CN205233175U - Big -arch shelter temperature control device is bred to tendril -leaved fritillary bulb - Google Patents

Abstract

The utility model provides a big -arch shelter temperature control device is bred to tendril -leaved fritillary bulb, including first water pump, heating furnace, a temperature sensor, second water pump, water air conditioner, the 2nd temperature sensor and solar cell panel, install the inlet tube on the first water pump, and first water pump and heating furnace be through first communicating pipe fixed connection, the second is provided with the second solenoid valve on communicating pipe, and second water pump and water air conditioner pass through third communicating pipe fixed connection, battery, a temperature sensor and the 2nd temperature sensor electrical property input connection microcontroller, microcontroller electrical property input connection display screen, first water pump, first solenoid valve, heating furnace, second solenoid valve, second water pump, third solenoid valve and water air conditioner. Compared with the prior art, the utility model discloses following beneficial effect has: can there be automated inspection to the interior temperature of big -arch shelter to control the water air conditioner through microcontroller and heat up or cool down the big -arch shelter, realized automaticly and intelligent.

Description

A kind of tendril-leaved fritillary bulb cultivation greenhouse attemperating unit

Technical field

The utility model is a kind of tendril-leaved fritillary bulb cultivation greenhouse attemperating unit, belongs to attemperating unit technical field.

Background technology

Along with the continuous application of science and technology in agricultural production, warmhouse booth technology has been subject to promoting widely full, but the temperature control device of existing warmhouse booth, heating adopts different equipment to carry out with refrigeration, uses inconvenience, and, refrigeration plant, generally adopts air cooling way, and cooling-down effect is poor; Firing equipment, generally adopts stove to heat up, and can waste a large amount of energy, how to design a kind of attemperating unit that can simultaneously realize heating and refrigeration, is current urgent problem.

Utility model content

The deficiency existing for prior art, the utility model object is to provide a kind of tendril-leaved fritillary bulb cultivation greenhouse attemperating unit, to solve the problem proposing in above-mentioned background technology, the utility model is simple and reasonable, economical and practical, can there is the temperature automatically detecting in booth, and booth is heated up or lower the temperature by microprocessor control water air-conditioning, realize automation and intellectuality.

To achieve these goals, the utility model is to realize by the following technical solutions: a kind of tendril-leaved fritillary bulb cultivation greenhouse attemperating unit, comprise the first water pump, heating furnace, the first temperature sensor, the second water pump, water air-conditioning, the second temperature sensor and solar panel, on described the first water pump, water inlet pipe is installed, and the first water pump is fixedly connected with by the first communicating pipe with heating furnace, on described the first communicating pipe, the first magnetic valve is installed, described the first temperature sensor is arranged in heating furnace, and heating furnace is fixedly connected with by the second communicating pipe with the second water pump, on described the second communicating pipe, be provided with the second magnetic valve, and the second water pump is fixedly connected with by third connecting pipe with water air-conditioning, the first communicating pipe of described the first magnetic valve left end is fixedly connected with by the 4th communicating pipe with third connecting pipe, and the 3rd magnetic valve was installed on the 4th communicating pipe, on described water air-conditioning, electric cabinet is installed, and battery and microcontroller are installed in electric cabinet, on described electric cabinet, be provided with display screen, temperature adjustment buttons and power switch, described the second temperature sensor and solar panel are connected on electric cabinet by wire, described battery, the first temperature sensor and the second temperature sensor are electrically inputted connection microcontroller, microcontroller is electrically inputted connection display screen, the first water pump, the first magnetic valve, heating furnace, the second magnetic valve, the second water pump, the 3rd magnetic valve and water air-conditioning.

Further, the bottom of described water inlet pipe is provided with screen pack.

Further, described the first temperature sensor is arranged on the bottom of the heating cabinet of heating furnace.

Further, described solar panel is electrically inputted connection battery.

The beneficial effects of the utility model: a kind of tendril-leaved fritillary bulb cultivation greenhouse attemperating unit of the present utility model, simple and reasonable, economical and practical, can there is the temperature automatically detecting in booth, and booth is heated up or lower the temperature by microprocessor control water air-conditioning, automation and intellectuality are realized, adopt same equipment, adopt solar panel to power, greatly reduced use cost.

Brief description of the drawings

By reading the detailed description of non-limiting example being done with reference to the following drawings, it is more obvious that other features, objects and advantages of the present utility model will become:

Fig. 1 is the structural representation of a kind of tendril-leaved fritillary bulb cultivation greenhouse of the utility model attemperating unit;

Fig. 2 is the theory diagram of a kind of tendril-leaved fritillary bulb cultivation greenhouse of the utility model attemperating unit;

In figure: 1-water inlet pipe, 2-the first water pump, 3-the first magnetic valve, 4-heating furnace, 5-the first temperature sensor, 6-the second magnetic valve, 7-the second water pump, 8-the 3rd magnetic valve, the 4th communicating pipe of 9-, 10-water air-conditioning, 11-electric cabinet, 12-display screen, 13-temperature adjustment buttons, 14-power switch, 15-battery, 16-microcontroller, 17-the second temperature sensor, 18-solar panel, the first communicating pipe of 19-, the second communicating pipe of 20-, 21-third connecting pipe.

Detailed description of the invention

For technological means, creation characteristic that the utility model is realized, reach object and effect is easy to understand, below in conjunction with detailed description of the invention, further set forth the utility model.

Refer to Fig. 1 and Fig. 2, the utility model provides a kind of technical scheme: a kind of tendril-leaved fritillary bulb cultivation greenhouse attemperating unit, comprise the first water pump 2, heating furnace 4, the first temperature sensor 5, the second water pump 7, water air-conditioning 10, the second temperature sensor 17 and solar panel 18, on the first water pump 2, water inlet pipe 1 is installed, the bottom of water inlet pipe 1 is provided with screen pack, and the first water pump 2 is fixedly connected with by the first communicating pipe 19 with heating furnace 4, the first magnetic valve 3 was installed on the first communicating pipe 19, the first temperature sensor 5 is arranged in heating furnace 4, the first temperature sensor 5 is arranged on the bottom of the heating cabinet of heating furnace 4, and heating furnace 4 is fixedly connected with by the second communicating pipe 20 with the second water pump 7, on the second communicating pipe 20, be provided with the second magnetic valve 6, and the second water pump 7 is fixedly connected with by third connecting pipe 21 with water air-conditioning 10, the first communicating pipe 19 of the first magnetic valve 3 left ends is fixedly connected with by the 4th communicating pipe 9 with third connecting pipe 21, and the 3rd magnetic valve 8 was installed on the 4th communicating pipe 9, electric cabinet 11 is installed on water air-conditioning 10, and battery 15 and microcontroller 16 are installed in electric cabinet 11, on electric cabinet 11, be provided with display screen 12, temperature adjustment buttons 13 and power switch 14, the second temperature sensor 17 and solar panel 18 are connected on electric cabinet 11 by wire, solar panel 18 electrically input connects battery 15, battery 15, the first temperature sensor 5 is electrically inputted and is connected microcontroller 16 with the second temperature sensor 17, microcontroller 16 electrically input connects display screen 12, the first water pump 2, the first magnetic valve 3, heating furnace 4, the second magnetic valve 6, the second water pump 7, the 3rd magnetic valve 8 and water air-conditioning 10.

Operation principle: set temperature value by temperature adjustment buttons 13, in the time of summer, the second temperature sensor 17 detect canopy temperature higher than arrange temperature value time, close the first magnetic valve 3 by microcontroller 16, open the first water pump 2, the 3rd magnetic valve 8 and water air-conditioning 10, by cold water to lowering the temperature in booth, in the time of winter, microcontroller 16 controls the 3rd magnetic valve 8 and cuts out, control the first water pump 2, the first magnetic valve 3, heating furnace 4, the second water pump 7 and water air-conditioning 10 are opened, the first water pump 2 is extracted into cold water in heating furnace 4, by heating furnace 4, cold water is heated, in the time that the first temperature sensor 5 detects that the temperature of the water in heating furnace 4 equals the temperature value of setting, controlling the second magnetic valve 6 by microcontroller 16 opens, the second water pump 7 is extracted into hot water in water air-conditioning 10, by water air-conditioning 10, booth is heated up.

More than show and described general principle of the present utility model and principal character and advantage of the present utility model, to those skilled in the art, obviously the utility model is not limited to the details of above-mentioned example embodiment, and in the situation that not deviating from spirit of the present utility model or essential characteristic, can realize the utility model with other concrete form. Therefore, no matter from which point, all should regard embodiment as exemplary, and be nonrestrictive, scope of the present utility model is limited by claims instead of above-mentioned explanation, is therefore intended to all changes that drop in the implication and the scope that are equal to important document of claim to include in the utility model. Any Reference numeral in claim should be considered as limiting related claim.

In addition, be to be understood that, although this description is described according to embodiment, but be not that each embodiment only comprises an independently technical scheme, this narrating mode of description is only for clarity sake, those skilled in the art should make description as a whole, and the technical scheme in each embodiment also can, through appropriately combined, form other embodiments that it will be appreciated by those skilled in the art that.

Claims (4)

1. a tendril-leaved fritillary bulb cultivation greenhouse attemperating unit, comprise the first water pump (2), heating furnace (4), the first temperature sensor (5), the second water pump (7), water air-conditioning (10), the second temperature sensor (17) and solar panel (18), it is characterized in that: water inlet pipe (1) is installed on described the first water pump (2), and the first water pump (2) is fixedly connected with by the first communicating pipe (19) with heating furnace (4), the first magnetic valve (3) was installed on described the first communicating pipe (19), described the first temperature sensor (5) is arranged in heating furnace (4), and heating furnace (4) is fixedly connected with by the second communicating pipe (20) with the second water pump (7), on described the second communicating pipe (20), be provided with the second magnetic valve (6), and the second water pump (7) is fixedly connected with by third connecting pipe (21) with water air-conditioning (10), first communicating pipe (19) of described the first magnetic valve (3) left end is fixedly connected with by the 4th communicating pipe (9) with third connecting pipe (21), and the 3rd magnetic valve (8) was installed on the 4th communicating pipe (9), electric cabinet (11) is installed on described water air-conditioning (10), and battery (15) and microcontroller (16) are installed in electric cabinet (11), on described electric cabinet (11), be provided with display screen (12), temperature adjustment buttons (13) and power switch (14), described the second temperature sensor (17) and solar panel (18) are connected on electric cabinet (11) by wire, described battery (15), the first temperature sensor (5) is electrically inputted and is connected microcontroller (16) with the second temperature sensor (17), microcontroller (16) electrically input connects display screen (12), the first water pump (2), the first magnetic valve (3), heating furnace (4), the second magnetic valve (6), the second water pump (7), the 3rd magnetic valve (8) and water air-conditioning (10).

2. a kind of tendril-leaved fritillary bulb cultivation greenhouse attemperating unit according to claim 1, is characterized in that: the bottom of described water inlet pipe (1) is provided with screen pack.

3. a kind of tendril-leaved fritillary bulb cultivation greenhouse attemperating unit according to claim 1, is characterized in that: described the first temperature sensor (5) is arranged on the bottom of the heating cabinet of heating furnace (4).

4. a kind of tendril-leaved fritillary bulb cultivation greenhouse attemperating unit according to claim 1, is characterized in that: described solar panel (18) electrically input connects battery (15).