CN214540536U - Self-adaptive water inlet control device for water tank - Google Patents

Abstract

The utility model discloses a water tank self-adaptation water inlet control device, include the inlet tube that directly connects with the water tank and set up the ultrasonic wave level gauge that is used for real-time measurement at the water tank top, set up water inlet motorised valve and remote control ball cock on the inlet tube in order, the water inlet motorised valve with through self-adaptation water inlet control system electric connection between the ultrasonic wave level gauge, self-adaptation water inlet control system is based on ultrasonic wave level gauge and water demand with the dynamic control of water level on the self-adaptation water level of water tank, the remote control ball cock controls the water level of water tank through the float lever that sets up in the water tank does not exceed the design water level; the utility model discloses a set up ultrasonic wave level gauge and the motorised valve of intaking, through the water demand of calculating the district on the basis of detecting the liquid level to the adaptive water level in the dynamic regulating reservoir, and then make the water level in the water tank can guarantee quality of water again when can satisfying the water demand.

Description

Self-adaptive water inlet control device for water tank

Technical Field

The utility model relates to a water tank technical field, concretely relates to water tank self-adaptation controlling means of intaking.

Background

In municipal water supply, a water tank is generally provided in a community, water in a municipal water supply network is first fed into the water tank, and then water in the community is directly drawn from the water tank. For municipal water supply, the volume of the tank is generally set to meet the actual water demand for a certain period of time, but for a cell the water demand is not constant, depending on the water usage habit and the rate of occupancy.

Once the water demand is not large, but the water tank is full, the water in the water tank can be used up in a long time, and the municipal water supply can deteriorate after being stored in the water tank for a long time, even the taste is influenced or other uncontrollable factors exist. Because the water demand is dynamically changing, it is difficult to meet the requirements of water level control by manual means. Therefore, the water demand of the cell in a certain time period needs to be calculated based on the water level change in the water tank, and the actual water level of the water tank needs to be dynamically and flexibly adjusted (for convenience of explanation, the water level is referred to as an adaptive water level). However, in the prior art, there is no relevant technical solution for adaptive water level adjustment, and in the prior art, there is only how to detect the water level, but there is no relevant technical solution how to adjust the water level to meet the aforementioned requirement after obtaining the water level.

Disclosure of Invention

An object of the utility model is to provide a water tank self-adaptation controlling means of intaking to the technical problem that the water level can not adapt to district developments water demand among the solution prior art.

In order to solve the above technical problem, the utility model particularly provides the following technical scheme:

a self-adaptive water inlet control device of a water tank comprises a water inlet pipe directly connected with the water tank and an ultrasonic liquid level meter arranged at the top of the water tank and used for measuring the water level of the water tank in real time;

the water inlet pipe is sequentially provided with a water inlet electric valve and a remote control ball float valve, the water inlet electric valve is electrically connected with the ultrasonic liquid level meter through a self-adaptive water inlet control system, and the self-adaptive water inlet control system dynamically controls the water level on the self-adaptive water level of the water tank based on the ultrasonic liquid level meter and the water demand;

the remote control ball float valve controls the water level of the water tank not to exceed the designed water level through a floating rod arranged in the water tank.

Further, the ultrasonic liquid level meter transmits the water level of the water tank measured in real time to the self-adaptive water inlet control system, and the self-adaptive water inlet control system opens the water inlet electric valve to supply water to the water tank at regular time and in a staggered mode according to the change rule of the water level of the water tank.

Further, the adaptive water inlet control system comprises:

the water level receiving module is used for receiving a sensing signal of the ultrasonic liquid level meter;

the conversion module is used for converting the sensing signal received by the water level receiving module into the water level of the water tank;

the analysis module analyzes and calculates the water consumption rule of the demand according to the water level converted by the conversion module in real time and calculates and determines the self-adaptive control water level;

and the analysis module is used for sending an opening or closing electric signal to the water inlet electric valve according to the self-adaptive control water level calculated by the analysis module and the sensing signal of the ultrasonic liquid level meter.

Further, the adaptive control water level is smaller than the design water level.

Compared with the prior art, the utility model following beneficial effect has:

the utility model discloses a set up ultrasonic wave level gauge and the motorised valve of intaking, through calculating the water demand of district in a period on the basis of detecting the liquid level to the adaptive water level in the dynamic regulating tank, and then make the water level in the water tank can guarantee quality of water again when can satisfying the water demand, guarantee user's water safety.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below. It should be apparent that the drawings in the following description are merely exemplary, and that other embodiments can be derived from the drawings provided by those of ordinary skill in the art without inventive effort.

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

fig. 2 is a block diagram of the adaptive water inlet control system according to the embodiment of the present invention.

The reference numerals in the drawings denote the following, respectively:

1-a water tank; 2-water inlet pipe; 3-ultrasonic liquid level meter; 4-water inlet electric valve; 5-remote control float valve; 6-self-adaptive water inlet control system; 7-a floating rod;

601-water level receiving module; 602-a conversion module; 603-an analysis module; 604-resolution module.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

As shown in FIG. 1, the utility model provides a water tank self-adaptation controlling means of intaking, include the inlet tube 2 with 1 lug connection of water tank and set up and be used for real-time measurement at 1 top of water tank the ultrasonic wave level gauge 3 of 1 water level of water tank.

In the present embodiment, the ultrasonic level meter 3 employs a non-contact type water level detection, and the present invention is not limited to this type of level meter, and the level meter that can only satisfy the water level detection can be applied. Since in this embodiment it is applied to level data, it is considered in selecting a level gauge that the gauge is capable of converting the level data into electronic data that can be recognized.

Be provided with into water motorised valve 4 and remote control ball-cock assembly 5 on the inlet tube 2 in order, the motorised valve 4 of intaking with through 6 electric connection of self-adaptation control system that intakes between the ultrasonic wave level gauge 3, self-adaptation control system 6 of intaking is in water level dynamic control based on ultrasonic wave level gauge 3 and water demand on the adaptive water level of water tank 1, remote control ball-cock assembly 5 is through setting up the control of float lever 7 in the water tank the water level of water tank 1 is no longer than the design water level.

The ultrasonic liquid level meter 3 transmits the water level of the water tank 1 measured in real time to the self-adaptive water inlet control system 6, and the self-adaptive water inlet control system 6 opens the water inlet electric valve 4 to supply water to the water tank at regular time and peak staggering according to the change rule of the water level of the water tank 1.

The floating rod 7 is displaced along with the change of the water level height of the water tank 1, and when the water level height of the water tank 1 exceeds the designed water level, the floating rod 7 triggers the remote control ball cock 5 about the water inlet pipe, thereby avoiding the overflow. The operating principle of the float 7 and the remote-controlled float valve 5 is similar to that of a lever, and a detailed description thereof will be omitted since the working process is well known to those skilled in the art.

The utility model discloses in, to ultrasonic wave level gauge, the motorised valve of intaking, remote control ball-cock valve, self-adaptation control system that intakes etc. do not restrict specific model, for the ease of explanation, in this embodiment, enumerate one of them specific model so that this embodiment of better explanation:

1. the ultrasonic liquid level meter adopts an FMU130 with the measuring range of 0-3 meters;

2. the water inlet electric valve is AB8E 120+ IB 4-6;

3. the remote control float valve is selected from 100X-16P;

4. the self-adaptive water inlet control system selects HS-ACS 01.

As shown in fig. 2, the adaptive water inlet control system 6 includes:

the water level receiving module 601 is used for receiving a sensing signal of the ultrasonic liquid level meter 3;

a conversion module 602, configured to convert the sensing signal received by the water level receiving module 601 into a water level of the water tank 1;

an analysis module 603, which analyzes and calculates the water consumption demand law according to the water level converted by the conversion module 602 in real time, and calculates and determines an adaptive control water level (as shown in fig. 1 b) which is smaller than the design water level (as shown in fig. 1 a);

and the analysis module 604 is used for sending an opening or closing electric signal to the water inlet electric valve 4 according to the self-adaptive control water level calculated by the analysis module 603 and the sensing signal of the ultrasonic liquid level meter 3.

The utility model discloses in come dynamic control water level change through self-adaptation control system 6 that intakes to make the water level of water tank 1 be in suitable level all the time, can enough satisfy the water demand promptly, can not save too much water again.

In addition, be provided with a plurality of outlet conduits that set up side by side in the bottom of water tank 1 to be provided with the valve that is used for the control flow in every outlet conduit, when the water demand rises in the short time, and when the deposit water in the water tank 1 is not enough, come control water yield through the valve in the control outlet conduit this moment, thereby make the flow in every outlet conduit limited, in order to reach the purpose that reduces the flow and make every outlet conduit homoenergetic go out water, meanwhile, can provide the moisturizing time for the water tank moisturizing through reducing outlet flow, in order to prevent holistic lack of water.

The advantages of the invention will be illustrated below with reference to specific practical examples:

assuming that the initial occupancy rate of a newly built community is 10%, the required water obtained by the ultrasonic liquid level meter through detection and calculation of the water level is 0.1a, wherein a is the designed water level of a water supply tank of the community;

because the survival rate is lower this moment, from the water supply angle, need not fill the water tank with water this moment, can with the water level control of water tank more than 0.1a can, can guarantee the new freshness of water tank quality of water this moment for the resident can use fresh water.

After a period of time passes, the survival rate is 25% at the moment, the required water is 0.25a at the moment, if the water tank is supplied with water according to 0.1a at the moment, the required water of the cell cannot be supplied enough at the moment, but the water tank is not required to be filled with water at the moment, and the water level of the water tank can be controlled to be more than 0.25a at the moment.

When the residence rate of the community is 50% after a period of time, the required water is 0.5a, and the water supply of the water supply tank is controlled to be more than 0.5 a.

When the occupancy rate of the cell is reduced for some reasons, the occupancy rate is 30%, the required water consumption is 0.3a, and the water supply of the water supply tank should be controlled to be above 0.3 a.

As can be seen from the above setting, when the demand water of the residential area dynamically changes, the stored water in the water tank needs to be dynamically adjusted according to the demand in order to always optimize the water quality of the water supplied to the residential area.

Based on the foregoing, the utility model discloses a self-adaptation control system that intakes and the cooperation of ultrasonic wave level gauge can obtain the water demand law of district under the prerequisite of real-time supervision water tank water level variation to according to the new freshness of the actual water consumption of district water inflow in order to guarantee water tank quality of water. Additionally, the utility model discloses can stagger the water supply peak of municipal water supply pipe network and regularly supply water for the district water tank based on the water demand of district to reduce the pressure of municipal water supply pipe network and the water supply pressure of water works.

The utility model discloses in the water level through setting up remote control ball-cock assembly and float lever control water tank is no longer than the design water level to avoid excessive intaking to lead to the overflow or because trouble such as intake motorised valve leads to taking place the overflow when can not in time close the valve, if when the proruption has a power failure.

In this embodiment, based on this water tank self-adaptation controlling means of intaking to can guarantee that the district water tank can be according to the fresh degree of quality of water of the inflow of demand intelligent control water tank in order to guarantee the water tank, can also the off-peak moisturizing in addition, can prevent the overflow under the control of remote control floating ball valve, thereby make the intaking of whole water tank can be in the operation under the automatic control state.

The above embodiments are only exemplary embodiments of the present application, and are not intended to limit the present application, and the protection scope of the present application is defined by the claims. Various modifications and equivalents may be made by those skilled in the art within the spirit and scope of the present application and such modifications and equivalents should also be considered to be within the scope of the present application.

Claims (4)

1. A self-adaptive water inlet control device of a water tank is characterized by comprising a water inlet pipe (2) directly connected with the water tank (1) and an ultrasonic liquid level meter (3) arranged at the top of the water tank (1) and used for measuring the water level of the water tank (1) in real time;

a water inlet electric valve (4) and a remote control ball float valve (5) are sequentially arranged on the water inlet pipe (2), the water inlet electric valve (4) is electrically connected with the ultrasonic liquid level meter (3) through a self-adaptive water inlet control system (6), and the self-adaptive water inlet control system (6) dynamically controls the water level on the self-adaptive water level of the water tank (1) based on the ultrasonic liquid level meter (3) and the water demand;

the remote control ball float valve (5) controls the water level of the water tank (1) not to exceed a designed water level through a floating rod (7) arranged in the water tank.

2. The adaptive water inlet control device for the water tank as claimed in claim 1, wherein the ultrasonic liquid level meter (3) transmits the water level of the water tank (1) measured in real time to the adaptive water inlet control system (6), and the adaptive water inlet control system (6) opens the water inlet electric valve (4) to supply water to the water tank at regular time intervals and in a peak staggering manner according to the change rule of the water level of the water tank (1).

3. A tank adaptive inlet control device according to claim 1 or 2, characterized in that the adaptive inlet control system (6) comprises:

the water level receiving module (601) is used for receiving a sensing signal of the ultrasonic liquid level meter (3);

a conversion module (602) for converting the sensing signal received by the water level receiving module (601) into the water level of the water tank (1);

the analysis module (603) analyzes and calculates the water consumption rule according to the water level converted by the conversion module (602) in real time, and calculates and determines the self-adaptive control water level;

and the analysis module (604) is used for sending an opening or closing electric signal to the water inlet electric valve (4) according to the self-adaptive control water level calculated by the analysis module (603) and the sensing signal of the ultrasonic liquid level meter (3).

4. The adaptive water inlet control device for the water tank as claimed in claim 3, wherein the adaptive control water level is lower than the design water level.

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