CN211146912U - Heating device for building - Google Patents

Abstract

The utility model discloses a heating device for building, add cold water for the thermal-collecting tube through the water inlet, solar energy heats the water in the thermal-collecting tube, carry hot water for the storage water tank and carry hot water and heat, make heating device save a large amount of electric energy, reach the purpose of energy saving and environmental protection, reduce the running cost of heating device, provide hot water for the terminal through the storage water tank and carry out heating, compare long distance heating, improve heating efficiency, and the convenient to use person carries out the use of heating device, the liquid level changer detects the liquid level value in the storage water tank, when the liquid level value reaches the setting value, carry hot water for the storage water tank, avoid the water yield in the storage water tank is less and influence the normal operating of heating device, the illumination detector detects the external illumination value, when illumination is weaker, microcontroller controls the hot plate power-on operation and heats the water in the storage water tank, cooperate, the stable control of temperature is convenient to carry out, improves heating device's practicality.

Description

Heating device for building

Technical Field

The utility model belongs to the technical field of building heating equipment, especially, relate to a heating device for building.

Background

The building heating is social service for solving the basic life requirement of the heating of residents in China in winter, the traditional heating mode adopts a ground source heat pump to realize the transfer of low-temperature-level heat energy to high-temperature level by inputting a small amount of high-grade energy, and the new China is established, and the development of the heating industry plays an important role in developing economy, improving the living standard of the residents and improving the environment.

SUMMERY OF THE UTILITY MODEL

The utility model provides a heating device for building aims at solving the heating system energy consumption that the aforesaid exists great, and the person of not being convenient for carries out heating device's use, lacks control mechanism, can not carry out stability control's problem to the temperature.

The utility model discloses a realize like this, a heating plant for building, its characterized in that: the solar water heater comprises a first water pump, a solar heat collection mechanism, a terminal mechanism, a water storage mechanism, a second water pump, a first electromagnetic valve, a second electromagnetic valve, a third water pump, a third electromagnetic valve and a fourth electromagnetic valve, wherein the water storage mechanism is arranged on the right side of the solar heat collection mechanism, the upper end of the water storage mechanism is connected with the upper end of the solar heat collection mechanism through a pipeline, and the lower end of the water storage mechanism is connected with the lower end of the solar heat collection mechanism through a pipeline; the first water pump is fixed on a pipeline at the upper end between the water storage mechanism and the solar heat collection mechanism through a bolt; the third water pump is fixed on a pipeline at the lower end between the water storage mechanism and the solar heat collection mechanism through a bolt and is connected with tap water; the third electromagnetic valve is fixed on a pipeline between the third water pump and the solar heat collecting mechanism through a bolt; the second electromagnetic valve is fixed on a pipeline between the third water pump and the water storage mechanism through a bolt; the terminal mechanism is arranged on the right side of the water storage mechanism, the left end of the terminal mechanism is connected with the upper end of the water storage mechanism through a pipeline, and the right end of the terminal mechanism is connected with the lower end of the water storage mechanism through a pipeline; the fourth electromagnetic valve is fixed on the pipelines at the upper ends of the terminal mechanism and the water storage mechanism through bolts; the first electromagnetic valve is fixed on the pipelines at the lower ends of the terminal mechanism and the water storage mechanism through bolts; and the second water pump is fixed on a pipeline between the first electromagnetic valve and the terminal mechanism through a bolt.

The first water pump, the second water pump and the third water pump are connected with the electric control cabinet through leads and are all in L Y-J L M types, and the first electromagnetic valve, the second electromagnetic valve, the third electromagnetic valve and the fourth electromagnetic valve are connected with the electric control cabinet through leads and are all in 2W-320-32K types.

The solar heat collection mechanism comprises a support, a heat collection pipe, a water delivery tank, a water outlet, a water inlet and an illumination detector, wherein the water delivery tank is fixed in the middle of the inner side of the support through a bolt; the heat collecting pipes are fixed between the bracket and the water delivery tank through bolts and are communicated with the inside of the water delivery tank; the illumination detector is fixed above the left side of the bracket through a bolt; the water outlet is fixed on the right side above the water delivery tank through a bolt; the water inlet is fixed below the water conveying tank through a bolt.

The support adopts a frame type; the heat collecting pipe is of a hollow structure; the water outlet and the water inlet are the same in size; the illumination detector is of GHHB-002 type.

The terminal mechanism comprises a water supply end, a plurality of terminals, a water return end and a house entrance valve, wherein the terminals are arranged between the water supply end and the water return end and are respectively connected with the water supply end and the water return end through pipelines; the house service valve adopts a plurality of, fixes between water supply end and terminal through the bolt.

The water storage mechanism comprises a water storage tank, a microcontroller, an electric control cabinet, a liquid level transmitter, a heating plate and a temperature sensor, the water storage tank is arranged on the right side of the bracket, the upper end of the water storage tank is connected with the water outlet through a pipeline, and the lower end of the water storage tank is connected with the water inlet through a pipeline; the microcontroller is fixed in the middle of the left side of the water storage tank through a bolt; the electric control cabinet is fixed below the right side of the water storage tank through a bolt; the liquid level transmitter is fixed on the right side of the water storage tank through a bolt and is positioned above the electric control cabinet; the temperature sensor is fixed below the inside of the water storage tank through a bolt; the heating plate adopts two, fixes the left and right sides in the storage water tank through the bolt.

The microcontroller is connected with the electric control cabinet through a wire, and adopts a WQGPRS-323 type; the liquid level transmitter is respectively connected with the electric control cabinet and the microcontroller through leads and adopts an MIK-RP type; the heating plate is respectively connected with the electric control cabinet and the microcontroller through leads, and is of a QY002 type; the temperature sensor is respectively connected with the electric control cabinet and the microcontroller through leads, and is in a CWDZ11 type.

Compared with the prior art, the beneficial effects of the utility model are that:

1. the device adopts the water inlet to add cold water into the heat collecting pipe, the solar energy heats the water in the heat collecting pipe and conveys hot water to the water storage tank for heating, so that the heating device saves a large amount of electric energy, achieves the purposes of energy conservation and environmental protection and reduces the operation cost of the heating device;

2. the device adopts the electric control cabinet to be connected with commercial power to supply power for the system, and provides hot water for a terminal through the water storage tank to supply heat, compared with long-distance heating, the heating efficiency is improved, and a user can conveniently use the heating device;

3. this device adopts temperature sensor to detect the interior temperature value of storage water tank, and the illumination detector detects external illumination value, and when illumination was more weak, microcontroller control hot plate circular telegram operation heated the water in the storage water tank, and the temperature of cooperation temperature sensor in to the storage water tank is controlled, is convenient for carry out the stability control of temperature, improves heating device's practicality.

Drawings

Fig. 1 is a schematic structural view of the present invention;

fig. 2 is a schematic structural view of the solar heat collecting mechanism of the present invention;

fig. 3 is a schematic structural diagram of the terminal mechanism of the present invention;

fig. 4 is a schematic structural diagram of the water storage mechanism of the present invention.

In the figure: the solar water heater comprises a first water pump 1, a solar heat collection mechanism 2, a support 21, a heat collection pipe 22, a water delivery tank 23, a water outlet 24, a water inlet 25, a light illumination detector 26, a terminal mechanism 3, a water supply end 31, a terminal 32, a water return end 33, a home valve 34, a water storage mechanism 4, a water storage tank 41, a microcontroller 42, an electric control cabinet 43, a liquid level transmitter 44, a heating plate 45, a temperature sensor 46, a second water pump 5, a first electromagnetic valve 6, a second electromagnetic valve 7, a third water pump 8, a third electromagnetic valve 9 and a fourth electromagnetic valve 10.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more clearly understood, the present invention is further described in detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

In the description of the present invention, it is to be understood that the terms "length", "width", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", and the like indicate orientations or positional relationships based on those shown in the drawings, and are merely for convenience of description and simplicity of description, and do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be construed as limiting the present invention. In addition, in the description of the present invention, "a plurality" means two or more unless specifically limited otherwise.

Example one

Referring to fig. 1-4, the utility model provides a heating device for building, which comprises a first water pump 1, a solar heat collection mechanism 2, a terminal mechanism 3, a water storage mechanism 4, a second water pump 5, a first electromagnetic valve 6, a second electromagnetic valve 7, a third water pump 8, a third electromagnetic valve 9 and a fourth electromagnetic valve 10, wherein the water storage mechanism 4 is arranged on the right side of the solar heat collection mechanism 2, the upper end of the water storage mechanism is connected with the upper end of the solar heat collection mechanism 2 through a pipeline, the lower end of the water storage mechanism is connected with the lower end of the solar heat collection mechanism 2 through a pipeline, the first water pump 1 is fixed on the pipeline at the upper end between the water storage mechanism 4 and the solar heat collection mechanism 2 through a bolt, the third water pump 8 is fixed on the pipeline at the lower end between the water storage mechanism 4 and the solar heat collection mechanism 2 through a tap water, the third electromagnetic valve 9 is fixed on the pipeline between the third water pump 8 and the solar heat collection mechanism 2 through a bolt, the second electromagnetic valve 7 is fixed on the pipeline between the third water pump 8 and the water storage mechanism 4 through a bolt, the water storage mechanism 4 and the water storage mechanism 4 through a bolt, the pipeline, the terminal mechanism 3 is fixed on the pipeline between the water storage mechanism 4 and the water storage mechanism, the water storage mechanism is connected with the electromagnetic valve mechanism through a fourth electromagnetic valve 8, the electromagnetic valve 8 is connected with the electromagnetic valve, the electromagnetic valve 8, the electromagnetic valve.

Example two

Referring to fig. 1 to 4, a heating apparatus for building is substantially the same as the first embodiment, and further, the solar heat collecting mechanism 2 includes a bracket 21, a heat collecting pipe 22, a water delivery tank 23, a water outlet 24, a water inlet 25 and an illumination detector 26, wherein the water delivery tank 23 is fixed at the middle position of the inner side of the bracket 21 by bolts; a plurality of heat collecting pipes 22 are fixed between the bracket 21 and the water delivery tank 23 through bolts and communicated with the inside of the water delivery tank 23; the illumination detector 26 is fixed above the left side of the bracket 21 through a bolt; the water outlet 24 is fixed on the right side above the water delivery tank 23 through a bolt; the water inlet 25 is fixed below the water conveying tank 23 through a bolt; the support 21 adopts a frame type; the heat collecting pipe 22 adopts a hollow structure; the water outlet 24 and the water inlet 25 are the same in size; the illumination detector 26 is of GHHB-002 type.

Cold water is added into the heat collecting pipe 22 through the water inlet 25, the water in the heat collecting pipe 22 is heated by solar energy, and hot water is conveyed to the water storage tank 41 for heating, so that a large amount of electric energy is saved for the heating device, the purposes of energy conservation and environmental protection are achieved, and the operation cost of the heating device is reduced.

EXAMPLE III

Referring to fig. 1-4, a heating device for buildings, substantially the same as the first embodiment, further, the terminal mechanism 3 includes a water supply end 31, a terminal 32, a water return end 33 and a home valve 34, the plurality of terminals 32 are disposed between the water supply end 31 and the water return end 33, and are respectively connected to the water supply end 31 and the water return end 33 through pipes; the service valve 34 is provided in plural, and is fixed between the water supply end 31 and the terminal 32 by bolts.

The water supply end 31 supplies hot water to the terminals 32, the home-entering valve 34 is opened to supply heat, the water return end 33 ensures the recycling of the hot water, the comfort level of users is improved, and each terminal 32 is provided with the independent home-entering valve 34, so that each terminal 32 can conveniently control the heating.

Example four

Referring to fig. 1-4, a heating device for building is substantially the same as the first embodiment, and further, the water storage mechanism 4 includes a water storage tank 41, a microcontroller 42, an electric control cabinet 43, a liquid level transmitter 44, a heating plate 45 and a temperature sensor 46, the water storage tank 41 is disposed on the right side of the bracket 21, the upper end is connected to the water outlet 24 through a pipeline, and the lower end is connected to the water inlet 25 through a pipeline; the microcontroller 42 is fixed at the middle position on the left side of the water storage tank 41 through a bolt; the electric control cabinet 43 is fixed below the right side of the water storage tank 41 through bolts; the liquid level transmitter 44 is fixed on the right side of the water storage tank 41 through a bolt and is positioned above the electric control cabinet 43; the temperature sensor 46 is fixed below the inside of the water storage tank 41 through bolts; the two heating plates 45 are fixed on the left side and the right side inside the water storage tank 41 through bolts; the microcontroller 42 is connected with the electric control cabinet 43 through a wire, and adopts a WQGPRS-323 type; the liquid level transmitter 44 is respectively connected with the electric control cabinet 43 and the microcontroller 42 through leads, and is of an MIK-RP type; the heating plate 45 is respectively connected with the electric control cabinet 43 and the microcontroller 42 through leads, and is of a QY002 type; the temperature sensor 46 is connected with the electric control cabinet 43 and the microcontroller 42 respectively through wires, and is of a CWDZ11 type.

Provide hot water for terminal 32 through storage water tank 41 and heat, compare long distance heating, improve heating efficiency, and the person of facilitating the use carries out heating device's use, level transmitter 44 detects the liquid level value in the storage water tank 41, when the liquid level value reaches the setting value, for storage water tank 41 carries hot water, avoid the less normal operating that influences heating device of the interior water yield of storage water tank 41, temperature sensor 46 detects the interior temperature value of storage water tank 41, illumination detector 26 detects external illumination value, when illumination is less strong, microcontroller 42 control hot plate 45 circular telegram operation heats the water in storage water tank 41, cooperation temperature sensor 46 controls the temperature in storage water tank 41, be convenient for carry out the stable control of temperature, improve heating device's practicality.

EXAMPLE five

The utility model discloses a theory of operation: the heat collecting pipe 22 is added with cold water through the water inlet 25, the solar energy heats the water in the heat collecting pipe 22, the water storage tank 41 is supplied with hot water for heating, a heating device saves a large amount of electric energy, the purposes of energy saving and environmental protection are achieved, the operation cost of the heating device is reduced, the water storage tank 41 is used for providing hot water for the terminal 32 for heating, compared with long-distance heating, the heating efficiency is improved, and a user can conveniently use the heating device, the liquid level transmitter 44 detects the liquid level value in the water storage tank 41, when the liquid level value reaches a set value, the hot water is supplied to the water storage tank 41, the normal operation of the heating device is prevented from being influenced by the small water amount in the water storage tank 41, the temperature sensor 46 detects the temperature value in the water storage tank 41, the illumination detector 26 detects the external illumination value, when the illumination is weaker, the temperature of cooperation temperature sensor 46 in to storage water tank 41 is controlled, is convenient for carry out the stability control of temperature, improves heating plant's practicality, and water supply end 31 carries hot water for terminal 32, opens door valve 34 and supplies heat, and return water end 33 guarantees hydrothermal circulation and uses, improves user's comfort level, and every terminal 32 all is equipped with solitary door valve 34, and every terminal 32 of being convenient for carries out the control of heating.

The above description is only exemplary of the present invention and should not be construed as limiting the present invention, and any modifications, equivalents and improvements made within the spirit and principles of the present invention are intended to be included within the scope of the present invention.

Claims (7)

1. A heating device for buildings is characterized in that: the solar water heater comprises a first water pump, a solar heat collection mechanism, a terminal mechanism, a water storage mechanism, a second water pump, a first electromagnetic valve, a second electromagnetic valve, a third water pump, a third electromagnetic valve and a fourth electromagnetic valve, wherein the water storage mechanism is arranged on the right side of the solar heat collection mechanism, the upper end of the water storage mechanism is connected with the upper end of the solar heat collection mechanism through a pipeline, and the lower end of the water storage mechanism is connected with the lower end of the solar heat collection mechanism through a pipeline; the first water pump is fixed on a pipeline at the upper end between the water storage mechanism and the solar heat collection mechanism through a bolt; the third water pump is fixed on a pipeline at the lower end between the water storage mechanism and the solar heat collection mechanism through a bolt and is connected with tap water; the third electromagnetic valve is fixed on a pipeline between the third water pump and the solar heat collecting mechanism through a bolt; the second electromagnetic valve is fixed on a pipeline between the third water pump and the water storage mechanism through a bolt; the terminal mechanism is arranged on the right side of the water storage mechanism, the left end of the terminal mechanism is connected with the upper end of the water storage mechanism through a pipeline, and the right end of the terminal mechanism is connected with the lower end of the water storage mechanism through a pipeline; the fourth electromagnetic valve is fixed on the pipelines at the upper ends of the terminal mechanism and the water storage mechanism through bolts; the first electromagnetic valve is fixed on the pipelines at the lower ends of the terminal mechanism and the water storage mechanism through bolts; and the second water pump is fixed on a pipeline between the first electromagnetic valve and the terminal mechanism through a bolt.

2. A heating device for buildings according to claim 1, wherein the first water pump, the second water pump and the third water pump are connected with the electric control cabinet through wires, and are all L Y-J L M type, and the first electromagnetic valve, the second electromagnetic valve, the third electromagnetic valve and the fourth electromagnetic valve are connected with the electric control cabinet through wires, and are all 2W-320-32K type.

3. A heating system for buildings according to claim 1, wherein: the solar heat collection mechanism comprises a support, a heat collection pipe, a water delivery tank, a water outlet, a water inlet and an illumination detector, wherein the water delivery tank is fixed in the middle of the inner side of the support through a bolt; the heat collecting pipes are fixed between the bracket and the water delivery tank through bolts and are communicated with the inside of the water delivery tank; the illumination detector is fixed above the left side of the bracket through a bolt; the water outlet is fixed on the right side above the water delivery tank through a bolt; the water inlet is fixed below the water conveying tank through a bolt.

4. A heating system for buildings according to claim 3, wherein: the support adopts a frame type; the heat collecting pipe is of a hollow structure; the water outlet and the water inlet are the same in size; the illumination detector is of GHHB-002 type.

5. A heating system for buildings according to claim 1, wherein: the terminal mechanism comprises a water supply end, a plurality of terminals, a water return end and a house entrance valve, wherein the terminals are arranged between the water supply end and the water return end and are respectively connected with the water supply end and the water return end through pipelines; the house service valve adopts a plurality of, fixes between water supply end and terminal through the bolt.

6. A heating system for buildings according to claim 1, wherein: the water storage mechanism comprises a water storage tank, a microcontroller, an electric control cabinet, a liquid level transmitter, a heating plate and a temperature sensor, the water storage tank is arranged on the right side of the bracket, the upper end of the water storage tank is connected with the water outlet through a pipeline, and the lower end of the water storage tank is connected with the water inlet through a pipeline; the microcontroller is fixed in the middle of the left side of the water storage tank through a bolt; the electric control cabinet is fixed below the right side of the water storage tank through a bolt; the liquid level transmitter is fixed on the right side of the water storage tank through a bolt and is positioned above the electric control cabinet; the temperature sensor is fixed below the inside of the water storage tank through a bolt; the heating plate adopts two, fixes the left and right sides in the storage water tank through the bolt.

7. A heating system for buildings according to claim 6, wherein: the microcontroller is connected with the electric control cabinet through a wire, and adopts a WQGPRS-323 type; the liquid level transmitter is respectively connected with the electric control cabinet and the microcontroller through leads and adopts an MIK-RP type; the heating plate is respectively connected with the electric control cabinet and the microcontroller through leads, and is of a QY002 type; the temperature sensor is respectively connected with the electric control cabinet and the microcontroller through leads, and is in a CWDZ11 type.

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