CN209027117U - Solar energy heat collector exempts from temperature difference cycle system under the subzero 50 DEG C of environment of one kind - Google Patents

Abstract

The utility model discloses solar energy heat collectors under a kind of subzero 50 DEG C of environment to exempt from temperature difference cycle system, it includes heat collector (1), water tank (2), fuel tank (3) and the hidden pipe (5) being embedded in room body (4), indoor temperature transmitter is provided in the room body (4), coil pipe (7) are provided in the water tank (2), it is external that the two-port of coil pipe (7) stretches out in water tank (2), oil outlet and oil inlet are respectively arranged in the left and right sidewall of fuel tank (3), electromagnetic valve I (8) are connected between oil inlet and the Single port of coil pipe (7), oil outlet is connected with heat conduction oil circulating pump (9), the outlet of heat conduction oil circulating pump (9) is connect through oil inlet pipe (10) with the arrival end of heat collector (1), the outlet end of heat collector (1) is another through oil return pipe (11) and coil pipe (7) Terminal port flange connection.The beneficial effects of the utility model are: it is compact-sized, save energy consumption, prevent pipeline from freezing, use cost it is low.

Description

Solar energy heat collector exempts from temperature difference cycle system under the subzero 50 DEG C of environment of one kind

Technical field

The utility model relates to the technical field of indoor heating, solar energy heating is filled under especially a kind of subzero 50 DEG C of environment It sets and exempts from temperature difference cycle system.

Background technique

It needs to heat in winter due to weather in northern area, uses main heating system for water heating at present Mode and Electric heating, wherein water heating method refer to by water by water heater heat after, be passed into and be embedded in positioned at wall In interior hidden pipe, to keep room warm.Electric heating, which is directed to be located in the heating cable below floor, is passed through electric current, sends out Electric heating cable obtain it is electric after give off heat, so that room be made to heat up, furthermore water heater needs combustion gas that could heat water, and there are use costs High defect.North of china in winter cold is had the following deficiencies: by the heating of water heating method, when water flows through pipeline, is easy to be frozen in In pipeline, line clogging is caused, the warm water after leading to heating is difficult to reach in hidden pipe, and good temperature rise effect is not achieved.And it is electric Heating method has the following deficiencies: that room temperature has reached 18 DEG C or more, and heating cable is still within working condition, this nothing It is suspected to be and wastes electric energy, increases use cost.

Utility model content

The purpose of this utility model is that providing a kind of compact-sized, heat exchange efficiency instead of original Electric heating It is high, save energy consumption, prevent pipeline from freezing, solar energy heat collector exempts from temperature difference cycle system under subzero 50 DEG C of environment that use cost is low System.

The purpose of this utility model is achieved through the following technical solutions: solar energy heating fills under the subzero 50 DEG C of environment of one kind It sets and exempts from temperature difference cycle system, it includes PLC controller, heat collector, water tank, fuel tank and the hidden pipe being embedded in room body, the room It is provided with indoor temperature transmitter in vivo, coil pipe is provided in the water tank, the two-port of coil pipe stretches out in outside water tank, disk Be welded with more radiation tooths on the outer surface of pipe and along its length, be respectively arranged in the left and right sidewall of fuel tank oil outlet and Electromagnetic valve I is connected between the Single port of oil inlet, oil inlet and coil pipe, oil outlet is connected with heat conduction oil circulating pump, thermally conductive The outlet of oil circulating pump is connected through the arrival end of oil inlet pipe and heat collector, and the outlet end of heat collector is another through oil return pipe and coil pipe Terminal port flange connection；Water outlet and water return outlet are offered on the side wall of the water tank, and electromagnetic valve II, electromagnetism are connected at water return outlet The connection of one end of valve II and hidden pipe, water outlet have been sequentially connected with electromagnetic valve II I and circularly-supercharged water pump, circularly-supercharged water pump Water pipe is connected between outlet and the other end of hidden pipe；Heat collector temperature sensor, water are posted on the vacuum tube of the heat collector The inner sidewall upper water box temperature sensor of case, tank temperature sensor is provided on the inner sidewall of fuel tank, and the room temperature passes Sensor, heat collector temperature sensor, water tank temperature sensor, tank temperature sensor output interface with PLC controller Input interface is connected by signal wire, and the input interface of the heat conduction oil circulating pump and circularly-supercharged water pump is and PLC controller Output interface connected through signal wire, the input interface of the electromagnetic valve I, electromagnetic valve II and electromagnetic valve II I is and PLC controller Output interface connected through signal wire.

The system further includes auxiliary heating system, and the auxiliary heating system includes auxiliary heat cycles pump, heating device And shut-off valve, one end of shut-off valve are connected to water tank, the other end is connect with heating device, and the other end and auxiliary of heating device add The arrival end of hot recycle pump connects, and the outlet end of auxiliary heat cycles pump is connected to water tank, and the auxiliary heat cycles pump defeated Incoming interface and the output interface of PLC controller are connected through signal wire.

The system further includes water supply tank, and the bottom of water supply tank is connected with electromagnetic valve I V, and electromagnetic valve I V is connected to water supply tank and water Case.

Sewage draining exit is offered on the side wall of the water tank and positioned at its lower end.

The oil inlet pipe is connect with one end of the vacuum tube inside heat collector, the vacuum tube inside oil return pipe and heat collector Other end connection.

Spacing between adjacent two radiation tooths is equal.

The utility model has the advantage that the utility model is compact-sized, heat exchange efficiency is high, saves energy consumption, prevents pipe Road freezes, use cost is low.

Detailed description of the invention

Fig. 1 is the structural schematic diagram of the utility model；

In figure, 1- heat collector, 2- water tank, 3- fuel tank, 4- room body, 5- hidden pipe, 7- coil pipe, 8- electromagnetic valve I, 9- conduction oil Circulating pump, 10- oil inlet pipe, 11- oil return pipe, 12- electromagnetic valve II, the circularly-supercharged water pump of 13- electromagnetic valve II I, 14-, 15- water pipe, 16- assists heat cycles pump, 17- heating device, 18- shut-off valve, 19- water supply tank, 20- electromagnetic valve I V, 21- cooling fin.

Specific embodiment

The utility model is further described with reference to the accompanying drawing, the protection scope of the utility model be not limited to It is lower described:

As shown in Figure 1, solar energy heat collector exempts from temperature difference cycle system under a kind of subzero 50 DEG C of environment, it includes PLC control Device, heat collector 1, water tank 2, fuel tank 3 and the hidden pipe 5 being embedded in room body 4 processed are provided with room temperature sensing in the room body 4 Device is provided with coil pipe 7 in the water tank 2, and the two-port of coil pipe 7 stretches out in outside water tank 2, on the outer surface of coil pipe 7 and edge Its length direction is welded with more radiation tooths 21, and the spacing between adjacent two radiation tooths 21 is equal, when coil pipe 7 is added by conduction oil After heat, radiation tooth 21 is capable of increasing the contact area with water in water tank 2, in a short time adds the water in water tank 2 to realize Heat has the characteristics that heat exchange efficiency is high, is respectively arranged with oil outlet and oil inlet, oil inlet in the left and right sidewall of the fuel tank 3 Electromagnetic valve I 8 is connected between the Single port of coil pipe 7, oil outlet is connected with heat conduction oil circulating pump 9, heat conduction oil circulating pump 9 Outlet is connect through oil inlet pipe 10 with the arrival end of heat collector 1, the other end of the outlet end of heat collector 1 through oil return pipe 11 Yu coil pipe 7 Mouth flanged joint；Water outlet and water return outlet are offered on the side wall of the water tank 2, and electromagnetic valve II 12 is connected at water return outlet, electricity Magnet valve II12 is connect with one end of hidden pipe 5, and water outlet has been sequentially connected with electromagnetic valve II I13 and circularly-supercharged water pump 14, circulation Water pipe 15 is connected between the outlet of booster water pump 14 and the other end of hidden pipe 5；Thermal-arrest is posted on the vacuum tube of the heat collector 1 Device temperature sensor, the inner sidewall upper water box temperature sensor of water tank 2 are provided with tank temperature sensing on the inner sidewall of fuel tank 3 The output of device, the indoor temperature transmitter, heat collector temperature sensor, water tank temperature sensor, tank temperature sensor connects Mouthful connect with the input interface of PLC controller by signal wire, the heat conduction oil circulating pump 9 and circularly-supercharged water pump 14 it is defeated Incoming interface is connect with the output interface of PLC controller through signal wire, the electromagnetic valve I 8, electromagnetic valve II 12 and solenoid valve The input interface of III13 is connect with the output interface of PLC controller through signal wire.

The system further includes auxiliary heating system, and the auxiliary heating system includes auxiliary heat cycles pump 16, heating dress 17 and shut-off valve 18 are set, one end of shut-off valve 18 is connected to water tank 2, and the other end is connect with heating device 17, heating device 17 The other end is connect with the arrival end of auxiliary heat cycles pump 16, and the outlet end of auxiliary heat cycles pump 16 is connected to water tank 2, described The input interface of auxiliary heat cycles pump 16 and the output interface of PLC controller are connected through signal wire.

The system further includes water supply tank 19, and the bottom of water supply tank 19 is connected with electromagnetic valve I V20, and electromagnetic valve I V20 connection is mended Water tank 19 and water tank 2 need to only control electromagnetic valve I V20 starting, water supply tank when observing water shortage in water tank 2 through PLC controller Water in 19 flows into water tank 2 through electromagnetic valve I V20.Sewage draining exit is offered on the side wall of the water tank 2 and positioned at its lower end. The oil inlet pipe 10 is connect with one end of the vacuum tube inside heat collector 1, and oil return pipe 11 is another with the vacuum tube inside heat collector 1 One end connection.

The course of work of the utility model is as follows: heat collector 1, water tank 2 and water pipe 15 being mounted on open air, on daytime day According to the phase, heat collector 1 gets up sunlight collection and is converted into thermal energy, the vacuum tube in energy heats heat collector 1, when heat collector temperature Spend sensor on temperature be greater than fuel tank 3 in thermally conductive oil temperature when, and the temperature difference be greater than 20 DEG C when, PLC controller control conduction oil follow Ring pump 9 and electromagnetic valve I 8, heat conduction oil circulating pump 9 extracts the conduction oil in fuel tank 3 out, conduction oil successively through heat conduction oil circulating pump 9, Vacuum tube in oil inlet pipe 10, heat collector 1, oil return pipe 11, the Single port of coil pipe 7, coil pipe 7, coil pipe 7 another port finally flow back Into fuel tank 3, wherein heat exchange occurs for conduction oil and vacuum tube, to make thermally conductive oil temperature when conduction oil flows through vacuum tube It increases, conduction oil enters heating coil 7 after coil pipe 7, the water in further heating water tank 2, so that coolant-temperature gage be made to increase；Due to leading Hot oil is that will not freeze under -50 DEG C of low temperature environments, without extra temperature difference cycle system, greatlies simplify the knot of the system Structure.

When indoor temperature transmitter monitors that temperature is lower than 18 DEG C in room body 4, indoor temperature transmitter issues electric signal To PLC controller, PLC controller control loop booster water pump 14, electromagnetic valve II 12 and electromagnetic valve II I13 are opened, circularly-supercharged Water pump 14 extracts the hot water of water tank 2 out, and hot water is successively through electromagnetic valve II I13, circularly-supercharged water pump 14, hidden pipe 5, electromagnetic valve II 12 It finally returns back in water tank 2, wherein hot water heating hidden pipe 5, heat pipe keeps wall heated when hot water enters hidden pipe 5, further makes Temperature increases in room body 4, provides heating for user；When indoor temperature transmitter monitors that temperature is higher than 18 DEG C in room body 4, Illustrate that interior is very warm, indoor temperature transmitter issues electric signal to PLC controller, the pressurization of PLC controller control loop at this time Water pump 14 and circularly-supercharged water pump 14 are closed, and A.T.C is realized, while also avoiding thermal energy waste.Therefore the system Compared to traditional Electric heating, power consumption is saved；The system compares traditional water heating method, without gas heating Water, but solar energy heating is utilized, save use cost.In addition, the water for flowing through water pipe 15 is hot water always, avoid tight Cold purgation, water freeze in the duct.

At cloudy day or rainy day, heat collector 1 can not collect heat, and the coolant-temperature gage in water tank 2 is lower, work as water tank temperature When sensor detects water temperature lower than 30 DEG C, water tank temperature sensor issues electric signal to PLC controller, and PLC controller receives Control loop booster water pump 14 starts after to signal, and water is pumped into heating device 17 by circularly-supercharged water pump 14, heating device 17 heat water, and the water after heating is entered again in water tank 2, to increase water temperature, provide condition for subsequent heating.

Claims (6)

1. solar energy heat collector exempts from temperature difference cycle system under a kind of subzero 50 DEG C of environment, it is characterised in that: it includes PLC control Device, heat collector (1), water tank (2), fuel tank (3) and the hidden pipe (5) being embedded in room body (4), the interior setting of the room body (4) are had family Interior temperature sensor, the water tank (2) is interior to be provided with coil pipe (7), and the two-port of coil pipe (7) stretches out in water tank (2) outside, disk It manages on the outer surface of (7) and is welded with more radiation tooths (21) along its length, be respectively set in the left and right sidewall of fuel tank (3) There are oil outlet and oil inlet, electromagnetic valve I (8) are connected between oil inlet and the Single port of coil pipe (7), oil outlet, which is connected with, to be led The outlet of circular-pump (9), heat conduction oil circulating pump (9) is connect through oil inlet pipe (10) with the arrival end of heat collector (1), heat collector (1) another port flanged joint of the outlet end through oil return pipe (11) Yu coil pipe (7)；It is offered on the side wall of the water tank (2) Water outlet and water return outlet are connected with electromagnetic valve II (12) at water return outlet, and electromagnetic valve II (12) is connect with one end of hidden pipe (5), out Electromagnetic valve II I(13 has been sequentially connected at the mouth of a river) and circularly-supercharged water pump (14), the outlet of circularly-supercharged water pump (14) and hidden pipe (5) water pipe (15) are connected between the other end；Heat collector temperature sensor, water are posted on the vacuum tube of the heat collector (1) The inner sidewall upper water box temperature sensor of case (2) is provided with tank temperature sensor, the interior on the inner sidewall of fuel tank (3) Temperature sensor, heat collector temperature sensor, water tank temperature sensor, tank temperature sensor output interface with PLC control The input interface of device processed is connected by signal wire, the input interface of the heat conduction oil circulating pump (9) and circularly-supercharged water pump (14) It is connect with the output interface of PLC controller through signal wire, the electromagnetic valve I (8), electromagnetic valve II (12) and electromagnetic valve II I (13) input interface is connect with the output interface of PLC controller through signal wire.

2. solar energy heat collector exempts from temperature difference cycle system under the subzero 50 DEG C of environment of one kind according to claim 1, special Sign is: the system further includes auxiliary heating system, and the auxiliary heating system includes auxiliary heat cycles pump (16), heating dress (17) and shut-off valve (18) are set, one end of shut-off valve (18) is connected to water tank (2), and the other end is connect with heating device (17), is added The other end of thermal (17) is connect with the arrival end of auxiliary heat cycles pump (16), the outlet end of auxiliary heat cycles pump (16) It is connected to water tank (2), the input interface of the auxiliary heat cycles pump (16) and the output interface of PLC controller connect through signal wire It connects.

3. solar energy heat collector exempts from temperature difference cycle system under the subzero 50 DEG C of environment of one kind according to claim 1, special Sign is: the system further includes water supply tank (19), and the bottom of water supply tank (19) is connected with electromagnetic valve I V(20), electromagnetic valve I V(20) It is connected to water supply tank (19) and water tank (2).

4. solar energy heat collector exempts from temperature difference cycle system under the subzero 50 DEG C of environment of one kind according to claim 1, special Sign is: offering sewage draining exit on the side wall of the water tank (2) and positioned at its lower end.

5. solar energy heat collector exempts from temperature difference cycle system under the subzero 50 DEG C of environment of one kind according to claim 1, special Sign is: one end of the oil inlet pipe (10) vacuum tube internal with heat collector (1) is connect, oil return pipe (11) and heat collector (1) The other end connection of internal vacuum tube.

6. solar energy heat collector exempts from temperature difference cycle system under the subzero 50 DEG C of environment of one kind according to claim 1, special Sign is: the spacing between adjacent two radiation tooths (21) is equal.