CN218510997U - Intelligent low-energy-consumption household heating device - Google Patents

Abstract

The utility model discloses an intelligent low-energy consumption household heating device, which comprises an intelligent controller, a user side end device and a heating device, wherein a temperature measuring device is arranged in a user room, the temperature measuring device is connected with the intelligent controller through a wire or a wireless signal, and an energy distribution device is arranged between the user side end device and an original building heating system; when the heat load of the building is low and the original low-temperature heat source meets the heating condition, the original low-temperature heat source supplies heat, and when the heat load of the residents is increased and the heating requirement cannot be met, the heat supply device is started to supply heat and is connected with the original low-temperature heat source in a grid mode to operate.

Description

Intelligent low-energy-consumption household heating device

Technical Field

The utility model relates to a domestic heating device technical field specifically is an intelligent low energy consumption domestic heating device.

Background

In some areas needing heating in winter, some buildings have special problems that the room temperature of the buildings cannot meet the requirements, for example, the temperature of supply and return water provided by a heat supply company for residents cannot reach an ideal temperature any time when being adjusted, so that production and life of people are inconvenient, while most of traditional winter auxiliary heating devices mainly adopt direct electric heating, have high energy consumption and high heating cost, and in view of the above, deep research is carried out on the problems, and the scheme is generated.

SUMMERY OF THE UTILITY MODEL

Not enough to prior art, the utility model provides an intelligent low energy consumption domestic heating device has solved traditional winter and has assisted heating device and mostly used electricity direct heating as the main, and the energy consumption is great, the higher problem of heating cost.

In order to achieve the above purpose, the utility model discloses a following technical scheme realizes: an intelligent low-energy-consumption household heating device comprises an intelligent controller, a user side end device and a heating device, wherein a temperature measuring device is arranged in a user room, the temperature measuring device is connected with the intelligent controller through a wire or a wireless signal, an energy distribution device is arranged between the user side end device and an original building heating system, one end of the energy distribution device is connected with the heating device, and the energy distribution device and the heating device are connected with the intelligent controller through wires or wireless signals;

the energy distribution device comprises a main water supply pipe and a main water return pipe, one end of the main water supply pipe is connected with a water inlet of the user side end device, a heat source side flow adjusting water pump is arranged on a connecting pipeline of the other end of the main water supply pipe and a water supply end of the original building heating system, a check valve and a first electric flow adjusting valve are sequentially arranged in the water outlet direction of the heat source side flow adjusting water pump, and the main water supply pipe is communicated with the user side water supply pipe of the heating device through the heating device flow adjusting water pump.

The connection position of the water inlet end of the heat source supply side of the heat supply device and the main water supply pipe is provided with a second electric flow regulating valve, and the connection pipeline of the water return end of the heat source supply side of the heat supply device and the main water return pipe is provided with an electronic pressure gauge.

A third electric flow regulating valve is arranged at the connecting position of the water supply end of the user side of the heat supply device and the main water supply pipeline, and an electronic pressure gauge is arranged between the water supply end of the user side of the heat supply device and the main water return pipe.

The main water return pipe is provided with a one-way water return valve.

And a filter is arranged at the water inlet end of the heat source side flow regulating water pump on the main water supply pipe.

The energy distribution device is a box body structure adopting a water source heat pump technology, and a low-temperature heat source of an original building heating system is used as a heat source side to continuously absorb heat.

Advantageous effects

The utility model provides an intelligent low energy consumption domestic heating device. The method has the following beneficial effects:

1) The original heating system of the building is used as the heat source side of the intelligent low-energy consumption household heating device to provide a low-temperature heat source; when the heat load of the building is low and the original low-temperature heat source meets the heating condition, the original low-temperature heat source supplies heat, and when the heat load of the residents is increased and the heating requirement cannot be met, the heat supply device is started to supply heat and is connected with the original low-temperature heat source in a grid mode to operate;

2) The heating device adjusts the heating load along with the increase of the heat load, the original low-temperature heat source stops directly supplying heat to the building when the heating capacity of the heating device reaches 65% of the maximum load, only the heating device is supplied with the heat source to meet the heating load requirement, when the heating season is late or the heat load of residents is reduced, the working principle is the same in the reverse direction, and the original low-temperature heat source directly supplies heat until the heating device stops running;

3) The heating device utilizes a water source heat pump technology, the device mainly operates in the most efficient working condition, greatly saves energy and solves the problem that the heating temperature of the building does not reach the standard by consuming relatively low electric energy;

4) The novel intelligent low-energy-consumption household heating device has the advantages of simple control and small occupied area, and the size of the novel intelligent low-energy-consumption household heating device is similar to that of an external machine of a household air conditioner; because the heating heat source is provided by the low-temperature heat source of the original building heating system, the device makes full use of the original low-temperature heat source of the building through the energy distribution device, thereby saving resources, the system only consumes less electric energy by the unit and the water pump, greatly reduces the energy consumption compared with the traditional electric heating, and reduces the heating cost of users.

Drawings

Fig. 1 is a schematic diagram of the arrangement structure of the heating system of the present invention.

Fig. 2 is a schematic diagram of the system layout of the energy distribution device of the present invention.

Fig. 3 is a schematic structural diagram of the heating apparatus of the present invention.

In the figure: 1. an intelligent controller; 2. a user-side end device; 3. a temperature measuring device; 4. an energy distribution device; 5. a heating device; 6. a heat source side flow rate adjusting water pump; 7. a heat supply device flow regulating water pump; 8. a check valve; 9. a first electric flow regulating valve; 10. a second electric flow regulating valve; 11. a third electric flow control valve; 12. an electronic pressure gauge; 13. a one-way water return valve.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

All the electrical components in the present application are connected with the power supply adapted to the electrical components through the wires, and an appropriate controller should be selected according to actual conditions to meet the control requirements, and specific connection and control sequences should be obtained.

Referring to fig. 1-3, the present invention provides an intelligent low energy consumption household heating device:

example (b): as can be known from the attached figures 1-3 of the specification, the scheme comprises an intelligent controller 1, a user side end device 2 and a heat supply device 5, wherein a temperature measuring device is arranged in a user room and is connected with the intelligent controller 1 through a lead or a wireless signal, an energy distribution device 4 is arranged between the user side end device 2 and an original building heating system, one end of the energy distribution device 4 is connected with the heat supply device 5, and the energy distribution device 4 and the heat supply device 5 are both connected with the intelligent controller 1 through leads or wireless signals; the energy distribution device 4 comprises a main water supply pipe and a main water return pipe, one end of the main water supply pipe is connected with a water inlet of the user side end device 2, the other end of the main water supply pipe is provided with a heat source side flow adjusting water pump 6 on a connecting pipeline of a water supply end of the original building heating system, a check valve 8 and a first electric flow adjusting valve 9 are sequentially arranged on the water outlet direction of the heat source side flow adjusting water pump 6, the main water supply pipe is communicated with the user side water supply pipe of the heating device 5 through a heating device flow adjusting water pump 7, a second electric flow adjusting valve 10 is arranged on a connecting position of a water inlet end of a heat source supply side of the heating device 5 and the main water supply pipe, an electronic pressure gauge 12 is arranged on a water return end of the heat source supply side of the heating device 5 and the connecting pipeline of the main water return pipe, wherein a third electric flow adjusting valve 11 is arranged on a connecting position of the water supply end of the user side of the heating device 5 and the main water supply pipe, an electronic pressure gauge 12 is arranged between the user side water inlet end of the heating device 5 and the main water return pipe, a one-way water return valve 13 is arranged on the main water return pipe, a water inlet end of the side flow adjusting water supply end of the main water supply pipe on the main water supply pipe is provided with a water pump 6 arranged with a filter, the main water supply pipe, the energy distribution device collects parameters through an intelligent controller 1, and controls the indoor energy distribution device 4, and the indoor temperature distribution device 5 to meet the indoor temperature requirement;

when the heat load of the residents is low, the intelligent controller 1 firstly controls the first electric flow regulating valve 9, the valve opening size of the first electric flow regulating valve 9 controls the flow of the original low-temperature heat source entering the residents, and the operation working condition mainly exists in the initial stage and the final stage of a heating season and the low heat load of daily residents;

when the heat load of the residents is increased to the extent that the original low-temperature heat source cannot meet the room temperature requirement of the residents, the intelligent controller 1 starts the heat supply device 5, after the heat supply device 5 is started, the heat supply device and the original low-temperature heat source are in grid-connected operation at the initial stage, and the intelligent controller 1 controls the water supply and return parameters of the user side after the grid-connected operation by simultaneously controlling the heat source side flow regulating water pump 6, the heat supply device flow regulating water pump 7, the first electric flow regulating valve 9, the second electric flow regulating valve 10 and the third electric flow regulating valve 11 of the energy distribution device 4, so that the room temperature meets the heating requirement; the specific control mode is as follows: the energy distribution device 4 is started at the initial starting stage, the heat source side flow regulating water pump 6 and the heat supply device flow regulating water pump 7 are started, the first electric flow regulating valve 9 is gradually closed along with the increase of the heat load of the residents, the second electric flow regulating valve 10 is opened to increase the heat supply amount of the heat supply device 5, when the heat supply amount of the heat supply device 5 reaches 65% of the maximum load, the first electric flow regulating valve 9 is completely closed to stop grid-connected operation, and the heat source side flow regulating water pump 6 completely supplies heat sources to the heat supply device 5.

The evaporation temperature and the condensation temperature of the heat supply device 5 are always in a constant state under the action of the energy distribution device 4, and the heat supply amount is changed only by changing the flow through the heat source side flow regulating water pump 6, the heat supply device flow regulating water pump 7, the first electric flow regulating valve 9, the second electric flow regulating valve 10 and the third electric flow regulating valve 11, so that the whole machine is mainly in a high-efficiency operation condition, the heat supply efficiency is greatly improved, and the energy consumption is reduced; when the heating season is in the last stage or the heat load of the residents is reduced, the working principle is the same in the reverse direction until the heat supply device 5 stops running and the original low-temperature heat source is used for directly supplying heat.

The heat supply device 5 utilizes a water source heat pump technology, takes the original low-temperature heat source as the heat source side to continuously absorb heat, and operates under the most efficient working condition through the intelligent controller 1 and the energy distribution device 4, so that energy is greatly saved. The energy efficiency ratio of the Maxwell MDS-W160AR unit is 5, the power consumption can be roughly simplified to be 1/5 of that of the traditional electric direct heating, and the burden of a user is greatly reduced.

It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. Without further limitation. The use of the phrase "comprising" does not exclude the presence of other identical elements in the process, method, article, or apparatus that comprises the same.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that various changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (6)

1. An intelligent low-energy-consumption household heating device is characterized by comprising an intelligent controller, a user side end device and a heating device, wherein a temperature measuring device is arranged in a user room and is connected with the intelligent controller through a wire or a wireless signal;

the energy distribution device comprises a main water supply pipe and a main water return pipe, one end of the main water supply pipe is connected with a water inlet of the user side end device, a heat source side flow adjusting water pump is arranged on a connecting pipeline of the other end of the main water supply pipe and a water supply end of the original building heating system, a check valve and a first electric flow adjusting valve are sequentially arranged in the water outlet direction of the heat source side flow adjusting water pump, and the main water supply pipe is communicated with the user side water supply pipe of the heating device through the heating device flow adjusting water pump.

2. The intelligent low-energy-consumption household heating device as claimed in claim 1, wherein a second electric flow control valve is arranged at the connection position of the water inlet end of the heat source supply side of the heating device and a main water supply pipe, and an electronic pressure gauge is arranged on the connection pipeline of the water return end of the heat source supply side of the heating device and the main water return pipe.

3. The intelligent low-energy-consumption household heating device as claimed in claim 1, wherein a third electric flow control valve is arranged at a position where the user-side water supply end of the heating device is connected with the main water supply pipeline, and an electronic pressure gauge is arranged between the user-side water supply end of the heating device and the main water return pipe.

4. The intelligent low-energy-consumption household heating system as claimed in claim 1, wherein a one-way water return valve is disposed on the primary water return pipe.

5. The intelligent low-energy-consumption household heating system according to claim 1, wherein a filter is arranged at the water inlet end of the heat source side flow-rate regulation water pump on the main water supply pipe.

6. The intelligent low-energy-consumption household heating device according to claim 1, wherein the energy distribution device is a box structure adopting a water source heat pump technology, and a low-temperature heat source of an original building heating system is used as a heat source side to continuously absorb heat.

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