configuration is combined to convey pumped water flow to a place where the water flow is needed so as to meet the requirements of users.

Alternatively, for smoother water supply, the user may install a water tower in the residence, install a motor beside the water tower, and then start the motor to pump water and inject the water into the water tower, and then supply sufficient water from the water tower.

However, with the above-described conventional structure, some problems inevitably occur. Firstly, the motor water pumping must be injected into the water tower first, the reaction is not real enough, if the water storage of the water tower is not enough, the temporary water use can be finished after waiting for a period of time, and the result of inconvenient use is easy to generate. Moreover, if the water outlet is positioned around the water source, the water flow is conveyed to a remote water tower and then flows to the water outlet, which causes no loss of energy resources and is quite uneconomical.

In addition, in order to maintain a certain water amount in the water tower, the wiring and control of the water pumping motor are specially designed to automatically supplement the water amount when the water amount is reduced, and the structure is quite complex, so that the installation and maintenance cost is inevitably increased.

Moreover, the circuit configuration of the existing structure is difficult to avoid contacting with water, and in addition, the accidents of short circuit and electric leakage are easy to occur after long-term use, the machine is damaged slightly, extra cost is generated due to maintenance, electric shock and fire accidents occur seriously, and the life safety is damaged.

Thus, although the existing structure has been used for a long time and is known by the public, the problem still remains to be solved, rather than the good design.

The inventor of the present invention can improve the structure of the water supply device, actively research and innovate the water supply device, and finally complete the simple water supply device with direct water outlet and water outlet of the water tower through long-term research and development and implementation.

SUMMERY OF THE UTILITY MODEL

In order to overcome the above disadvantages, the present invention provides a simple water supply device with direct water outlet and water outlet from a water tower, which is simple and light in structure, easy to erect, and capable of providing water required for daily life at any time.

Another objective of the present invention is to provide a simple water supply device with direct water outlet and water outlet of water tower, which can be easily used in engineering, and can supply water by selecting water tower or directly by motor according to the requirement, so as to supply water smoothly and save energy consumption.

It is still another object of the present invention to provide a simple water supply device with direct water discharge and water discharge from a water tower, which does not require a complicated circuit to be installed in the water tower, but integrates a machine body and a motor into a whole, does not contact with a water source, is easy to use or maintain, and can provide a real-time, stable and safe water environment.

In order to achieve the above object, the present invention provides a simple water supply device with direct water outlet and water outlet of a water tower, comprising: a tube and a liquid level control module;

the water storage area is arranged in the pipe body, the water pumping module is arranged at the bottom of the water storage area, a bidirectional water outlet valve is arranged above the water pumping module, and the bidirectional water outlet valve is connected with a water inlet pipeline so as to control the bidirectional water outlet valve to determine that water is directly discharged or the water is turned to the water inlet pipeline to discharge water; the tail end of the water inlet pipeline is branched to form a water storage pipeline and a water outlet pipeline, the tail end of the water storage pipeline is connected with a floating water outlet device, the floating water outlet device is arranged in a water tower, and the tail end of the water outlet pipeline is connected with a water outlet tap, so that water is stored in the water tower when the water outlet tap is closed, and water is directly supplied by the water tower or the two-way water outlet valve after the water outlet tap is opened; a water-falling one-way valve is arranged above the two-way water outlet valve to limit the water flow of the water storage area to only flow downwards to the position of the two-way water outlet valve, a regulating and controlling pipeline extends outwards from the water storage area above the water-falling one-way valve, the tail end of the regulating and controlling pipeline is connected to the water storage pipeline, and a one-way pressure valve is arranged on the regulating and controlling pipeline, so that when the water storage of the water tower rises to generate enough pressure, the water can pass through the one-way pressure valve through the water storage pipeline and enter the water storage area; and

the liquid level control module is arranged at the upper end of the pipe body to detect the water level of the water storage area, and the water pumping motor is connected and controlled to open and close the water pumping according to the height change of the water level.

Furthermore, the one-way pressure valve is an adjustable pressure valve, and the pressure for opening the one-way pressure valve can be set according to the scale of the water tower.

Furthermore, the floating water outlet device is connected to the water storage pipeline through a movable hose, and a floater is arranged on the floating water outlet device, so that the floater changes the position of the floating water outlet device along with the change of the water level of the water tower.

Furthermore, the liquid level control module comprises a starting switch, an upper floating ball is connected below the starting switch, a lower floating ball is connected below the upper floating ball, and the starting switch is a normally-closed conductive switch and is driven by the upper floating ball and the lower floating ball to be connected so as to carry out on-off control.

Furthermore, the water pumping module comprises a water pumping motor which is connected with and controls a water pumping pipeline, so that the water pumping pipeline pumps water from a water source to the pipe body.

Furthermore, the water outlet end of the two-way water outlet valve is connected with an extension water pipe to adjust the water outlet position.

Drawings

FIG. 1 is a perspective view of the structure of the present invention;

FIG. 2 is a plan view of the structure of the present invention;

FIG. 3 is a schematic view of the piping prior to operation of the present invention;

FIGS. 4 a-4 d are schematic views illustrating the pipeline status of the water tower according to the present invention during continuous water injection;

FIG. 5 is a schematic view showing the state of the pipeline when the water is continuously injected to make the upper and lower floating balls start to rise;

FIG. 6 is a schematic diagram showing the state of the pipeline when the water tower is full and the pumping operation is stopped;

FIG. 7 is a schematic view of the piping state of the present invention when the water outlet tap is performing water outlet operation;

FIG. 8 is a schematic view of the pipeline status of the present invention when the water outlet tap continues to discharge water and simultaneously injects water into the water tower; and

FIG. 9 is a schematic view of the piping for direct water outlet using the two-way water outlet valve according to the present invention.

Description of the symbols:

100: pipe body

110: water storage area

120: two-way water outlet valve

130: water inlet pipeline

131: water storage pipeline

132: water outlet pipeline

140: water-dropping one-way valve

150: regulating pipeline

160: water outlet tap

170: one-way pressure valve

180: floating water outlet device

181: flexible pipe

182: floating device

200: liquid level control module

210: starting switch

220: upper floating ball

230: lower floating ball

300: water pumping module

310: water pumping motor

320: water pumping pipeline

400: at the water source

500: water tower

Detailed Description

The following detailed description of the preferred embodiments of the present invention, taken in conjunction with the accompanying drawings, will make the advantages and features of the utility model easier to understand by those skilled in the art, and thus will clearly and clearly define the scope of the utility model.

Referring to fig. 1 to 3, the simple water supply device with direct water outlet and water outlet of the water tower of the embodiment includes: a tube 100 and a liquid level control module 200.

The tube 100 is provided with a water storage area 110 therein, a water pumping module 300 is disposed at the bottom of the water storage area 110, the water pumping module 300 includes a water pumping motor 310, the water pumping motor 310 is connected to and controls a water pumping pipeline 320, so that the water pumping pipeline 320 is inserted into a water source 400, and water is pumped from the water source 400 into the tube 100 to fill the water storage area 110.

A two-way outlet valve 120 is disposed above the water pumping module 300, the two-way outlet valve 120 is connected to a water inlet pipe 130, and the outlet direction of the two-way outlet valve 120 is controlled to determine that water is directly discharged from the outlet end of the two-way outlet valve 120 or the water is discharged from the water inlet pipe 130.

The end of the water inlet pipe 130 is branched to form a water storage pipe 131 and a water outlet pipe 132, so that the water inlet pipe 130, the water storage pipe 131 and the water outlet pipe 132 are communicated in three directions, and the end of the water storage pipe 131 is connected with a floating water outlet device 180, so that the floating water outlet device 180 is arranged in a water tower 500, and the end of the water outlet pipe 132 is connected with a water outlet tap 160; thus, when the outlet tap 160 is closed, the water outlet pipe 132 is not connected, so that the water in the water inlet pipe 130 can only be stored in the water tower 500 through the floating water outlet device 180 via the water storage pipe 131; when the outlet tap 160 is opened, the water tower 500 can provide the outlet water, or the two-way outlet valve 120 can directly provide the outlet water.

A one-way valve 140 is disposed above the two-way outlet valve 120 to limit the water flow in the water storage area 110 to only flow downward to the position of the two-way outlet valve 120, but not to directly fill water upward through the pumping pipe 320.

A regulating pipe 150 extends outwardly from the water storage area 110 above the water dropping check valve 140, the end of the regulating pipe 150 is connected to the water storage pipe 131, and a check pressure valve 170 is disposed on the regulating pipe 150, so that when the water stored in the water tower 500 rises to generate sufficient pressure, the water can pass through the check pressure valve 170 via the water storage pipe 131 and enter the water storage area 110.

The liquid level control module 200 is disposed at the upper end of the pipe 100 to detect the water level of the water storage area 110, and controls the water pumping motor 310 to open and close according to the variation of the water level.

The liquid level control module 200 is disposed at the upper end of the tube 100 to detect the water level of the water storage area 110, and controls the water pumping motor 310 to open and close the water pumping according to the variation of the water level, the liquid level control module 200 includes a start switch 210, an upper floating ball 220 is connected below the start switch 210, a lower floating ball 230 is connected below the upper floating ball 220, the start switch 210 is a normally closed conductive switch, and is driven by the upper floating ball 220 and the lower floating ball 230 to open and close.

The main feature of the present invention is that the design of the one-way pressure valve 170 is that the one-way pressure valve 170 restricts the water flow of the water storage pipeline 131 to flow only to the water storage area 110 and must reach a sufficient pressure, so that when the water tower 500 is empty, the water pressure of the water storage pipeline 131 is insufficient, and only water can be continuously injected into the water tower 500, and when the water level of the water tower 500 is gradually filled up, and the water pressure in the water tower 500 reaches a sufficient pressure value, the one-way pressure valve 170 can be opened to discharge water into the water storage area 110, and the liquid level control module 200 is further started to close the water pumping action of the water pumping motor 310, thereby completing the water replenishing operation of the water tower 500.

The one-way pressure valve 170 is an adjustable pressure valve, and the pressure for opening the one-way pressure valve 170 can be set according to the scale of the water tower 500, i.e. the small water tower 500 only needs a smaller water pressure, and the large water tower 500 needs a larger water pressure to drive, so the utility model can be applied to most of the water tower 500 engineering.

Referring to fig. 4 a-4 d and fig. 5, in order to obtain the required activation pressure of the one-way pressure valve 170, another feature of the present invention is the design of the floating water outlet device 180, the floating water outlet device 180 is connected to the water storage pipeline 131 through a movable hose 181, and a float 182 is disposed on the floating water outlet device 180, such that the float 182 changes the position of the floating water outlet device 180 along with the water level change of the water tower 500; when the water level of the water tower 500 is low, the floating water outlet device 180 is filled with water as the water level of the water tower 500 rises, and the water level of the water storage pipeline 131 is not high enough to start the one-way pressure valve 170 because the floating water outlet device 180 is located on the water surface, so that the water tower 500 can be continuously filled with water; as the water level continues to rise as the floating outlet 180 reaches the rising limit, the water storage pipe 131 gradually receives a greater water pressure due to the height difference between the floating outlet 180 and the water level, and when a sufficient pressure is reached, the water is fed back to the one-way pressure valve 170 for opening.

The rising limit of the floating outlet 180 is found by the utility model to be set at 65% of the height of the water tower 500, and when the water tower 500 rises to 90% of the height, the water pressure is enough to start the one-way pressure valve 170 to meet most of the requirements, and of course, the height is only a reference value and is not limited by the present invention.

With the above structure, the operation of the present invention will be described below.

First, referring to fig. 4a to 4d and fig. 5 to 6, the liquid level control module 200 is powered on, because there is no water stored in the water storage area 110, the upper floating ball 220 and the lower floating ball 230 are kept at the free falling position, the start switch 210 is a normally closed conductive switch to start the water pumping motor 310, and then the water pumping pipeline 320 pumps water from the water source 400 into the pipe body 100 to fill the position of the water storage area 110 below the water falling check valve 140; meanwhile, the two-way outlet valve 120 is turned to the direction of the inlet pipe 130, so that the water flow continuously pumped out is injected into the water tower 500 through the inlet pipe 130.

When the water level of the water tower 500 reaches a predetermined full level, the one-way pressure valve 170 on the regulating and controlling pipe 150 is activated due to the increase of the water pressure of the water storage pipe 131, so that the water flowing out of the water storage pipe 131 enters the water storage region 110, gradually pushes the lower floating ball 230 so as to raise the upper floating ball 220, and finally switches off the control of the start switch 210 to stop the operation of the water pumping module 300.

Referring to fig. 7 and 8, when the water outlet tap 160 is opened, the stored water in the water tower 500 flows out through the water outlet pipe 132 via the water storage pipe 131, after the water outlet tap 160 is used for a period of time, the stored water in the water tower 500 is gradually used up, according to the principle of communicating pipe, the water storage area 110 of the pipe 100 is also replenished with the water to the water outlet tap 160 via the water inlet pipe 130, at this time, the upper floating ball 220 and the lower floating ball 230 are gradually and freely dropped along with the decrease of the water level, and finally the start switch 210 is turned on again to operate the water pumping motor 310 to start the water pumping pipeline 320 to continue pumping water, so as to provide the water outlet tap 160 for use and replenish the stored water in the water tower 500 until the water outlet tap is full.

In addition, referring to fig. 9, besides the water supply from the water tower 500, the present invention also provides a direct water supply mode, which comprises turning the two-way water outlet valve 120 to the water outlet end position, at this time, the stored water in the water storage area 110 flows out from the water falling one-way valve 140, and then the upper floating ball 220 and the lower floating ball 230 turn on the start switch 210 along with the decrease of the water level, so that the water pumping motor 310 starts to pump water, and the water flow is directly output from the two-way water outlet valve 120, so that the stored water in the water tower 500 is not affected, and the water pumping module 300 directly supplies water.

An extension pipe (not shown) may be connected to the outlet end of the two-way outlet valve 120 to move the outlet to a proper position for water outlet.

The above embodiments are merely illustrative of the technical concept and features of the present invention, and the present invention is not limited thereto, and any equivalent changes or modifications made according to the spirit of the present invention should be included in the scope of the present invention.

Claims (6)

1. A simple water supply device with direct water outlet and water outlet of a water tower is characterized by comprising:

the water storage device comprises a pipe body, a water storage area is arranged in the pipe body, a water pumping module is arranged at the bottom of the water storage area, a bidirectional water outlet valve is arranged above the water pumping module and connected with a water inlet pipeline so as to control the bidirectional water outlet valve to determine that water is directly discharged or is turned to the water inlet pipeline to discharge water; the tail end of the water inlet pipeline is branched to form a water storage pipeline and a water outlet pipeline, the tail end of the water storage pipeline is connected with a floating water outlet device, the floating water outlet device is arranged in a water tower, and the tail end of the water outlet pipeline is connected with a water outlet tap, so that water is stored in the water tower when the water outlet tap is closed, and water is directly supplied by the water tower or the two-way water outlet valve after the water outlet tap is opened; a water-falling one-way valve is arranged above the two-way water outlet valve to limit the water flow of the water storage area to only flow downwards to the position of the two-way water outlet valve, a regulating and controlling pipeline extends outwards from the water storage area above the water-falling one-way valve, the tail end of the regulating and controlling pipeline is connected to the water storage pipeline, and a one-way pressure valve is arranged on the regulating and controlling pipeline, so that when the water storage of the water tower rises to generate enough pressure, the water can pass through the one-way pressure valve through the water storage pipeline and enter the water storage area; and

and the liquid level control module is arranged at the upper end of the pipe body and is used for detecting the water level of the water storage area so as to connect and control the water pumping motor to open and close the water pumping according to the height change of the water level.

2. The simplified water supply apparatus as claimed in claim 1, wherein the one-way pressure valve is an adjustable pressure valve, and the pressure for opening the one-way pressure valve is set according to the size of the water tower.

3. A simplified water supply system as defined in claim 1 wherein the floating outlet is connected to the water storage line by a flexible hose and a float is mounted on the floating outlet such that the float changes its position in response to changes in the water level of the water tower.

4. The simplified water supply apparatus as claimed in claim 1, wherein the liquid level control module comprises a start switch, an upper float is connected below the start switch, a lower float is connected below the upper float, and the start switch is a normally closed conductive switch driven by the upper float and the lower float for on/off control.

5. A simplified water supply system as claimed in claim 1 wherein the pumping module comprises a pumping motor connected to and controlling a pumping line to pump water from a water source into the tube.

6. The simplified water supply system as claimed in claim 1, wherein the outlet end of the two-way outlet valve is connected to an extension pipe for adjusting the outlet position.

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