CN219243934U - Intelligent solar water heater - Google Patents

Abstract

The utility model discloses an intelligent solar water heater, which belongs to the technical field of solar water heaters and comprises a bracket, wherein a water tank is fixed at the upper end of the bracket, and a plurality of groups of heat collecting pipes are arranged on the water tank at equal intervals; according to the utility model, the circulating reflux mechanism consisting of the circulating pipe, the electromagnetic valve, the circulating pump and the temperature probe II is arranged at the tail end of the drain pipe, when the temperature probe II detects the water temperature at the tail end of the drain pipe in use, when the detected temperature is not up to standard, the electromagnetic valve and the circulating pump are controlled to act through the control box, so that the circulating pump can reflux the residual cold water in the drain pipe into the water tank again through the circulating pipe, in the reflux process, the hot water in the water tank can be discharged, when the detected temperature is up to standard, the electromagnetic valve and the circulating pump are controlled to stop working, so that a user can immediately use the hot water without discharging the residual cold water in the drain pipe, on one hand, the water resource is saved, and on the other hand, the intelligence and the practicability of the device are improved.

Description

Intelligent solar water heater

Technical Field

The utility model relates to a water heater, in particular to an intelligent solar water heater, and belongs to the technical field of solar water heaters.

Background

Solar water heaters are devices that heat the water temperature using sunlight. Solar water heaters are divided into vacuum tube type solar water heaters and plate type solar water heaters, and the vacuum tube type solar water heaters occupy 95% of domestic market share. The vacuum tube type domestic solar water heater is formed from heat-collecting tube, water-storing tank and supporting frame, etc. and can be used for converting solar energy into heat energy, and mainly utilizes the vacuum heat-collecting tube, and utilizes the principle of hot water floating up and cold water sinking down to make water produce microcirculation so as to attain the required hot water.

The existing solar water heater absorbs solar energy through the heat collecting tube to heat water so as to provide hot water for users in the using process, but in the using process, a part of water remains in the drain pipe, so that the water remaining in the drain pipe needs to be drained first and then the hot water can be discharged when the solar water heater is used each time, on one hand, water resource waste is caused, on the other hand, the functionality of the device is lower, and the practicability of the device is affected.

Disclosure of Invention

The utility model mainly aims to provide an intelligent solar water heater.

The aim of the utility model can be achieved by adopting the following technical scheme:

the utility model provides an intelligent solar water heater, includes the support, the support upper end is fixed with the water tank, a plurality of heat collecting pipes of group are installed to equidistant on the water tank, be provided with the inlet tube on the water tank lateral wall, the inlet tube below is provided with the drain pipe, the end of drain pipe is provided with temperature probe two, the circulating pipe is installed to the end of drain pipe, the circulating pipe is close to the solenoid valve is installed to the one end of drain pipe, the circulating pipe is close to the one end of water tank is provided with the circulating pump.

Preferably, the water tank is connected with the bracket through a bolt, and the heat collecting pipe is connected with the water tank through threads.

Preferably, the water inlet pipe is connected with the water tank through threads, and the water outlet pipe is connected with the water tank through threads.

Preferably, the second temperature probe is in threaded connection with the drain pipe, one end of the circulating pipe is in threaded connection with the tail end of the drain pipe, the other end of the circulating pipe is in threaded connection with the water tank, the electromagnetic valve is in threaded connection with the circulating pipe, and the circulating pump is in flange connection with the circulating pipe.

Preferably, a first temperature probe is arranged at the inner top end of the water tank, the first temperature probe is connected with the water tank through threads, and a heating rod is connected to one side wall of the water tank through a screw.

Preferably, a control box is fixed on one side wall of the bracket, and the control box is electrically connected with the electromagnetic valve, the circulating pump, the first temperature probe, the second temperature probe and the heating rod.

The beneficial technical effects of the utility model are as follows:

according to the utility model, the circulating reflux mechanism consisting of the circulating pipe, the electromagnetic valve, the circulating pump and the temperature probe II is arranged at the tail end of the drain pipe, when the temperature probe II detects the water temperature at the tail end of the drain pipe in use, when the detected temperature is not up to standard, the electromagnetic valve and the circulating pump are controlled to act through the control box, so that the circulating pump can reflux the residual cold water in the drain pipe into the water tank again through the circulating pipe, in the reflux process, the hot water in the water tank can be discharged, when the detected temperature is up to standard, the electromagnetic valve and the circulating pump are controlled to stop working, so that a user can immediately use the hot water without discharging the residual cold water in the drain pipe, on one hand, the water resource is saved, and on the other hand, the intelligence and the practicability of the device are improved.

Drawings

FIG. 1 is a schematic view of a preferred embodiment of an intelligent solar water heater according to the present utility model;

FIG. 2 is a front cross-sectional view of a water tank in a preferred embodiment of an intelligent solar water heater according to the present utility model;

fig. 3 is a circuit block diagram of a preferred embodiment of an intelligent solar water heater according to the present utility model.

The reference numerals are explained as follows:

1-a bracket; 2-a control box; 3-a drain pipe; 4-a second temperature probe; 5-an electromagnetic valve; 6-a water inlet pipe; 7-circulating pipes; 8-a circulating pump; 9-a first temperature probe; 10-a water tank; 11-a heat collecting pipe; 12-heating rod.

Detailed Description

In order to make the technical solution of the present utility model more clear and obvious to those skilled in the art, the present utility model will be described in further detail with reference to examples and drawings, but the embodiments of the present utility model are not limited thereto.

As shown in fig. 1-3, the intelligent solar water heater provided by the embodiment comprises a bracket 1, a water tank 10 is fixed at the upper end of the bracket 1, a plurality of groups of heat collecting pipes 11 are installed on the water tank 10 at equal intervals, a water inlet pipe 6 is arranged on one side wall of the water tank 10, a water outlet pipe 3 is arranged below the water inlet pipe 6, a temperature probe two 4 is arranged at the tail end of the water outlet pipe 3, a circulating pipe 7 is installed at the tail end of the water outlet pipe 3, an electromagnetic valve 5 is installed at one end of the circulating pipe 7 close to the water outlet pipe 3, and a circulating pump 8 is arranged at one end of the circulating pipe 7 close to the water tank 10.

The water tank 10 is connected with the bracket 1 through bolts, the heat collecting pipe 11 is connected with the water tank 10 through threads, the heat collecting pipe 11 heats water through solar energy, and the water tank 10 stores hot water.

The water inlet pipe 6 is connected with the water tank 10 through threads, the water outlet pipe 3 is connected with the water tank 10 through threads, external water enters the water tank 10 through the water inlet pipe 6 for heating, and hot water is discharged through the water outlet pipe 3.

The temperature probe II 4 passes through threaded connection with drain pipe 3, circulating pipe 7 one end passes through threaded connection with drain pipe 3 end, circulating pipe 7 other end passes through threaded connection with water tank 10, solenoid valve 5 passes through threaded connection with circulating pipe 7, circulating pump 8 passes through flange joint with circulating pipe 7, when using, temperature probe II 4 detects the terminal temperature of drain pipe 3, when detecting that the temperature is not up to standard, just control solenoid valve 5 and circulating pump 8 action through control box 2, make circulating pump 8 through circulating pipe 7 with the cold water of remaining in the drain pipe 3 flow back to in the water tank 10 again, in the backward flow in-process, hot water in the water tank 10 can discharge, when detecting that the temperature is up to standard, just control solenoid valve 5 and circulating pump 8 stop work, and then can make the user use hot water immediately, need not to discharge the cold water of remaining in the drain pipe 3.

The top in the water tank 10 is provided with a temperature probe I9, the temperature probe I9 is connected with the water tank 10 through threads, a heating rod 12 is connected to one side wall in the water tank 10 through a screw, the temperature probe I9 detects the water temperature in the water tank 10, and when the weather is bad, the water can be heated in an auxiliary mode through the heating rod 12.

A control box 2 is fixed on one side wall of the bracket 1, the control box 2 is electrically connected with an electromagnetic valve 5, a circulating pump 8, a first temperature probe 9, a second temperature probe 4 and a heating rod 12, and the control box 2 controls the operation of the device.

The working principle of the device is as follows: when the device is specifically used, the device is installed, an external power supply is connected, external water is injected into the water tank 10 through the water inlet pipe 6 and is heated through the heat collecting pipe 11, when the device is used, the temperature probe II 4 detects the water temperature at the tail end of the water outlet pipe 3, when the temperature is detected to be not up to standard, the electromagnetic valve 5 and the circulating pump 8 are controlled to act through the control box 2, the circulating pump 8 returns residual cold water in the water outlet pipe 3 to the water tank 10 again through the circulating pipe 7, in the backflow process, hot water in the water tank 10 can be discharged, when the temperature is detected to be up to standard, the electromagnetic valve 5 and the circulating pump 8 are controlled to stop working, a user can immediately use the hot water without discharging residual cold water in the water outlet pipe 3, meanwhile, the temperature probe I9 detects the water temperature in the water tank 10, when the weather is bad, the auxiliary heating is carried out on the water through the heating rod 12, and the user can use the hot water at any time.

The above is merely a further embodiment of the present utility model, but the protection scope of the present utility model is not limited thereto, and any person skilled in the art will be able to apply equivalents and modifications according to the technical solution and the concept of the present utility model within the scope of the present utility model disclosed in the present utility model.

Claims (6)

1. An intelligent solar water heater, which is characterized in that: including support (1), support (1) upper end is fixed with water tank (10), equidistant on water tank (10) are installed many group's thermal-collecting tube (11), be provided with inlet tube (6) on water tank (10) a lateral wall, inlet tube (6) below is provided with drain pipe (3), the end of drain pipe (3) is provided with temperature probe two (4), circulating pipe (7) are installed to the end of drain pipe (3), circulating pipe (7) are close to solenoid valve (5) are installed to the one end of drain pipe (3), circulating pipe (7) are close to the one end of water tank (10) is provided with circulating pump (8).

2. An intelligent solar water heater according to claim 1, wherein: the water tank (10) is connected with the bracket (1) through bolts, and the heat collecting pipe (11) is connected with the water tank (10) through threads.

3. An intelligent solar water heater according to claim 2, wherein: the water inlet pipe (6) is connected with the water tank (10) through threads, and the water outlet pipe (3) is connected with the water tank (10) through threads.

4. An intelligent solar water heater according to claim 3, wherein: the temperature probe II (4) is in threaded connection with the drain pipe (3), one end of the circulating pipe (7) is in threaded connection with the tail end of the drain pipe (3), the other end of the circulating pipe (7) is in threaded connection with the water tank (10), the electromagnetic valve (5) is in threaded connection with the circulating pipe (7), and the circulating pump (8) is in flange connection with the circulating pipe (7).

5. An intelligent solar water heater according to claim 4, wherein: the top is provided with temperature probe one (9) in water tank (10), temperature probe one (9) with water tank (10) are through threaded connection, be connected with heating rod (12) through the screw on one lateral wall in water tank (10).

6. An intelligent solar water heater according to claim 5, wherein: a control box (2) is fixed on one side wall of the support (1), and the control box (2) is electrically connected with the electromagnetic valve (5), the circulating pump (8), the first temperature probe (9), the second temperature probe (4) and the heating rod (12).

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