KR101839998B1 - Auto chamber for continuous measurement of carbon dioxide absorption capacity of the plant - Google Patents

Abstract

The present invention relates to an automatic chamber for continuous measurement of carbon dioxide absorption ability of a plant, and more particularly, to an automatic chamber for measuring the carbon dioxide absorbing ability of a plant, comprising: a cap frame having a plurality of semi-circular caps formed in a symmetrical shape and assembled so as to have a circular shape; A pair of upper and lower front connection frames formed to connect front ends of each of the plurality of semicircular caps forming each of the one and the other cap frames; A plurality of semicircular caps each having a predetermined length so as to be spaced apart from each other by a predetermined distance, and a pair of upper and lower A rear connection frame; An upper and a lower semicircular transparent window formed at both ends in the longitudinal direction so as to be hermetically attached to the respective one of the first and second cap frames and having a cylindrical shape at both ends in the circumferential direction so as to be hermetically attached to the pair of front and rear connecting frames; A plurality of semicircular caps forming the one-side cap frame and symmetrically formed on each of the semicircular-shaped caps to open and close a circular opening; An automatic opening / closing motor configured to automatically open / close the opening / closing port; And an upper and a lower semicircular pocket frame which are symmetrically fixedly attached to the plurality of semicircular caps forming the other side cap frame and are formed to have a circular shape.

Description

[0001] The present invention relates to an automatic chamber for continuous measurement of carbon dioxide absorption capacity of a plant,

The present invention relates to an automatic chamber for continuous measurement of carbon dioxide absorption ability of a plant, and more particularly, to an automatic chamber for measuring the carbon dioxide absorbing ability of a plant by hanging a cylindrical autocube on the end of a tree branch in a state of wrapping a leaf sprouting on the branch of the tree, The present invention relates to an automatic chamber for continuous measurement of carbon dioxide absorption ability of a plant which can automatically measure the carbon dioxide absorbing ability by sucking air introduced into an automatic chamber through a leaf of a tree surrounded by the autocamber by a carbon dioxide measuring instrument .

In general, plants have photosynthesis, which is also called carbon assimilation, which refers to the action of absorbing carbon and releasing oxygen.

Conventionally, as an apparatus for measuring the carbon dioxide absorption ability of a plant, there has been known an apparatus for measuring the carbon dioxide absorption ability of a plant by using a cylindrical cylinder having an upper and a lower clogged cylinder, a hole is formed in each of the upper and lower sides of the cylinder, The end of the branch was inserted into an acrylic cylinder, and the air was measured in a state in which the acrylic cylinder was closed by a passive method in which a hole formed in the upper and lower sides of the acrylic cylinder was closed by using a sponge or the like. In fact.

However, when measuring the carbon dioxide absorbing ability of plants in the air introduced into the acrylic cylinder by the passive method as described above, it is difficult to airtightly seal the holes formed in the upper and lower sides of the acrylic cylinder, And it is pointed out that the reliability of the measurement of carbon dioxide absorption ability of the plant is low.

Disclosure of Invention Technical Problem [7] Accordingly, the present invention has been made in view of the above problems, and it is an object of the present invention to improve the accuracy and reliability of measurement of CO 2 absorption capacity of plants, The present invention has been accomplished with the object of providing.

The present invention, as a means for pursuing the above object,

1. An automatic chamber which is formed in a transparent cylindrical shape so that not only the inside is transparent but also the sunlight is transmitted,

In the above-mentioned autochamber,

A plurality of semicircular caps formed symmetrically so as to be opened and closed and assembled in a circular shape so as to be connected to each other;

A plurality of semicircular caps each having a predetermined length so as to be spaced apart from each other by a predetermined distance, and a pair of upper and lower A front connection frame;

A plurality of semicircular caps each having a predetermined length so as to be spaced apart from each other by a predetermined distance, and a pair of upper and lower A rear connection frame;

An upper and a lower semicircular transparent window formed at both ends in the longitudinal direction so as to be hermetically attached to the respective one of the first and second cap frames and having a cylindrical shape at both ends in the circumferential direction so as to be hermetically attached to the pair of front and rear connecting frames;

A plurality of semicircular caps forming the one-side cap frame and symmetrically formed on each of the semicircular-shaped caps to open and close a circular opening;

An automatic opening / closing motor configured to automatically open / close the opening / closing port;

Upper and lower semicircular pocket frames fixedly attached symmetrically to each of the plurality of semicircular caps forming the other side cap frame to form a circular shape;

And a control unit.

Each of the upper and lower semicircular pocket frames is provided with a plurality of upper and lower sponge airtight members inserted therein so as to hold the branches of the plant inserted in the autocamera in an airtightly wrapped state.

In addition, a plurality of hinges are attached to the pair of upper and lower rear connection frames at regular intervals, and the pair of upper and lower front connection frames are fastened with fastening rings, And a hook member is formed.

The plurality of semi-circular caps forming the other side cap frame may be formed with an inner branch insertion portion formed in a semi-circular shape so as to form a circular hole so as to allow insertion of branches of the plant.

Each of the upper and lower semicircular pocket frames is formed with an outer branch insertion portion formed symmetrically in a semicircular shape so as to insert a branch of a plant into a circular hole.

In addition, the plurality of semicircular caps formed on each of the one and the other cap frame, to which both ends of the other semicircular transparent window are attached, are connected by a frame member.

The frame member is provided with an air circulation fan for circulating the air flowing into the autochamber, a leaf temperature sensor for measuring the temperature of leaves of the plant, and a temperature and humidity sensor for measuring the temperature and humidity of the air introduced into the autochamber. A sensor, an air intake port for sucking outside air into the interior of the autocamera, and an air exhaust port for discharging air inside the autocamera to the outside.

In addition, the leaf temperature sensor is attached to a leaf attached to a branch of a plant, and a temperature sensing line for measuring the temperature of the leaf is formed.

Further, the frame member may further include a motor operation control automatic switch for controlling forward and reverse rotation of the automatic opening and closing motor for automatically opening and closing the opening and closing port.

In addition, the motor opening / closing control automatic switch is configured such that an operating sense line for controlling the closing operation is closed to the position where the opening / closing port is closed so that the opening / closing port can be closed with the closing pressure when the opening / .

In addition, each of the one and the other cap frame is formed with one connection ring so that the auto chamber can be hung on branches of the plant.

According to the present invention, in order to measure the carbon dioxide absorbing ability in the state that the end portion of the branch of the plant is inserted into the inside of the autochamber, when the opening / closing opening / closing part of the opening formed in one side cap frame is automatically closed, It is possible to precisely measure the carbon dioxide absorbing ability of the leaves on the branches of the plants inserted into the autocambers and to circulate the air introduced into the autocambers so that the ability of the leaves to absorb carbon dioxide And the temperature and humidity of the autocambers and the temperature of the leaves inside the autocambers can be measured in real time so that the carbon dioxide absorption ability of the plant can be continuously measured according to the weather .

1 is a front perspective view of an autochamber for explaining the present invention.
2 is a rear perspective view of the autocamber of the present invention.
3 is a cross-sectional view of the autocamber in use according to the present invention
Fig. 4 is a view showing the operation state of the opening and closing port of the autochamber of the present invention
5 is a sectional view taken along the line AA in Fig. 3
6 is a sectional view taken along line BB of Fig. 3
Fig. 7 is an exploded perspective view of the automatic chamber shown in Fig. 3
8 is a circuit diagram of an automatic chamber of the present invention and a data recording apparatus for recording data that can be measured by the same

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, embodiments of an automatic chamber for continuous measurement of carbon dioxide absorption ability of a plant according to the present invention will be described in detail with reference to the accompanying drawings.

Reference numeral 1 denotes an autocamber. The autocamber 1 is formed in a transparent cylindrical shape so that the branches of the plant can be wrapped with leaves while allowing the sunlight to pass through.

To this end, the automatic chamber 1 is symmetrically installed such that one side cap frame 2 and the other side cap frame 3, which are assembled in a circular shape, are spaced apart from each other and face each other. And the other side cap frame (3) are assembled so as to have a circular shape in a plurality of semicircular caps divided into semicircles, which will be described in detail as follows.

The one side cap frame 2 is assembled so that a plurality of semicircular caps 2a and 2b are circular and the other side cap frame 3 is also assembled such that a plurality of semicircular caps 3a and 3b are circular will be.

A plurality of semicircular caps 2a and 2b assembled to constitute the one side frame 2 and a plurality of semicircular caps 3a and 3b assembled to form the other side frame 3 are formed into a pair And upper and lower rear connection frames 5a and 5b formed as a pair with the upper and lower front connection frames 4a and 4b, respectively.

 That is, in the case of the pair of upper and lower front link frames 4a and 4b formed as a pair, the upper side front link frame 4a formed at the upper side in the drawing as shown in FIG. 1 has one end And the other end of the upper front connecting frame 4a (see the right side in the drawing) is connected to the front end 21 of the semicircular cap 2a forming one side cap frame 2, The lower front connecting frame 4b formed to be positioned on the lower side in the figure is connected to one end (refer to the left part in the drawing) of the lower front connecting frame 4b, and is connected to the front end 31 of the semicircular cap 3a forming the frame 3. [ The other end of the lower front connecting frame 4b is connected to the front end 22 of the semicircular cap 2b and the other end of the semicircular cap 3b is connected to the front end (Not shown).

In the case of the rear connection frames 5a and 5b formed as a pair, one end of the upper rear connection frame 5a formed to be positioned on the upper side in the drawing as shown in FIG. 2 Is configured to be connected to the rear end 23 of the semicircular cap 2a forming one of the cap frames 2 and the other end of the semicircular cap 3a forming the other cap frame 3, One end (refer to the left side portion in the drawing) of the lower rear connecting frame 5b formed to be positioned on the lower side in the figure is connected to the rear end 33 of the semicircular cap And the other end of the lower rear connecting frame 5b is connected to the rear end portion 23 of the semicircular cap 3b forming the other end cap frame 3 As shown in FIG.

A plurality of fastening openings 41 and a plurality of fastening members 42 are fixedly attached to the upper and lower front connection frames 4a and 4b at predetermined intervals. And the plurality of hooking members 42 are fixedly attached to the upper front connecting frame 4a and the hooking member 42 is fastened to each of the plurality of fastening holes 41 And a fastening ring 43, which can be fastened or detachably attached, is rotatably attached.

A plurality of hinges 51 are fixedly attached to the upper and lower rear connection frames 5a and 5b at regular intervals and each of the upper and lower rear connection frames 5a and 5b includes a plurality of hinges 51 As a starting point of rotation.

The semi-circular cap 2a formed on the upper side of the one-side cap frame 2 and the semi-circular cap 3a on the upper side forming the other side cap frame 3 are formed in an upper semicircular transparent window The semicircular cap 2b formed on the lower side and the lower semicircular cap 3b forming the other side cap frame 3 in the figure forming the one side cap frame 3 are semicircular The upper and lower semicircular transparent windows 6a and 6b are connected to the semicircular caps 2a and 3a and the inner surfaces of the semicircular caps 2b and 3b, It is attached in a sealed state.

Therefore, a state in which each of the semicircular caps 2a, 2b, 3a, 3b constituting the one side and the other side cap frame 2, 3 of the automatic chamber 1 is closed in a circular state The inner surfaces of the semicircular caps 2a and 3a and the semicircular caps 2b and 3b can be kept in a closed state so that the inside of the automotive chamber 1 can be sealed And the like.

A semicircular hole (not shown) is formed in each of the plurality of semicircular caps 2a and 2b on one side of the cap frame 2 of the automotive chamber 1, The opening 11 is formed in the center of the cap frame 2 on one side of the automotive chamber 1 to allow the air to flow.

An opening and closing port 10 for opening and closing the opening 11 is formed in one side of the cab frame 2 of the automatic chamber 1 so that the opening and closing port 10 is automatically opened and closed by the automatic opening and closing motor 7. [ Consists of.

The automatic opening and closing motor 7 is a motor that rotates in the forward and reverse directions and its rotating shaft is connected to the hinge 10a of the opening and closing port 10 to open and close the opening and closing port 10. For example, when the automatic opening / closing motor 7 rotates in the forward (clockwise) direction, the opening / closing door 10 is opened (see the imaginary line in FIG. 4) (Counterclockwise direction), the opening / closing port 10 is closed. (See the solid line in Fig. 4.)

The upper and lower semicircular pocket frames 8a and 8b are formed on the other side cap frame 3 of the automotive chamber 1.

The upper semicircular pocket frame 8a is fixedly attached to a semicircular cap 3a positioned on the upper side of the other side cap frame 3 and the lower semicircular pocket frame 8b is fixed on the lower side of the other side cab frame 3. [ And is fixed to the semicircular cap 3b.

Each of the upper and lower semicircular pocket frames 8a and 8b is symmetrically formed in a semicircular shape so as to insert the end portion of the branch 100 of the plant into an outer branch insertion port 81 formed as a circular hole at the time of assembly Each of the plurality of semicylindrical caps 3a and 3b forming the other side cap frame 3 dfm is formed with an inner side branch insertion portion 35 capable of inserting the branches 100 of the plant. The inner branch insertion portion 35 is formed in a semicircular shape symmetrically on each of the plurality of semicylindrical caps 3a and 3b and is configured to form a circular hole when assembled in a wig shape.

The upper and lower sponge airtightness members 82 and 83 are inserted into the upper and lower semicircular pocket frames 8a and 8b, The air in the interior of the automatic chamber 1 is prevented from leaking out while gently pushing it against the branches 100 of the plant inserted into the insertion portion 81 so that the outside air can not permeate into the autocambers 1 It consists of a dense tissue sponge material.

In order to maintain a hermetically sealed state during the closing operation of the door 10, the semicircular cap 2a on the upper side is provided with a circular airtight plate 25 And a semicircular airtight plate 26 are laminated on each other and a semicircular airtight plate 27 made of a rubber material is attached to the lower semicircular cap 2b.

3, the automatic chamber 1 is installed so as to hang around the end of the branch 100 of the plant having the leaf 110. To this end, the one end of the autochamber 100 and the other end Each of the semicircular caps 2a and 3a of the frames 2 and 3 is provided with one connection ring 9a and one connection ring 9b and the connection rings 9a and 9b are provided with sturdy branches (not shown) A connecting cord 91 is hung to allow the autochamber 1 to be hung.

Both ends of the frame member 9 are fixedly attached to each of the lower semicircular caps 2b and 3b forming one side of the automotive chamber 1 and the other side cap frames 2 and 3, The member 9 is provided with an air circulation fan 92, a leaf temperature sensor 93, a temperature and humidity sensor 94, an air intake port 95 for sucking outside air, An air discharge port 96 for discharging the air inside the chamber 1 to the outside is provided in the frame member 9. A motor operation control automatic switch 97 for controlling the operation of the automatic opening / ).

The air circulation fan 92, the leaf temperature sensor 93, the temperature and humidity sensor 94, the motor operation control automatic switch 97, and the like provided in the auto chamber 1 are automatically operated An automatic power supply unit 910 for supplying power to the control unit such that the circulation fan 92, the leaf temperature sensor 93, the temperature and humidity sensor 94, the motor operation control automatic switch 97, An air pump 930 for pumping air sucked into the automotive chamber 1 from the air intake port 95 and an air pump 930 for pumping air from the air pump 930 And a carbon dioxide water meter 940 for measuring the carbon dioxide absorbing ability of the plant using air to be pumped.

A temperature sensing line 93a is drawn out from the temperature sensor 93 to precisely measure the temperature of the leaf 110 protruding from the branch 100 of the plant in real time. The end portion of the operation sensing line 97a drawn out from the motor operation control automatic switch 97 is attached to the end of the one side cap plane 93a by a tape or the like so as to be exposed to the direct contact with the leaf 110, And is in contact with the semicircular airtight plate 27 attached to the semicircular cap 2b of the housing 2. Accordingly, when the door 10 is closed by the automatic opening / closing motor 7, the motor operation control automatic switch 97 detects that the door 10 presses the circular hermetic plate 25 at a predetermined pressure, Thereby controlling the closing operation of the automatic opening / closing motor 7.

The data recording apparatus 900 is provided with data measured by a temperature sensor 93, a temperature and humidity meter 94, a carbon dioxide measuring instrument 940, and the like, which are not shown in the drawing but installed in the autochamber 1 in the automatic controller 920 And a screen for displaying the measured data as a digital signal. The data recording apparatus 900 is similar to the conventional system configured to measure and analyze data by a passive method. Is omitted.

The operation of the autochamber 1 constructed as described above will be described.

The autocambers 1 are formed on a pair of upper and lower front connecting frames 4a and 4b configured to connect the one and the other cap frames 2 and 3 when the carbon dioxide absorbing ability of the plant is to be measured The engagement rings 43 of the plurality of fasteners 41 are disassembled at the hooking member 42 to open the autochambers 1. At this time, , And a plurality of hinges (51) attached to the lower rear connection frames (5a) and (5b) are axially opened.

As described above, when the end of the branch 100 of the plant to be moved or the carbon dioxide absorbing ability is to be inserted into the opened chamber 1 while the autochamber 1 is opened, The end of the branch 100 of the plant to be inserted is positioned in the inner branch insertion portion 35 formed in the other side cap frame 3 and the outer branch insertion portion 81 formed in the upper and lower semicircular pocket frames 8a and 8b And then the automatic chamber 1 is closed in this state. At this time, in the state in which the lower semicircular transparent window 6b that was previously opened is closed, the first and second front connecting frames 4a and 4b When the fastening rings 43 of the plurality of fastening holes 41 are fastened to the hooking member 42, the upper and lower semicircular transparent windows 6a and 6b of the autochamber 1 are kept closed .

The upper and lower semicircular transparent windows 6a and 6b and the other side cap frame 3 are separated from the upper and lower semicircular pocket frames 8a and 8b in a state in which the automatic chamber 1 is closed to form a cylinder, The upper and lower sponge airtightness members 82 and 83 installed in the upper and lower sponge members 83 and 83 can maintain the closed state, It is possible to maintain the gently held state by the hermetic members 82 and 83. [

As described above, when the autocambers 1 are installed so as to surround the ends of the branches 100 of the plants, the measurement of the abnormal carbon dioxide absorption ability of the plants is repeatedly performed at a predetermined time interval. For example, the measurement is continuously performed for 1 to 3 hours at intervals of 5 minutes, 10 minutes, 20 minutes, etc. At this time, when the carbon dioxide absorbing ability of a plant is measured using the above-mentioned Autochamber 1, The measurement will proceed in the closed state.

That is, when the carbon dioxide absorbing ability of the plant is measured using the above-mentioned autochamber 1, the automatic opening / closing motor 7 is rotated in the reverse direction by the automatic operation control switch 97 to close the opening / closing door 10 The air circulation fan 92 installed in the frame member 9 of the autocammer 1 closes the opening 11 formed in the one-side cap frame 2, So that the carbon dioxide in the air can be equally absorbed by the leaf 110 sprouting on the branches 100 of the plant and the temperature sensor 93a can directly contact the leaf 110 The temperature of the leaf 110 can be measured in real time and the temperature and humidity sensor 94 can measure the temperature and humidity of the air flowing into the interior of the automotive chamber 1 in real time, Port 95 to the inside of the autochamber 1 Air circulated in the air circulation fan 92 is circulated in the interior of the autocamera 1 while being supplied to the carbon dioxide measuring device 940 by the air pump 930 and discharged through the air discharge passage 96 Is repeated.

The carbon dioxide absorbing ability of the plant measured by the carbon dioxide measuring instrument 940 is stored in the data recording apparatus 900 and displayed on the screen.

Since the autocamber 1 of the present invention described above can maintain the closed state when measuring the carbon dioxide absorbing ability of the plant, the measurement error of the carbon dioxide absorbing ability can be reduced, The carbon dioxide absorbing ability of the plant can be continuously measured. Since the error range of the measurement value for measuring the carbon dioxide absorbing ability of the plant can be reduced by using the above-mentioned autocamber 1, the accuracy of the carbon dioxide absorbing capability measurement value can be reliably obtained will be.

1: Auto chamber 10:
11: openings 2,3: one side and the other side cap frame
2a, 2b, 3a, 3b: Semicircular cap 21, 22, 31, 32:
23, 24, 33, 34: rear end 25: circular sealing plate
26, 27: semicircular airtight plate 35:
4a, 4b: upper and lower front connecting frames 41: fastening holes
42; Hook member 43: fastening ring
5a, 5b: upper and lower rear connection frames 51; hinge
6a, 6b: Upper and lower semicircular transparent window 7: Automatic opening and closing motor
8a, 8b: upper and lower semicircular pocket frames
81: outer branch insertion portion 82, 83: upper and lower sponge airtight member
9: frame member 9a, 9b:
91: Lanyard 92: Air circulation fan
93: Leaf temperature sensor 94: Temperature and humidity sensor
95: air intake port 96: air exhaust port
97: Motor operation control automatic switch

Claims (11)

A transparent upper and lower semicircular transparent windows 6a and 6b are formed so that the interior of the upper and lower semicircular transparent windows can be opened and closed, 2a and 2b (3a, 3b) are symmetrically formed and connected to each other so as to form a circular shape, the cap frame (2) (3) can be installed in a state of wrapping a leaf on a branch of a tree And an opening / closing opening / closing opening / closing opening / closing opening / closing opening / closing opening / closing opening / closing opening / closing opening / closing opening / closing motor 7,
A plurality of semicircular caps 2a, 2b, 3c, 3c formed on each of the one and the other of the cap frames 2, 3, each having a predetermined length separating the one and the other cap frames 2, 2b) 3a, 3b of the front end portion 21, 22 (31, 32), respectively, and the fastening hole 41 in which the fastening ring 43 is formed, A pair of upper and lower front linkage frames 4a and 4b on which a hook member 42 is formed;
A plurality of semicircular caps 2a, 2b, 3c, 3c formed on each of the one and the other of the cap frames 2, 3, each having a predetermined length separating the one and the other cap frames 2, A pair of upper and lower rear connection frames 5a formed to connect the rear end portions 23, 24, 33, 34 of the respective hinges 51a, (5b);
Upper and lower semicircular pocket frames 8a and 8b formed symmetrically and fixedly to each of a plurality of semicircular caps 3a and 3b forming the other side cap frame 3 to be circular;
And an autoclave for continuous measurement of the carbon dioxide absorption ability of the plant.
The method according to claim 1,
The upper and lower semicircular pocket frames 8a and 8b are provided with a plurality of upper and lower sponge hermetic members 82 (hereinafter referred to as " 83) is inserted into the inner wall of the carcass.
delete delete delete delete delete delete delete delete The method according to claim 1,
Characterized in that each of the one and the other cap frames (2) and (3) is provided with connection rings (9a) and (9b) one by one so as to suspend the autocambers (1) Auto chamber for measurement.

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