CN213273239U - Automatic centralized control system for hot spring pool - Google Patents

Abstract

The application relates to an automatic centralized control system for hot spring soaking pools, which comprises an industrial personal computer, a plurality of branch control machines, and a temperature detection element and a water level detection element which are respectively arranged in each soaking pool, wherein the output end of the industrial personal computer is connected with the input ends of the plurality of branch control machines, the input ends of the branch control machines are also connected with the output ends of the temperature detection element and the water level detection element, and the output ends of the branch control machines are connected with a heating device, a water inlet valve and a water discharge valve for heating water; the temperature detection element transmits the temperature data of the bubble pool and the water level data of the bubble pool to the branch control machine in real time; when the data do not meet the preset conditions, the sub-control machine responds to the temperature detection element, the water level detection element or the industrial personal computer to control the heating device, the water inlet valve or the water discharge valve to work, so that the water temperature and the water quantity in the bubble pool are constant. This application has the effect of accurate control hot spring bubble pond temperature and water yield.

Description

Automatic centralized control system for hot spring pool

Technical Field

The application relates to the technical field of intelligent control of a bubble pool, in particular to an automatic centralized control system for a hot spring bubble pool.

Background

The hot spring pool in the hot spring resort generally needs to be operated by manual control such as water injection, water drainage, constant temperature and the like to control the water temperature and the water amount. Under the conditions of different seasons and different weather temperatures, the water temperature and the water quantity are accurately controlled, the reasonable utilization and distribution of hot spring resources are very important, the resource waste caused by improper control of hot spring water can be effectively avoided, and meanwhile, the labor cost can be greatly saved.

At present, the temperature and the water yield of hot spring bubble pond are generally through water injection, drainage and the temperature regulation in the bubble pond of artifical mode, and it can't control temperature and water yield accurately, and the control degree of difficulty is big. Meanwhile, under the conditions of different seasons and different weather, the water temperature and the water quantity are difficult to keep constant.

In view of the above-mentioned related art, the inventor believes that there is a defect that the control is not accurate enough when the water temperature and the water amount of the thermal spring pool are manually controlled.

Disclosure of Invention

In order to the temperature and the water yield of accurate control hot spring bubble pond, this application provides the automatic centralized control system in hot spring bubble pond.

The application provides an automatic centralized control system in hot spring bubble pond adopts following technical scheme:

the automatic centralized control system for the hot spring foam pool comprises an industrial personal computer, a plurality of branch control machines, and a temperature detection element and a water level detection element which are respectively arranged in each foam pool, wherein the output end of the industrial personal computer is connected with the input ends of the branch control machines, the input ends of the branch control machines are also connected with the temperature detection element and the output end of the water level detection element, and the output ends of the branch control machines are connected with a heating device, a water inlet valve and a water drainage valve for heating water;

the temperature detection element transmits the temperature data of the bubble pool and the water level data of the bubble pool to the branch control machine in real time;

when the data do not meet the preset conditions, the branch control machine responds to the temperature detection element, the water level detection element or the industrial personal computer to control the heating device, the water inlet valve or the water discharge valve to work, so that the water temperature and the water quantity in the bubble pool are constant.

By adopting the technical scheme, the temperature detection element and the water level detection element in each bubble pool respectively detect the temperature data and the water level data in the bubble pool and transmit the data to the branch control machine in real time, so that the branch control machine is facilitated to monitor the water temperature and water quantity conditions in the bubble pool; the industrial personal computer monitors the data condition acquired by the branch control machine in real time so as to indirectly acquire the water temperature and water quantity condition in each bubble pool, thereby being beneficial to centralized management of the bubble pools; when the data do not meet the preset conditions, the sub-control machine responds to the temperature detection element, the water level detection element or the industrial personal computer and controls the heating device, the water inlet valve or the water discharge valve to work so as to ensure that the water temperature and the water quantity in the bubble pool are constant; and then the automatic centralized control system in hot spring bubble pond is more accurate to the control of temperature and water yield, also is convenient for centralized management control bubble pond's temperature and water yield, and it is more convenient to operate.

Optionally, the soaking pool is communicated with a cold water pipe, a hot water pipe and a constant temperature water pipe, and the water inlet valve is arranged on the cold water pipe, the hot water pipe and the constant temperature water pipe;

when the detection signal of the temperature detection element does not meet the preset temperature value, the sub-controller controls water inlet valves arranged on the cold water pipe and the hot water pipe to be opened, and cold hot spring water and hot spring water are injected into the foaming pool until the water temperature in the foaming pool reaches the preset temperature value;

when the detection signal of the water level detection element does not meet the preset water level value, the sub-controller controls the water inlet valve arranged on the constant-temperature water pipe to be opened or the water discharge valve to be opened, and constant-temperature hot spring water is injected into the bubble pool or the hot spring water in the bubble pool is discharged until the water level in the bubble pool reaches the preset water level value.

By adopting the technical scheme, the water inlet valve is controlled to act, cold water is injected into the bubble pool by controlling the cold water pipe, hot water is injected into the bubble pool by the hot water pipe, so that the water temperature in the bubble pool meets the preset condition, and the constant control of the water temperature in the bubble pool is realized; the water inlet valve or the water discharge valve of the constant-temperature water pipe is controlled to be opened, so that the water quantity in the foam pool is supplemented, the water level in the foam pool meets the preset condition, and the constant control of the water quantity in the foam pool is realized.

Optionally, the industrial computer is also electrically connected with a drainage button, and the industrial computer responds to the drainage button and controls the branch control machine to indirectly control the drainage valve to be opened.

Through adopting above-mentioned technical scheme, the industrial computer responds to the drainage button, and the control divides the accuse machine indirect control drainage valve to open to with the help of the waste water of draining button key row in the bubble pond, convenient operation.

Optionally, the industrial computer is also electrically connected with an electronic screen.

By adopting the technical scheme, the electronic screen is used for displaying the monitored bubble pool data, is visual and vivid and is also beneficial to the control operation of managers.

Optionally, each sub-controller controls at least one bubble pool.

By adopting the technical scheme, each branch control machine controls at least one bubble pool, so that more bubble pools can be controlled by means of the branch control machine, centralized management of the bubble pools is facilitated, and the design cost is saved.

Optionally, there are at least three water inlet valves in each bubble pool.

By adopting the technical scheme, at least three water inlet valves are arranged in each bubble pool to respectively control cold water, hot water and constant-temperature water to be injected into the bubble pools, the number of the water inlet valves can be selected according to actual requirements to control the water inlet speed, and the design is flexible.

Optionally, when the pipe diameters of the cold water pipe, the hot water pipe and the constant temperature water pipe are the same, the number of the drainage valves in each bubble pool is more than that of the water inlet valves.

Through adopting above-mentioned technical scheme, when bubble pond needs the drainage, the quantity of drainage valve is more than the quantity of inlet valve, is favorable to discharging the water in the pond to the greatest extent more fast, does benefit to the quick drainage in bubble pond.

Optionally, the heating device includes an electric heating pump, an electromagnetic heater, a heating cable, a heating tube and a heat exchanger.

By adopting the technical scheme, various heating devices can be used for increasing the water temperature of the bubble pool, and a proper heating device can be selected according to actual conditions, so that the design is more flexible.

In summary, the present application includes at least one of the following beneficial technical effects:

the automatic centralized control system for the hot spring pool is more accurate in controlling the water temperature and the water quantity, centralized management and control of the water temperature and the water quantity of the pool are facilitated, and the operation is more convenient.

Drawings

Fig. 1 is a block diagram of an automated centralized control system for spa pools, according to an embodiment of the present disclosure.

Detailed Description

In order to make the objects, technical solutions and advantages of the present application more apparent, the present application is further described in detail below with reference to fig. 1 and the embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the present application and are not intended to limit the present application.

The embodiment of the application discloses automatic centralized control system of hot spring pool. Referring to fig. 1, the automatic centralized control system for the hot spring bubble pool comprises an industrial personal computer, a plurality of branch control machines, a temperature detection element, a water level detection element, a heating device for heating water, a water inlet valve and a water discharge valve, wherein the temperature detection element, the water level detection element, the water inlet valve and the water discharge valve are respectively arranged in each bubble pool, the industrial personal computer is in wired connection with the plurality of branch control machines, the input ends of the branch control machines are in wireless connection with the temperature detection element and the output ends of the water level detection element, and the output ends of the branch control machines are in.

The industrial personal computer is used for receiving the output signal of the branch control machine and inputting a control signal to the branch control machine.

The branch control machine is used for responding to the industrial personal computer, the temperature detection element or the water level detection element so as to control the water temperature and the water quantity of the bubble pool. Each branch control machine controls at least one bubble pool, so that more bubble pools can be controlled by the branch control machine, centralized management of the bubble pools is facilitated, and design cost is saved.

The temperature detection element may be a temperature sensor for detecting a temperature value in the bubble tank in real time.

The water level detecting element may be a liquid level sensor for detecting a water level value in the bubble tank in real time.

The heating device comprises an electric heating pump, an electromagnetic heater, a heating cable, a heating pipe and a heat exchanger, and is used for increasing the water temperature of the bubble pool, wherein the electric heating pump is driven by a servo motor, the heating device is various, and the appropriate heating device can be selected according to actual conditions, so that the control system is more flexible in design and stronger in applicability.

The bubble pond intercommunication cold water pipe, hot-water line and thermostatted water pipe, cold water pipe provide cold hot spring water to the bubble pond, and the hot-water line provides hot spring water to the bubble pond, and the thermostatted water pipe provides the thermostatted spring water that the temperature is invariable default to the bubble pond.

The water outlets of the cold water pipe, the hot water pipe and the constant-temperature water pipe can be multiple, at least three water inlet valves are arranged in each soaking pool, the number of the water inlet valves can be selected according to actual needs, and the design is flexible. In this embodiment, the cold water pipe, the hot water pipe and the constant temperature water pipe have one water outlet, and the number of water inlet valves of each soaking pool is three.

And each water inlet valve is respectively arranged at the communication position of the cold water pipe and the bubble pool, the communication position of the hot water pipe and the bubble pool and the communication position of the constant-temperature water pipe and the bubble pool, and is arranged according to the corresponding pipe diameter and well subjected to waterproof treatment. The valve at the communication position of the cold water pipe and the soaking pool is a cold water pipe valve. The valve at the communication position of the hot water pipe and the bubble pool is a hot water pipe valve. The valve at the communication position of the constant temperature water pipe and the bubble pool is a constant temperature water pipe valve.

The drain valve is arranged at the position of the water outlet of the bubble pool. When the pipe diameter homogeneous phase of cold water pipe, hot-water line and thermostatic water pipe is the same, the quantity of the water discharge valve in every bubble pond is more than the quantity of inlet valve to when the bubble pond needs the drainage, can be more rapidly with the row of water in the pond to exhaust, and then do benefit to the quick drainage in bubble pond.

When the detection signal of the temperature detection element does not meet the preset temperature value, the sub-controller responds to the detection signal of the temperature detection element to control the opening and closing degree of the cold water pipe valve and the opening and closing degree of the hot water pipe valve, at the moment, the cold water pipe injects cold hot spring water into the bubble pool, and the hot water pipe injects hot spring water into the bubble pool until the set temperature required by the primary water injection business of the bubble pool is reached.

When the detection signal of the water level detection element does not meet the preset water level value, the sub-control machine responds to the detection signal of the water level detection element, controls the opening and closing degree of the valve of the constant-temperature water pipe to intelligently control the water yield of the constant-temperature water pipe or controls the opening of the drainage valve, and then injects constant-temperature hot spring water into the bubble pool or discharges the hot spring water in the bubble pool until the set water yield of the hot spring operation of the bubble pool is reached.

The industrial computer is electric connection still has the drainage button, and the industrial computer is responded to the drainage button, and the control divides the indirect control drainage valve of accuse machine to open to the waste water in the bubble pond is arranged to the drainage button with the help of the industrial computer connection, and this drainage operation can be accomplished at the computer lab office, convenient operation.

The industrial computer is also electrically connected with an electronic screen for displaying the temperature and water level data of the monitored bubble pool, is visual and vivid, and is also beneficial to management personnel to carry out control operation.

The implementation principle of the automatic centralized control system for the hot spring pool in the embodiment of the application is as follows: temperature values and water level values required by the foam pool are preset in the branch control machine.

The temperature detection element transmits the temperature data of the bubble pool to the branch control machine in real time, and the water level detection element transmits the water level data of the bubble pool to the branch control machine in real time.

When the detection signal of the temperature detection element does not meet the preset temperature value, the sub-controller controls the opening and opening degree of the cold water pipe valve and the opening and opening degree of the hot water pipe valve, at the moment, the cold water pipe injects a preset amount of cold hot spring water into the bubble pool, and the hot water pipe injects a preset amount of hot spring water into the bubble pool until the preset temperature meeting the initial water injection business requirement of the bubble pool is reached.

When the detection signal of the temperature detection element is lower than the preset temperature value, the sub-control machine can also control the heating device to start to work, so that the water in the bubble pool is heated and heated until the water temperature in the bubble pool reaches the preset temperature value.

When the detection signal of the water level detection element does not meet the preset water level value, the branch control machine can control the opening and closing degree of the valve of the constant-temperature water pipe so as to intelligently control the water yield of the constant-temperature water pipe or control the opening of the drainage valve, and then constant-temperature hot spring water is injected into the bubble pool or the hot spring water in the bubble pool is discharged until the set water yield of the operation of the hot spring of the bubble pool is reached.

Meanwhile, managers monitor the temperature data and the water level data of the bubble pools in real time by means of an electronic screen of the industrial personal computer, and then manage and control the multiple bubble pools based on the sub-control machines, so that centralized management of the bubble pools is facilitated.

When a manager presses a drainage key, the industrial personal computer receives a trigger signal and inputs an action signal to the sub-control machine, and the sub-control machine responds to the action signal of the industrial personal computer and controls the drainage valve to be opened so as to drain the wastewater in the bubble pool by one key.

And then the automatic centralized control system in hot spring bubble pond is more accurate to the control of temperature and water yield, also is convenient for centralize the temperature and the water yield of management control each bubble pond, and it is more convenient to operate.

The foregoing is a preferred embodiment of the present application and is not intended to limit the scope of the application in any way, and any features disclosed in this specification (including the abstract and drawings) may be replaced by alternative features serving equivalent or similar purposes, unless expressly stated otherwise. That is, unless expressly stated otherwise, each feature is only an example of a generic series of equivalent or similar features.

Claims (8)

1. Automatic centralized control system in hot spring bubble pond, its characterized in that: the device comprises an industrial personal computer, a plurality of branch control machines, and a temperature detection element and a water level detection element which are respectively arranged in each bubble pool, wherein the output end of the industrial personal computer is connected with the input ends of the branch control machines, the input ends of the branch control machines are also connected with the output ends of the temperature detection element and the water level detection element, and the output ends of the branch control machines are connected with a heating device for heating water, a water inlet valve and a water discharge valve;

the temperature detection element transmits the temperature data of the bubble pool and the water level data of the bubble pool to the branch control machine in real time;

when the data do not meet the preset conditions, the branch control machine responds to the temperature detection element, the water level detection element or the industrial personal computer to control the heating device, the water inlet valve or the water discharge valve to work, so that the water temperature and the water quantity in the bubble pool are constant.

2. The spa pool automated centralized control system of claim 1, wherein: the soaking pool is communicated with the cold water pipe, the hot water pipe and the constant-temperature water pipe, and the water inlet valve is arranged on the cold water pipe, the hot water pipe and the constant-temperature water pipe;

when the detection signal of the temperature detection element does not meet the preset temperature value, the sub-controller controls water inlet valves arranged on the cold water pipe and the hot water pipe to be opened, and cold hot spring water and hot spring water are injected into the foaming pool until the water temperature in the foaming pool reaches the preset temperature value;

when the detection signal of the water level detection element does not meet the preset water level value, the sub-controller controls the water inlet valve arranged on the constant-temperature water pipe to be opened or the water discharge valve to be opened, and constant-temperature hot spring water is injected into the bubble pool or the hot spring water in the bubble pool is discharged until the water level in the bubble pool reaches the preset water level value.

3. The spa pool automated centralized control system of claim 1, wherein: the industrial computer is also electrically connected with a drainage key, and the industrial computer responds to the drainage key and controls the branch control machine to indirectly control the drainage valve to be opened.

4. The spa pool automated centralized control system of claim 1, wherein: the industrial computer is also electrically connected with an electronic screen.

5. The spa pool automated centralized control system of claim 1, wherein: each sub-controller controls at least one bubble pool.

6. The spa pool automated centralized control system of claim 2, wherein: at least three water inlet valves are arranged in each bubble pool.

7. The spa pool automated centralized control system of claim 2, wherein: when the pipe diameters of the cold water pipe, the hot water pipe and the constant-temperature water pipe are the same, the number of the drainage valves in each soaking pool is more than that of the water inlet valves.

8. The spa pool automated centralized control system of claim 1, wherein: the heating device comprises an electric heating pump, an electromagnetic heater, a heating cable, a heating pipe and a heat exchanger.

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