CN211115023U

CN211115023U - Constant-temperature movable swimming pool heated by electromagnetic induction

Info

Publication number: CN211115023U
Application number: CN201921661212.9U
Authority: CN
Inventors: 钟然标
Original assignee: Guangzhou Hotpool Sanitary Ware Co ltd
Current assignee: Guangzhou Hotpool Sanitary Ware Co ltd
Priority date: 2019-10-07
Filing date: 2019-10-07
Publication date: 2020-07-28
Anticipated expiration: 2029-10-07

Abstract

An electromagnetic induction heating constant-temperature movable swimming pool comprises a cylinder body, a circulating water path and a heating device, wherein the circulating water path is sequentially connected with a water inlet pipeline, a heat conducting pipeline, a water outlet, a water storage tank, a water outlet and a drainage pipeline, and a water pump is arranged in the water inlet pipeline; the heating device comprises an operation panel, a high-frequency power converter and an insulating tube, wherein a control circuit is arranged in the operation panel and is electrically connected with the operation panel and the high-frequency power converter, the insulating tube is sleeved on the heat conducting pipeline, an electromagnetic coil is sleeved on the outer surface of the insulating tube and is connected in series and connected with the high-frequency power converter, and the heating device further comprises a first electromagnetic valve, a second electromagnetic valve and a third electromagnetic valve. The utility model makes the hot water supply mode of the swimming pool more convenient and fast through the swimming pool heating device, and realizes the constant temperature of the water in the swimming pool; furthermore, the utility model discloses it is whole portable, the installation is more simple and easy convenient.

Description

Constant-temperature movable swimming pool heated by electromagnetic induction

Technical Field

The utility model relates to a bathroom equipment field, especially an electromagnetic induction heating's constant temperature removes swimming pool.

Background

In the prior art, a bathtub and a small swimming pool generally use a gas water heater for supplying hot water, and meanwhile, a gas bottle or a gas pipeline and an exhaust pipeline are required to be matched. In some use scenes, a user does not always have the condition of installing a gas pipeline and an exhaust pipeline, and the gas of the gas bottle is easy to consume, so that the gas bottle is frequently replaced after being used for a long time. In summary, the conventional hot water supply is cumbersome to install, use, and maintain.

SUMMERY OF THE UTILITY MODEL

In order to overcome the above-mentioned shortcoming of prior art, the utility model provides an electromagnetic induction heating's constant temperature removes swimming pool aims at improving the convenience of hot water supply.

The utility model provides a technical scheme that its technical problem adopted is: an electromagnetic induction heating constant temperature movable swimming pool comprises a cylinder body, a circulating water path and a heating device,

the circulating water path is sequentially connected with a water inlet pipeline, a heat conducting pipeline, a water outlet arranged on the inner side wall of the cylinder body, a water storage tank arranged in the cylinder body, a water outlet arranged on the inner side wall of the cylinder body and a water discharging pipeline, a water pump is arranged in the water inlet pipeline, and the heat conducting pipeline is made of metal materials;

the cylinder body is provided with an overflow port arranged at the top end of the inner side wall and an overflow pipeline arranged in the cylinder body, one end of the overflow pipeline is communicated with the overflow port, and the other end of the overflow pipeline is communicated with a drainage pipeline;

heating device includes operating panel, high frequency power converter, insulating tube, heating device's top surface is arranged in to operating panel, be equipped with control circuit in the operating panel, control circuit and operating panel, high frequency power converter electric connection, insulating tube covers on locating the heat conduction pipeline, the cover is equipped with solenoid on the surface of insulating tube, solenoid establishes ties, and solenoid both ends switch on high frequency power converter respectively, heating device still include with control circuit electric connection's first solenoid valve, second solenoid valve, third solenoid valve, first solenoid valve both ends switch on with outlet conduit, heat conduction pipeline respectively, the second solenoid valve switches on with the inlet channel, third solenoid valve both ends switch on with drainage pipe, inlet channel respectively.

As a further improvement of the utility model: the bottom of the inner side wall of the cylinder body is provided with a temperature sensor.

As a further improvement of the utility model: and a liquid level sensor is arranged on the inner side wall of the cylinder body close to the top.

As a further improvement of the utility model: the water outlet pipeline, the water drainage pipeline and the water inlet pipeline are detachable plastic pipelines.

As a further improvement of the utility model: the drainage electromagnetic valve is characterized by further comprising a drainage electromagnetic valve and a drainage pipeline, wherein the drainage pipeline is communicated with the drainage pipeline, and two ends of the drainage electromagnetic valve are respectively communicated with the drainage pipeline and the drainage pipeline.

Compared with the prior art, the beneficial effects of the utility model are that: the utility model makes the hot water supply mode of the swimming pool more convenient and fast through the swimming pool heating device, and realizes the constant temperature of the water in the swimming pool; the utility model discloses a swimming pool formula swimming pool as an organic whole, it is more convenient, simple and easy to install.

Drawings

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

Detailed Description

The invention will now be further described with reference to the accompanying drawings, in which:

referring to fig. 1, an electromagnetic induction heating constant temperature movable swimming pool comprises a cylinder 203, a circulating water path, a heating device 300,

the circulating water path is sequentially connected with a water inlet pipeline 111, a heat conduction pipeline 114, a water outlet pipeline 115, a water outlet 206 arranged on the inner side wall of the cylinder body, a water storage tank 210 arranged in the cylinder body, a water outlet 205 arranged on the inner side wall of the cylinder body and a water outlet pipeline 116, a water pump 120 is arranged in the water inlet pipeline, and the heat conduction pipeline 114 is made of metal;

the cylinder body is provided with an overflow port 310 arranged at the top end of the inner side wall and an overflow pipeline 311 arranged in the cylinder body, one end of the overflow pipeline 311 is communicated with the overflow port 310, and the other end of the overflow pipeline 311 is communicated with the drainage pipeline 116;

the heating device 300 comprises an operation panel 102, a high-frequency power converter 101 and an insulating tube 103, wherein the operation panel 102 is arranged on the top surface of the heating device 300, a control circuit is arranged in the operation panel, the control circuit is electrically connected with the operation panel 102 and the high-frequency power converter 101, the insulating tube 103 is sleeved on the heat conducting pipeline 114, and an electromagnetic coil is sleeved on the outer surface of the insulating tube 103

104, the electromagnetic coils 104 are connected in series, two ends of the electromagnetic coils 104 are respectively connected with the high-frequency power converter 101, the heating device 300 further comprises a first electromagnetic valve 106, a second electromagnetic valve 107 and a third electromagnetic valve 108 which are electrically connected with the control circuit, two ends of the first electromagnetic valve 106 are respectively connected with the water outlet pipeline 115 and the heat conducting pipeline 114, the second electromagnetic valve 107 is connected with the water inlet pipeline 111, and two ends of the third electromagnetic valve 108 are respectively connected with the water outlet pipeline 116 and the water inlet pipeline 111.

In operation, a user activates the heating device 300 via the control panel 102. The control circuit controls the first electromagnetic valve 106, the second electromagnetic valve 107, the third electromagnetic valve 108, the water pump 120, the drain electromagnetic valve 109 and the high-frequency power converter 101 to start and stop. After the second solenoid valve 107 is opened, the fresh water flows into the water inlet pipe 111, is added by the water pump 120 in operation, and flows into the heat conducting pipe 114. The heat conducting pipeline 114 is arranged in the heating device in a winding and folding manner, and is mainly used for increasing the length of the heat conducting pipeline, so that the heating time of the clean water in the pipeline is increased, and the heating is more sufficient. An insulating tube 103 is sleeved on the heat conduction pipeline 114, the insulating tube is a heat-resistant insulating ceramic tube, and a plurality of groups of electromagnetic coils 104 connected in series are sleeved on the outer surface of the insulating tube 103. The two ends of the electromagnetic coil are respectively connected with a high-frequency power converter 101, the high-frequency power converter 101 is a conventional electric device widely used in induction heating equipment such as an electromagnetic oven, and the high-frequency power converter 101 in operation rectifies an input power supply into direct current, and then inverts the direct current into high-frequency alternating current to be output to the electromagnetic coil 104. When a high frequency ac current flows through the electromagnetic coil 104, the electromagnetic coil 104 generates an alternating magnetic field, and the heat conducting pipe 114 made of metal material rapidly heats up because the metal heat conducting pipe is located in the alternating magnetic field and cuts the magnetic field lines. The heat-conducting pipe 114 for heating has flowing clear water therein, so that the heat of the heat-conducting pipe 114 is transferred to the clear water to complete the heat energy transfer, thereby heating the clear water. The insulating tube 103 is mainly used for directly contacting the heat conducting pipeline 114 made of an insulating metal material with the electromagnetic coil 104, further water and electricity are isolated, and the phenomenon that the pipeline leaks water to cause a circuit short circuit or the heating device 300 leaks electricity after long-term use is avoided. The heated fresh water flows through the first solenoid valve 106, which is open, and the water outlet 206, into the reservoir 210. The hot fresh water flows into the reservoir 210 to start storing water under the pressure increase of the water pump 120. The liquid level sensor 202 is arranged on the inner side wall of the cylinder body close to the top, and when the water level reaches the liquid level sensor 202, the liquid level sensor 202 senses the change of the water level and generates a signal to be sent to the control circuit. The control circuit controls the third electromagnetic valve 108 to be opened, controls the drain electromagnetic valve 109 to be closed, controls the second electromagnetic valve 107 to be closed and stops water inflow. The water with higher temperature flows from the water outlet 205 at the bottom of the inner wall of the cylinder body, through the water outlet pipe 116, and flows into the heat conducting pipe 114 connected with the water outlet pipe, and the heat conducting pipe 114 continuously heats the water in the pipe, thereby completing the water circulation of the heating device 300 and the swimming pool.

The cylinder 203 is provided with an overflow port 310 arranged at the top end of the inner side wall and an overflow pipeline 311 arranged in the cylinder, one end of the overflow pipeline 311 is communicated with the overflow port 310, and the other end is communicated with the drainage pipeline 116. When the liquid level sensor 202 fails, the second electromagnetic valve 107 is kept open, and the water inlet pipe 111 continuously feeds water. By providing the overflow port 310 and the overflow pipe 311, the water overflowing the outside of the tank body flows into the water inlet/outlet pipe 116 through the overflow pipe 311 from the overflow port 310, thereby preventing the pool water from overflowing the outside of the tank body 203 and affecting the surrounding environment of the swimming pool.

In addition, the bottom of the inner side wall of the cylinder body is provided with a temperature sensor 201. The temperature sensor 201 is electrically connected to the control circuit and is mainly used for monitoring the temperature of the water in the reservoir 210. When the temperature of the water in the water reservoir 210 is lower than the preset value, the water circulation and heating device 300 continuously operates to continuously heat the water in the water reservoir 210. When the temperature of the water in the reservoir 210 is equal to or higher than a preset value, the temperature sensor 201 generates a signal to the control circuit, the control circuit controls the water pump 120 to stop operating and pressurizing, the high-frequency power converter 101 stops outputting current, the first electromagnetic valve 106 and the third electromagnetic valve 108 are closed, and the water circulation heating is stopped, so that the constant temperature control is realized.

The utility model discloses still include drainage solenoid valve 109, sewage pipes 112 and drainage pipe 116 switch-on, drainage solenoid valve 109 both ends respectively with drainage pipe 116, sewage pipes 112 switch-on, drainage solenoid valve 109 and control circuit electric connection. When the user stops using the utility model discloses, open the blowdown switch through operating panel 102, drainage solenoid valve 109 is opened, and third solenoid valve 108 is closed, thereby the water in the cistern 210 flows into sewage pipes 112 through outlet 205, drainage pipe 116 and discharges the utility model discloses outside.

Furthermore, the water outlet pipe 115, the water discharge pipe 116, the sewage discharge pipe 112 and the water inlet pipe 111 are detachable plastic pipes, and the concrete mode is that one end of each pipe is bonded with a threaded pipe socket through a bonding agent, the other pipe is bonded with a matched threaded pipe socket through a bonding agent, and the pipe sockets are fixedly connected with the pipe sockets through threads. Through adopting detachable plastic conduit, make the installation of being connected of swimming pool and heating device 300, dismantle more convenient. Furthermore, because the utility model relates to an integral type swimming pool for traditional civil engineering swimming pool, the utility model discloses but the moving as a whole for the swimming pool installation is more convenient, simpler and easier, shortens installation cycle effectively.

In the description of the present invention, it should be understood that the directions or positional relationships indicated by the terms "upper end surface", "lower end surface", "top", "bottom", "inside", "outside", "above", "below", and the like are the directions or positional relationships shown in the drawings, and are only for convenience of description of the present invention, and therefore, cannot be understood as limitations on the directions of actual use of the present invention.

In conclusion, after the ordinary skilled in the art reads the document of the present invention, according to the present invention, the technical solution and technical concept of the present invention do not need creative mental labor to make other various corresponding transformation schemes, which all belong to the protection scope of the present invention.

Claims

1. The utility model provides an electromagnetic induction heating's constant temperature removes swimming pool which characterized in that: comprises a cylinder body, a circulating water path and a heating device,

2. The electromagnetic induction heated constant temperature moving swimming pool of claim 1, wherein: the bottom of the inner side wall of the cylinder body is provided with a temperature sensor.

3. The electromagnetic induction heated constant temperature moving swimming pool of claim 1, wherein: and a liquid level sensor is arranged on the inner side wall of the cylinder body close to the top.

4. The electromagnetic induction heated constant temperature moving swimming pool of claim 1, wherein: the water outlet pipeline, the water drainage pipeline and the water inlet pipeline are detachable plastic pipelines.

5. The electromagnetic induction heated constant temperature moving swimming pool of claim 1, wherein: the drainage electromagnetic valve is characterized by further comprising a drainage electromagnetic valve and a drainage pipeline, wherein the drainage pipeline is communicated with the drainage pipeline, and two ends of the drainage electromagnetic valve are respectively communicated with the drainage pipeline and the drainage pipeline.