CN206257734U - A kind of power energy-saving heating system of parallel connection type three - Google Patents

Abstract

The utility model discloses a kind of power energy-saving heating system of parallel connection type three, including outdoor temperature sensors, controller, gas burning system stove, the first gas-liquid separator, water circulation heat pump, the second gas-liquid separator, hot gas duct, compressor, heat regenerator, condenser, circulating pump, heating water return outlet, attemperater, coil heat exchanger, water tank temperature sensor, heating feed water inlet, hot water pipeline, cold water pipes, heat medium temperature sensor, automatic exhaust steam valve and antifreeze control circulating solar energy.The utility model heating system is provided with water at low temperature circulation air source heat pump, antifreeze forced circulation solar energy, three kinds of power of gas burning system stove, and outdoor temperature sensors, heat medium temperature sensor and water tank temperature sensor are configured with, so that heating effect is optimal.

Description

A kind of power energy-saving heating system of parallel connection type three

Technical field

The utility model is related to a kind of heating system, specially a kind of power energy-saving heating system of parallel connection type three, belongs to system Hot equipment application technical field.

Background technology

With expanding economy, increasing people starts to lay the heating system of house, particularly with winter More cold area, heating system is to maintain the temperature required for interior, it is necessary to the corresponding heat of indoor supply, main The laying method wanted is divided into electricity floor heating and water floor heating, and its reclaimed water floor heating is, with hot water as heating agent, to add in heating tube internal circulation flow Heating floor or radiator, by way of terrestrial surface radiation is conducted heat to indoor heating, are subject to because its security is higher, heat stabilization Welcome extensively.

It is more single that currently used heating system heats mode, can produce substantial amounts of hot gas in heating operations, and these Hot gas can carry substantial amounts of heat energy and water, cause very big energy waste.Therefore, a kind of parallel connection type three is proposed regarding to the issue above Power energy-saving heating system.

Utility model content

The purpose of this utility model is that and provide a kind of power energy-saving heating of parallel connection type three in order to solve the above problems System.

The utility model is achieved through the following technical solutions above-mentioned purpose, a kind of power energy-saving heating system of parallel connection type three System, including controller, gas burning system stove, water circulation heat pump, attemperater and antifreeze forced circulation solar energy；The controller Connection outdoor temperature sensors and heat medium temperature sensor, and controller connection gas burning system stove；The gas burning system stove connection First gas-liquid separator, and the first gas-liquid separator connection hot gas duct；The hot gas duct connects compressor；The compressor Connection heat regenerator, and heat regenerator connection condenser；The port of export of the condenser is connected with circulating pump；The controller connects Water receiving circulating heat pump, and water circulation heat pump connects the second gas-liquid separator；The controller connects attemperater, and attemperater Inside is provided with coil heat exchanger；The coil heat exchanger connects water tank temperature sensor；The attemperater top is provided with heating Feed water inlet, and attemperater bottom sets heating water return outlet；The attemperater is connected with hot water pipeline and cold water pipes, and heat Waterpipe connects automatic exhaust steam valve；The automatic exhaust steam valve connects antifreeze forced circulation solar energy；The controller connects heating agent Temperature sensor.

Preferably, first gas-liquid separator, second gas-liquid separator are connected with the hot water pipeline.

Preferably, second gas-liquid separator connects the compressor by the hot gas duct.

Preferably, the condenser is connected to the heating water return outlet by the circulating pump.

Preferably, the heat regenerator is connected to the water side of the water circulation heat pump by the hot water pipeline.

The beneficial effects of the utility model are：This kind of heating system is provided with water at low temperature circulation air source heat pump, antifreeze pressure Circulating solar energy, three kinds of power of gas burning system stove, and it is configured with outdoor temperature sensors, heat medium temperature sensor and water tank Temperature sensor, controller can select optimal heating according to each temperature difference in the indoor and outdoor temperature difference and heat medium system Pattern, so that heating effect is optimal, meets the requirement of economical and energy saving；What increase was made up of gas-liquid separator, compressor etc. Heat reclaiming system, can carry out recycling to the hot gas that gas burning system stove and water circulation heat pump are produced in heating, reclaim Hot water can be stored in water tank, be provided with the hot gas that condenser can be to not being recovered and condense, be then circulated again plus Heat, so as to realize maximally utilizing for heat energy and water resource.

Brief description of the drawings

Fig. 1 is the utility model overall structure diagram；

Fig. 2 is utility model works principle schematic.

In figure：1st, outdoor temperature sensors, 2, controller, 3, gas burning system stove, the 4, first gas-liquid separator, 5, water circulation Heat pump, the 6, second gas-liquid separator, 7, hot gas duct, 8, compressor, 9, heat regenerator, 10, condenser, 11, circulating pump, 12, Heating water return outlet, 13, attemperater, 14, coil heat exchanger, 15, water tank temperature sensor, 16, heating feed water inlet, 17, hot water Pipeline, 18, cold water pipes, 19, heat medium temperature sensor, 20, automatic exhaust steam valve, 21, antifreeze control circulating solar energy.

Specific embodiment

Below in conjunction with the accompanying drawing in the utility model embodiment, the technical scheme in the utility model embodiment is carried out Clearly and completely describe, it is clear that described embodiment is only a part of embodiment of the utility model, rather than whole Embodiment.Based on the embodiment in the utility model, those of ordinary skill in the art are not under the premise of creative work is made The every other embodiment for being obtained, belongs to the scope of the utility model protection.

Refer to shown in Fig. 1-2, a kind of power energy-saving heating system of parallel connection type three, including controller 2, gas burning system stove 3, Water circulation heat pump 5, attemperater 13 and antifreeze forced circulation solar energy 21；The controller 2 connects outdoor temperature sensors 1 With heat medium temperature sensor 19, outdoor temperature and heat medium system temperature can be monitored；The controller 2 connects gas burning system Stove 3, gas burning system stove 3 is using high-temperature water as heat-conducting medium, indirectly heat water；The gas burning system stove 3 connects the first gas-liquid Separator 4, can separate the hot gas that gas burning system stove 3 is produced, and carry out recycling；First gas-liquid separator 4 Connection hot gas duct 7；The hot gas duct 7 connects compressor 8, and the hot gas that gas burning system stove 3 is produced will be defeated by hot gas duct 7 Compressor 8 is delivered to be compressed；The compressor 8 connects heat regenerator 9, and heat regenerator 9 can be reclaimed to hot water；The heat Recover 9 connects condenser 10, and the hot gas not being recovered can be changed into cold water and be heated again in the presence of condenser 10； The port of export of the condenser 10 is connected with circulating pump 11；The connection water circulation of the controller 2 heat pump 5, water circulation heat pump 5 uses water As heat-conducting medium, water is directly heated；The water circulation heat pump 5 connects the second gas-liquid separator 6；The connection of the controller 2 is protected Reservoir 13, the water after heating can be stored in attemperater 13；Coil heat exchanger 14 is provided with inside the attemperater 13, Coil heat exchanger 14 is provided with two；The connection water tank temperature of the coil heat exchanger 14 sensor 15；The top of the attemperater 13 It is provided with heating feed water inlet 16, feed water inlet output hot water；The bottom of the attemperater 13 sets heating water return outlet 12, water return outlet input Cold water；The attemperater 13 is connected with hot water pipeline 17 and cold water pipes 18；The hot water pipeline 17 connects automatic exhaust steam valve 20；The automatic exhaust steam valve 20 connects antifreeze forced circulation solar energy 21, and antifreeze forced circulation solar energy 21 uses antifreezing and anti-boiling Medium as heat-conducting medium, by the water in the indirectly heat water tank of coil heat exchanger 14；The connection heat medium temperature of the controller 2 is passed Sensor 19.

As a kind of technical optimization scheme of the present utility model, first gas-liquid separator 4, second gas-liquid separation Device 6 is connected with the hot water pipeline 17, realizes the recycling to hot gas.

Used as a kind of technical optimization scheme of the present utility model, second gas-liquid separator 6 passes through the hot gas duct 7 The compressor 8 is connected, the gas produced when can be heated to water circulation heat pump 5 is compressed.

Used as a kind of technical optimization scheme of the present utility model, the condenser 10 is connected to institute by the circulating pump 11 Heating water return outlet 12 is stated, recycling for water resource is realized.

Used as a kind of technical optimization scheme of the present utility model, the heat regenerator 9 is connected by the hot water pipeline 17 To the water side of the water circulation heat pump 5, recycling for heat energy is realized.

The utility model when in use, antifreeze forced circulation solar energy 21 as preferentially thermal source is used, when solar energy can Using and when meeting hot water demand enough, the water in solar energy indirectly heat water tank, water circulation heat pump 5 and combustion gas system is used alone System stove 3 does not start；When solar energy can not be used or heat can not meet heating requirement, controller 2 automatically turns on water and follows Ring heat pump 5 or gas burning system stove 3；Outdoor temperature sensors 1 measure outdoor temperature, and controller 2 is selected according to outdoor temperature The thermal source of energy-conservation carries out heating, and when Systematic selection carries out heating using gas burning system stove 3, the water in coil pipe is heated by stove Afterwards, heat exchange is carried out with the water in water tank, until the heating water in water tank reaches design temperature；When Systematic selection is followed using water When ring heat pump 5 is heated, the water in water tank is heated to after design temperature in returning to water tank into water circulation heat pump 5；Adding The hot gas produced in thermal process out, liquid is changed into compressor 8 by gas-liquid separator separates, then flows into heat regenerator 9 Recovery of the hot water is carried out, the hot water of recovery flows back to attemperater 13, the steam or water not being recovered are changed into cold water into condenser 10, Heating water return outlet 12 is flow in the presence of circulating pump 11.

It is obvious to a person skilled in the art that the utility model is not limited to the details of above-mentioned one exemplary embodiment, and And in the case of without departing substantially from spirit or essential attributes of the present utility model, can in other specific forms realize that this practicality is new Type.Therefore, no matter from the point of view of which point, embodiment all should be regarded as exemplary, and is nonrestrictive, this practicality is new The scope of type limits by appended claims rather than described above, it is intended that the equivalency fallen in claim is contained All changes in justice and scope are included in the utility model.Any reference in claim should not be considered as limitation Involved claim.

Moreover, it will be appreciated that although the present specification is described in terms of embodiments, not each implementation method is only wrapped Containing an independent technical scheme, this narrating mode of specification is only that for clarity, those skilled in the art should Specification an as entirety, the technical scheme in each embodiment can also be formed into those skilled in the art through appropriately combined May be appreciated other embodiment.

Claims (5)

1. a kind of power energy-saving heating system of parallel connection type three, including controller（2）, gas burning system stove（3）, water circulation heat pump（5）、 Attemperater（13）And antifreeze forced circulation solar energy（21）；It is characterized in that：The controller（2）Connection outdoor temperature is passed Sensor（1）With heat medium temperature sensor（19）, and controller（2）Connection gas burning system stove（3）；The gas burning system stove（3）Even Connect the first gas-liquid separator（4）, and the first gas-liquid separator（4）Connection hot gas duct（7）；The hot gas duct（7）Connection pressure Contracting machine（8）；The compressor（8）Connection heat regenerator（9）, and heat regenerator（9）Connection condenser（10）；The condenser （10）The port of export be connected with circulating pump（11）；The controller（2）Connection water circulation heat pump（5）, and water circulation heat pump（5）Even Connect the second gas-liquid separator（6）；The controller（2）Connection attemperater（13）, and attemperater（13）Inside is provided with coil pipe Heat exchanger（14）；The coil heat exchanger（14）Connection water tank temperature sensor（15）；The attemperater（13）Top is provided with Heating feed water inlet（16）, and attemperater（13）Bottom sets heating water return outlet（12）；The attemperater（13）It is connected with heat Waterpipe（17）And cold water pipes（18）, and hot water pipeline（17）Connection automatic exhaust steam valve（20）；The automatic exhaust steam valve（20） Connect antifreeze forced circulation solar energy（21）；The controller（2）Connection heat medium temperature sensor（19）.

2. the power energy-saving heating system of a kind of parallel connection type according to claim 1 three, it is characterised in that：First gas-liquid Separator（4）, second gas-liquid separator（6）With the hot water pipeline（17）It is connected.

3. the power energy-saving heating system of a kind of parallel connection type according to claim 1 three, it is characterised in that：Second gas-liquid Separator（6）By the hot gas duct（7）Connect the compressor（8）.

4. the power energy-saving heating system of a kind of parallel connection type according to claim 1 three, it is characterised in that：The condenser （10）By the circulating pump（11）It is connected to the heating water return outlet（12）.

5. the power energy-saving heating system of a kind of parallel connection type according to claim 1 three, it is characterised in that：The heat regenerator （9）By the hot water pipeline（17）It is connected to the water circulation heat pump（5）Water side.