CN205124546U - Farming seedling bud phase simulation low temperature environment breeding device - Google Patents

Abstract

Farming seedling bud phase simulation low temperature environment breeding device fastens refrigerating plant through fastening bolt on its bottom plate with heating the device, be connected with the inboard heat -conduction connecting rod with outside that heats the device at refrigerating plant, and the bottom of heat -conduction connecting rod is connected with the equipment of heating with corresponding refrigeration through fastening bolt, the both sides in simulation seedbed are equipped with the outlet, cross root canal way intercommunication at the bottom of outlet square tube and are connected with the bottom plate with fastening bolt's cooperation through the connecting plate to water receiving tank, water receiving tank bottom, the opposite side border position in simulation seedbed installs rainfall detector, illumination inductor and temperature -sensing ware respectively through the connecting rod, and the installation side baffle is still distinguished with the both sides in simulation seedbed to the bottom plate, installs the cold light lamp on the medial surface of side shield. The utility model discloses a growth that various weather conditions in actual influence agricultural seedling can be simulated, through the growth state of observing agricultural seedling to the product to utilize the technological means to change agricultural seedling and to the resistance of various adverse circumstances, finally cultivate new varieties.

Description

Agriculture seedling bud phase simulation low temperature environment breeding arrangement

Technical field

The utility model relates to the fields such as the anti-low temperature environment growth experiment of agriculture seedling, specifically refers to simulation of a kind of agriculture seedling bud phase low temperature environment breeding arrangement.

Background technology

The variety of problems that agriculture seedling runs in process of growth, suddenly the rising of such as environmental temperature and reduction, when the generation running into this kind of situation, often occur that the phenomenon that bud seedling lethality raises occurs, can find out that the ability that common crops seed Anti-temperature difference fluctuates is poor, not only this resistance feature constantly be studied, and also continuous in research for other resistances, such as, for the resistance of drought and waterlogging and in famine year to the resistance of natural calamity.Object and the meaning of its research mainly contain the following aspects:

1. can simulate the weather in some time, thus after reaching test, rethink paddy rice environmental simulation then.Especially the simulation (low temperature time/damage or crop failure caused by waterlogging time) in some special time.Be conducive to after famine year, the certain situation of uninterrupted simulation famine year is tested.Thus reach select better mode, method and improved seeds that method deals with next same famine year.

2. can stochastic simulation, contribute to the kind studying some wide adaptabilities, carry out simulation qualification in popularization, thus reduce loss unnecessary aborning.

3. provide feasibility Environment space for carrying out the degeneration-resistant test of some environment.

4. the protagonist of testing for some meteorological environment provides environmental simulation place.

5. Data Control, reduce manual control non-timely and accuracy.

Utility model content

The utility model provides simulation of a kind of agriculture seedling bud phase low temperature environment breeding arrangement, utilizes the various weather condition of simulation and simulates the mode of various time period famine year, carry out agriculture seedling bud phase low temperature environment and cultivate.For the agriculture seedling bud phase, the cultivation of low temperature environment is tested, to cultivate new varieties.

The technical solution adopted in the utility model is: agriculture seedling bud phase simulation low temperature environment breeding arrangement, comprise: operation control, overhead gage, water inlet interface, rainfall detection device, heat transfer connecting rod, water receiving tank, base plate, refrigerating plant, heating combined equipment, discharge outlet, spy on baffle plate, simulation seedbed, air vent, shower nozzle, cold light lamp, fluorescent lamp, heat-conducting plate, heat conduction splitter, side shield, homogeneous heating plate, illumination inductor, temperature inductor, guard, shower, fan, electromotor and support bar, on described base plate by fastening bolt by refrigerating plant and heating combined equipment fastening, be connected with outside heat transfer connecting rod with the inner side of heating combined equipment at refrigerating plant, the bottom of heat transfer connecting rod is connected with heating equipment with corresponding refrigeration by fastening bolt, described heat transfer connecting rod is connected with heat conduction splitter, and the side of heat conduction splitter is connected with four points of bars respectively, and each point of bar is all connected with the position in the middle of heat-conducting plate, and heat-conducting plate both sides are connected again with bottom homogeneous heating plate after bolted, the profile of described homogeneous heating plate is square structure and coincide with the profile in simulation seedbed, and it is arranged on bottom simulation seedbed, and four angles are fastening by fastening bolt, the both sides in simulation seedbed are provided with discharge outlet, pass through a pipeline connection to water receiving tank, be connected bottom water receiving tank by connecting plate with the cooperation of fastening bolt with base plate in the bottom side of discharge outlet, the opposite side marginal position in simulation seedbed is separately installed with rainfall detection device, illumination inductor and temperature inductor by connecting rod, base plate also distinguishes installation side baffle plate with the both sides in simulation seedbed, the medial surface of side shield is provided with cold light lamp, and it is arranged on the inwall of side shield by trip bolt, the below of cold light lamp is fluorescent lamp, and fluorescent lamp is by pinned connection connecting rod, and the other end of connecting rod is connected with connecting plate, is fixed on the inwall of side shield after described connecting plate coordinates with fastening bolt,

The side shield of described both sides all offers ventilating opening, and side shield through trip bolt connecting bottom board, and spies on baffle plate on front side of base plate and simulation seedbed, spies on baffle plate and is fastened on the position spied on by fastening bolt, spy on baffle plate and be provided with transparent cloche;

The installation that round tube hole facilitates ventilation fan is offered on rear side of described base plate and simulation seedbed, inside the baffle plate of rear side, by fastening bolt, guard is installed, in the outside of the baffle plate of rear side, electromotor is installed, the main shaft of electromotor connects fan, the side of electromotor connects three support bars, the support bar other end be connected to annular connecting plate on and fastening by fastening bolt;

Along place on the baffle plate of the vertical direction of described side shield, by one group of fastening bolt, overhead gage is fixed in the above, it baffle plate is the operation control of integral type connection, several showers that the bottom of overhead gage is established in being, each shower all arranges shower nozzle, the junction of shower is fixedly connected with side shield, and the water inlet interface be connected with exterior line communicates.

The beneficial effects of the utility model: the product of the utility model design, various weather conditions in reality can be simulated to affect the growth of agriculture seedling, the growth conditions of agriculture seedling is observed in the various weather of simulation, thus the resistance of agriculture seedling to various adverse circumstances can be changed by technological means, finally cultivate new varieties.

Accompanying drawing explanation

Fig. 1 is the utility model Total Product structural representation.

Fig. 2 is the utility model Total Product structural representation.

Fig. 3 is the utility model Total Product structural representation.

Embodiment

According to Fig. 1, Fig. 2, Fig. 3, present embodiment is described further.

Agriculture seedling bud phase simulation low temperature environment breeding arrangement, comprise: operation control 1, overhead gage 2, water inlet interface 3, rainfall detection device 5, heat transfer connecting rod 6, water receiving tank 8, base plate 10, refrigerating plant 12, heating combined equipment 13, discharge outlet 14, spy on baffle plate 15, simulation seedbed 16, air vent 17, shower nozzle 18, cold light lamp 19, fluorescent lamp 23, heat-conducting plate 25, heat conduction splitter 27, side shield 30, homogeneous heating plate 31, illumination inductor 32, temperature inductor 33, guard 34, shower 36, fan 37, electromotor 38 and support bar 39, described base plate 10 passes through fastening bolt 11 by fastening to refrigerating plant 12 and heating combined equipment 13, be connected with outside heat transfer connecting rod 6 with the inner side of heating combined equipment 13 at refrigerating plant 12, the bottom of heat transfer connecting rod 6 is connected with heating equipment with corresponding refrigeration by fastening bolt 7, described heat transfer connecting rod 6 is connected with heat conduction splitter 27, the side of heat conduction splitter 27 is connected with four points of bars respectively, each point of bar is all connected with the position in the middle of heat-conducting plate 25, and heat-conducting plate 25 both sides are connected again with bottom homogeneous heating plate 31 after bolt 28 is fastening, the profile of described homogeneous heating plate 31 is square structure and coincide with the profile in simulation seedbed 16, and it is arranged on bottom simulation seedbed 16, and four angles are fastening by fastening bolt 26, the both sides in simulation seedbed 16 are provided with discharge outlet 14, pass through a pipeline connection to water receiving tank 8, be connected bottom water receiving tank 8 by connecting plate with the cooperation of fastening bolt 9 with base plate 10 in the bottom side of discharge outlet 14, the opposite side marginal position in simulation seedbed 16 is separately installed with rainfall detection device 5, illumination inductor 32 and temperature inductor 33 by connecting rod, base plate 10 also distinguishes installation side baffle plate 30 with the both sides in simulation seedbed 16, the medial surface of side shield 30 is provided with cold light lamp 19, it is arranged on the inwall of side shield 30 by trip bolt 20, the below of cold light lamp 19 is fluorescent lamp 23, and fluorescent lamp 23 connects connecting rod by bearing pin 21, and the other end of connecting rod is connected with connecting plate, and described connecting plate is fixed on after coordinating with fastening bolt 22 on the inwall of side shield 30,

The side shield 30 of described both sides all offers ventilating opening 17, side shield 30 is through trip bolt 29 connecting bottom board 10, and spy on baffle plate 15 on front side of base plate 10 and simulation seedbed 16, spy on baffle plate 15 and be fastened on the position spied on by fastening bolt 24, spy on baffle plate 15 and transparent cloche is installed;

The installation that round tube hole facilitates ventilation fan is offered on rear side of described base plate 10 and simulation seedbed 16, inside the baffle plate of rear side, by fastening bolt 35, guard 34 is installed, in the outside of the baffle plate of rear side, electromotor 38 is installed, the main shaft of electromotor 38 connects fan 37, the side of electromotor 38 connects three support bars 39, support bar 39 other end be connected to annular connecting plate on and fastening by fastening bolt 40;

Along place on the baffle plate of the vertical direction of described side shield 30, by one group of fastening bolt 4, overhead gage 2 is fixed in the above, it baffle plate 2 is the operation control 1 of integral type connection, several showers 36 that the bottom of overhead gage 2 is established in being, each shower 36 all arranges shower nozzle 18, the junction of shower 36 is fixedly connected with side shield 30, and the water inlet interface 3 be connected with exterior line communicates.

Product of the present utility model, carries out the culture experiment of agriculture seedling bud phase low temperature environment by simulation planting environment, enough carries out adding soil by simulation seedbed 16 and to sow seeds fertilising simulation plantation, the matrix of simulating in figure in seedbed 16 can conveniently test in data calculate.When needs simulated rainfall, operate by operation control 1, external fluid delivery conduit road is connected by water inlet interface 3, water can be carried to shower 36, water and then the shower nozzle 18 installed from it, water is sprayed, rain simulation weather, precipitation is controlled by operation control 1, in the precipitation of reality, judged by rainfall detection device 5, the situation of actual precipitation, the situation of drought and waterlogging in this simulation weather after precipitation or appropriateness can be judged, the discharge outlet 14 arranged in the both sides in simulation seedbed 16 simulates the drainage arrangement in reality, discharge outlet 14 lower accepting water pipe herein, lead to water receiving tank 8, in the below in simulation seedbed 16, the refrigerating plant 12 installed and heating combined equipment 13 are by heat transfer part connecting analog seedbed 16, carry out simulated soil and should have temperature according to actual environment, can make the adjustable temperature range of simulated soil subzero and above freezing between, in addition, the temperature of soil, the temperature difference is there is with the temperature in air, the temperature of simulated environment air is judged by temperature inductor 33, due preference temperature is regulated by temperature inductor 33, by in the air vent 17 of side shield 30 and coordinating of ventilation fan system, the air of simulated environment is flowed, construction has wind weather, adjusting ambient temperature simultaneously.Ventilation fan system is arranged on the baffle plate place of rear side, is protected, in order to avoid hurt sb.'s feelings in operation by guard 34.A good simulation implant system, what least may lack is exactly ultraviolet, the quality of plant growth, direct relation is had with ultraviolet irradiation amount, at this point, be arranged on the effect of the fluorescent lamp 23 on the inwall of side shield 30, regulate by operation control 1, the intensity of illumination of fluorescent lamp 23 is carried out solar simulated and is irradiated, and can meet the different exposures of overcast and rainy fine day gas simultaneously.Cold light lamp 19 is then in regular job, and simulate lighting apparatus during night, to observe the growth conditions of agriculture seedling, the irradiation of cold light lamp 19, can not affect any growth indexes of agriculture seedling.The effect of each parts and system all carries out single adjustment by operation control 1, in addition, the data memory device of operation control 1 inside, also simulate the change words of the weather environment of the section sometime of in reality certain year, this a period of time can be performed as a program, simulate a series of various index of environment occurred then, make agriculture seedling at this moment between section cultivate, observe the growth conditions of agriculture seedling, outstanding seedling is cultivated in this kind of science mode, resist the various drought and waterlogging the condition of a disasters that this time period occurs, and adapt to various growth weather, thus raising crop yield, reach the final utilization object of this device.

The foregoing of this device describes embodiment of the present utility model with reference to figure 1, Fig. 2, Fig. 3, it will be understood by a person skilled in the art that, the utility model product be not limited to above-described embodiment, can make various amendment when not departing from spirit of the present utility model, described amendment also should be included within scope of the present utility model.Scope of the present utility model should be limited by claims and equivalent thereof.

Claims (1)

1. agriculture seedling bud phase simulation low temperature environment breeding arrangement, comprise: operation control (1), overhead gage (2), water inlet interface (3), rainfall detection device (5), heat transfer connecting rod (6), water receiving tank (8), base plate (10), refrigerating plant (12), heating combined equipment (13), discharge outlet (14), spy on baffle plate (15), simulation seedbed (16), air vent (17), shower nozzle (18), cold light lamp (19), fluorescent lamp (23), heat-conducting plate (25), heat conduction splitter (27), side shield (30), homogeneous heating plate (31), illumination inductor (32), temperature inductor (33), guard (34), shower (36), fan (37), electromotor (38) and support bar (39), it is characterized in that:

By fastening bolt (11), refrigerating plant (12) and heating combined equipment (13) is fastening on described base plate (10), be connected with outside heat transfer connecting rod (6) with the inner side of heating combined equipment (13) at refrigerating plant (12), the bottom of heat transfer connecting rod (6) is connected with heating equipment with corresponding refrigeration by fastening bolt (7); Described heat transfer connecting rod (6) is connected with heat conduction splitter (27), the side of heat conduction splitter (27) is connected with four points of bars respectively, each point of bar is all connected with the position in the middle of heat-conducting plate (25), and heat-conducting plate (25) both sides are connected with homogeneous heating plate (31) bottom after bolt (28) is fastening again; The profile of described homogeneous heating plate (31) is square structure and coincide with the profile of simulation seedbed (16), and it is arranged on simulation seedbed (16) bottom, and four angles are fastening by fastening bolt (26); The both sides of simulation seedbed (16) are provided with discharge outlet (14), pass through a pipeline connection in the bottom side of discharge outlet (14) to water receiving tank (8), water receiving tank (8) bottom is connected with base plate (10) with the cooperation of fastening bolt (9) by connecting plate; The opposite side marginal position of simulation seedbed (16) is separately installed with rainfall detection device (5), illumination inductor (32) and temperature inductor (33) by connecting rod, base plate (10) also distinguishes installation side baffle plate (30) with the both sides of simulation seedbed (16), the medial surface of side shield (30) is provided with cold light lamp (19), it is arranged on the inwall of side shield (30) by trip bolt (20); The below of cold light lamp (19) is fluorescent lamp (23), fluorescent lamp (23) connects connecting rod by bearing pin (21), the other end of connecting rod is connected with connecting plate, and described connecting plate is fixed on the inwall of side shield (30) after coordinating with fastening bolt (22);

The side shield (30) of described both sides all offers ventilating opening (17), side shield (30) is through trip bolt (29) connecting bottom board (10), and base plate (10) with simulation seedbed (16) front side spy on baffle plate (15), spy on baffle plate (15) and be fastened on by fastening bolt (24) position spied on, spy on baffle plate (15) and transparent cloche is installed;

Described base plate (10) offers round tube hole with simulation seedbed (16) rear side, facilitate the installation of ventilation fan, inside the baffle plate of rear side, by fastening bolt (35), guard (34) is installed, electromotor (38) is installed in the outside of the baffle plate of rear side, the main shaft of electromotor (38) connects fan (37), the side of electromotor (38) connects three support bars (39), support bar (39) other end be connected to annular connecting plate on and fastening by fastening bolt (40);

Along place on the baffle plate of the vertical direction of described side shield (30), by one group of fastening bolt (4), overhead gage (2) is fixed in the above, the upper operation control (1) for integral type connection of baffle plate (2), several showers (36) that the bottom of overhead gage (2) is established in being, each shower (36) is all arranged shower nozzle (18), the junction of shower (36) is fixedly connected with side shield (30), and the water inlet interface (3) be connected with exterior line communicates.