CN210345601U

CN210345601U - Solar energy linkage heat supply pipeline

Info

Publication number: CN210345601U
Application number: CN201920227894.6U
Authority: CN
Inventors: 张广
Original assignee: Hebei Hexu New Energy Equipment Technology Co Ltd
Current assignee: Hebei Hexu New Energy Equipment Technology Co Ltd
Priority date: 2019-02-21
Filing date: 2019-02-21
Publication date: 2020-04-17
Anticipated expiration: 2029-02-21

Abstract

The utility model discloses a solar energy linkage heat supply pipeline, including the first pipeline that communicates between the mouth of a river under the solar water heater and heat transfer chamber, the second pipeline that communicates between mouth of a river under the solar water heater and heat transfer chamber, communicate in the third pipeline between mouth of a river and the auxiliary heat device water inlet, communicate in the fourth pipeline of auxiliary heat device delivery port and heat abstractor water inlet, communicate in the fifth pipeline between heat abstractor delivery port and heat transfer chamber, communicate in the sixth pipeline between third pipeline and heat storage water tank, communicate in the seventh pipeline of heat abstractor delivery port and heat storage water tank and communicate in the eighth pipeline of auxiliary heat device delivery port and heat transfer chamber; the solar water heating system can be effectively and interactively communicated with a heating system, the energy utilization efficiency is improved, and the performance of the solar water heating system is improved.

Description

Solar energy linkage heat supply pipeline

Technical Field

The utility model relates to a solar energy field, concretely relates to solar energy linkage heat supply pipeline.

Background

The solar water heater converts light energy into heat energy for use in living activities, has the advantages of energy conservation and environmental protection, and low economic cost in long-term use, but has obvious defects, such as low heat storage efficiency, low single long-term use capability, continuous and poor constant high-temperature water supply, and is easy to freeze at night to cause use blockage in some areas with large day-night temperature difference; meanwhile, the existing solar water heating system and heating system are generally independent systems, which are not beneficial to efficient utilization of energy.

Therefore, in order to solve the above problems, a solar energy linkage heat supply pipeline is needed, which can effectively communicate a solar water heating system and a heat supply system, provide energy utilization efficiency, and improve the performance of the solar water heating system.

SUMMERY OF THE UTILITY MODEL

In view of this, the utility model aims at overcoming the defect among the prior art, providing a solar energy linkage heat supply pipeline, can be effectual with solar water heating system and heating system mutual intercommunication, provide energy utilization efficiency, improve solar water heating system's performance.

The utility model discloses a solar energy linkage heat supply pipeline, including the first pipeline that communicates between mouth of a river under the solar water heater and heat transfer chamber, the second pipeline that communicates between mouth of a river under the solar water heater and heat transfer chamber, communicate in the third pipeline between mouth of a river and the auxiliary heat device water inlet, communicate in the fourth pipeline of auxiliary heat device delivery port and heat abstractor water inlet, communicate in the fifth pipeline between heat abstractor delivery port and heat transfer chamber, communicate in the sixth pipeline between third pipeline and heat storage water tank, communicate in the seventh pipeline of heat abstractor delivery port and heat storage water tank and communicate in the eighth pipeline of auxiliary heat device delivery port and heat transfer chamber; the pipeline structure is characterized in that a first pump body and a second valve body are arranged on the second pipeline, a first valve body and a second pump body are arranged on the third pipeline, a sixth valve body is arranged on the fifth pipeline, a third valve body is arranged on the sixth pipeline, a fourth valve body is arranged on the seventh pipeline, a fifth valve body is arranged on the eighth pipeline, and a temperature sensor is arranged on the first pipeline.

Further, the first to eighth pipes are all plastic pipes.

The utility model has the advantages that: the utility model discloses a solar energy linkage heat supply pipeline, which can effectively communicate a solar water heating system and a heating system, provide energy utilization efficiency and improve the performance of the solar water heating system; and can prevent the solar water heater from freezing.

Drawings

The invention will be further described with reference to the following figures and examples:

fig. 1 is a schematic structural diagram of the present invention.

Detailed Description

Fig. 1 is a schematic structural diagram of the present invention, as shown in the figure, a solar energy linkage heat supply pipeline in this embodiment includes a first pipeline 1 communicated between a water outlet of a solar water heater 9 and a heat exchange cavity 13, a second pipeline 2 communicated between a water inlet of the solar water heater and the heat exchange cavity, a third pipeline 3 communicated between the water outlet and a water inlet of an auxiliary heat device 10, a fourth pipeline 4 communicated between a water outlet of the auxiliary heat device and the water inlet of the heat dissipation device, a fifth pipeline 5 communicated between the water outlet of the heat dissipation device and the heat exchange cavity, a sixth pipeline 6 communicated between the third pipeline and a heat storage water tank 12, a seventh pipeline 7 communicated between a water outlet of the heat dissipation device 11 and the heat storage water tank, and an eighth pipeline 8 communicated between the water outlet of the auxiliary heat device and the heat exchange cavity; the first pipeline is provided with a first pump body and a second valve body, the third pipeline is provided with a first valve body and a second pump body, the fifth pipeline is provided with a sixth valve body, the sixth pipeline is provided with a third valve body, the seventh pipeline is provided with a fourth valve body, the eighth pipeline is provided with a fifth valve body, and the first pipeline is provided with a temperature sensor; be provided with heat storage water tank and heat transfer chamber in the heat transfer heat-retaining device, first to eighth pipeline is the plastic conduit, and its theory of operation is as follows: when the temperature of the lower water gap of the solar water heater is greater than a preset value, the first valve body, the sixth valve body and the second valve body are all opened, the third valve body, the fourth valve body and the fifth valve body are all closed, one path of water outlet of the solar water heater flows to the heat exchange cavity, the other path of water outlet of the solar water heater flows to the heat dissipation device, and the auxiliary heat device does not work to supply heat to the indoor space; when the temperature of the lower water gap of the solar water heater is lower than or equal to the preset value, the first valve body, the second valve body and the fifth valve body are all closed, the third valve body, the sixth valve body and the fourth valve body are opened, and the auxiliary heating device works at the same time, so that the heat supply effect of the heat dissipation device is ensured to be good, because the solar water heating system and the heat supply system are crossed, the heat waste is low, meanwhile, when the water heater needs a large amount of hot water with higher water temperature, the first valve body, the second valve body and the fifth valve body are all opened, the third valve body, the fourth valve body and the sixth valve body are all closed, the auxiliary heating device works, the solar water heating system is favorable for supplying a large amount of higher hot water, meanwhile, when the temperature monitored by the temperature sensor is lower than the preset value, the hot water heated by the auxiliary heating device is controlled to be beneficial to preventing the solar water heater from freezing and freezing, of course, the above control modes can be realized by the existing control module, and are not described herein again.

Finally, although the present invention has been described in detail with reference to the preferred embodiments, it should be understood by those skilled in the art that the present invention can be modified or replaced by other means without departing from the spirit and scope of the present invention, which should be construed as limited only by the appended claims.

Claims

1. A solar energy linkage heat supply pipeline is characterized in that: the solar heat storage water heater comprises a first pipeline communicated between a water outlet of the solar water heater and a heat exchange cavity, a second pipeline communicated between a water inlet of the solar water heater and the heat exchange cavity, a third pipeline communicated between the water outlet and a water inlet of an auxiliary heat device, a fourth pipeline communicated between a water outlet of the auxiliary heat device and a water inlet of a heat dissipation device, a fifth pipeline communicated between a water outlet of the heat dissipation device and the heat exchange cavity, a sixth pipeline communicated between the third pipeline and a heat storage water tank, a seventh pipeline communicated between a water outlet of the heat dissipation device and the heat storage water tank, and an eighth pipeline communicated between a water outlet of the auxiliary heat device and the heat exchange cavity; the pipeline structure is characterized in that a first pump body and a second valve body are arranged on the second pipeline, a first valve body and a second pump body are arranged on the third pipeline, a sixth valve body is arranged on the fifth pipeline, a third valve body is arranged on the sixth pipeline, a fourth valve body is arranged on the seventh pipeline, a fifth valve body is arranged on the eighth pipeline, and a temperature sensor is arranged on the first pipeline.

2. A solar energy linked heat supply pipeline according to claim 1, characterised in that: the first to eighth pipelines are all plastic pipelines.