JPH0499403A - Equipment for priming treatment of seed - Google Patents

Abstract

PURPOSE:To reproduce same condition with monitoring a treating solution by measuring an amount of dissolved oxygen in the treating solution, temperature of the treating solution and other states of the treating solution extending for a period of priming treatment and controlling every elements according to the measured values of the solution. CONSTITUTION:An amount of dissolved oxygen in a solution for priming treatment, temperature of the treating solution, pH and turbidity, etc., of the solution in a priming treatment tank 3 are measured by detecting means 22 and 23, etc., and an oxygen component-supplying means 28 and a temperature controlling device 25 are controlled according to the measured values, then acid or alkali is added or exchange of the treating solution, etc., is performed by hand operation, as necessary.

Description

[Detailed Description of the Invention] [Industrial Application Field J] The present invention is an apparatus for immersing seeds in a high osmotic pressure solution for a certain period of time to perform a germination promotion treatment on the seeds, a so-called seed priming treatment. In particular, the present invention relates to a seed priming processing device that systematizes comprehensive priming processing on a large scale.

[Prior Art] As is well known, seeds are primed by immersing them in a high osmotic solution for a certain period of time. The seed priming treatment described above requires immersing the seeds in a treatment solution for a certain period of time, and then performing an appropriate drying treatment after the priming treatment in the treatment solution.
If you want to systemize this on a large scale, (i)
How to determine reproducible processing conditions (ii
) development of an oxygen supply system into the processing solution; (ii)
There are many issues that need to be resolved, such as the development of a system for drying seeds after priming in a treatment solution. First, regarding the above problem (1), regarding the processing solution in the priming processing tank, the amount of dissolved oxygen in the processing solution, the temperature of the processing solution, the state of other processing solutions a (pu of the processing solution, electrical conductivity of the processing solution , processing solution turbidity), etc. must be monitored. Regarding the above problem (ii), in the seed priming treatment using the high osmotic pressure solution immersion method, the supply of oxygen to the treatment solution is the most important problem. That is, the seeds in the treatment solution require a lot of oxygen during the process of germination.

However, high osmotic solutions such as polyethylene glycol aqueous solutions used as treatment solutions have a problem in that they have low oxygen solubility and diffusion coefficient, and cannot supply sufficient oxygen to seeds. When a seed priming treatment apparatus is scaled up and systemized, the above-mentioned problems are extremely significant, and a solution to the pressure is desired. Furthermore, regarding the above problem (ii), when the priming treatment includes the step of soaking the seeds in a high osmotic solution for a certain period of time as described above, an appropriate drying treatment must be performed after the priming treatment. It won't happen. In short, the priming treatment does not end simply by pulling the seeds out of the treatment solution. Priming seeds are
The storage test results show that seeds are extremely sensitive to high temperatures and humidity, and when seeds with high moisture content immediately after priming are exposed to high temperatures for drying, germination decreases rapidly. On the other hand, the seeds immediately after treatment are in a state just before germination, and have absorbed enough water to germinate through washing. Therefore, if the seeds are not dried quickly, they will germinate all at once and will be damaged by subsequent drying.

[Problems to be Solved by the Invention] Therefore, the present invention solves the above problem (i) by measuring the amount of dissolved oxygen in the treatment solution, the temperature of the treatment solution, and other conditions of the treatment solution, and By controlling each element based on the values, the state of the processing solution can be monitored and the same conditions can be reproduced.

Regarding the above-mentioned problem (ii), oxygen in the air is converted into ozone by electric discharge, and the ozone is supplied into the treatment solution in a state in which it is highly soluble in water. moreover,
Regarding problem (ii) above, relatively low temperature (30
It is configured to supply dry air at temperatures below In this way, a seed priming processing device is provided that systematizes a comprehensive priming processing on a large scale.

[Means for Solving Problems] In order to achieve the above-mentioned object, the present invention specifically provides a mesh drum that forms a storage chamber for seeds to be treated by a mesh wall, and a priming treatment tank that receives the mesh drum. , a drum rotation drive means for rotationally driving the mesh drum in the priming treatment tank; a priming liquid supply means for supplying a priming treatment liquid into the priming treatment tank; and a priming treatment in the priming treatment tank. a first detection means for detecting the temperature of the liquid; a second detection means for detecting the amount of dissolved oxygen in the priming solution in the priming treatment tank; and in response to an output signal of the first detection means. , temperature control means for controlling the temperature of the priming treatment liquid in the priming treatment tank, and supplying an oxygen component to the priming treatment liquid in the priming treatment tank in response to an output signal of the second detection means; The seed priming treatment device is configured to serve as an oxygen component supply means for priming, and further includes a running water supply means for supplying running water into the priming treatment tank after the priming treatment, and a drying device in the priming treatment tank. A seed priming processing apparatus is constituted by a dry air supply means for supplying air to subject the primed seeds in the mesh drum to low-temperature rapid drying.

[Description of Examples] Hereinafter, the seed priming processing apparatus according to the present invention will be described in detail based on specific examples shown in the drawings.

In this invention, the seed priming treatment device (1) includes a mesh drum (2) for storing seeds to be treated and a priming treatment tank (3) for receiving the mesh drum (2). The mesh drum (2) is a drum body that forms a storage chamber for seeds to be treated by a mesh wall (4) having a mesh size of about 0.5 seeds, for example. The mesh drum (2) includes a seed inlet/outlet (not shown) for taking in and taking out seeds, and a rotating shaft (5) extending axially along the central axis of the drum body.

On the other hand, the priming treatment tank (3) is, for example, a transparent acrylic water tank that allows observation of the inside of the tank, rotatably supports the mesh drum (2) therein, and can contain a priming treatment liquid. It is made of things.

The priming treatment tank (3) has injection ports (6), (7) for priming treatment liquid, a constant temperature water circulation port (8) for heat exchange, an oxygen component supply port (9), and a port (1) for installing a sensor.
0), water supply port for washing (11), dry air supply port (12)
) and a discharge port (13) for processing liquid, etc. The priming treatment tank (3) does not need to have a pressure-resistant structure because it is not assumed that pressure will be applied to the inside, and it does not require complete sealing, but it is necessary to maintain a certain degree of airtightness when the lid is closed. be. The mesh drum rotation drive means (14) for the mesh drum (2) in the priming treatment tank (3) is a low-speed rotating motor, and
3) is attached to the rotating shaft (5) of the mesh drum (2) extending outside. The mesh drum rotation driving means (14) may be of any type as long as it can rotate the mesh drum at a low speed of, for example, 5 to 30 rpm in a processing solution or in dry air.

On the other hand, in the specific embodiment shown in the figure, the priming treatment liquid supplying means (15) is configured such that two types of priming treatment liquids can be individually supplied into the priming treatment tank (3). has been done. Examples of the priming solution applicable to this invention include a polyethylene glycol aqueous solution, a potassium nitrate aqueous solution, and other high osmotic pressure solutions. The priming treatment liquid supply means (15) includes treatment liquid tanks (16) and (1) that individually store the above-mentioned treatment liquids.
7), and a flow path (18) connected to the inlet (6), (7) provided in the priming treatment tank (3), (
19) and electromagnetic valve mechanisms (20) and (21) provided in each flow path (1B) and (I9).

In this invention device, in order to detect the state of the priming treatment liquid in the priming treatment tank (3), for example, a first detection means (22) and a second detection means (23) are used.
). The first detection means (22) measures and detects the temperature of the priming liquid in the priming treatment tank (3), and the second detection means (
23) is for measuring and detecting the amount of dissolved oxygen in the priming treatment liquid in the priming treatment tank (3). The first and second detection means (22) and (23) are detectors known as so-called water quality checkers, and monitor the condition of the priming treatment liquid from all directions, and monitor the temperature of the priming treatment liquid as described above. , in addition to measuring and detecting the amount of dissolved oxygen, the pH of the priming treatment solution
1. It can also measure and detect electrical conductivity, turbidity, etc. The first and second detection means (22), (23) are connected to the priming treatment tank (3).
) is connected to the external control device (24) of the priming tank (3) through the port (10).

The temperature control means (25) for controlling the temperature in the priming treatment tank (3) includes a heat exchanger (26) arranged in the priming treatment tank (3) and having, for example, a stainless steel pipe as a coiled flow path; It consists of a constant temperature bath (27) connected to the heat exchanger (26) for circulating constant temperature water in the coiled flow path.The temperature control of the constant temperature bath (27) is carried out by the The temperature is controlled via the temperature control device (25) according to the detection output of the first detection means (22).

On the other hand, in the present invention, an oxygen component supply means (28) is provided for supplying an oxygen component to the priming treatment liquid in the priming treatment tank (3). The oxygen component supply means (28) includes, for example, an ozone generation supply source (29) that converts oxygen in the air into ozone by electric discharge using a plasma ion method, and the priming treatment tank (
3) is connected to the oxygen component supply port (9) provided in
30) and a flow path control solenoid valve mechanism (31) provided in the flow path (30). The oxygen component supply means (
28) operates the solenoid valve (31) via the control device (24) in response to the output signal of the second detection means (23).
) to supply an oxygen component to the priming treatment liquid in the priming treatment tank (3).

Further, in the present invention, a washing water supply means (32) for washing the seeds to be treated with water after priming with the priming treatment liquid and a dry air supply means (33) for drying the seeds to be treated after washing with water are provided. It is a provision. The washing water supply means (32) includes a running water supply source (34), a flow path (35>) connected to a water supply port (11) provided in the priming treatment tank (3), and a flow path (35) connected to a water supply port (11) provided in the priming treatment tank (3). ) A valve installed in (
36). On the other hand, the dry air supply means (33) is connected to a dry air generation source (37) for performing low-temperature and rapid drying of seeds and a dry air inlet (12) provided in the priming treatment tank (3). flow path (38)
and a valve (39) provided in the flow path (38).

In the above configuration, in the seed priming processing apparatus (1) of the present invention, the steps of priming the seeds, washing the seeds with water, and drying the seeds are performed as follows. First, the seed priming process begins with a mesh drum (2
), put the seeds to be treated in the mesh drum (2
) in the processing tank (3). A desired treatment liquid is introduced into the tank from an external tank, and priming treatment is started. During the priming process, the mesh drum (2)
is rotated gently (5 to 10 revolutions per minute) by an external rotation drive means (14) to stir the seeds and the treatment liquid.

During the priming treatment period, the state of the treatment liquid is controlled as follows.

(a) Temperature control of processing liquid: External thermostat (2
7) The temperature of the constant temperature water is maintained at a set value by the temperature control device (25). If the temperature is below room temperature, you can use an immersion cooler. Constant-temperature water is circulated through a heat exchanger (26) in the treatment tank, thereby keeping the temperature of the treatment liquid the same as the constant-temperature water. The temperature of the treatment liquid is measured by the first detection means (22).

(b) Supply control of the amount of dissolved oxygen in the processing solution: By introducing air containing ozone generated from the oxygen component generation source (29) using the plasma ion method into the processing tank through a silicon tube and venting from the bottom of the processing tank. Supply oxygen component to the processing liquid.

The ventilation amount can be set, for example, by using the valve (31) attached to the flow meter.
done by. Although the amount of dissolved oxygen in the treatment liquid is measured by the second detection means (23), the amount of ventilation during the priming treatment period may not be particularly controlled and may be kept constant during the treatment.

(c) Control of other conditions regarding the treatment liquid: Measure the pH and turbidity of the treatment liquid, and if the pH deviates from the set value, add acid or alkali and adjust manually. When replacing the processing liquid, use the degree of coloration (turbidity) of the liquid as a guide.

In the apparatus according to the embodiment of the present invention, a foaming sensor is not used, but when foaming occurs in the processing liquid, defoaming is performed by adding an antifoaming agent.

Next, in the seed washing process, after the priming treatment is completed, the treatment solution is drained, and the washing water is introduced and discharged for 1 to 3 seconds.
The treated seeds are washed with water. When salts are used in the treatment liquid, the state of water washing can be investigated by measuring conductivity.

Finally, in the seed drying step, after the water washing treatment is completed, low temperature, low humidity air is introduced into the treatment tank (3) by the dry air supply means (33), and the seeds are dried while rotating the mesh drum. The supply amount of low-temperature, low-humidity air is measured and adjusted using, for example, a flowmeter with a valve. After drying, the seeds are removed from the mesh drum and the entire process is completed.

The above-mentioned priming treatment, water washing, and drying treatment steps can basically be performed by electrically controlling the main power source 0N10FF by opening and closing a magnetic valve. In the device of the present invention, control of the pH 2 foaming of the treatment liquid, etc. can be performed manually or automatically using a controller used in fermenters for tissue culture and the like. Furthermore, in a specific plant, a series of complex steps can be easily performed by automating all processes using computers and programming processing procedures for each crop or variety.

[Effects of the Invention] As described above, the seed priming treatment device of the present invention measures the amount of dissolved oxygen in the treatment solution, the temperature of the treatment solution, and other conditions of the treatment solution over the priming treatment period, and By controlling each element based on the values, the state of the processing liquid can be monitored and the same conditions can be reproduced. Furthermore, in this invention, oxygen in the air is converted into ozone by electric discharge, and the dissolution into the processing liquid is increased.
Since it is supplied into the processing liquid, the amount of dissolved oxygen in the processing liquid can be effectively maintained. Further, according to the device of the present invention, after the priming treatment, the seeds to be treated are quickly dried at a low temperature using dry air at a relatively low temperature, thereby systematizing a comprehensive priming treatment on a large scale. This can be said to be extremely effective in combination with the above-mentioned points.

[Brief explanation of drawings]

The drawing is a block diagram showing a specific embodiment of the seed priming processing apparatus according to the present invention. (1)...Seed priming processing device (2)・
...Mesh drum (3) ...Priming treatment tank (4) ...
...Mesh wall (5) ...Rotating shaft (work 4) ...Mesh drum rotation drive means <1
5) Priming treatment liquid supply means (22)
...First detection means (23) ...Second detection means (24) ...Control device (25) ...Temperature control means (26 )...Heat exchanger (27)...Thermostatic chamber (28)...Oxygen component supply means (29)...
... Ozone generation supply source (32) ... Running water supply means (33) ... Dry air supply means (34) ...
...Runing water supply source

Claims (2)

[Claims] (1) a mesh drum that forms a storage chamber for seeds to be treated with a mesh wall; a priming treatment tank that receives the mesh drum; a drum rotation drive means for rotationally driving the mesh drum in the priming treatment tank; priming treatment liquid supply means for supplying the priming treatment liquid into the priming treatment tank; first detection means for detecting the temperature of the priming treatment liquid in the priming treatment tank; and priming treatment in the priming treatment tank. a second detection means for detecting the amount of dissolved oxygen in the liquid; a temperature control means for controlling the temperature of the priming liquid in the priming treatment tank in response to the output signal of the first detection means; A seed priming processing apparatus, characterized in that the seed priming processing device serves as an oxygen component supplying means for supplying an oxygen component into the priming treatment liquid in the priming processing tank in response to an output signal of the second detection means. (2) a mesh drum that forms a storage chamber for seeds to be treated with a mesh wall; a priming treatment tank that receives the mesh drum; and a drum rotation drive means for rotationally driving the mesh drum in the priming treatment tank; priming treatment liquid supply means for supplying the priming treatment liquid into the priming treatment tank; first detection means for detecting the temperature of the priming treatment liquid in the priming treatment tank; and priming treatment in the priming treatment tank. a second detection means for detecting the amount of dissolved oxygen in the liquid; a temperature control means for controlling the temperature of the priming liquid in the priming treatment tank in response to the output signal of the first detection means; an oxygen component supply means for supplying an oxygen component into the priming treatment liquid in the priming treatment tank in response to an output signal of the second detection means; and supplying running water into the priming treatment tank after the priming treatment; and dry air supply means for supplying dry air into the priming treatment tank to subject the primed seeds in the mesh drum to rapid drying at low temperatures. Processing equipment.