CN209783022U - Jacket heat exchange type enamel heat storage water tank with forced circulation function - Google Patents

Abstract

The utility model discloses a jacket heat exchange type enamel heat storage water tank with forced circulation function, which comprises a heat collector and a heat storage water tank connected with the heat collector through a circulation pipeline; the heat storage water tank is provided with a control instrument with a circulating pump control function; the heat collector is electrically connected with the control instrument; the circulating pipeline is provided with a micro-circulating pump; the heat storage water tank comprises a shell, a water storage enamel liner arranged in the shell, and a heat exchange jacket clamped on the outer surface of the water storage enamel liner; a hot water outlet pipe, a cold water inlet pipe, a magnesium rod, a water temperature sensor and an electric heating pipe are arranged in the water storage enamel liner; the water temperature sensor is electrically connected to the control instrument through a signal wire; a medium outlet pipe of the heat collector is provided with a heat collecting sensor; the heat collection sensor is electrically connected with the control instrument; the utility model discloses a take forced circulation function's clamp cover heat transfer formula enamel heat storage water tank can not receive the influence of circulating line length, can guarantee sufficient hot water supply.

Description

Jacket heat exchange type enamel heat storage water tank with forced circulation function

Technical Field

The utility model relates to a take forced circulation function's clamp cover heat transfer formula enamel heat storage water tank belongs to heat storage water tank technical field.

Background

In general, the heat collector and the heat storage water tank are close to each other when installed, the length of a circulating pipeline is about 2 meters, natural circulation can be realized through medium thermal expansion, and water in the heat storage water tank is heated; however, if the water tank is far away from the heat collector, the cyclic heating cannot be realized through thermal expansion; therefore, in order to solve the above problems, it is desirable to design a jacket heat exchange type enamel heat storage water tank with a forced circulation function, which can solve the difficult problem of circulation.

SUMMERY OF THE UTILITY MODEL

In order to solve the problem, the utility model provides a take forced circulation function's clamp cover heat transfer formula enamel heat storage water tank can not receive the influence of circulating line length, can guarantee sufficient hot water supply.

The utility model discloses a jacket heat exchange type enamel heat storage water tank with forced circulation function, which comprises a heat collector and a heat storage water tank connected with the heat collector through a circulation pipeline; the heat storage water tank is provided with a control instrument with a circulating pump control function; the heat collector is electrically connected with the control instrument; the circulating pipeline is provided with a micro-circulating pump; the heat storage water tank comprises a shell, a water storage enamel liner arranged in the shell, and a heat exchange jacket clamped on the outer surface of the water storage enamel liner; a cavity for installing a heat-insulating layer is reserved between the shell and the water storage enamel inner container; a hot water outlet pipe, a cold water inlet pipe, a magnesium rod, a water temperature sensor and an electric heating pipe are arranged in the water storage enamel liner; the upper end of the hot water outlet pipe extends to the top of the water storage enamel liner; the lower ends of the hot water outlet pipe and the cold water inlet pipe are respectively connected to a water using point with a water mixing valve through the hot water pipe and the cold water pipe; the water temperature sensor is electrically connected to the control instrument through a signal wire; a medium inlet pipe and a medium outlet pipe are respectively arranged on two sides of the heat exchange jacket; the medium inlet pipe and the medium outlet pipe are respectively connected to the heat collector through circulating pipelines; a medium outlet pipe of the heat collector is provided with a heat collecting sensor; the heat collection sensor is electrically connected with the control instrument, the control instrument of the heat storage water tank detects heat collection temperature through the heat collection sensor, detects water temperature through the water temperature sensor, compares the temperature difference between the two temperatures, the temperature difference exceeds 10 ℃, the control instrument outputs a DC12V signal to drive the micro-circulation pump to work, forcibly drives a medium to circulate in the heat collector and the heat exchange jacket through the circulation pipeline, and transfers heat in the heat collector to water in the heat storage water tank; when the temperature difference is less than 5 ℃ or the micro-circulation pump continuously runs for 20 minutes, the control instrument stops the output of the DC12V signal and closes the micro-circulation pump; after 5 minutes, the control instrument detects the temperature difference between the heat collection temperature and the water temperature again, and if the temperature difference is more than 10 ℃, the process is repeated until the temperature difference between the heat collection temperature and the water temperature is less than 5 ℃; the device can ensure sufficient hot water supply without being influenced by the length of a circulating pipeline; in addition, the electric heating pipe is installed to realize auxiliary electric heating, and the electric heating pipe can be started to heat in rainy days or at night when hot water is not enough, so that hot water is provided.

As a preferred embodiment, a heat-insulating layer is arranged in a cavity between the shell and the water storage enamel inner container; the heat preservation is formed by high pressure polyurethane integral foaming for the heat storage water tank has good heat preservation effect.

Furthermore, the micro-circulation pump is installed on the circulation pipeline connected with the medium outlet pipe, is free of maintenance, has no noise, small volume, light weight and low power consumption, and is installed outside the heat storage water tank.

Further, the cold water inlet pipe is connected to a tap water pipe through a cold water pipe; a switch valve is arranged on the cold water pipe; a safety valve is arranged at the pipe orifice of the cold water inlet pipe, so that the water use safety is improved.

Further, the control instrument comprises a control panel and an operation panel electrically connected with the control panel; the operating panel is embedded in the shell of the heat storage water tank; the control panel is installed in heat storage water tank, and DC12V micro-circulating pump can be controlled to control instrument's control panel, through the opening and stopping of the temperature difference automatic control micro-circulating pump that detects thermal-arrest and temperature, in order to guarantee micro-circulating pump's life, every operation 20 minutes, pauses 5 minutes, then the control panel of control instrument detects the difference in temperature once more, whether starts micro-circulating pump according to the difference in temperature decision.

Compared with the prior art, the utility model discloses a take jacket heat transfer formula enamel heat storage water tank of forced circulation function, through detecting the start-stop of the temperature difference automatic control micro-circulating pump of thermal-arrest and temperature, can not receive the influence of circulating line length, can guarantee sufficient hot water supply; the micro-circulation pump adopts an interval operation mode, and the micro-circulation pump is stopped for 5 minutes every 20 minutes, so that the service life of the micro-circulation pump is ensured; in addition, the electric heating pipe is installed in the water storage enamel inner container, so that auxiliary electric heating is realized, and the electric heating pipe can be started to heat to provide hot water in rainy days or at night when the hot water is not enough.

Drawings

Fig. 1 is a schematic view of the appearance structure of the present invention.

Fig. 2 is a schematic view of the connection structure of the present invention.

The parts in the drawings are marked as follows: 1-a heat collector, 2-a circulation pipeline, 3-a heat storage water tank, 4-a control instrument, 41-a control panel, 42-an operation panel, 5-a micro-circulation pump, 6-an outer shell, 7-a water storage enamel inner container, 8-a heat exchange jacket, 9-a cavity, 10-a hot water outlet pipe, 11-a cold water inlet pipe, 12-a magnesium rod, 13-a water temperature sensor, 14-an electric heating pipe, 15-a hot water pipe, 16-a cold water pipe, 17-a water mixing valve, 18-a medium inlet pipe, 19-a medium outlet pipe, 20-a heat collection sensor, 21-a switch valve and 22-a safety valve.

Detailed Description

The jacket heat exchange type enamel heat storage water tank with the forced circulation function shown in fig. 1 and fig. 2 comprises a heat collector 1 and a heat storage water tank 3 connected with the heat collector 1 through a circulation pipeline 2; the heat storage water tank 3 is provided with a control instrument 4 with a circulating pump control function; the heat collector 1 is electrically connected with the control instrument 4; a micro-circulating pump 5 is arranged on the circulating pipeline 2; the heat storage water tank 3 comprises a shell 6, a water storage enamel liner 7 arranged inside the shell 6, and a heat exchange jacket 8 clamped on the outer surface of the water storage enamel liner 7; a cavity 9 for installing a heat-insulating layer is reserved between the shell 6 and the water storage enamel liner 7; a hot water outlet pipe 10, a cold water inlet pipe 11, a magnesium rod 12, a water temperature sensor 13 and an electric heating pipe 14 are arranged in the water storage enamel liner 7; the upper end of the hot water outlet pipe 10 extends to the top of the water storage enamel liner 7; the lower ends of the hot water outlet pipe 10 and the cold water inlet pipe 11 are respectively connected to a water using point with a water mixing valve 17 through a hot water pipe 15 and a cold water pipe 16; the water temperature sensor 13 is electrically connected to the control instrument 4 through a signal wire; a medium inlet pipe 18 and a medium outlet pipe 19 are respectively arranged at two sides of the heat exchange jacket 8; the medium inlet pipe 18 and the medium outlet pipe 19 are respectively connected to the heat collector 1 through the circulating pipeline 2; a heat collection sensor 20 is arranged on a medium outlet pipe of the heat collector 1; the heat collection sensor 20 is electrically connected with the control instrument 4.

An insulating layer (not shown) is arranged in a cavity between the shell 6 and the water storage enamel liner 7; the heat-insulating layer is formed by integrally foaming high-pressure polyurethane.

The micro-circulation pump 5 is installed on the circulation pipeline 2 connected with the medium outlet pipe 19.

The cold water inlet pipe 11 is connected to a tap water pipe through a cold water pipe 16; a switch valve 21 is arranged on the cold water pipe 16; a safety valve 22 is installed at the nozzle of the cold water inlet pipe 11.

The control instrument 4 comprises a control panel 41 and an operation panel 42 electrically connected with the control panel 41; the operation panel 42 is embedded on the shell 6 of the heat storage water tank 3; the control board 41 is installed in the heat storage water tank 3.

The utility model discloses a take jacket heat transfer formula enamel heat storage water tank of forced circulation function, DC12V micro-circulating pump can be controlled to the control panel of control instrument, through detecting the start-stop of the temperature difference automatic control micro-circulating pump of thermal-arrest and temperature, in order to guarantee the life of micro-circulating pump, every 20 minutes of operation, pause 5 minutes, then the control panel of control instrument detects the difference in temperature once more, whether start the micro-circulating pump according to the difference in temperature decision; the micro-circulating pump is free of maintenance design, free of noise, small in size, light in weight and low in power consumption, and is installed outside the heat storage water tank; the device can ensure sufficient hot water supply without being influenced by the length of a circulating pipeline; in addition, the electric heating pipe is installed to realize auxiliary electric heating, and the electric heating pipe can be started to heat in rainy days or at night when hot water is not enough, so that hot water is provided.

The above-mentioned embodiment is only the preferred embodiment of the present invention, so all the equivalent changes or modifications made by the structure, features and principles of the present invention are included in the claims of the present invention.

Claims (5)

1. A jacket heat exchange type enamel heat storage water tank with a forced circulation function comprises a heat collector and a heat storage water tank connected with the heat collector through a circulation pipeline; the heat storage water tank is provided with a control instrument with a circulating pump control function; the heat collector is electrically connected with the control instrument; the method is characterized in that: the circulating pipeline is provided with a micro-circulating pump; the heat storage water tank comprises a shell, a water storage enamel liner arranged in the shell, and a heat exchange jacket clamped on the outer surface of the water storage enamel liner; a cavity for installing a heat-insulating layer is reserved between the shell and the water storage enamel inner container; a hot water outlet pipe, a cold water inlet pipe, a magnesium rod, a water temperature sensor and an electric heating pipe are arranged in the water storage enamel liner; the upper end of the hot water outlet pipe extends to the top of the water storage enamel liner; the lower ends of the hot water outlet pipe and the cold water inlet pipe are respectively connected to a water using point with a water mixing valve through the hot water pipe and the cold water pipe; the water temperature sensor is electrically connected to the control instrument through a signal wire; a medium inlet pipe and a medium outlet pipe are respectively arranged on two sides of the heat exchange jacket; the medium inlet pipe and the medium outlet pipe are respectively connected to the heat collector through circulating pipelines; a medium outlet pipe of the heat collector is provided with a heat collecting sensor; the heat collection sensor is electrically connected with the control instrument.

2. The jacket heat exchange type enamel heat storage water tank with the forced circulation function as claimed in claim 1, wherein: a heat-insulating layer is arranged in a cavity between the shell and the water storage enamel inner container; the heat-insulating layer is formed by integrally foaming high-pressure polyurethane.

3. The jacket heat exchange type enamel heat storage water tank with the forced circulation function as claimed in claim 1, wherein: the micro-circulation pump is arranged on a circulation pipeline connected with the medium outlet pipe.

4. The jacket heat exchange type enamel heat storage water tank with the forced circulation function as claimed in claim 1, wherein: the cold water inlet pipe is connected to a tap water pipe through a cold water pipe; a switch valve is arranged on the cold water pipe; and a safety valve is arranged at the pipe orifice of the cold water inlet pipe.

5. The jacket heat exchange type enamel heat storage water tank with the forced circulation function as claimed in claim 1, wherein: the control instrument comprises a control panel and an operation panel electrically connected with the control panel; the operating panel is embedded in the shell of the heat storage water tank; the control panel is installed in the heat storage water tank.