CN201852315U

CN201852315U - Solar multi-tank thermal energy exchange system

Info

Publication number: CN201852315U
Application number: CN2010206127662U
Authority: CN
Inventors: 刘远聪
Original assignee: Individual
Current assignee: Individual
Priority date: 2010-11-17
Filing date: 2010-11-17
Publication date: 2011-06-01
Anticipated expiration: 2020-11-17

Abstract

The utility model discloses a solar multi-tank thermal energy exchange system, which comprises a circulation pipeline; the circulation pipeline is communicated with a tap water outlet; the tap water outlet is provided with a first check valve; the circulation pipeline is arranged at the outlet end of the tap water in a circulation loop; the circulation pipeline is connected with a solar heat storage water tank; the water outlet part of the solar heat storage water tank of the circulation pipeline is also communicated with a temperature-preservation water tank; the water outlet part of the temperature-preservation water tank of the circulation pipeline is also provided with a second check valve and a tap; a supercharging circulation pump is also arranged on the circulation pipeline; the supercharging circulation pump is electrically connected with a heating circulation controller arranged outside the temperature-preservation tank; a temperature sensing plug is also arranged in the temperature-preservation tank; and the temperature sensing plug is also electrically connected with the heating circulation controller. By adopting the technical scheme, the effects of saving energies and reducing noises can be realized under the premise of not changing the pressure of hot water. The solar multi-tank thermal energy exchange system is convenient to mount; simultaneously, the solar multi-tank thermal energy exchange system realizes the effect of discharging hot water instantly once being turned on.

Description

Many water tanks of solar energy thermal energy exchange system

Technical field

The utility model relates to the thermal energy exchange system, specifically is a kind of many water tanks of solar energy thermal energy exchange system.

Background technology

At present, indoor water has following several mode: 1, heat pump cycle usually for reaching the instant-heating effect: utilize U type pipeline structure with circulating pump to the hot water forced circulation, its shortcoming is that noise is big, the pipeline heat energy loss is big, timing operation lacks convenience again; 2, indoor water tank: at the indoor attemperater (two kinds of non-bearing type and pressure-bearing types) that is provided with to reach the effect of promptly opening instant-heating and outlet hot.Shortcoming: the non-bearing type attemperater causes heat hydraulic pressure's deficiency, uses extremely inconvenience, and a small amount of water of pressure-bearing type attemperater discontinuity can make the interior water of water tank turn cold and lose the effect of holding instant heating.3, tube emptying technology: will put on the magnetic valve, the cold water in the emptying pipe is to reach out the effect of instant heating.Shortcoming: water boiling heater need be waited for certain hour, and the turn-off time is wayward, and convenience is poor, and the pipeline installation requirement is higher simultaneously.4, separated type solar indoor water tank system: the separated type solar technology that adopts conductive fluid to circulate.Shortcoming: the production cost height, be difficult for popularizing, many places are difficult for realizing with hot water.

In view of the prior art shortcoming, be badly in need of wanting a kind of convenient installation and use the indoor instant-heating technological system of low energy consumption.

The utility model content

At the problems referred to above, the utility model aims to provide a kind of convenient installation and uses many water tanks of solar energy thermal energy exchange system of low energy consumption.

For realizing this technical purpose, scheme of the present utility model is: comprise circulation line, described circulation line is communicated with the running water outlet mouth, described running water outlet mouth is provided with first check-valves, described circulation line is the closed circuit setting at running water outlet mouth end, on described circulation line, be connected with solar heat storage water tank, also be communicated with attemperater in the solar heat storage water tank delivery port of described circulation line part, be arranged with second check-valves and tap at the attemperater water outlet of described circulation line;

Also be provided with the supercharging circulating pump on the described circulation line, the described supercharging circulating pump heat cycles controller outer with being located at attemperater is electrically connected;

Also be provided with thermal transmitter in the described attemperater, described thermal transmitter is electrically connected with the heat cycles controller.

Preferably, also comprise timer, described timer is electrically connected with the heat cycles controller.

Preferably, be provided with electric heater in the described attemperater, described electric heater is electrically connected with the heat cycles controller.

Preferably, described tap is located on the attemperater.

By technique scheme, by solar heat storage water tank, attemperater, circulation line, the thermal energy exchange system of two water tanks that supercharging circulating pump, thermal transmitter, first check-valves and second check-valves etc. are formed.Utilize circulation line internal memory water as medium, solar heat storage water tank and attemperater are circulated.Make two water tanks have uniform temp, thereby guaranteed effective water temperature of attemperater.Be issued in the prerequisite that does not change the heat hydraulic pressure energy-conservation, low noise.In convenient the installation, realize promptly opening the effect of instant-heating and outlet hot.

Description of drawings

Accompanying drawing described herein is used to provide further understanding of the present utility model, constitutes the application's a part, does not constitute to improper qualification of the present utility model, in the accompanying drawings:

Fig. 1 is that the utility model embodiment system constitutes schematic diagram.

The specific embodiment

Describe the utility model in detail below in conjunction with accompanying drawing and specific embodiment, be used for explaining the utility model in this illustrative examples of the present utility model and explanation, but not as to qualification of the present utility model.

As shown in Figure 1, many water tanks of solar energy thermal energy exchange of the present utility model system comprises a circulation line that is closed circuit, and this circulation line is located at the water outlet end (not indicating) of running water, and be provided with first check-valves 2 at running water outlet mouth place, other establishes a solar heat storage water tank 1, this solar heat storage water tank 1 is the water storage part of solar water heater, solar heat storage water tank 1 water inlet and solar heat storage water tank 1 delivery port all are communicated in the circulation line, solar heat storage water tank 1 integral body is communicated in the circulation line, solar heat storage water tank 1 delivery port of circulation line is communicated to attemperater 7 water inlets, be hot water line 3 between solar heat storage water tank 1 and the attemperater 7, attemperater 7 is inner body structure with cavity, and attemperater 7 delivery ports are communicated to circulation line, attemperater 7 delivery ports are cold water pipeline 10, attemperater 7 integral body also are communicated in the circulation line, are arranged with second check-valves 9 and tap 11 at attemperater 7 water outlets of circulation line;

On cold water pipeline 10 or hot water line 3, be provided with supercharging circulating pump 8, and this supercharging circulating pump 8 is electrically connected with heat cycles controller 4, be subjected to 4 controls of heat cycles controller, also be provided with thermal transmitter 6 in the attemperater 7, and thermal transmitter 6 is electrically connected with heat cycles controller 4, so, by the water temperature in the thermal transmitter 6 detection attemperaters 7, and temperature signal is sent to heat cycles controller 4, when water temperature is reduced to predetermined temperature in the attemperater 7, heat cycles controller 4 can start supercharging circulating pump 8, to attemperater 7, the water in the attemperater 7 after the reduction temperature then passes through the 10 circulation drainages of cold water pipeline to solar heat storage water tank 1, keeps the temperature of water in the attemperater 7 with the high-temperature water drainage in the solar heat storage water tank 1.

Improvement as the foregoing description scheme, other is provided with timer (not indicating), timer is electrically connected with heat cycles controller 4, by the predefined time period, time period of every interval is opened supercharging circulating pump 8 by heat cycles controller 4, and the water in the attemperater is carried out the timing recycling replacing.

Improvement as the foregoing description scheme, in attemperater 7, be provided with electric heater 5, this electric heater 5 heat cycles controller 4 outer with being located at attemperater 7 is electrically connected, unlatching by heat cycles controller 4 control electric heaters 5, when the water temperature in the attemperater 7 drops to predetermined temperature, perhaps after through a default time period, the water in 5 pairs of attemperaters of heat cycles controller 4 opening electric heaters 7 carry out post bake.

As the alternative of the foregoing description scheme, tap 11 also can be arranged on the attemperater 7, with the delivery port as high-temperature-hot-water.

More than technical scheme that the utility model embodiment is provided be described in detail, used specific case herein principle and the embodiment of the utility model embodiment are set forth, the explanation of above embodiment only is applicable to the principle that helps to understand the utility model embodiment; Simultaneously, for one of ordinary skill in the art, according to the utility model embodiment, the part that on the specific embodiment and range of application, all can change, in sum, this description should not be construed as restriction of the present utility model.

Claims

1. many water tanks of solar energy thermal energy exchange system is characterized in that:

Comprise circulation line, described circulation line is communicated with the running water outlet mouth, described running water outlet mouth is provided with first check-valves, described circulation line is the closed circuit setting at running water outlet mouth end, on described circulation line, be connected with solar heat storage water tank, also be communicated with attemperater in the solar heat storage water tank delivery port of described circulation line part, be arranged with second check-valves and tap at the attemperater water outlet of described circulation line;

2. many water tanks of solar energy thermal energy exchange as claimed in claim 1 system is characterized in that:

Also comprise timer, described timer is electrically connected with the heat cycles controller.

3. many water tanks of solar energy thermal energy exchange as claimed in claim 1 system is characterized in that:

Be provided with electric heater in the described attemperater, described electric heater is electrically connected with the heat cycles controller.

4. many water tanks of solar energy thermal energy exchange as claimed in claim 1 system is characterized in that:

Described tap is located on the attemperater.