KR101240398B1 - Tree vitality diagnostic system - Google Patents

Abstract

PURPOSE: A device for diagnosing the degree of vitality for trees is provided to accurately and easily diagnose the relative vital degree of trees using a probe. CONSTITUTION: A device for diagnosing the degree of vitality for trees comprises a body(110), a pulse current generating unit, a power supplying unit, a probe module(140), a control unit, and an operating unit(160). The body includes a display unit. The power supplying unit supplies power required for driving the pulse current generating unit. The probe module includes a pair of probes where pulse current generated by the pulse current generating unit is transmitted. The control unit calculates the degree of vitality for the trees using an electrical resistance obtained by inserting the probes into a tree formation layer or a wood portion, thereby displaying the same through a display unit. The operating unit respectively performs a zero point control, the calibration of a display value for the display unit, and the measurement of trees or woods.

Description

Tree vitality diagnostic system

The present invention relates to a tree vitality diagnostic device, and more particularly, to a tree vitality diagnostic device for accurately and easily diagnosing relative vitality of a tree using a probe.

In general, trees are plants with hard stems and branches, and are classified into conifers, hardwoods, and lost trees, and are planted and grown in soil, requiring light and nutrients necessary for growth.

Such trees are usually grown in a certain place, and the health of the trees may be deteriorated due to changes in the environment, for example, soil cover, pressure, roads, and rooting due to the opening of India, and landscaping works such as the development of various parks, apartments, green areas, etc. Depending on the needs of the city, it may be transplanted to another place and grow. In this case, it is necessary to check whether it is growing properly according to the changed transplant environment by checking the health status such as vitality.

However, since there is no device that can easily check the health state through the relative vitality of the tree from the outside, in order to measure the health state of the tree, it is necessary to understand the organs and physiology of the tree well and diagnose the condition with the naked eye. There was no choice but to. Of course, it is possible to check the nutrient analysis of the leaves, biopsy using the microscope, root vitality, etc. by taking the living tissues such as the leaves, branches, and roots of the tree like the detailed examination of humans. .

The cambium is parenchyma, which lies just below the bark, has cell membranes and protoplasts, causing cell extension, cell division, and cell differentiation. The second neck and the second priest are living tissues, each of which absorbs water from the roots to the leaves and serves to send sugar from the leaves down to the roots.

Therefore, the cambium is healthy, so that the second neck and the second priest continue to make, and the condition is healthy so that water and sugar can be smoothly supplied between the root and the leaf, and the tree is healthy. In other words, the richness of water in the formation layer and the rich ion content in water are closely related to the health of trees.

For this reason, there is a need to develop a device that can easily know the health of the tree by measuring the moisture content of the forming layer and the ion content in the water from the outside.

In order to solve the conventional problems as described above, the present invention, if it can be seen that the moisture content of the forming layer which is a living tissue of the tree is much and little of the ionic content in the water, that is, the wood is healthy and the living wood tissue in the forming layer (secondary neck part) If the moisture and ion content in the causal is high, the electricity flows well, resulting in low electrical resistance (kΩ), and the tree is in poor health. By using, the purpose is to be able to accurately and easily diagnose the relative vitality of the trees.

Other objects of the present invention will be readily understood through the following description of the embodiments.

In order to achieve the above object, according to an aspect of the present invention, a diagnostic device for diagnosing the state of the tree, the main body provided with a display; A pulse current generator installed in the main body to generate a pulse current; A power supply unit for supplying power for driving the pulse current generator; A probe module having a pair of probes provided at one side to which a pulse current generated from the pulse current generator is transferred by a cable from the main body; And a control unit configured to calculate the health of the tree through the electrical resistance obtained by inserting the probe into which the pulse current is transmitted and inserted into the tree forming layer or the neck, to display the tree through the display unit.

The probe module is detachably coupled to the connector provided at the end of the cable, is coupled to be replaced by a coupling portion provided on one side of the probe, a handle for holding the user is provided, the outside of the handle Protrusions may be formed on the side to prevent slipping.

A zero point adjustment provided at the main body to set the display value of the display unit to "0 ± 1", and a calibration to set the display value of the zero-adjusted display unit to "200 ± 1"; An operation unit for operating to perform measurement of each figure, wherein the control unit controls the display unit and the pulse current generating unit to perform respective operations according to the operation of the operation unit, and the tree forming layer into which the probe is inserted. Alternatively, the vitality degree obtained by converting the electrical resistance value obtained according to the water content of the neck or the ion content in the water into a value within a range of 0 to 100 proportional to the health of the tree may be displayed through the display unit.

According to the tree vitality diagnostic device according to the present invention, it is possible to conveniently diagnose the relative vitality of the tree using the probe.

1 is a perspective view showing a tree vitality diagnostic apparatus according to an embodiment of the present invention,
2 is a block diagram showing a tree vitality diagnostic apparatus according to an embodiment of the present invention,
3 is a cross-sectional view showing the use of the tree vitality diagnostic apparatus according to an embodiment of the present invention,
4 is a graph for explaining the calculation of the vitality in the tree vitality diagnostic apparatus according to an embodiment of the present invention.

While the invention is susceptible to various modifications and alternative forms, specific embodiments thereof are shown by way of example in the drawings and will herein be described in detail. It is to be understood, however, that the invention is not to be limited to the specific embodiments, but is to be understood to cover all modifications, equivalents, and alternatives falling within the spirit and scope of the invention, And the scope of the present invention is not limited to the following examples.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings, wherein like or corresponding elements are denoted by the same reference numerals, and redundant explanations thereof will be omitted.

1 is a perspective view showing a tree vitality diagnostic apparatus according to an embodiment of the present invention, Figure 2 is a block diagram showing a tree vitality diagnostic apparatus according to an embodiment of the present invention.

1 and 2, the tree vitality diagnostic apparatus 100 according to an embodiment of the present invention is the main body 110, the pulse current generating unit 120, the power supply unit 130, the probe The module 140 and the controller 170 may be included.

The main body 110 is provided with a display unit 111 consisting of various display devices such as LED, LCD, for example in the front.

The pulse current generator 120 is installed in the main body 110 to generate a current having a pulse wave, that is, a pulse current, for example, an oscillator 121 for generating a pulse wave current. It may include a pulse amplifier 122 for amplifying the current of the pulse waveform, furthermore, the AC / DC converter 123 for converting the AC current response from the pulse amplifier 122 into a DC current, and the AC / DC converter ( It may further include an amplifier 124 for amplifying the DC current converted from the 123, and a gain amplifier 125 for minimizing the noise effect included in the signal by the DC current amplified by the amplifier 124.

The power supply unit 130 supplies power required for driving the pulse current generating unit 120, specifically, the oscillator 121 and the like, and is a power source supplied from the outside, or covers (not shown) in the main body 110 as in the present embodiment. It may be made of a battery mounted in the inner space that is open to), for example, a 6V 9V battery may be used.

Probe module 140 is connected to the cable 150 from the main body 110 is provided with a pair of probes 141 on one side to transfer the pulse current generated from the pulse current generating unit 120. Here, the probe 141 is a pulse current generated from the pulse current generating unit 120 is applied through the cable 150, the probe 141 is within the moisture or moisture present in them when inserted into the tree forming layer or neck Through the amount of current between the probes 141 according to the ion content it is possible to measure the electrical resistance value inside the tree or wood.

The probe module 140 may be detachably coupled to the connector 151 provided at the end of the cable 150. For this purpose, a connector (not shown) for electrically connecting the connector 151 may be provided at a side or one side thereof. It may be, there may be provided a wire or a circuit for transmitting a current between the cable 150 and the probe 141 therein, coupled to be replaced by a coupling portion 142 provided on one side of the probe 141 The handle 143 for holding the user may be provided, and a protrusion 144 for preventing slipping may be formed on an outer surface of the handle 143.

The probe 141 may have a needle shape to be inserted into the tree forming layer as in the present embodiment. As another example, the probe 141 may have a twist shape in the form of a coil when inserted into the neck having a relatively high hardness.

Coupling portion 142 is fixed so that the probe 141 is extended to one side, it can be detachably coupled to the end of the probe module 140 by interference fit or screw coupling.

The protrusion 144 may have a ring shape that is arranged in a large number side by side as in the present embodiment, or may have various structures so as not to slip easily from the hand, or may be made of a material such as rubber for preventing slipping.

The control unit 170 calculates the health of the tree through the electrical resistance obtained by inserting the probe 141 through which the pulse current is transmitted to the tree forming layer or the neck so that it is displayed through the display unit.

Tree vitality diagnostic apparatus 100 according to an embodiment of the present invention may be provided with an operation unit 160 for a functional operation.

The operation unit 160 may be provided at the front of the main body 110, and check the current amount of the power supply unit 130, zero adjustment to set the display value of the display 111 to "0 ± 1", and zero adjustment The display unit 111 can be calibrated to have a display value of " 200 ± 1 " and a measurement of vitality for the tree forming layer or the neck, respectively.

For example, the operation unit 160 may include a power switch 161 for turning on / off a power required for operation from a power supply unit 130, for example, a battery, a battery check, and a battery check. A control switch 162 for selecting a mode such as zero adjustment, calibration and vitality measurement, and a display unit 111 when the control switch 162 is in the zero adjustment mode. If the zero point controller 163 of the rotary type and the control switch 162 are in the calibration mode, the display value of the display unit 111 is set to " 0 " Calibration controller 164 of a rotary type to fit ± 1 ", for example " 200 ".

The controller 170 may be formed of, for example, a circuit and an electric element including a PCB in the main body 110, and may perform a respective operation according to the manipulation of the manipulation unit 160. 120 may be controlled. For example, the controller 120 may control the display value of the display 111 to be “0 ± 1” according to the signal output from the zero point controller 163, and perform a reset. By controlling the display value of the display 111 to be "200 ± 1" according to the signal output from the 164, it is possible to make the reference alignment of the vitality measurement from the electrical resistance of the wood forming layer or the neck, and the control switch ( In the case of the battery check mode 162, the current amount of the power supply unit 130 may be measured to be displayed through the display 111, and the control switch 162 is in the vitality measurement mode. The pulse current is transmitted from the pulse current generator 120 to the probe 141, and thus, the vitality is calculated from the electrical resistance calculated through the current which is changed into the internal resistance of the tree forming layer or the neck into which the probe 141 is inserted. It may be displayed through the unit 111.

At this time, the control unit 170 may include a circuit unit which is respectively installed in the zero controller 163 and the calibration controller 164 to perform the zero adjustment and calibration, respectively, on the contrary, made of a PCB or the like switch of the operation unit 160 161, 162, 163, and 164 may be installed to be electrically connected.

As shown in FIG. 4, the controller 170 controls the electrical resistance value obtained according to the moisture or ion content of the wood forming layer or the neck of the probe 141 into which the probe 141 is inserted, in a range of 0 to 100 in proportion to the health of the tree. It is possible to display the vitality converted into a numerical value within the display unit 111. Therefore, as shown in Table 1 below, it is possible to obtain a vitality in proportion to the health of the tree. This can provide an accurate and understandable standard for tree health.

Vitality 100 86 80 74 64 55 47 Electrical resistance (kΩ) 0 10 15 20 30 40 50 Health very good good bad dead

Therefore, compared with the existing electrical resistance, the numerical difference of healthy trees increases by 1.5 times, and the numerical difference of dying trees decreases by 3 times, so that the health of the trees can be measured more accurately. On the other hand, if the moisture and ionic content in the wood forming layer or the neck 10 in which the probe 141 is inserted is high, the electricity flows well, and the electrical resistance value is low. Will be higher.

The operation of the tree vitality diagnostic device according to the present invention will be described.

First, the main body 110 and the probe module 140 are connected with the cable 150, and then the power switch 161 is turned on to allow power to be supplied from the battery that is the power supply unit 130. Then, the control switch 162 is placed on the battery check side to check the state of the power supply unit 130 through the display unit 111. For example, when the power supply unit 130 is a 9V battery, 7.4V When the indication that the following appears, replace the battery of the power supply unit 130 with a new one.

Then, the control switch 162 is set to "ZERO" displayed around, and the zero point adjuster 163 sets the display value of the display 111 to "0", and the control switch 162 is displayed around "". CAL "and then adjust the display value of the display 111 to" 200 "with the calibration controller 164. Then, the control switch 162 is placed in the "MEASURE" displayed around the probe using the probe 141 of the module 140 to measure the state of the wood or wood, for example, the electrical resistance. At this time, the control unit 170 calculates the vitality for the tree health state as shown in Table 1 through the electrical resistance obtained by the insertion of the probe 141, the pulse current is transmitted to the tree forming layer or the neck portion to display the display unit 111 To be displayed.

As such, the tree vitality diagnostic apparatus 100 according to the present invention may use the probe 141 to diagnose a case where the relative vitality of the tree, for example, the moisture content is higher than the saturation point in the fiber, for this purpose, the probe 141 ) Into the wood-forming layer or the neck 10, and then a pulsed current flows, the vitality converted in accordance with the electrical resistance of the tissue on the display 111 of the body 110, for example, a number in the range of 0 to 100 The health of the tree increases the vitality value from 0 to 100, making it easier to understand the concept of tree vitality and to present the criteria.

Although the present invention has been described with reference to the accompanying drawings, it is to be understood that various changes and modifications may be made without departing from the spirit of the invention. Therefore, the scope of the present invention should not be limited to the described embodiments, but should be determined by the equivalents of the claims, as well as the following claims.

110: main body 111: display unit
112: probe connection unit 120: pulse current generating unit
121: oscillator 122: pulse amplifier
123: AC / DC converter 124: amplifier
125: gain amplifier 130: power supply
140: probe module 141: probe
142: coupling portion 143: handle
144: protrusion 150: cable
151 connector 160: control panel
161: power switch 162: control switch
163: zero point controller 164: calibration controller
170:

Claims (3)

As a diagnostic device for diagnosing the condition of the tree,
A main body provided with a display unit;
A pulse current generator installed in the main body to generate a pulse current;
A power supply unit for supplying power for driving the pulse current generator;
A probe module having a pair of probes provided at one side to which a pulse current generated from the pulse current generator is transferred by a cable from the main body;
A control unit for calculating the vitality of the tree through an electrical resistance obtained by inserting the probe into which the pulse current is transmitted is inserted into a tree forming layer or a neck and displayed on the display unit;
A zero point adjustment provided at the main body to set the display value of the display unit to "0 ± 1", and a calibration to set the display value of the zero-adjusted display unit to "200 ± 1"; An operation unit for operating to perform measurement of each figure;
The control unit,
The display unit and the pulse current generating unit are controlled to perform respective operations according to the operation of the operation unit, and the electrical resistance value obtained according to the moisture or ion content in the wood forming layer or the neck of the probe is inserted into the vitality of the tree. A tree vitality diagnostic apparatus for displaying the vitality degree converted into a numerical value within the range of 0 to 100 proportional to the degree through the display unit. The method of claim 1, wherein the probe module,
The connector provided at the end of the cable is detachably coupled, coupled to be replaced by a coupling portion provided on one side of the probe, a handle for holding the user is provided, the non-slip on the outer surface of the handle Tree vitality diagnostics, characterized in that the projections are formed for. delete

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