CN101861014A

CN101861014A - Omni-direction shadowless illumination meter

Info

Publication number: CN101861014A
Application number: CN201010166196A
Authority: CN
Inventors: 孙卫伟; 邓涛; 熊中碧
Original assignee: Southwest University
Current assignee: Southwest University
Priority date: 2010-05-07
Filing date: 2010-05-07
Publication date: 2010-10-13

Abstract

The invention discloses an omni-direction shadowless illumination meter, which comprises a cabinet, a cabinet door, a drain outlet and oxygen inlets. The drain outlet is arranged at the bottom of the cabinet; and the oxygen inlets are arranged on the left side and the right side of the top in the cabinet respectively. The omni-direction shadowless illumination meter is characterized in that: a dynamic carrying device is arranged in the middle of the cabinet; four cameras uniformly distributed are arranged around the top and the bottom in the cabinet respectively; each side in the cabinet is provided with a light source; the upper part and the lower part of the cabinet are provided with air exchanging fans respectively; and the air exchanging fans and the light sources are connected with a power supply control box arranged on the lower part of the cabinet. The light sources are arranged on the upper, lower, left and right sides, and a net objective table rotates and moves up and down, so that the omni-direction shadowless illumination meter can realize omni-direction shadowless illumination and automatically controls measurement of temperature and humidity. Because a refrigerator is arranged on the upper part, cool air descends, a heater is arranged on the lower part, and hot air ascends, the omni-direction shadowless illumination meter has the advantages of high efficiency and energy conservation. Illumination sensors at the upper and lower positions can be automatically controlled so as to measure illumination intensity in time.

Description

A kind of omni-direction shadowless illumination meter

Technical field

The present invention relates to be used for the simulation light irradiation apparatus of plant, be specifically related to a kind of omni-direction shadowless illumination meter.

Technical background

The most biological irradiations that be unable to do without sunlight of nature, the method for simulation is all adopted in the irradiation that people study light, promptly with artificial light from top to bottom or about the next door irradiation, it has shortcoming, promptly the irradiation of light is inhomogeneous.So the irradiation of light from lower to upper radiation situation how be again, particularly the irradiation of light is shone below the blade of plant from lower to upper, does it have photosynthesis? plant roots is under no hydroponics, what kind of be the irradiation of light again according to its effect of plant roots from lower to upper? or the like so all need research, the scientific research personnel does not have such instrument, can not carry out such research.

Summary of the invention

The purpose of this invention is to provide a kind of omni-direction shadowless illumination meter, the biology that the omnibearing unblanketed irradiation of its energy need be studied, and illumination is even.

A kind of omni-direction shadowless illumination meter of the present invention, comprise rack, be connected cabinet door on the rack doorframe, send out at the sewage draining exit of rack bottom, be located at respectively the oxygen intake of the rack inner top left and right sides, respectively be located at the rack upper and lower scavenger fan, be located at the power controling box of rack bottom, it is characterized in that:

One dynamic carrying apparatus is located at the middle part of rack, in order to place the plant that need carry out comprehensive illumination research; Be provided with light source on each face in rack, in order to realize comprehensive illumination to object; Be located at the scavenger fan of rack upper and lower respectively, scavenger fan is connected with the power controling box that is located at the rack bottom by lead with light source; Be respectively equipped with 4 cameras that equidistantly distribute around top in rack and the bottom, be used for monitoring illuminated object.

Described a kind of omni-direction shadowless illumination meter also comprises the refrigerator and the humidifier that are located on the rack inner top, and refrigerator is used to reduce the rack temperature inside, and humidifier is used to control the humidity of air in the rack; Be located at the heater on the rack inner bottom part, be used to increase the rack temperature inside; Be located at the temperature sensor and the humidity sensor of rack internal upper part, temperature sensor is used to measure the temperature in the rack; Humidity sensor is used for the side amount to air humidity in the rack; Be located at the optical sensor of rack inner top, be used for measurement intensity of illumination; Temperature sensing, humidity sensor and optical sensor are by lead and the digital interface box that is located at the cabinet-type air conditioner middle part, and digital interface box is connected with PC, in order to the control of realization detection process and the collection of data.

Described a kind of omni-direction shadowless illumination meter, the top in rack is provided with motor, and the rotor of this motor is connected with an elevating lever, and described optical sensor is connected on the elevating lever, and elevating lever is used to control the upper-lower position of optical sensor.

Described a kind of omni-direction shadowless illumination meter, its described dynamic carrying apparatus comprises the rotating shaft that vertically is located at rack bottom center, in rotating shaft, be combined with a lifting column vertically, this lifting column cooperates with the output of lifting motor by one tooth bar/gear mechanism, and lifting column moves up and down under the drive of lifting motor; The electric rotating machine that also comprises the top that is located at lifting column, this electric rotating machine cooperates with the netted objective table that is located at the lifting column upper end by a gear drive, and netted objective table rotates under the drive of electric rotating machine; The plant that need carry out comprehensive illumination research is placed on the netted objective table.

Described a kind of omni-direction shadowless illumination meter, its described rack is cylindrical.

The present invention has following advantage:

(1) since light source up and down, particularly in the bottom (bottom light source up), and netted objective table rotation and moving up and down, so can penetrate by omni-direction shadowless illumination;

(2) temperature humidity is measured control automatically, because refrigerator is on top, cold air descends, and heater is in the bottom, and the hot gas rising is so the efficient height is energy-conservation;

(3) the upper-lower position optical sensor that can control automatically can in time be measured intensity of illumination;

(4) illumination, temperature humidity etc. can be controlled, and can carry out the light radiation research under the various situations;

(5) structure is simple relatively, can produce in a large number.

Description of drawings

Fig. 1 is the structural representation of invention.

Fig. 2 is several schematic diagrames of dynamic carrying apparatus.

Embodiment

The invention will be further described below in conjunction with accompanying drawing.

Referring to a kind of omni-direction shadowless illumination meter illustrated in figures 1 and 2, comprise cylindrical circular rack 21, be connected cabinet door 13 on the rack doorframe, be located at the sewage draining exit 14 of rack bottom, be located at the oxygen intake 3 of the rack inner top left and right sides respectively, be provided with light source 5 on each face in rack, in order to realize comprehensive illumination to object; Be located at the scavenger fan 4 of rack upper and lower respectively, scavenger fan is connected with the power controling box that is located at the rack bottom by lead with light source;

One dynamic carrying apparatus is located at the middle part of rack 21, in order to place the plant that need carry out comprehensive illumination research; This dynamic carrying apparatus comprises the rotating shaft 16 that vertically is located at rack bottom center, in rotating shaft, be combined with a lifting column 18 vertically, this lifting column cooperates with the output of lifting motor 17 by one tooth bar/gear mechanism, and lifting column moves up and down under the drive of lifting motor; The electric rotating machine 19 that also comprises the top that is located at lifting column, this electric rotating machine cooperates with the netted objective table 20 that is located at the lifting column upper end by a gear drive, and netted objective table rotates under the drive of electric rotating machine; The plant that need carry out comprehensive illumination research is placed on the netted objective table;

Also comprise the refrigerator 2 and the humidifier 6 that are located on the rack inner top, refrigerator is used to reduce the rack temperature inside, and humidifier is used to control the humidity of air in the rack; Be located at the heater 15 on the rack inner bottom part, be used to increase the rack temperature inside; Be located at the temperature sensor 8 and the humidity sensor 9 of rack internal upper part, temperature sensor is used to measure the temperature in the rack; Humidity sensor is used for the side amount to air humidity in the rack; Be located at the optical sensor 10 (as the Gm-3 type) of rack inner top, be used for measurement intensity of illumination; Temperature sensing 8, humidity sensor 9 and optical sensor 10 are by lead and the digital interface box 11 that is located at the cabinet-type air conditioner middle part, and digital interface box is connected with PC, in order to the control of realization detection process and the collection of data;

Top in rack is provided with motor 7, and the rotor of this motor is connected with an elevating lever, and described optical sensor 10 is connected on the elevating lever, and elevating lever is used to control the upper-lower position of optical sensor.

The present invention is like this work: on 21 li the netted objective table 20, shut cabinet door 13 in the rack that determinand (as plant) is put into.The switch of opening power control cabinet 12, digital interface box 11 be the data input computer of gathering, design temperature on PC as required, and humidity and the intensity of illumination that needs, and configure switching time of light source 5.PC issues instructions to power controling box 12, and the light source 5 of omni-direction shadowless illumination meter is luminous. electric rotating machine 19 drives netted objective table 20 rotations on the lifting column 18, and lifting motor 17 begins to move up and down lifting column 18 simultaneously.

If the temperature that the outer PC that provides is set is provided the temperature that temperature sensor 9 is measured, the then outer PC that provides issues instructions to switch power supply control cabinet 12 control refrigerators 2 and starts working, if the low design temperature of the temperature that temperature sensor 9 is measured, the then outer PC that provides issue instructions to 15 work of switch power supply control cabinet 12 control heaters.

If the humidity of measuring is lower than the humidity value of setting, then PC issues instructions to power controling box 12 control humidifiers 6 and starts working.If the humidity of measuring is higher than the humidity value of setting, then PC issues instructions to 15 work of power controling box 12 control heaters.

PC issues instructions to power controling box 12 control motors 7 can adjust the measuring position of optical sensor 10, so that measure the intensity of illumination of each position.

Can also issue instructions to power controling box 12 control oxygen intakes 3 by PC as required and give oxygen in the rack 21, perhaps PC issues instructions to power controling box 12 by 21 ventilations in 4 pairs of racks of scavenger fan.

Claims

1. omni-direction shadowless illumination meter comprises rack (21), is connected cabinet door (13) on the rack doorframe, is located at the sewage draining exit (14) of rack bottom, is located at the oxygen intake (3) of the rack inner top left and right sides respectively, it is characterized in that:

One dynamic carrying apparatus is located at the middle part of rack (21), is respectively equipped with 4 cameras that equidistantly distribute (1) around top in rack (21) and the bottom; Be provided with light source (5) on each face in rack, the scavenger fan (4) that is respectively equipped with in the rack upper and lower, scavenger fan (4) is connected with the power controling box that is located at the rack bottom (12) by lead with light source (5).

2. a kind of omni-direction shadowless illumination meter according to claim 1, it is characterized in that: also comprise the refrigerator (2) and the humidifier (6) that are located on rack (21) inner top, be located at the heater (15) on rack (21) inner bottom part, be located at the temperature sensor (8) and the humidity sensor (9) of rack (21) internal upper part, be located at the optical sensor (10) of rack (21) inner top; Temperature sensing (8), humidity sensor (9) and optical sensor (10) are by lead and the digital interface box (11) that is located at cabinet-type air conditioner (21) middle part, and digital interface box is connected with PC.

3. a kind of omni-direction shadowless illumination meter according to claim 2, it is characterized in that: the top in rack (21) is provided with motor (7), the rotor of this motor is connected with an elevating lever, described optical sensor (10) is connected on the elevating lever, and elevating lever is used to control the upper-lower position of optical sensor.

4. a kind of omni-direction shadowless illumination meter according to claim 1 and 2, it is characterized in that: described dynamic carrying apparatus comprises the rotating shaft (16) that vertically is located at rack (21) bottom center, in rotating shaft, be combined with a lifting column (18) vertically, this lifting column cooperates with the output of lifting motor (17) by one tooth bar/gear mechanism, and lifting column moves up and down under the drive of lifting motor; The electric rotating machine (19) that also comprises the top that is located at lifting column (18), this electric rotating machine cooperates with the netted objective table (20) that is located at lifting column (18) upper end by a gear drive, and netted objective table rotates under the drive of electric rotating machine; The plant that need carry out comprehensive illumination research is placed on the netted objective table (20).

5. a kind of omni-direction shadowless illumination meter according to claim 1 and 2 is characterized in that: described rack (21) is cylindrical.