CN204653129U

CN204653129U - Flowerpot thermostatically-controlled equipment

Info

Publication number: CN204653129U
Application number: CN201520282458.0U
Authority: CN
Inventors: 赵烊熠
Original assignee: Individual
Current assignee: Individual
Priority date: 2015-05-05
Filing date: 2015-05-05
Publication date: 2015-09-23
Anticipated expiration: 2025-05-05

Abstract

The utility model belongs to flowers apparatus of planting, in particular to a kind of flowerpot thermostatically-controlled equipment, comprise flowerpot (2), soil (5), solid type is made in the bottom of flowerpot (2), top is interlayer hollow type, insulation guide frame (6) is provided with in the chamber of flowerpot (2) top hollow, insulation guide frame (6) is provided with spiral helicine insulation silk (3), the bottom surface of flowerpot (2) is provided with temperature sensor (4), the excircle of flowerpot (2) is fixed with control box (1), flowerpot thermostatically-controlled equipment is by the temperature of soil in temperature sensor measurement flowerpot, then the temperature by setting in compared with control system, control real during soil temperature in flowerpot, all can adapt to the habit of various flowers, contribute to floriculture to promote, meet people and love flower demand.

Description

Flowerpot thermostatically-controlled equipment

Technical field

The utility model belongs to flowers apparatus of planting, particularly a kind of flowerpot thermostatically-controlled equipment.

Background technology

At present, people, when planting flowers, plant in the soil generally in flowerpot, in the winter time, especially northern flowers of planting in indoor, need the scope that indoor temperature reaches certain, some famous and precious flowers, very high to temperature requirement especially, in the indoor of north of china in winter heating, temperature is often uneven permanent, can affect the growth of flowers like this, even makes flowers dead.

Summary of the invention

The purpose of this utility model is to overcome above-mentioned technical deficiency, provides one can environmentally temperature automatic control, adapts to the flowerpot thermostatically-controlled equipment of flower growth.

The technical scheme that the utility model technical solution problem adopts is: flowerpot thermostatically-controlled equipment comprises flowerpot, soil, be characterized in making solid type in the bottom of flowerpot, top is interlayer hollow type, insulation guide frame is provided with in the chamber of flowerpot top hollow, insulation guide frame is provided with spiral helicine insulation silk, the bottom surface of flowerpot is provided with temperature sensor, the excircle of flowerpot is fixed with control box, control box comprises single-chip microcomputer central processing unit, microcontroller power supply module, insulation silk power module, display module, relay module, A/D modular converter, Keysheet module, their annexation is: the unidirectional output of microcontroller power supply module connects display module and single-chip microcomputer central processing unit, the unidirectional output of insulation silk power module connects relay module, the unidirectional output of single-chip microcomputer central processing unit connects display module, Keysheet module and relay module, the unidirectional output of relay module connects insulation silk, the unidirectional output of temperature sensor connects A/D modular converter, the unidirectional output of A/D modular converter connects single-chip microcomputer central processing unit.

The beneficial effects of the utility model are: flowerpot thermostatically-controlled equipment is by the temperature of soil in temperature sensor measurement flowerpot, then the temperature by setting in compared with control system, control real during soil temperature in flowerpot, all can adapt to the habit of various flowers, contribute to floriculture to promote, meet people and love flower demand.

Accompanying drawing explanation

Illustrate with embodiment below in conjunction with accompanying drawing.

Fig. 1 is flowerpot thermostatically-controlled equipment structure chart.

Fig. 2 is control box anatomical connectivity relation block diagram in Fig. 1.

In figure, 1-control box; 1-1-microcontroller power supply module; 1-2-is incubated silk power module; 1-3-display module; 1-4-relay module; 1-5-A/D modular converter; 1-6-Keysheet module; 1-7-single-chip microcomputer central processing unit; 2-flowerpot; 3-is incubated silk; 4-temperature sensor; 5-soil; 6-is incubated guide frame; 7-flower; 8-is incubated wire cover.

Embodiment

Embodiment, with reference to accompanying drawing 1, flowerpot thermostatically-controlled equipment adopts that hard is nonmetal makes flowerpot 2, and solid shape is made in the bottom of flowerpot 2, and top adopts interlayer hollow type.Insulation guide frame 6 is provided with in the chamber of the top hollow of flowerpot 2, helical form insulation silk 3 is housed on insulation guide frame 6, the bottom surface of flowerpot 2 is provided with insulation sensor, the outer circumference surface of flowerpot 2 is fixed with control box 1, and in the hollow sandwich of flowerpot 2 top, be provided with 7 roots of spending of planting in the soil 5 of insulation wire cover 8 in flowerpot 2 will above temperature sensor 4.With reference to accompanying drawing 2, in control box 1, be provided with microcontroller power supply module 1-1, insulation silk power module 1-2, display module 1-3, relay module 1-4, A/D modular converter 1-5, Keysheet module 1-6, single-chip microcomputer central processing unit 1-7.Their annexation is: the unidirectional output of microcontroller power supply module 1-1 connects display module 1-3 and single-chip microcomputer central processing unit 1-7, and the unidirectional output of insulation silk power module 1-2 connects relay module 1-4.The unidirectional output of single-chip microcomputer central processing unit 1-7 connects display module 1-3, relay module 1-4 and Keysheet module 1-6, the unidirectional output of relay module 1-4 connects insulation silk 3, the unidirectional output of temperature sensor 4 connects A/D modular converter 1-5, and the unidirectional output of A/D modular converter 1-5 connects single-chip microcomputer central processing unit 1-7.

The operation principle of flowerpot thermostatically-controlled equipment is: plant after in flowerpot 2 when spending 7, according to spend the requirement of 7 pairs of environmental temperatures set in control box 1 needed for temperature value, the temperature sensor 4 be arranged on bottom flower point basin 2 can be measured the soil 5 in flowerpot 2, when recording temperature and being less than the design temperature of control box 1, can instruction be there is in control box 1, insulation silk 3 is energized, insulation silk 3 is by producing heat after electricity, the basin body of flowerpot 2 is heated, basin body is to soil 5 transferring heat, until when the temperature that temperature sensor 4 detects equals the design temperature of control box 1, insulation silk power module 1-2 in control box 1 is to the power-off of insulation silk 3.

Claims

1. a flowerpot thermostatically-controlled equipment, comprise flowerpot (2), soil (5), it is characterized in that making solid type in the bottom of flowerpot (2), top is interlayer hollow type, insulation guide frame (6) is provided with in the chamber of flowerpot (2) top hollow, insulation guide frame (6) is provided with spiral helicine insulation silk (3), the bottom surface of flowerpot (2) is provided with temperature sensor (4), the excircle of flowerpot (2) is fixed with control box (1), control box (1) comprises single-chip microcomputer central processing unit (1-7), microcontroller power supply module (1-1), insulation silk power module (1-2), display module (1-3), relay module (1-4), A/D modular converter (1-5), Keysheet module (1-6), their annexation is: the unidirectional output of microcontroller power supply module (1-1) connects display module (1-3) and single-chip microcomputer central processing unit (1-7), the unidirectional output of insulation silk power module (1-2) connects relay module (1-4), the unidirectional output of single-chip microcomputer central processing unit (1-7) connects display module (1-3), Keysheet module (1-3) and relay module (1-4), the unidirectional output of relay module (1-4) connects insulation silk (3), the unidirectional output of temperature sensor (3) connects A/D modular converter (1-5), the unidirectional output of A/D modular converter (1-5) connects single-chip microcomputer central processing unit (1-7).