CN204943936U - Many groups attemperater and heat collector heat exchange intelligence control system - Google Patents

Abstract

The utility model relates to solar facilities technical field, is specifically related to a kind of many group attemperaters and heat collector heat exchange intelligence control system.This system comprises attemperater, heat collection unit, controller and connecting pipe, and attemperater forms closed-loop path by frequency conversion presser unit and heat collection unit and carries out heat exchange; Attemperater has two at least, and each attemperater top is connected with into water motor-driven valve, and bottom is connected with water outlet motor-driven valve, by being connected in parallel between attemperater; Heat collection unit is that at least two heat-exchanging water tanks with heat collector are connected in parallel and form, and each heat-exchanging water tank water inlet is connected with heat exchange motor-driven valve; Be provided with temperature sensor in attemperater and heat-exchanging water tank, frequency conversion presser unit comprises booster pump, distance-transmission pressure gauge and the constant-pressure tank of contacting successively.This system meets the different demands that user supplies hot water, and central heating quick heating, heat energy utilization be high, can also provide multiple steady temperature hot water for user.

Description

Many groups attemperater and heat collector heat exchange intelligence control system

Technical field

The utility model relates to solar facilities technical field, is specifically related to a kind of many group attemperaters and heat collector heat exchange intelligence control system.

Background technology

Separated type solar hot-water heating system is synthesis energy saving environment friendly system, heat collector is suitable for multiple architectural style, installation site variation, become interspersing of the aesthetics of architecture, meet the policy requirements of country to " Green energy-saving buildings ", be the indispensable technology of city energy saving building, comfortable lifestyle can be provided for family and commercial affairs life.But along with the different demands that user supplies hot water, existing system cannot meet.Such as school, dining room etc. are often concentrating on noon and at dusk higher to hot water demand, Saunas and bath center more urgent to shower heat supply, but existing splitting solar hot-water heating system, often only has a larger attemperater of volume to store hot water, when needs central water supply, heat temperature raising is slow, cannot effectively utilize heat collector heat energy, heat utilization rate is low, also need additionally to increase high-power assisted heating device to heat up in the short time, but after central heating, maintain a large amount of hot water temperature of residue in water tank and also can cause the huge waste of heat energy.The demand of multiple different steady temperature hot water cannot be directly provided in addition for user.The various different temperatures bubble ponds of such as bath center, often adopt the mode of hot and cold water mixing, in mixed process, variations in temperature is large, poor user experience.Therefore need the different demands that a kind of many group attemperaters are supplied hot water to meet user from heat collector heat exchange intelligence control system, central heating quick heating, heat energy utilization be high, multiple steady temperature hot water can also be provided for user.

Utility model content

The utility model is for the deficiencies in the prior art, provide a kind of many group attemperaters and heat collector heat exchange intelligence control system, meet the different demands that user supplies hot water, central heating quick heating, heat energy utilization be high, multiple steady temperature hot water can also be provided for user.

The technical solution of the utility model is achieved in that a kind of many group attemperaters and heat collector heat exchange intelligence control system comprise attemperater, heat collection unit, controller and connecting pipe, it is characterized in that, attemperater forms closed-loop path by frequency conversion presser unit and heat collection unit and carries out heat exchange; Described attemperater has two at least, and each attemperater top is connected with into water motor-driven valve, and bottom is connected with water outlet motor-driven valve, by being connected in parallel between attemperater; Heat collection unit is that at least two heat-exchanging water tanks with heat collector are connected in parallel and form, and each heat-exchanging water tank water inlet is connected with heat exchange motor-driven valve; Be provided with temperature sensor in described attemperater and heat-exchanging water tank, frequency conversion presser unit comprises booster pump, distance-transmission pressure gauge and the constant-pressure tank of contacting successively; Described controller respectively with frequency conversion presser unit, water outlet, enter water motor-driven valve and temperature sensor is electrically connected.

Preferably, described attemperater is also connected with the water return pipeline for user, and water return pipeline comprises frequency conversion presser unit, uses water spot, return water temperature sensor and backwater motor-driven valve, and described return water temperature sensor and backwater motor-driven valve are electrically connected with controller.Preferably, be provided with water tank temperature sensor in described attemperater, water return pipeline is provided with return water temperature sensor, is equipped with temperature sensor in heat-exchanging water tank; Each temperature sensor is electrically connected with controller.

Preferably, described booster pump is freq uency conversion supercharging pump.

Preferably, be provided with Water level controller in described attemperater, described Water level controller is electrically connected with controller.

Preferably, described attemperater is also connected with the moisturizing pipeline of running water.

The utility model solves the defect existed in background technology, has following beneficial effect:

Many groups attemperater that the utility model provides and heat collector heat exchange intelligence control system, be respectively user carry out central heating by organizing water tank more, because water tank capacity is little compared with traditional water tank, heat exchange is carried out by heat collection unit, the speed of heating is fast, and the energy that the temperature maintaining water in little water tank consumes is also less, effectively can reduce the energy consumption of assisted heating device, energy-saving effect is obvious, meets the demand of central heating.Attemperater can arrange different heat-exchange temperatures, to provide the demand of user's different temperatures hot water.Be connected water return pipeline with attemperater and adopt constant temperature timing controlled, ensure the constant of user's EXIT POINT temperature, Consumer's Experience is good.Heat collection unit adopts many group heat collectors to be connected in parallel, and each heat collector is by heat exchanging pipe, and provide the hot water of design temperature to attemperater, heat energy utilization is high.By the interlock of controller and motor-driven valve, frequency conversion presser unit and temperature sensor, achieve high-speed switch electrically operated valve, the real-time monitoring of frequency conversion pressurization and water temperature, reduces energy consumption, and real-time guarantees supplies comfortable hot water.

Accompanying drawing explanation

Fig. 1 is the structural representation of many group attemperaters and heat collector heat exchange intelligence control system;

In figure: 1-first attemperater, 2-first temperature sensor, 3-first enters water motor-driven valve, 4-second attemperater, 5-second temperature sensor, 6-second enters water motor-driven valve, 7-first heat exchange motor-driven valve, 8-first heat collector, 9-three-temperature sensor, 10-second heat exchange motor-driven valve, 11-second heat collector, 12-the 4th temperature sensor, 13-the 3rd heat exchange motor-driven valve, 14-the 3rd heat collector, 15-the 5th temperature sensor, 16-frequency conversion presser unit, 17-second water outlet motor-driven valve, 18-first water outlet motor-driven valve, 19-moisturizing pipeline, 20 use water spot, 21-backwater motor-driven valve, 22-return water temperature sensor.

Detailed description of the invention

Below in conjunction with the accompanying drawing in the utility model embodiment, be clearly and completely described the technical scheme in the utility model embodiment, obviously, described embodiment is only the utility model part embodiment, instead of whole embodiments.Based on the embodiment in the utility model, those of ordinary skill in the art are not making the every other embodiment obtained under creative work prerequisite, all belong to the scope of the utility model protection.

One as shown in Figure 1 organizes attemperater and heat collector heat exchange intelligence control system embodiment more, comprises attemperater, heat collection unit, controller and connecting pipe, and attemperater forms closed-loop path by frequency conversion presser unit 16 and heat collection unit and carries out heat exchange; Attemperater at least 2, the present embodiment has two, be respectively the first attemperater 1 and the second attemperater 4, first attemperater 1 top is connected with first and enters water motor-driven valve 3, bottom is connected with the first water outlet motor-driven valve 18, second attemperater 4 top is connected with second and enters water motor-driven valve 6, and bottom is connected with between the second water outlet motor-driven valve 17, two attemperaters by being connected in parallel.Heat collection unit is that at least two heat-exchanging water tanks with heat collector are connected in parallel and form, and the present embodiment adopts 3.Be respectively first, second and third heat collector 8,11,14.Each heat-exchanging water tank water inlet is all connected with first, second and third heat exchange motor-driven valve 7,10,13; Be provided with in attemperater and heat-exchanging water tank first, second, third and fourth, five temperature sensors 2,5,9,12,15.Frequency conversion presser unit 16 comprises booster pump, distance-transmission pressure gauge and the constant-pressure tank of contacting successively.Controller respectively with frequency conversion presser unit 16, water outlet, enter water motor-driven valve and each temperature sensor is electrically connected.Attemperater is also connected with the water return pipeline for user, and water return pipeline comprises frequency conversion presser unit 16, uses water spot 20, return water temperature sensor 22 and backwater motor-driven valve 21, and return water temperature sensor 22 and backwater motor-driven valve 21 are electrically connected with controller.Booster pump is freq uency conversion supercharging pump.Frequency-conversionbooster booster water pump by required pressure, can regulate the rotating speed of electric-motor pump according to the change of water consumption, make equipment constant pressure water supply, reach energy-efficient object, due to the cause of booster pump frequency control, can also play energy-saving and cost-reducing effect.Attemperater is also connected with the moisturizing pipeline 19 of running water.Be provided with Water level controller in attemperater, Water level controller is electrically connected with controller.Water level controller according to attemperater liquid level, can carry out heat exchange or utilizes dredge pump to carry out blowdown.

The course of work of the present utility model is: attemperater forms closed-loop path by frequency conversion presser unit 16 and heat collection unit and carries out heat exchange.Heat exchange adopts temperature and frequency conversion pressurization to control.When the first temperature sensor 2 in the first attemperater 1 detects that first water the temperature inside the box T1 is less than the lowest temperature of setting, open first simultaneously and enter water motor-driven valve 3 and the first water outlet motor-driven valve 18, close the second attemperater 4 second to go out, enter water motor-driven valve 17,6.Start to carry out heat exchange, water in first attemperater 1 enters heat collection unit by the first water outlet motor-driven valve 18 by backwater frequency conversion presser unit 16 and carries out heat exchange, hot water simultaneously in heat collection unit enters water motor-driven valve 3 by first and enters in attemperater 1, circulation like this, until when T1 is greater than setting the highest temperature upper limit, closes first to go out, enter water motor-driven valve 18,3, unlatching second goes out, enters water motor-driven valve 17,6 is that the second attemperater 4 heats.Different attemperaters can arrange different temperature sensors for temperature sensor, to meet the different needs.Heat collection unit is connected in parallel by three groups of heat-exchanging water tanks with heat collector and forms.Heat exchange adopts constant pressure water supply.When three-temperature sensor 9 detects that heat-exchanging water the temperature inside the box T3 of the first heat collector 8 is greater than the ceiling temperature of setting, open the first heat exchange motor-driven valve 7, heat-exchanging water tank injects hot water to heat exchanging pipe; If when T3 is less than the ceiling temperature of setting, close the first heat exchange motor-driven valve 7, heat-exchanging water tank stops supplying hot water and continues to wait for heating up.The 4th temperature sensor 12 in like manner in the second heat collector 11 heat-exchanging water tank also detects in real time by temperature and opens or cut out the second heat exchange motor-driven valve 10, the 5th temperature sensor 15 in 3rd heat collector 14 heat-exchanging water tank also opens by temperature detection or cuts out the 3rd heat exchange motor-driven valve 13, carries out heat exchange.Each like this heat collector provides the hot water of design temperature efficiently by heat exchanging pipe, heat energy utilization is high.

In addition water return pipeline adopts constant temperature timing controlled motor-driven valve backwater, for user's water.Hot water in second attemperater 4 provides hot water by frequency conversion presser unit 16 to water spot 20.When the return water temperature sensor 22 on water return pipeline detects that water return pipeline temperature T4 is less than the lowest temperature value of setting, start backwater motor-driven valve 21, carry out heat exchange with the second attemperater 4, continue to heat; When T4 is greater than the ceiling temperature value of setting, stops backwater motor-driven valve 21, the hot water of steady temperature is provided to user.

The foregoing is only preferred embodiment of the present utility model; not in order to limit the utility model; all within spirit of the present utility model and principle, any amendment done, equivalent replacement, improvement etc., all should be included within protection domain of the present utility model.

Claims (5)

1. organize attemperater and a heat collector heat exchange intelligence control system, comprise attemperater, heat collection unit, controller and connecting pipe, it is characterized in that, attemperater forms closed-loop path by frequency conversion presser unit and heat collection unit and carries out heat exchange more; Described attemperater has two at least, and each attemperater top is connected with into water motor-driven valve, and bottom is connected with water outlet motor-driven valve, by being connected in parallel between attemperater; Heat collection unit is that at least two heat-exchanging water tanks with heat collector are connected in parallel and form, and each heat-exchanging water tank water inlet is connected with heat exchange motor-driven valve; Be provided with temperature sensor in described attemperater and heat-exchanging water tank, frequency conversion presser unit comprises booster pump, distance-transmission pressure gauge and the constant-pressure tank of contacting successively; Described controller respectively with frequency conversion presser unit, water outlet motor-driven valve, enter water motor-driven valve and temperature sensor is electrically connected.

2. many group attemperaters according to claim 1 and heat collector heat exchange intelligence control system, it is characterized in that: described attemperater is also connected with the water return pipeline for user, water return pipeline comprises frequency conversion presser unit, uses water spot, return water temperature sensor and backwater motor-driven valve, and described return water temperature sensor and backwater motor-driven valve are electrically connected with controller.

3. many group attemperaters according to claim 1 and heat collector heat exchange intelligence control system, is characterized in that: described booster pump is freq uency conversion supercharging pump.

4. many group attemperaters according to claim 1 and heat collector heat exchange intelligence control system, is characterized in that: described attemperater is also connected with the moisturizing pipeline of running water.

5. the many groups attemperater according to any one of Claims 1-4 and heat collector heat exchange intelligence control system, it is characterized in that: be provided with Water level controller in described attemperater, described Water level controller is electrically connected with controller.