CN207741176U - Heating system based on groove type solar condenser system and electric boiler complementation - Google Patents

Abstract

The utility model discloses a kind of heating system based on groove type solar condenser system and electric boiler complementation, including：Groove type solar condenser system；The first water cell being connected to the water inlet end of groove type solar condenser system；The first water pump being set between groove type solar condenser system and the first water cell；Heat exchange unit, heat exchange unit are connected to the water outlet of groove type solar condenser system, and the water outlet of heat exchange unit is connected to the first water cell；The heating unit of heat exchange is carried out with heat exchange unit；Electric boiler；The water inlet end of electric boiler is connected to the water outlet of heat exchange unit, and the water outlet of electric boiler is connected to the water inlet end of heat exchange unit；It is set to the first valve of the water outlet of groove type solar condenser system；It is set to the second valve of the water inlet end of the first water cell；It is respectively arranged at the water inlet end of electric boiler and the third valve of water outlet and the 4th valve.Realize that whole day provides heat for heating unit.

Description

Heating system based on groove type solar condenser system and electric boiler complementation

Technical field

The utility model is related to a kind of heating system based on groove type solar condenser system and electric boiler complementation.

Background technology

China is maximum coal production and country of consumption in the world, and nearly 76% is supplied by coal in energy resource structure, such as It is heated using coal burning, great destruction has been had resulted in the ecological environment in China.And solar energy is inexhaustible, uses it The inexhaustible energy, and ecological environment will not be polluted, people develop and use solar energy resources energetically thus.

Therefore, it is the effective way preserved the ecological environment to replace coal heating with solar energy, is had broad application prospects.

Utility model content

In order to solve the above technical problems, the utility model provides, one kind being based on groove type solar condenser system and electric boiler is mutual The heating system of benefit.Technical solution is as follows：

The utility model embodiment provides a kind of heating system based on groove type solar condenser system and electric boiler complementation, Including：

Groove type solar condenser system, the groove type solar condenser system have the water inlet of groove type solar condenser system The water outlet at end and groove type solar condenser system；

The first water cell being connected to the water inlet end of the groove type solar condenser system；

The first water pump being set between the water inlet end of the groove type solar condenser system and first water cell；

Heat exchange unit, the heat exchange unit have the water outlet of the water inlet end and heat exchange unit of heat exchange unit,

The water inlet end of the heat exchange unit is connected to the water outlet of the groove type solar condenser system, the heat exchange unit Water outlet be connected to first water cell；

The heating unit of heat exchange is carried out with the heat exchange unit；

Electric boiler, the electric boiler have the water outlet of the water inlet end and electric boiler of electric boiler；

The water inlet end of the electric boiler is connected to the water outlet of the heat exchange unit, the water outlet of the electric boiler with it is described The water inlet end of heat exchange unit is connected to；

It is set to the first valve of the water outlet of the groove type solar condenser system；

It is set to the second valve of the water inlet end of first water cell；

It is set to the third valve of the water inlet end of the electric boiler；And

It is set to the 4th valve of the water outlet of the electric boiler.

Preferably, the heating system further includes：

The second water cell being set between the water outlet of the groove type solar condenser system and first valve； And

It is set to the second water pump of first valve and the water inlet end of the heat exchange unit.

It is highly preferred that first water cell includes：Multiple first water receivers, the multiple first water receiver parallel connection connect It connects.

It is highly preferred that first water pump is variable frequency pump, the quantity of first water pump be it is multiple, and multiple described the One water pump is connected in parallel.

It is highly preferred that the heat exchange unit includes multiple heat exchangers, the multiple heat exchanger is connected in parallel；

The quantity of the heating unit is at least one.

It is highly preferred that the heat exchanger is shell-and-tube heat exchanger.

Preferably, second water cell includes：Multiple second water receivers, the multiple second water receiver parallel connection connect It connects.

It is highly preferred that second water receiver is internally provided with liquid level gauge and lower liquid level gauge.

Preferably, second water pump is variable frequency pump, the quantity of second water pump be it is multiple, and multiple described second Water pump is connected in parallel.

Preferably, the dischargeable capacity of first water cell is identical as the dischargeable capacity of the second water cell.

The advantageous effect of technical solution that the utility model embodiment provides is：In the fine day of sunlight abundance, the is opened One valve and the second valve, the interior water stored of the first water cell is pressurized by the first water pump as shown by arrows, from groove type solar The water inlet end of condenser system flows into groove type solar condenser system, and in groove type solar condenser system, water is heated up, It is flowed out from the water outlet of groove type solar condenser system, the water after heating is sent out during flowing through heat exchange unit with heating unit Heat exchanges, and transfers thermal energy to heating unit, and cooling is back in the first water cell, and iterative cycles heat in this way passes It passs, thermal energy is provided for heating unit, electric boiler, the water inlet end of electric boiler and heat exchange are additionally provided in the heating system of the present embodiment The water outlet of unit is connected to, and the water outlet of electric boiler is connected to the water inlet end of heat exchange unit, at cloudy day or night, closes the first valve Door and the second valve open third valve and the 4th valve, start electric boiler and are heated to the water after heat exchange unit heat exchange, Heat is provided for heating unit.The heating system is that heating unit realizes that whole day 24 is small using clean solar energy and electricity mutual complementation When uninterrupted heat supply, and will not pollution of ecological environment.

Description of the drawings

Fig. 1 is the confession based on groove type solar condenser system and electric boiler complementation of the first embodiment of the utility model The schematic diagram of heating system.

Fig. 2 is the confession based on groove type solar condenser system and electric boiler complementation of second of embodiment of the utility model The schematic diagram of heating system.

Reference numeral in figure indicates respectively：

1, groove type solar condenser system；101, the water inlet end of groove type solar condenser system；102, groove type solar is poly- The water outlet of photosystem；

2, the first water cell；

3, the first water pump；

4, heat exchange unit；401, the water inlet end of heat exchange unit；402, the water outlet of heat exchange unit；

5, heating unit；

6, electric boiler；601, the water inlet end of electric boiler；602, the water outlet of electric boiler；

7, the first valve；

8, the second valve；

9, third valve；

10, the 4th valve；

11, the second water cell；

12, the second water pump；

13, motor-operated isolation valve；

14, check-valves；

15, strainer.

Specific implementation mode

To keep the technical solution of the utility model and advantage clearer, the utility model is implemented below in conjunction with attached drawing Mode is described in further detail.

The first embodiment

The first embodiment of the utility model provides a kind of complementary based on groove type solar condenser system and electric boiler Heating system.Refer to Fig. 1, Fig. 1 is the utility model the first embodiment based on groove type solar condenser system and electricity The schematic diagram of the heating system of boiler complementation.As shown in Figure 1, the first embodiment based on groove type solar condenser system and The heating system of electric boiler complementation includes：Groove type solar condenser system 1, groove type solar condenser system 1 have the slot type sun It can the water inlet end 101 of condenser system and the water outlet 102 of groove type solar condenser system；With groove type solar condenser system into The first water cell 2 that water end (W.E.) 101 is connected to；It is set to the water inlet end 101 and the first water cell 2 of groove type solar condenser system Between the first water pump 3；Heat exchange unit 4, heat exchange unit 4 have the water outlet of the water inlet end 401 and heat exchange unit of heat exchange unit 402, the water inlet end 401 of heat exchange unit is connected to the water outlet 102 of groove type solar condenser system, the water outlet of heat exchange unit 402 are connected to the first water cell 2；The heating unit 5 of heat exchange is carried out with heat exchange unit 4；Electric boiler 6, electric boiler 6 have electricity The water inlet end 601 of boiler and the water outlet 602 of electric boiler；The water inlet end 601 of electric boiler connects with the water outlet 402 of heat exchange unit Logical, the water outlet 602 of electric boiler is connected to the water inlet end 401 of heat exchange unit；It is set to the water outlet of groove type solar condenser system First valve 7 at end 102；It is set to the second valve 8 of the water inlet end of the first water cell 2；It is set to the water inlet end of electric boiler 601 third valve 9；And it is set to the 4th valve 10 of the water outlet 602 of electric boiler.

The heating system based on groove type solar condenser system and electric boiler complementation that the utility model embodiment provides Operation principle be：

As shown in Figure 1, in the fine day of sunlight abundance, the first valve 7 and the second valve 8 are opened, in the first water cell 2 The water of storage is pressurized by the first water pump 3 as shown by arrows, and the slot type sun is flowed into from the water inlet end 101 of groove type solar condenser system In energy condenser system 1, in groove type solar condenser system 1, water is heated up, from the water outlet of groove type solar condenser system 102 outflow of end, the water after heating occur heat exchange with heating unit 5 during flowing through heat exchange unit 4, transfer thermal energy to Heating unit 5, cooling are back in the first water cell 2, and iterative cycles heat in this way is transmitted, and heat is provided for heating unit Can, heating system in the present embodiment is additionally provided with electric boiler 6, the water outlet of the water inlet end 601 and heat exchange unit of electric boiler 402 connection of end, the water outlet 602 of electric boiler are connected to the water inlet end 401 of heat exchange unit, at cloudy day or night, close the first valve Door 7 and the second valve 8, open third valve 9 and the 4th valve 10, start electric boiler 6 to after 4 heat exchange of heat exchange unit Water heats, and heat is provided for heating unit.The heating system is realized using clean solar energy and electricity mutual complementation for heating unit Whole day uninterrupted heat supply in 24 hours, and will not pollution of ecological environment.

In the present embodiment, slot light collection solar energy system 1 includes：It is groove type parabolic mirror, mirror support, anti- Mirror driving mechanism, micromirror control system and thermal-collecting tube are penetrated, groove type parabolic mirror reflexes to sunlight on thermal-collecting tube, The water flowed through in thermal-collecting tube is heated to rated temperature.

In the present embodiment, water by slot light collection solar energy system 1 is heated to 100~130 DEG C (heating temperature can be with Designed according to concrete engineering), there is many thermal energy, heating unit 5 is transferred thermal energy to by heat exchange unit 4.

The first valve 7, the second valve 8, third valve 9 and the 4th valve 10 of present embodiment electronic can be isolated Valve.

In addition, in the present embodiment, the first water cell 2 may include：Multiple first water receivers, multiple first water storages Device is connected in parallel.Multiple first water receivers are that groove type solar condenser system 1 provides water, one of those first water receiver can be with As spare water receiver.First water receiver can be open tank, the convenient moisturizing into the first water receiver at any time.

Further more, in the present embodiment, the first water pump 3 can be variable frequency pump, can pass through the frequency of the first water pump 3 of adjusting Rate adjusts flow velocity of the water in groove type solar condenser system 1.The quantity of first water pump 3 is multiple, and multiple first water pumps 3 are connected in parallel.First water pump 3 can one by one connect with the first water receiver, can also be that multiple first water pumps 3 are in parallel, Duo Ge One water receiver is in parallel, and multiple first water pumps 3 are connected with multiple first water receivers later.

In addition, in the present embodiment, heat exchange unit 4 may include：Multiple heat exchangers, multiple heat exchangers are connected in parallel； The quantity of heating unit 5 is at least one.The connection type of heat exchanger and heating unit 5 can be a heat exchanger and a confession Heat exchange occurs for warm unit 5, or heat exchange occurs for two heat exchangers and a heating unit 5, also or more than two Heat exchange occurs for heat exchanger and a heating unit 5.Heat exchanger can be shell-and-tube heat exchanger.

Second of embodiment

Second of embodiment of the utility model provides another complementary based on groove type solar condenser system and electric boiler Heating system.Refer to Fig. 2, Fig. 2 be second of embodiment of the utility model based on groove type solar condenser system and The schematic diagram of the heating system of electric boiler complementation.Second embodiment it is mutual based on groove type solar condenser system and electric boiler The heating system of benefit and the first embodiment difference lies in, as shown in Fig. 2, on the basis of the first embodiment, the The heating system based on groove type solar condenser system and electric boiler complementation of two kinds of embodiments further includes：It is set to slot type too The second water cell 11 between the water outlet 102 and the first valve 7 of positive energy condenser system；And be set to the first valve 7 with Second water pump 12 of the water inlet end 401 of heat exchange unit.Second water cell 11 can will be heated by groove type solar condenser system 1 Water storage after heating, at the night or rainy days of not illumination, the heating system of second of embodiment is continuously heating list Member 5 provides thermal energy, realizes whole day uninterrupted heat supply in 24 hours.Second water pump 12 is the water supercharging after heating, makes the water after heating Smoothly flow into heat exchange unit 4.If the heat of the hot water of the second water cell 11 storage or not enough realization whole day 24 hours Thermal energy is provided for heating unit 5, then closes the first valve 7 and the second valve 8, opens third valve 9 and the 4th valve 10, is started Electric boiler is that heating unit 5 provides thermal energy.

In the present embodiment, the second water cell 11 includes：Multiple second water receivers, multiple second water receiver parallel connections connect It connects.Water after will heat up is stored in multiple second water receivers, one of them second water receiver can be used as spare water storage device.The Two water receivers are preferably the water tank of the sealing with heat-insulating property.The inside of second water receiver is also provided with liquid level gauge With lower liquid level gauge, liquid level of the water in the first water receiver after control heating avoids the water after heating from overflowing from the first water receiver Go out or the first water receiver in anhydrous phenomenon occur.Instantly liquid level gauge detects that the water storage liquid level of the second water receiver is located at minimum liquid When position, the first water pump 3 stops supplying water to groove type solar condenser system 1.First valve 7 and the second valve 8 are automatically closed, third Valve 9 and the 4th valve 10 automatically turn on, and electric boiler 6 exchanges the water heating that hot cell 4 flows out, the water heated by electric boiler 6 It is that heating unit 5 provides heat to be back to heat exchange unit 4.

Further, the bottom surface of the second water receiver is higher than the second water pump 12, to meet the requirement of net positive suction head.

In addition, in the present embodiment, the second water pump 12 can be variable frequency pump, by adjusting the frequency of the second water pump 12, Flow velocity of the water after heating in heat exchanger is adjusted, to adjust the heat exchanger effectiveness of heat exchanger and heating unit.Second water pump 12 quantity is multiple, and multiple second water pumps 12 are connected in parallel.Second water pump 12 can one by one connect with the second water receiver, Can also be that multiple second water pumps 12 are in parallel, multiple second water receivers are in parallel, and multiple second water pumps 12 are stored up with multiple second later Hydrophone is connected.

As shown in Fig. 2, in the present embodiment, the water inlet end of the first water pump 3 and water outlet are both provided with motor-operated isolation valve 13, it is preferable that the water outlet of the first water pump 3 is additionally provided with check-valves 14, prevents aqueous reflux.The water inlet end of second water pump 12 and go out Water end (W.E.) is both provided with motor-operated isolation valve 13, it is preferable that the water outlet of the second water pump 12 is additionally provided with check-valves 14, prevents water from falling Stream.

As shown in Fig. 2, in the present embodiment, can also be set on the pipeline that the first valve 7 is connected to the second water pump 12 Strainer 15 is set, for filtering the water after heating up, the impurity in water is avoided excessively to block heat exchanger.

In the present embodiment, the dischargeable capacity of the first water cell 2 can be with the dischargeable capacity of the second water cell 11 Identical, i.e., the dischargeable capacity of the first water receiver is identical as the dischargeable capacity of the second water receiver.

The above is merely for convenience of it will be understood by those skilled in the art that the technical solution of the utility model, not to Limit the utility model.Within the spirit and principle of the utility model, any modification, equivalent replacement, improvement and so on, It should be included within the scope of protection of this utility model.

Claims (10)

1. a kind of heating system based on groove type solar condenser system and electric boiler complementation, which is characterized in that including：

Groove type solar condenser system (1), the groove type solar condenser system (1) have groove type solar condenser system into The water outlet (102) of water end (W.E.) (101) and groove type solar condenser system；

The first water cell (2) being connected to the water inlet end (101) of the groove type solar condenser system；

First be set between the water inlet end (101) of the groove type solar condenser system and first water cell (2) Water pump (3)；

Heat exchange unit (4), the heat exchange unit (4) have the water outlet of water inlet end (401) and heat exchange unit of heat exchange unit (402),

The water inlet end (401) of the heat exchange unit is connected to the water outlet (102) of the groove type solar condenser system, described to change The water outlet (402) of hot cell is connected to first water cell (2)；

The heating unit (5) of heat exchange is carried out with the heat exchange unit (4)；

Electric boiler (6), the electric boiler (6) have the water outlet (602) of the water inlet end (601) and electric boiler of electric boiler；

The water inlet end (601) of the electric boiler is connected to the water outlet (402) of the heat exchange unit, the water outlet of the electric boiler (602) it is connected to the water inlet end of the heat exchange unit (401)；

It is set to the first valve (7) of the water outlet (102) of the groove type solar condenser system；

It is set to the second valve (8) of the water inlet end of first water cell (2)；

It is set to the third valve (9) of the water inlet end (601) of the electric boiler；And

It is set to the 4th valve (10) of the water outlet (602) of the electric boiler.

2. heating system according to claim 1, which is characterized in that the heating system further includes：

The second water storage being set between the water outlet (102) of the groove type solar condenser system and first valve (7) Unit (11)；And

It is set to the second water pump (12) of first valve (7) and the water inlet end (401) of the heat exchange unit.

3. heating system according to claim 1 or 2, which is characterized in that first water cell (2) includes：It is multiple First water receiver, the multiple first water receiver are connected in parallel.

4. heating system according to claim 1 or 2, which is characterized in that first water pump (3) is variable frequency pump, described The quantity of first water pump (3) is multiple, and multiple first water pumps (3) are connected in parallel.

5. heating system according to claim 1 or 2, which is characterized in that the heat exchange unit (4) includes multiple heat exchange Device, the multiple heat exchanger are connected in parallel；

The quantity of the heating unit (5) is at least one.

6. heating system according to claim 5, which is characterized in that the heat exchanger is shell-and-tube heat exchanger.

7. heating system according to claim 2, which is characterized in that second water cell (11) includes：Multiple Two water receivers, the multiple second water receiver are connected in parallel.

8. heating system according to claim 7, which is characterized in that second water receiver is internally provided with liquid level Meter and lower liquid level gauge.

9. heating system according to claim 2, which is characterized in that second water pump (12) is variable frequency pump, described the The quantity of two water pumps (12) is multiple, and multiple second water pumps (12) are connected in parallel.

10. heating system according to claim 2, which is characterized in that the dischargeable capacity of first water cell (2) with The dischargeable capacity of second water cell (11) is identical.