CN203940506U - The superconduction of heat pump carbon silicon nanometer water is heating system cryogenically - Google Patents

Abstract

The utility model relates to cryogenically heating system of a kind of heat pump carbon silicon nanometer water superconduction, and it comprises air-source main frame, floor heating water tank, heat cycles pump, heating pump, water knockout drum and water collector; Air-source main frame is connected by pipeline with floor heating water tank and is also provided with host computer control panel; On floor heating water tank, be equiped with temperature sensor, safety check valve, the first filter, water compensating valve and blowoff valve; Heat cycles pump is installed between air-source main frame and floor heating water tank; Heating pump is installed between floor heating water tank and water knockout drum; Between heating pump and water knockout drum, be equiped with the second filter; Heating pump is electrically connected with room temperature controller; Water knockout drum is installed between heating pump and water collector; Water knockout drum two ends connect respectively water collector and the second filter; Water collector is connected with floor heating water tank.The utility model structural design is simple, rationally, not only quick heating, energy consumption are low, and can realize quick heat radiating, application are installed convenient, use safety, reliable.

Description

The superconduction of heat pump carbon silicon nanometer water is heating system cryogenically

Technical field

The utility model relates to a kind of ground heating system, relates in particular to cryogenically heating system of a kind of heat pump carbon silicon nanometer water superconduction.

Background technology

Floor heating product is in the market divided into two kinds of dry paving and wet pavings, two kinds of modes, and maximum shortcoming is that programming rate is slow, as made heat equipment of wall-hung boiler, no matter be electricity consumption or with combustion gas, Energy in use is very high, therefore can not really realize energy-saving and cost-reducingly, restriction is applied on a large scale; And have and get an electric shock or the poisoning potential danger of combustion gas.Secondly electric floor heating be take electric energy conversion as heat energy, and the problem that realizes the drawback of mode of heating is exactly that potential danger is very large, and inflammable, easily electric leakage, security incident very easily occurs.

Given this, in Chinese patent 201110275213.1, mention a kind of air source thermoelectric heat pump floor heating device that the present invention relates to, belong to floor heater.Air source thermoelectric heat pump floor heating device is provided with thermoelectric heat pumping devices and surface water heater device.Described thermoelectric heat pumping devices is comprised of thermoelectric pile, thermoelectric pile hot junction changing plate, thermoelectric pile cold junction changing plate, centrifugal blower, circulating pump, the controller that is connected with thermoelectric pile, centrifugal blower, circulating pump, thermoelectric pile comprises that two by same specification, the thermoelectric plate that forms with the thermoelectric chip of quantity, hot junction face is close to thermoelectric pile hot junction changing plate, and cold junction face is close to thermoelectric pile cold junction changing plate.Surface water heater device is by radiation proof heat-insulation layer, grounding heat coil tube, mud cover layer and drain pipe, feed tube form forever.Although this present invention also can heat, its structure is too complicated, and electric power is larger, and cost is higher, and intensification and radiating efficiency are general simultaneously.

In another Chinese patent 201220277170.0, mentioning a kind of the utility model is a kind of multifunctional hydraulic-power system for heat pump ground warming unit, comprise off-premises station, the first water tank, the second water tank, electric T-shaped valve, air-conditioning, floor heating, the first heat exchanger and the second heat exchanger, off-premises station and the first heat exchanger form refrigerant circulation circuit, the first heat exchanger and the first water tank form water-flow circuit, electric T-shaped valve is contained on that segment pipe that the water export of the first heat exchanger and the flow inlet of the first water tank join, its flow inlet communicates with the first heat exchanger, one shunting outlet communicates with the first water tank, its another shunting outlet is joined with the second heat exchanger being connected on that segment pipe that the inflow entrance forever of the first heat exchanger and the water export of the first water tank join, the first water tank and air-conditioning and floor heating form closed circuit, and the second heat exchanger and the second water tank form closed circuit, and the external running water of the second water tank enters pipe and domestic hot-water's outlet pipe.Although this utility model also can heat, it heats up, radiating efficiency is low, and machine long operational time and frequency are high, application is installed not simply, conveniently.

The utlity model has energy-saving consumption, powerful etc.

In sum, be necessary prior art further perfect.

Summary of the invention

The utility model is that in order to solve, existing ground heating system heats up, radiating efficiency is low, energy consumption is high, use safe not, reliable, security incident easily occurs steps on problem and proposes a kind of structural design simply, rationally, quick heating, rapid heat dissipation, energy consumption is low, uses safety, reliable, installs and applies cryogenically heating system of heat pump carbon silicon nanometer water superconduction easily.

The utility model is achieved through the following technical solutions:

Above-mentioned heat pump carbon silicon nanometer water superconduction is heating system cryogenically, comprises air-source main frame, floor heating water tank, heat cycles pump, heating pump, water knockout drum and water collector; Described air-source main frame is connected by pipeline with floor heating water tank and is also provided with host computer control panel; Described floor heating water tank is connected between described air-source main frame and heat cycles pump by pipeline, one side of described floor heating water tank is equiped with the temperature sensor being electrically connected to described air-source main frame, opposite side upper end is equiped with safety check valve, the first filter and water compensating valve successively by pipeline, and bottom side is equiped with blowoff valve by pipeline; Described heat cycles pump is connected between described air-source main frame and floor heating water tank by pipeline; Described heating pump is connected between described floor heating water tank and water knockout drum by pipeline; On the pipeline between described heating pump and water knockout drum, be equiped with the second filter; Described heating pump is also electrically connected with for controlling the room temperature controller of its start and stop; Described water knockout drum is installed between described heating pump and water collector; Described water knockout drum one end connects described water collector by grounding heat coil tube, and the other end is connected with described the second filter by pipeline; Described water collector is connected with described floor heating water tank by pipeline.

The superconduction of described heat pump carbon silicon nanometer water is heating system cryogenically, wherein: it is inner that described temperature sensor one end puts in described floor heating water tank, and the other end stretches out to described floor heating water tank outside and is electrically connected to described air-source main frame.

The superconduction of described heat pump carbon silicon nanometer water is heating system cryogenically, wherein: on the pipeline between described heat cycles pump and air-source main frame, be provided with the first flow control valve, on the pipeline between described heat cycles pump and floor heating water tank, be provided with the second flow control valve.

The superconduction of described heat pump carbon silicon nanometer water is heating system cryogenically, wherein: on the pipeline between described heating pump and floor heating water tank, be equiped with the 3rd flow control valve, be equiped with the 4th flow control valve on the pipeline between described heating pump and water knockout drum.

The superconduction of described heat pump carbon silicon nanometer water is heating system cryogenically, wherein: described the second filter installment is between described the 4th flow control valve and water knockout drum.

The superconduction of described heat pump carbon silicon nanometer water is heating system cryogenically, wherein: on the pipeline between described water collector and floor heating water tank, be also equiped with the 5th flow control valve.

Beneficial effect:

The utility model heat pump carbon silicon nanometer water superconduction cryogenically heating system structural design is simple, reasonable, it combines heat pump techniques with the floor heating of carbon silicon nanometer water superconduction low temperature, quick heating, energy consumption is low, can realize quick heat radiating, the heat in hot water, by the carbon silicon nanometer water superconduction low temperature floor heating ground of leading rapidly, is reached to the object that news speed heats up, thereby reduce machine running time and running frequency, therefore also just reached energy-conservation object; Wherein, host computer control panel can make air-source main frame realize control automatically; Safety check valve can be used for anti-locking system internal pressure and flows backwards and enter in tap water pipe network when too high, has releasing pressure automatically function during hypertonia simultaneously, and system is operated in a stable pressure limit; The start and stop of heating pump can in real time, be effectively controlled in the setting of room temperature controller; The design of water compensating valve and the first filter, can realize ground heating system automatic water supplement; The setting party of blowoff valve sewage in floor heating water tank discharge and change clean running water, make the clean of floor heating water tank become convenient; It is convenient, easy that entirely heating system is installed application, uses safety, reliable, is suitable for propagation and employment.

Accompanying drawing explanation

Fig. 1 is the cryogenically structural representation of heating system of the utility model heat pump carbon silicon nanometer water superconduction.

The specific embodiment

As shown in Figure 1, the superconduction of the utility model heat pump carbon silicon nanometer water is heating system cryogenically, comprises air-source main frame 1, floor heating water tank 2, heat cycles pump 3, heating pump 4, water knockout drum 5 and water collector 6.

This air-source main frame 1 is connected with floor heating water tank 2, and wherein, this air-source main frame 1 is also provided with host computer control panel 11.

This floor heating water tank 2 is installed between air-source main frame 1 and heat cycles pump 3, wherein, one side of this floor heating water tank 2 is equiped with temperature sensor 21, opposite side upper end is connected with safety check valve 22, the first filter 23 and water compensating valve 24 in turn by pipeline, and bottom side is equiped with blowoff valve 25 by pipeline; These temperature sensor 21 one end put in floor heating water tank 2 inside, the other end stretches out to floor heating water tank 2 outsides and is electrically connected to air-source main frame 1, when temperature sensor 21 detects the temperature that water temperature sets lower than user, air-source main frame 1 starts and heats; When the water temperature in floor heating water case 2 reaches design temperature, air-source main frame 1 stops heating automatically; When this safety check valve 22 is too high for anti-locking system internal pressure, flow backwards and enter in tap water pipe network, have releasing pressure automatically function during hypertonia simultaneously, system is operated in a stable pressure limit; This blowoff valve 25 is clean valves of floor heating water tank 2.

This heat cycles pump 3 is installed between this air-source main frame 1 and floor heating water tank 2, on the pipeline between heat cycles pump 3 and air-source main frame 1, be provided with the first flow control valve 31, on the pipeline between heat cycles pump 3 and floor heating water tank 2, be provided with the second flow control valve 32.The start and stop of this heat cycles pump 3 are to provide signal controlling by air-source main frame 1 inside, and it starts operation in first 60 seconds at air-source main frame 1, and air-source main frame 1 stops rear time delay and stops for 60 seconds.

This heating pump 4 is installed between floor heating water tank 2 and water knockout drum 5, and two ends connect respectively floor heating water tank 2 and water knockout drum 5 by pipeline; On the pipeline between heating pump 4 and floor heating water tank 2, be equiped with the 3rd flow control valve 41, on the pipeline between heating pump 4 and water knockout drum 5, be equiped with between the 4th flow control valve 42, the four flow control valves 42 and water knockout drum 5 and be also equiped with the second filter 43; Wherein, this heat cycles pump 3 is also electrically connected with a plurality of room temperature controllers 44; The start and stop of this heating pump 4 are by indoor each room temperature controller 44 signal controlling, and, when any one room temperature controller 44 is opened, heating pump 4 starts, and when all rooms stop heating or all room temperatures and reach design temperature, heating pump 4 stops.

This water knockout drum 5 is installed between heating pump 4 and water collector 6, and one end connects water collector 6 by grounding heat coil tube 51, and the other end is connected with the second filter 43 of heating pump 4 by pipeline.

This water collector 6 is installed between floor heating water tank 2 and water knockout drum 5, and this water collector 6 is by pipeline, to be connected in floor heating water tank 2 to connect, and wherein, is equiped with the 5th flow control valve 61 on the pipeline between water collector 6 and floor heating water tank 2.

The utility model operation principle:

When producing heating while using hot water, by host computer control panel 11, can control Unit Commitment, when unit control panel, open, the water of floor heating water tank 2 enters air-source main frame 1 by heat cycles pump 3 and carries out circulating-heating, until unit is out of service after reaching the temperature of setting;

When indoor while needing heating, open one, each room of room temperature controller 44(temperature controller), heating pump 4 starts operation, by the hot water of floor heating water tank 2, through the second filter 43, water knockout drum, 5 shuntings enter that the grounding heat coil tube 51 in indoor each room is interior to dispel the heat to room, then roomed backwater all passes through water collector 6 and gets back to floor heating water tank 2, the circulation that goes round and begins again, reaches the temperature that user sets until indoor, heating pump 4 is out of service;

When system needs moisturizing, open water compensating valve 24, running water enters in floor heating water tank 2 after filtering by the first filter 23, and when intrasystem water is lossy, running water fills into automatically;

Water in floor heating water case 2, with needing after a while when clean, to open blowoff valve 25, is discharged the sewage in floor heating water tank 2, can reload clean running water.

The utility model structural design is simple, reasonable, quick heating, energy consumption is low, uses safety, reliable, its by heat pump techniques and the superconduction of carbon silicon nanometer water cryogenically heating module combine, realize quick heat radiating, heat in hot water, by the carbon silicon nanometer water superconduction heating module ground of leading rapidly cryogenically, is reached to the object that news speed heats up, thereby reduces machine running time and running frequency, therefore also just reach energy-conservation object, be suitable for propagation and employment.

Claims (6)

1. a heat pump carbon silicon nanometer water superconduction heating system cryogenically, is characterized in that: described ground heating system comprises air-source main frame, floor heating water tank, heat cycles pump, heating pump, water knockout drum and water collector;

Described air-source main frame is connected by pipeline with floor heating water tank and is also provided with host computer control panel;

Described floor heating water tank is connected between described air-source main frame and heat cycles pump by pipeline, one side of described floor heating water tank is equiped with the temperature sensor being electrically connected to described air-source main frame, opposite side upper end is equiped with safety check valve, the first filter and water compensating valve successively by pipeline, and bottom side is equiped with blowoff valve by pipeline;

Described heat cycles pump is connected between described air-source main frame and floor heating water tank by pipeline;

Described heating pump is connected between described floor heating water tank and water knockout drum by pipeline; On the pipeline between described heating pump and water knockout drum, be equiped with the second filter; Described heating pump is also electrically connected with for controlling the room temperature controller of its start and stop;

Described water knockout drum is installed between described heating pump and water collector; Described water knockout drum one end connects described water collector by grounding heat coil tube, and the other end is connected with described the second filter by pipeline;

Described water collector is connected with described floor heating water tank by pipeline.

2. heat pump carbon silicon nanometer water as claimed in claim 1 superconduction heating system cryogenically, it is characterized in that: it is inner that described temperature sensor one end puts in described floor heating water tank, and the other end stretches out to described floor heating water tank outside and is electrically connected to described air-source main frame.

3. heat pump carbon silicon nanometer water as claimed in claim 1 superconduction heating system cryogenically, it is characterized in that: on the pipeline between described heat cycles pump and air-source main frame, be provided with the first flow control valve, on the pipeline between described heat cycles pump and floor heating water tank, be provided with the second flow control valve.

4. heat pump carbon silicon nanometer water as claimed in claim 1 superconduction heating system cryogenically, it is characterized in that: on the pipeline between described heating pump and floor heating water tank, be equiped with the 3rd flow control valve, on the pipeline between described heating pump and water knockout drum, be equiped with the 4th flow control valve.

5. heat pump carbon silicon nanometer water as claimed in claim 4 superconduction heating system cryogenically, is characterized in that: described the second filter installment is between described the 4th flow control valve and water knockout drum.

6. heat pump carbon silicon nanometer water as claimed in claim 1 superconduction heating system cryogenically, is characterized in that: on the pipeline between described water collector and floor heating water tank, be also equiped with the 5th flow control valve.