CN206418814U - The water circulation control device of domestic portable swimming pool - Google Patents

Abstract

The utility model discloses a water circulation control device for a household portable swimming pool, which comprises a water pump, a filter, a heater, three temperature sensors, two water pressure sensors, a control circuit, and a man-machine interaction interface. The water inlet of the water pump is connected to the water outlet of the household portable swimming pool through the water pipe, the water outlet of the water pump is connected to the water inlet of the filter through the water pipe, the water outlet of the filter is connected to the water inlet of the heater through the water pipe, and the water outlet of the heater is connected to the household swimming pool through the water pipe. Inlet for portable swimming pools. The temperature sensor detects the water temperature in the pool, the water outlet pipe and the water inlet pipe. The water pressure sensor detects the water inlet water pressure and the water outlet water pressure of the filter. The output terminals of the temperature sensor and the water pressure sensor are connected with the input terminals of the control circuit. The human-computer interaction interface is connected to the control circuit; the two output ends of the control circuit are respectively connected to the control ends of the water pump and the heater. The utility model can realize the control of water temperature and water quality.

Description

Water Circulation Control Device for Home Portable Swimming Pool

technical field

The utility model relates to the technical field of water treatment, in particular to a water circulation control device for a household portable swimming pool.

Background technique

Along with the raising of people's living standards, more and more families are equipped with household portable swimming pools, which can be used for swimming for infants and for adults to bathe. The current household portable swimming pool is only a water storage tank. During use, heated water needs to be poured into the pool before use, and the dirty water in the pool needs to be discharged after use. There are two main problems in this simple household portable swimming pool: one is that due to the large capacity of the pool, it takes a long time to fill up with hot water, so that during the water filling process, a large amount of heat will be lost, making the temperature in the pool unable to reach expectations The second is that the water after use cannot be recycled, which leads to the waste of water resources and increases the cost of use.

Utility model content

The technical problem to be solved by the utility model is the problem of poor use effect and high cost of the existing household portable swimming pool, and provides a water circulation control device for the household portable swimming pool.

In order to solve the above problems, the utility model is achieved through the following technical solutions:

The water circulation control device of the home portable swimming pool, including a water pump, filter, heater, 3 temperature sensors, 2 water pressure sensors, a control circuit, and a human-computer interaction interface; the water inlet of the water pump is connected to the water outlet of the home portable swimming pool through a water pipe , the water outlet of the water pump is connected to the water inlet of the filter through the water pipe, the water outlet of the filter is connected to the water inlet of the heater through the water pipe, and the water outlet of the heater is connected to the water inlet of the household portable swimming pool through the water pipe; In the portable swimming pool; the second temperature sensor is arranged in the water pipe between the water outlet of the home portable swimming pool and the water inlet of the water pump; the third temperature sensor is arranged in the water pipe between the water outlet of the heater and the water inlet of the home portable swimming pool; the above The output ends of the three temperature sensors are all connected to the input end of the control circuit; the first water pressure sensor is set in the water pipe between the water outlet of the water pump and the water inlet of the filter; the second water pressure sensor is set at the outlet of the filter In the water pipe between the water inlet and the water inlet of the heater; the output terminals of the above two water pressure sensors are connected to the input terminals of the control circuit; the human-computer interaction interface is connected to the control circuit; the two output terminals of the control circuit are respectively connected to the water pump and heater controls.

In the solution above, the man-machine interface includes an input module and a liquid crystal display module, the output terminal of the input module is connected to the input terminal of the control circuit, and the input terminal of the liquid crystal display module is connected to the output terminal of the control circuit.

In the above solution, the human-computer interaction interface further includes an audible and visual alarm module, and the input end of the audible and visual alarm module is connected to the output end of the control circuit.

In the above solution, a leakage protection circuit is provided in the control circuit.

In the above solution, the water inlet of the water pump is detachably connected to the water outlet of the household portable swimming pool; the water outlet of the heater is detachably connected to the water inlet of the household portable swimming pool.

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

1. The utility model can realize online swimming pool water temperature control, so that the bathing water temperature can be customized according to the user's preferred temperature;

2. The utility model can ensure the water quality of the swimming pool online, is healthy and hygienic, can obtain better user experience, and can prevent waste;

3. The utility model has the characteristics of safety, reliability and convenience.

Description of drawings

Figure 1 is a schematic diagram of a water circulation control device for a household portable swimming pool.

detailed description

The water circulation control device of a household portable swimming pool, as shown in Figure 1, includes a water pump, a filter, a heater, 3 temperature sensors, 2 water pressure sensors, a control circuit, and a human-computer interface.

The water inlet of the water pump is connected to the water outlet of the household portable swimming pool through the water pipe, the water outlet of the water pump is connected to the water inlet of the filter through the water pipe, the water outlet of the filter is connected to the water inlet of the heater through the water pipe, and the water outlet of the heater is connected to the household swimming pool through the water pipe. Inlet for portable swimming pools. The water inlet of the water pump is detachably connected to the water outlet of the household portable swimming pool; the water outlet of the heater is detachably connected to the water inlet of the household portable swimming pool, so as to realize the flexible disassembly and assembly of the device and the household portable swimming pool. In the utility model, the water outlet and the water inlet of the household portable swimming pool are both arranged at the bottom of the pool body.

The temperature sensor realizes the detection of the outlet water temperature, the inlet water temperature and the water temperature in the pool. The first temperature sensor is provided in the home portable swimming pool. The second temperature sensor is arranged in the water pipe between the water outlet of the household portable swimming pool and the water inlet of the water pump. The third temperature sensor is arranged in the water pipe between the water outlet of the heater and the water inlet of the household portable swimming pool. By comparing the water temperature, the constant temperature adjustment in the pool is realized.

The water pressure sensor detects the water pressure at both ends of the filter. The first water pressure sensor is arranged in the water pipe between the water outlet of the water pump and the water inlet of the filter. The second water pressure sensor is arranged in the water pipe between the water outlet of the filter and the water inlet of the heater. When the swimming pool water passes through the filter, the dirt in the water will be trapped in the filter element of the filter, and the water flow in the filter will slow down. When the output power of the water pump remains unchanged or increases, the pressure difference between the two ends of the filter will increase. big.

The control circuitry coordinates the work of the various components of the system. The output ends of the three temperature sensors and the output ends of the two water pressure sensors are all connected to the input ends of the control circuit. The two output ends of the control circuit are respectively connected to the control ends of the water pump and the heater. The greater the output power of the water pump, the faster the water circulation speed; on the contrary, the slower the water circulation speed. The higher the output power of the heating module, the faster the heating speed of the pool water; on the contrary, the lower the output power of the heating module, the slower the heating speed of the pool water. In addition, a leakage protection circuit is provided in the control circuit.

The connection control circuit of the human-computer interaction interface. In the utility model, the human-computer interaction interface includes an input module and a liquid crystal display module, the output end of the input module is connected with the input end of the control circuit, and the input end of the liquid crystal display module is connected with the output end of the control circuit. In addition, the human-computer interaction interface also includes an audible and visual alarm module, and the input end of the audible and visual alarm module is connected with the output end of the control circuit.

The closed-loop water quality monitoring system of this device and the closed-loop water temperature monitoring system together constitute the control system of the device. By rationally designing the control priorities of these two systems, the functions of online temperature adjustment of swimming pool water and online water purification can be realized, bringing users more nice experience.

A water circulation control method for a household portable swimming pool realized by the above device, specifically includes the following steps:

Step 1. Connect the water inlet of the water pump to the water outlet of the home portable swimming pool, and connect the water outlet of the heater to the water inlet of the home portable swimming pool. At the same time, the first temperature sensor is put into the household portable swimming pool.

Step 2. Set the required constant temperature Tc and constant pressure difference Pc through the man-machine interface.

In the state of water temperature adjustment:

Step 3. The first temperature sensor collects the water temperature T1 in the portable household swimming pool in real time. The second temperature sensor collects the outlet water temperature T2 of the water pipe between the water outlet of the household portable swimming pool and the water inlet of the water pump in real time. The third temperature sensor collects in real time the water inlet temperature T3 of the water pipes between the water outlet of the heater and the water inlet of the household portable swimming pool.

Step 4. The control circuit adjusts the output power Jw of the water pump and the output power J of the heating module online according to the water temperature T1-T3 collected by the three temperature sensors. The water temperature T1 in the pool fluctuates within the allowable range of the set constant temperature Tc. Realize online adjustment of water temperature T1 in the pool. which is:

When T1<<Tc, the difference between T2 and T3 is large, and the output power Jw of the water pump and the output power J of the heating module are both rated maximum power values.

As T1 increases, the difference between T2 and T3 decreases gradually, and the output power Jw of the water pump and the output power J of the heating module both decrease gradually.

When T1>=Tc, the difference between T2 and T3 is small, the output power Jw of the water pump is the rated minimum power value, and the output power J of the heating module is 0.

In the state of water quality regulation:

Step 5. The first water pressure sensor collects the water outlet pressure P1 of the water pipe between the water outlet of the water pump and the water inlet of the filter in real time, and the second water pressure sensor collects the water outlet pressure P1 between the water outlet of the filter and the water inlet of the heater in real time. The inlet water pressure of the water pipe is P2.

Step 6. The control circuit adjusts the output power Jw of the water pump online according to the water pressure P1-P2 collected by the two water pressure sensors. Fluctuates within the allowable range to realize online adjustment of water quality in the pool. which is:

When P1-P2<<Pc, the output power Jw of the water pump is the rated maximum power value.

As P1-P2 increases, the output power Jw of the water pump decreases gradually.

When P1-P2>=Pc, the output power Jw of the water pump is 0, and a filter cleaning prompt is given through the man-machine interface.

Another water circulation control method for a household portable swimming pool implemented by the above-mentioned device specifically includes the following steps:

Step 1. Connect the water inlet of the water pump to the water outlet of the home portable swimming pool, and connect the water outlet of the heater to the water inlet of the home portable swimming pool; at the same time, put the first temperature sensor into the home portable swimming pool;

Step 2. Set the required constant pressure difference Pc and constant temperature Tc through the man-machine interface;

Step 3. The first water pressure sensor collects the water outlet pressure P1 of the water pipe between the water outlet of the water pump and the water inlet of the filter in real time, and the second water pressure sensor collects the water outlet pressure P1 between the water outlet of the filter and the water inlet of the heater in real time. The inlet water pressure P2 of the water pipe;

Step 4. The control circuit adjusts the output power Jw of the water pump online according to the water pressure P1-P2 collected by the two water pressure sensors. Fluctuates within the allowable range to realize online adjustment of water quality in the pool; namely:

When P1-P2<<Pc, the output power Jw of the pump is the rated maximum power value;

As P1-P2 increases, the output power Jw of the water pump decreases gradually;

When P1-P2>=Pc, the output power Jw of the water pump is 0, and the cleaning prompt of the filter is given through the man-machine interface;

Step 5, the first temperature sensor collects the water temperature T1 in the pool in the household portable swimming pool in real time; the second temperature sensor collects the water outlet temperature T2 of the water pipe between the water outlet of the household portable swimming pool and the water inlet of the water pump in real time; the third temperature sensor collects in real time The inlet water temperature T3 of the water pipe between the water outlet of the heater and the water inlet of the household portable swimming pool;

Step 6. The control circuit adjusts the output power Jw of the water pump and the output power J of the heating module online according to the water temperature T1-T3 collected by the three temperature sensors. The water temperature T1 in the pool fluctuates within the allowable range of the set constant temperature Tc. Realize online adjustment of water temperature T1 in the pool; that is

When T1<<Tc, the difference between T2 and T3 is large, and the output power Jw of the water pump and the output power J of the heating module are both rated maximum power values;

As T1 increases, the difference between T2 and T3 decreases gradually, and the output power Jw of the water pump and the output power J of the heating module decrease gradually;

When T1>=Tc, the difference between T2 and T3 is small, the output power Jw of the water pump is the rated minimum power value, and the output power J of the heating module is 0.

Claims (5)

1. the water circulation control device of domestic portable swimming pool, it is characterised in that：Including water pump, filter, heater, 3 Temperature sensor, 2 hydraulic pressure sensors, control circuit and human-computer interaction interface；

The water inlet of water pump connects the delivery port of domestic portable swimming pool via water pipe, and the delivery port of water pump is connected via water pipe The water inlet of filter, the delivery port of filter connects the water inlet of heater via water pipe, and the delivery port of heater is via water Pipe connects the water inlet of domestic portable swimming pool；

First temperature sensor is arranged in domestic portable swimming pool；Second temperature sensor is arranged on domestic portable swimming In water pipe between the delivery port in pond and the water inlet of water pump；Three-temperature sensor is arranged on the delivery port and family expenses of heater In the water pipe of the water inlet of portable game swimming pool；Input company of the output end of above-mentioned 3 temperature sensors with controlling circuit Connect；

First hydraulic pressure sensor is arranged in the water pipe between the delivery port of water pump and the water inlet of filter；Second hydraulic pressure is sensed Device is arranged in the water pipe between the delivery port of filter and the water inlet of heater；The output end of above-mentioned 2 hydraulic pressure sensors It is connected with the input for controlling circuit；

Company's connection control circuit of human-computer interaction interface；2 output ends of control circuit connect the control of water pump and heater respectively End.

2. the water circulation control device of domestic portable swimming pool according to claim 1, it is characterised in that：Man-machine interaction Interface includes input module and LCD MODULE, and the output end of input module is with controlling the input of circuit to be connected, liquid crystal Show the input of module with controlling the output end of circuit to be connected.

3. the water circulation control device of domestic portable swimming pool according to claim 2, it is characterised in that：Man-machine interaction Interface still further comprises sound and light alarm module, and the input of the sound and light alarm module is with controlling the output end of circuit to be connected.

4. the water circulation control device of domestic portable swimming pool according to claim 1, it is characterised in that：Control circuit It is interior to be provided with leakage protection circuit.

5. the water circulation control device of domestic portable swimming pool according to claim 1, it is characterised in that：Water pump enters The mouth of a river and the delivery port of domestic portable swimming pool are detachably connected for activity；The delivery port of heater is swum with domestic portable The water inlet in pond is detachably connected for activity.