CN205794296U

CN205794296U - Intensive seedling production greenhouse heating system

Info

Publication number: CN205794296U
Application number: CN201620678202.6U
Authority: CN
Inventors: 李勇; 宋甲斌; 霍秀娜; 高玉新; 张忠义; 刘莹莹; 高玉波; 李红娥; 韩吉书; 韩吉胜; 孙玉海; 陈乐平; 乔新
Original assignee: Shandong Anxin Seedling Co Ltd
Current assignee: Shandong Anxin Seedling Co Ltd
Priority date: 2016-07-01
Filing date: 2016-07-01
Publication date: 2016-12-14
Anticipated expiration: 2026-07-01

Abstract

The utility model discloses intensive seedling production greenhouse heating system, belong to heating system, its structure includes solar water heater, storage tank, water pump, boiler and greenhouse radiating tube, solar water heater is connected with storage tank water inlet by solar energy outlet pipe, storage tank is connected with greenhouse radiating tube entrance point by storage tank outlet pipe, the greenhouse radiating tube port of export is connected with solar water heater by solar energy return pipe, it is provided with water pump on storage tank outlet pipe, storage tank is also connected with the boiler discharging tube of boiler, the boiler blow-down water pipe of boiler is connected with the greenhouse radiating tube port of export, solar energy outlet pipe, solar energy return pipe, solar energy water outlet pipe valve it is respectively arranged with on boiler discharging tube and boiler blow-down water pipe, solar energy return pipe valve, boiler discharging tube valve boiler blow-down water tube valve, temperature sensor it is provided with in seedling cultivation greenhouse.This utility model has the temperature that can improve in greenhouse, improves nursery effect, improves the features such as seedling percent.

Description

Intensive seedling production greenhouse heating system

Technical field

This utility model relates to a kind of heating system, especially a kind of intensive seedling production greenhouse heating system.

Background technology

Greenhouse can effectively improve the utilization rate in farmland, and nursing young plants in hothouses is the common method for culturing seedlings of nursery in winter, but Owing to winter temperature is relatively low, temperature indoor temperature is relatively low, does not reaches required nursery temperature, affects nursery effect, and seedling survives Rate is low, it is therefore desirable to a kind of heating system improves the temperature in greenhouse.

Utility model content

Technical assignment of the present utility model is for above-mentioned a kind of intensive seedling production greenhouse of not enough offer of the prior art Heating system, this intensive seedling production greenhouse heating system has the temperature that can improve in greenhouse, improves nursery effect, improves children The feature of shoot survival percent.

This utility model solve its technical problem be the technical scheme is that it include solar water heater, storage tank, Water pump, boiler and greenhouse radiating tube, described solar water heater is connected with storage tank water inlet by solar energy outlet pipe, institute The storage tank stated is connected with greenhouse radiating tube entrance point by storage tank outlet pipe, and the greenhouse radiating tube port of export is returned by solar energy Water pipe is connected with solar water heater, and described storage tank outlet pipe is provided with water pump, described storage tank also with boiler Boiler discharging tube is connected, and the boiler blow-down water pipe of boiler is connected with the greenhouse radiating tube port of export, and described solar energy outlet pipe sets Being equipped with solar energy outlet pipe valve, described solar energy return pipe is provided with solar energy return pipe valve, described boiler goes out It is provided with boiler discharging tube valve on water pipe, described boiler blow-down water pipe is provided with boiler blow-down water tube valve, the described sun Can be arranged on seedling cultivation greenhouse outside top by water heater, described greenhouse radiating tube is arranged in seedling cultivation greenhouse, described nursery temperature Indoor are provided with temperature sensor, described temperature sensor, water pump, solar energy outlet pipe valve, solar energy return pipe valve, Boiler discharging tube valve is connected with controller respectively with boiler blow-down water tube valve.

The outside of described storage tank is provided with heat-insulation layer.

Described temperature sensor is arranged on greenhouse radiating tube.

Compared to the prior art intensive seedling production greenhouse heating system of the present utility model, has useful effect highlighted below Really: enter greenhouse radiator by the hot water of solar water heater and boiler and dispel the heat, it is achieved greenhouse is heated up, permissible Improve the temperature in greenhouse, improve nursery effect, improve the features such as seedling percent.

Accompanying drawing explanation

Accompanying drawing 1 is the attachment structure schematic diagram of intensive seedling production greenhouse heating system；

Accompanying drawing 2 is the main TV structure schematic diagram of storage tank；

Description of reference numerals: 1, solar water heater, 2, storage tank, 21, heat-insulation layer, 3, water pump, 4, boiler, 5, greenhouse dissipates Heat pipe, 6, solar energy outlet pipe, 61, solar energy outlet pipe valve, 7, storage tank outlet pipe, 8, solar energy return pipe, 81, the sun Can return pipe valve, 9, boiler discharging tube, 91, boiler discharging tube valve, 10, boiler blow-down water pipe, 101, boiler blow-down water tube valve, 11, temperature sensor.

Detailed description of the invention

With reference to Figure of description 1 and accompanying drawing 2, intensive seedling production greenhouse heating system of the present utility model is made in detailed below Ground explanation.

Intensive seedling production greenhouse heating system of the present utility model, its structure includes solar water heater 1, storage tank 2, water Pump 3, boiler 4 and greenhouse radiating tube 5, the described solar water heater 1 water inlet by solar energy outlet pipe 6 with storage tank 2 Being connected, described storage tank 2 is connected with greenhouse radiating tube 5 entrance point by storage tank outlet pipe 7, greenhouse radiating tube 5 port of export It is connected with solar water heater 1 by solar energy return pipe 8, described storage tank 2 outlet pipe is provided with water pump 3, described Storage tank 2 is also connected with the boiler discharging tube 9 of boiler 4, and the boiler blow-down water pipe 10 of boiler 4 is connected with greenhouse radiating tube 5 port of export, It is provided with solar energy outlet pipe valve 61 on described solar energy outlet pipe 6, described solar energy return pipe 8 is provided with the sun Energy return pipe valve 81, described boiler discharging tube 9 is provided with boiler discharging tube valve 91, on described boiler blow-down water pipe 10 Being provided with boiler blow-down water tube valve 101, described solar water heater 1 is arranged on seedling cultivation greenhouse outside top, described greenhouse Radiating tube 5 is arranged in seedling cultivation greenhouse, is provided with temperature sensor 11, described temperature sensor in described seedling cultivation greenhouse 11, water pump 3, solar energy outlet pipe valve 61, solar energy return pipe valve 81, boiler discharging tube valve 91 and boiler blow-down water pipe valve Door 101 is connected with controller respectively.

The outside of described storage tank 2 is provided with heat-insulation layer 21.

Described temperature sensor 11 is arranged on greenhouse radiating tube 5.

The same day is cold when needing to heat up the temperature of seedling cultivation greenhouse, first passes through controller and opens water pump 3, solar energy water outlet Tube valve 61 and solar energy return pipe valve 81, make solar water heater 1, storage tank 2 be connected with greenhouse radiating tube 5, thus Make the hot water in solar water heater 1 enter greenhouse radiating tube 5, greenhouse is carried out heat temperature raising, when the heat of solar water heater 1 When coolant-temperature gage can not meet the exothermic temperature in greenhouse, then one signal of controller is given in the temperature sensor 11 in greenhouse, controls Solar energy outlet pipe valve 61 and solar energy return pipe valve 81 are closed by device, open boiler discharging tube valve 91 and boiler blow-down water Tube valve 101, makes boiler 4 connect with storage tank 2 and greenhouse radiating tube 5, makes the hot water in boiler 4 be introduced into storage tank 2, then Enter greenhouse radiating tube 5 by water pump 3 to dispel the heat, by the hot water in boiler 4, is heated in greenhouse, to meet greenhouse temperature Degree demand.

Illustrative embodiments listed above is intended for understanding that this utility model is used, not to described by this utility model The restriction of technical scheme, about the those of ordinary skill in field, on the basis of technical scheme described in claim, it is also possible to make Go out multiple change or deformation, the change of all equivalents or deformation all should contain claims of the present utility model it In.This utility model does not describes part in detail, is the known technology of those skilled in the art of the present technique.

Claims

1. intensive seedling production greenhouse heating system, is characterized in that: include solar water heater, storage tank, water pump, boiler and greenhouse Radiating tube, described solar water heater is connected with storage tank water inlet by solar energy outlet pipe, and described storage tank passes through Storage tank outlet pipe is connected with greenhouse radiating tube entrance point, and the greenhouse radiating tube port of export passes through solar energy return pipe and solar heat Hydrophone is connected, and described storage tank outlet pipe is provided with water pump, and described storage tank is also connected with the boiler discharging tube of boiler, The boiler blow-down water pipe of boiler is connected with the greenhouse radiating tube port of export, and described solar energy outlet pipe is provided with solar energy outlet pipe Valve, described solar energy return pipe is provided with solar energy return pipe valve, described boiler discharging tube is provided with boiler Outlet pipe valve, described boiler blow-down water pipe is provided with boiler blow-down water tube valve, and described solar water heater is arranged on educates Seedling greenhouse outside top, described greenhouse radiating tube is arranged in seedling cultivation greenhouse, is provided with temperature and passes in described seedling cultivation greenhouse Sensor, described temperature sensor, water pump, solar energy outlet pipe valve, solar energy return pipe valve, boiler discharging tube valve and Boiler blow-down water tube valve is connected with controller respectively.

Intensive seedling production greenhouse heating system the most according to claim 1, is characterized in that: the outside of described storage tank sets It is equipped with heat-insulation layer.

Intensive seedling production greenhouse heating system the most according to claim 1, is characterized in that: described temperature sensor is arranged On greenhouse radiating tube.