JP2008253169A - Residence, factory and farmland or the like for improving environment through adjusting electric potential of ground - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a method for improving a people's residence environment and working environment, and a raising environment for livestock and agricultural crops as an environment of anion predominance through supplying electron to dust coal layers 12 and 31e which are set underground to form a negative pole of a high electric potential in the underground, and emitting electron from the ground surface while keeping the ground negative. <P>SOLUTION: This method for improving the environments comprises setting a coal facility part 1 each in a residential land 37, a livestock rearing land 42, a factory land 43, and a farmland 45, setting an electron supply part which has a solar panel 16 and a wind power generator 9, grounding the negative terminal of the electron supply part on the dust coal layer 12 of the coal facility part 1, and grounding the positive terminal on the ground surface 8a so as to make electron supply facility parts 2 and 10. In a land of a wide range, a plurality of coal facility parts 1 are each arranged at an interval of 30 m when viewed in a plane so that the coal facility parts 1 of arbitrary 3 bases adjacent to each other may form a nearly regular triangle when viewed in a plane, and the electron supply part is set in one base among a plurality of the coal facility parts 1 so as to make the electron supply coal facility parts 2 and 10. <P>COPYRIGHT: (C)2009,JPO&INPIT

Description

In the present invention, the potential of the ground is adjusted to be negative to increase the growth of plants and increase the yield of cereals and fruits, etc., and the ground is a good conductor of electricity and the ground surface maintains its zero potential. By using this property, a cathode with a high potential is formed in the basement to release electrons from the ground surface to the atmosphere, and the electrons emitted from the ground surface react with moisture in the air, making the environment dominant in negative ions. It is about improving.
Furthermore, to obtain effects such as activation of cell metabolism obtained in an environment with an advantage of negative ions, promotion of animal and plant growth accompanying cell activation, and comfortable living and productivity associated with these actions It relates to housing, livestock breeding facilities, factories, farms, etc.

Conventionally, it has been considered desirable that the cultivated land is a negative electric field, that is, a high-potential zone (see, for example, Non-Patent Document 1). As a simple method for adjusting the earth potential, there has been an invention of a carbon buried hole using charcoal powder or the like (for example, see Non-Patent Document 2). This uses the property that the land is a good conductor and carbon collects surrounding electrons to form a cathode.
However, since there are areas of negative and high-electron zones in the land and areas of positive and negative positrons with many positrons, there are limits to the electrons that carbon naturally collects. Was limited. In addition, a high-potential cathode is formed in the basement so that electrons move from the cathode toward the ground surface, and the ground surface emits electrons to the atmosphere in order to keep the potential at zero potential. In order to emit electrons, it is necessary to positively supply electrons to a cathode provided underground, but there has been no such invention in the past.
Amagasaki Uzuki, "Static Three Methods", First Edition, Electronic Physical Properties Laboratory Co., Ltd., October 1, 1991, P108 Amagasaki Sougetsu, "Static Three Methods", first edition, Electronic Research Institute, Inc., October 1, 1991, P177

The object of the present invention is to dig in the underground to provide a lump of charcoal such as charcoal, bamboo charcoal, coal, etc., a portion embedded with carbonaceous material such as pulverized coal or carbon powder, and a basement or an underground facility. To obtain a structure that positively supplies electrons to the carbonaceous layer of the charcoal facility section by providing a facility (hereinafter simply referred to as the “charcoal facility section”) where the carbonaceous layer is installed in a vertical hole or the like is there.
Furthermore, it is to improve the environment such as residential land, livestock breeding land, factory land, agricultural land or farmland by efficiently using such a configuration.

Residential land, livestock breeding facility land, factory land, agricultural land or farmland with charcoal facilities and dry battery, storage battery, generator, solar panel, fuel cell, human power generation or temperature difference power generation using thermoelectric conversion element, etc. An electron supply facility having an electric supply facility is constructed by grounding the negative terminal of the electron supply portion to the carbonaceous layer of the charcoal facility portion and grounding the positive terminal of the electron supply portion to the ground surface. .
For a relatively small land, it is sufficient to provide one power supply coal facility at the center, but for a wide range of land, a plurality of coal facilities are spaced from each other by 25 to 50 m in plan view. Arranged so that any three adjacent charcoal facility parts are located at the apex of a substantially equilateral triangle in plan view, and an electron supply part is provided in one of the plural charcoal facility parts. Is the electronic coal facility department.

According to the present invention, a high potential cathode can be formed in a basement such as a residential land, a livestock breeding land, a factory land, an agricultural land, or an agricultural land. In the case where one electric power supply coal facility was installed, the potential of the land having a radius of 30 m centered on the electric power supply coal facility could be kept negative in plan view.
For this reason, in an ordinary house, small livestock breeding facility, small factory, and small farmland, an environment superior to negative ions could be obtained by providing one electric power coal facility.
In addition, a large residential land, large-scale livestock breeding facilities, large-scale factories, large-scale plantations and farmlands can provide an environment with a negative ion advantage by providing multiple coal facilities and one feed-electric coal facility. I was able to.
And since the potential of the farmland was adjusted to be negative, the effect of increasing the yield of grains, fruits and the like by increasing the growth of the cultivated plants was obtained.
In addition, the negative ion-dominant environment can bring about effects such as the activation of cell metabolism, the promotion of animal and plant growth associated with cell activation, and the comfortable living and productivity improvement associated with these actions. did it.

There is a charcoal facility section and an electronic supply section on the land, and the electric supply coal facility section with the negative terminal of the electronic supply section grounded to the carbonaceous layer of the charcoal facility section and the positive terminal of the electron supply section grounded to the ground surface To do.
In the charcoal facility, there is a method of digging a vertical hole in the land and refilling it after providing a carbonaceous layer on the bottom. When a vertical hole is dug to provide a basement or an underground structure, there is a method in which a carbonaceous layer is provided on the bottom of the dug vertical hole and no backfilling is performed.
When digging a vertical hole to provide a charcoal facility, it is recommended to dig a hole with a depth of about 1 m, but there is no particular concern about the depth, so if you want to install a basement or an underground structure, A quality layer may be provided.
When digging a vertical hole to provide a charcoal facility, it is recommended that the area in plan view be a circle with a diameter of about 1 m or a square with a size of about 1 m x 1 m. When a structure is installed, a carbonaceous layer may be provided so as to have an area of about 1 square m in accordance with the state of the bottom surface.
As carbons constituting the carbonaceous layer, massive charcoal such as charcoal, bamboo charcoal, and coal, pulverized coal, carbon powder, and the like are used. The thickness of the carbonaceous layer is preferably about 100 to 300 mm. The electron supply unit is preferably a dry battery, a storage battery, a generator, a solar panel, a fuel cell, power generation by human power, temperature difference power generation using a thermoelectric conversion element, or a combination thereof.
Electricity supply coal facility, where the electron supply unit has a solar panel, the solar panel's negative terminal is grounded to the carbonaceous layer, and the solar panel's positive terminal is grounded to the ground Part.
The present invention is configured to supply electrons to the carbonaceous layer of the coal facility by directing the solar panel to the sun and grounding the negative terminal of electricity generated by the solar panel to the carbonaceous layer. . Since natural solar energy is used, it is possible to obtain a power supply coal facility that is friendly to the natural environment without consuming wasteful energy.
It is an electronic coal facility, where the electronic supply unit has a wind power generator, and the negative terminal of the wind power generator is grounded to the carbonaceous layer and the positive terminal of the wind power generator is grounded to the ground surface. The electronic coal facility department.
The present invention is configured to supply electrons to the carbonaceous layer of the coal facility by grounding the negative terminal of electricity generated by the wind power generator to the carbonaceous layer. Since natural wind power is used, it is possible to obtain a power supply coal facility that is friendly to the natural environment without consuming wasteful energy.

The electric power supply coal facility section described in any of the above shall be a residential land, a house, a livestock breeding site, a livestock breeding facility, a factory land, a factory, an agricultural land, and an agricultural land provided on the residential land, land or farmland.
When a residential building is built by building an electricity supply coal facility on a residential land, the living section of the person becomes an environment with an advantage of negative ions, activating cells of people living in the house, improving blood circulation, It has effects such as prompting. As a result, it brings a rest to the person who lives in the house of the present invention, balances the autonomic nerve, and stabilizes the spirit.
Establishing a feed and charcoal facility and a breeding house in the livestock breeding area and raising livestock such as horses, cattle, goats, sheep, pigs, chickens, and sharks can lead to an environment with negative ions and activate livestock cells. It has effects such as improving blood circulation and promoting metabolism. As a result, it brings a good night's sleep to livestock, balances autonomic nerves, and stabilizes the mind. Furthermore, effects such as faster growth of livestock, breeding of excellent competitive horses, delicious meat, milk and eggs, and good quality wool can be obtained.
Establishing a plant with an electronic coal facility on the site of the factory creates an environment with a negative ion advantage and activates the cells of people working in the factory, improves blood circulation, and promotes metabolism. Effect. As a result, it has effects such as balancing the autonomic nerves of workers in the factory and stabilizing the mind. Furthermore, as a result, the factory is made a lively workplace, and it is possible to prevent the occurrence of troubles related to human relations between workers and to prevent the occurrence of mistakes in the work, thereby improving the productivity of the factory. .
When farming is carried out by providing a feed-electric charcoal facility on agricultural land or farmland, the effect of vigorous growth of plants to be cultivated is obtained in order to keep the potential of the farmland negative. In addition, the atmosphere above the farmland is an environment with a negative ion predominance. As a result, the cells of the crop are activated and encouraged to grow, so that it is possible to grow crops that were not grown conventionally, the taste of crops is increased, and the yield is increased. Is obtained.

The residential land, land, or farmland has at least one of the above-mentioned electric power supply coal facilities, and further has a plurality of charcoal facilities, and two adjacent electric facilities. Are arranged so that they are located at the vertices of a substantially equilateral triangle in plan view, and three adjacent charcoal facilities are located at the vertices of the equilateral triangle. Livestock breeding facility, factory land, factory, agricultural land or farmland.
A plurality of charcoal facilities are provided, and any three charcoal facilities are positioned at the apex of a substantially equilateral triangle, and the intervals between the charcoal facilities are 50 m or less. If an electron supply unit is provided in one of the installation units and this is used as a feed-electric coal facility unit, an action of supplying electrons to all the coal facility units can be obtained.
For this reason, in order to improve the environment of a wide range of land, there is one feed-electric coal facility section, a number of coal facility sections, and a feed-electric coal facility section and two adjacent coal facilities. And the three charcoal facilities are located at the apex of an equilateral triangle, so that the potential of a wide area of land is kept negative, and the ground atmosphere of a wide area of land is negative. This is because an ion-dominated environment can be obtained.
In any of the residential land, housing, livestock breeding site, livestock breeding facility, factory land, factory, agricultural land or farmland described above, the distance between the feed-electric coal facility and the adjacent coal facility is 25-50 m. Thus, a residential land, a house, a livestock breeding ground, a livestock breeding facility, a factory land, a factory, an agricultural land, or an agricultural land with a distance between adjacent charcoal facility sections of 25 to 50 m.
When the distance between the coal supply facility and the adjacent coal facility or the distance between the coal facilities exceeds 50m, the action of supplying electrons becomes insufficient, and it is not economical to make it 25m or less. is there.

It has a non-conductive bar, a conductive tip fitting attached to one end of the bar, and a solar panel attached to the other end of the bar, and the negative terminal and tip of the solar panel The power supply pile is connected to the bracket with a ground wire.
The present invention relates to a power supply pile that can easily make a charcoal facility part a power supply coal facility part. The tip metal fitting can be attached to one side of a non-conductive bar, and the tip side is sharpened for easy insertion into the land. Since electrons are supplied to the charcoal layer of the charcoal facility through the tip metal fitting, it shall be highly electrically conductive.
The bar preferably has a pipe shape in cross section, and the material is not particular if it is non-conductive. In order to insert the end fitting up to the carbon layer of the charcoal facility, and since an excessive length is not economical, the length from the end fitting to the other end of the bar is preferably 1 to 3 m.
The solar panel may be mounted horizontally, but is preferably mounted towards the sun so that it receives as much sunlight as possible. The negative terminal of the solar panel and the tip metal fitting are connected by a ground wire, and the electric electrons generated by the solar panel are supplied to the tip fitting through the ground wire.

A first embodiment of the present invention will be described with reference to FIGS. The electric power supply charcoal facility part 2 of Example 1 inserts the electric power supply pile 7 in the charcoal facility part 1, and attaches the solar panel 16 toward the sun.
The charcoal facility part 1 dug a vertical hole 11 having a diameter A = 1 m and a depth B = 1 m in the land 8 and provided a layer 12 of pulverized coal with a height C = 150 mm at the bottom of the vertical hole 11 to refill the dug soil. Is.
The tip fitting 21 of the power supply pile 7 is made of steel, the tip portion 21b is conical and has a round bar portion 21c having an outer diameter of 28 mm, and the outer surface of the tip fitting 21 is plated with copper. A screw hole was provided in the rear end 21d, and a screw 21a was screwed in between the terminal 19a of the negative ground wire, whereby one end of the negative ground wire 19 was conducted to the tip fitting 21 and fixed. Then, the rear end 21d was inserted into the pipe 20 and fixed.
The pipe 20 was a plastic tube having an outer diameter of 28 mm and a length of 2 m. A hole was made in the upper part of the pipe 20 and the negative ground wire 19 was pulled out to be sealed so that water could not enter. A solar panel 16 was attached to the upper end of the pipe 20.
A waterproof connector 17 is attached to the lower surface of the solar panel 16, the terminal box 16 a of the solar panel and the waterproof connector 17 are connected by the terminal cable 16 b, and the other end of the negative ground wire 19 is connected to the negative terminal of the waterproof connector 17.
Further, one end of the positive ground wire 18 was connected to the positive terminal of the waterproof connector 17, and a positive ground fitting 22 made of steel and plated with copper on the outer surface was attached to the other end of the positive ground wire 18.
The above-mentioned electric power supply pile 7 was inserted into the charcoal facility 1 and inserted so that the end fitting 21 could reach the pulverized coal layer 12. The positive earth fitting 22 was inserted into the surface 8a.
Electrons generated by the solar panel 16 are supplied to the pulverized coal layer 12 through the negative ground wire 19, the underground pulverized coal layer 12 is used as a high potential cathode, and the ground is an electric good conductor. Is moved outward with the pulverized coal layer 12 as the center so that the potential of a wide range of land is kept negative.
Further, by utilizing the property that the ground surface 8a emits electrons to the atmosphere in order to keep the potential at zero potential, many electrons are emitted from the ground surface 8a, and the electrons emitted from the ground surface 8a react with moisture in the air. Thus, an environment with a negative ion advantage is configured.
Example 1 is able to keep the potential of land within a radius of 30 m around the center of the feed coal facility 2 even in poor conditions, and to release many electrons from the ground surface of the same range. The living space on the ground in the same range could be made an environment with an advantage of negative ions.

A second embodiment of the improved housing part 3 in which the invention of the first embodiment is applied to improve the environment will be described with reference to FIG. The improved housing part 3 is an embodiment in which a housing 38 is built by providing a feed-electric charcoal facility part 2 on a residential land 37.
In Example 2, since the living space of the entire residential land 37 can be maintained in an anion-dominant manner, the cells such as activating cells of people living in the house 38, improving blood circulation, and promoting metabolism are exerted. It was possible to obtain effects such as bringing a good night's sleep to people living in the house 38, balancing autonomic nerves, and stabilizing the mind.

A third embodiment of the improved breeding unit 4 in which the environment is improved by applying the invention of the first embodiment will be described with reference to FIG. The improved breeding unit 4 is an embodiment in which a cattle breeding building 41 is built by providing a feedwater charcoal facility unit 2 on a cattle breeding site 42.
In Example 3, the behavior space of the cow in the cow breeding land 42 as a whole could be maintained in the negative ion predominance, so that the cells of the cow raised in the breeding house 41 were activated, the blood circulation was improved, the metabolism As a result, it has the effect of providing good quality meat and milk to bring the cows to sleep well, balance the autonomic nerves and stabilize the mind.

A fourth embodiment of the improved factory section 5 in which the environment is improved by providing one feed-electric charcoal facility section 2 and six charcoal facility sections 1 according to the first embodiment will be described with reference to FIG. In this embodiment, the interval between the two coal facility parts 1 adjacent to the feed electron coal facility part 2 and the feed electron coal facility part 2 and the distance between any coal facility parts are about 30 m, The two charcoal facility parts 1 adjacent to the electric power supply charcoal facility part 2 and the arbitrary three charcoal facility parts 1 are arranged on the factory site 43 so as to be located at the apexes of the approximate equilateral triangle, respectively. A factory 44 was built on top.
In Example 4, since the action space of the entire plant land 43 can be kept negative ions, the cells of the person working in the factory 44 are activated, blood circulation is improved, metabolism is promoted, etc. Has an effect. And the effect of balancing the autonomic nerve of the person working in the factory 44 and stabilizing the spirit is exerted. Furthermore, the factory 44 was made a vibrant workplace, and it was effective to prevent the occurrence of troubles related to human relations between workers and to prevent the occurrence of mistakes during normal work. .

A fifth embodiment of the improved farmland section 6 in which the environment is improved by providing one electric power supply coal facility section 10 and six charcoal facility sections 1 will be described with reference to FIG. The electric power supply coal facility part 10 of the present embodiment attaches the wind power generator 9 as an electronic supply unit to the charcoal facility part, and grounds the negative terminal 9a of the wind power generator 9 to the pulverized coal layer of the charcoal facility part, The positive terminal 9b of the wind power generator 9 is grounded to the ground surface.
In the present embodiment, the distance between the two coal facility parts 1 adjacent to the feed electron coal facility part 10 and the feed electron coal facility part 10 and the distance between the arbitrary charcoal facility parts 1 are set to about 30 m. The two charcoal facility parts 1 adjacent to the electric power supply charcoal facility part 10 and the arbitrary three charcoal facility parts 1 are respectively arranged on the farmland 45 so as to be positioned at the apexes of the regular equilateral triangle, and planting seedlings. Raised rice.
Electrons generated by the wind power generator 10 are supplied to the pulverized coal layer of the coal facility 1, the underground pulverized coal layer is used as a high potential cathode, and the electrons move outward with the pulverized coal layer as the center. In this way, the potential of the land is kept negative.
Furthermore, many electrons are emitted from the ground surface, and electrons emitted from the ground surface react with moisture in the air to constitute an environment predominantly negative ions.
In Example 5, the overall potential of the farmland 45 was kept negative, and the entire space for growing rice could be maintained in negative ion dominance, so that the rice cells were activated to promote their growth, It was possible to grow rice on land that could not be cultivated before, to increase the taste of harvested rice, and to increase the yield of rice.

Example 6 which improved the environment in the residential land which has a basement is shown and demonstrated to FIG. In this embodiment, a vertical hole is dug to create an underground space with a concrete wall 31b and a concrete floor 31c, a basement 31a is provided, and a house 31 is built thereon.
In order to send light and air to the basement 31a, a space called a dry area 31d was provided between the concrete wall 31b and the basement 31a, and a pulverized coal layer 31e was provided on the concrete floor 31c corresponding to the lower part of the dry area 31d.
Further, a solar panel 32 was attached by placing a table 32a on the ground surface 31f. Then, the negative terminal of the solar panel 32 was connected to the negative earth wire 34, and the negative earth metal fitting 36 attached to the tip of the negative earth wire 34 was grounded to the pulverized coal layer 31e. Then, the positive terminal of the solar panel 32 was connected to the positive earth wire 33, and the positive earth fitting 35 attached to the tip of the positive earth wire 33 was grounded to the ground surface 31f.
Electrons generated by the solar panel 32 are supplied to the carbon layer 31e via the negative ground wire 34, and the underground carbon layer 31e is used as a high potential cathode, and the electrons are finely ground using the fact that the concrete and the earth are good electrical conductors. The ground potential is kept negative by moving outward with the charcoal layer 31e as the center.
Furthermore, utilizing the property that the ground surface 31f emits electrons to the atmosphere in order to keep the potential at zero potential, many electrons are emitted from the ground surface 31f, and the electrons emitted from the ground surface 31f react with moisture in the air. Thus, an environment with a negative ion advantage is configured.
With this configuration, even if the land is in poor conditions, the potential of the land within a radius of 30 m centered on the pulverized coal layer 31e can be kept negative, and many electrons are emitted from the ground surface in the same range. An environment superior to negative ions could be obtained in the ground living space having a radius of 30 m with the pulverized coal layer 31e as the center.
In this embodiment, the living space of the entire residential land can be maintained in an anion-dominant state, so that the cells of the people living in the house 31 are activated, blood circulation is improved, and metabolism is promoted. As a result, it was possible to obtain an effect such as bringing a sleep to a person living in the house 31, balancing the autonomic nerve, and stabilizing the spirit.

  The present invention is not only used in primary agriculture-related industries such as dairy farming and farming, but also in secondary industries that manufacture products, as well as civil engineering-related industries that improve land, houses, factories, livestock breeding houses, It is also used in industries that construct agricultural-related facilities.

It is sectional drawing of the front view of the feed coal facility part of Example 1. FIG. It is sectional drawing of the front view of the charcoal facility part of Example 1. FIG. It is sectional drawing of the front view of the electric power supply pile of Example 1. FIG. It is a top view of the improved housing part of Example 2. 6 is a plan view of an improved breeding unit of Example 3. FIG. It is a top view of the improvement factory part of Example 4. It is a planar view of the improvement farmland part of Example 5. FIG. 6 is a cross-sectional view of a sixth embodiment when viewed from the front.

Explanation of symbols

1: Charcoal Facility Department 2: Electricity Supply Coal Facility Department 3: Improved Housing Department 4: Improved Breeding Department 5: Improved Factory Department 6: Improved Agricultural Department 7: Electric Power Pile 8: Land 8a: Surface 9: Wind Power Generator 9a: Negative side terminal 9b: Positive side terminal 10: Electronic coal facility part 11: Vertical hole 12: Layer of pulverized coal 16: Solar panel 16a: Terminal box 16b: Terminal cable 17: Waterproof connector 18: Positive ground wire 19: Negative ground wire 19a: terminal 20: pipe 21: tip metal fitting 21a: screw 21b: tip portion 21c: round bar portion 21d: rear end portion 22: positive earth metal fitting 31: house 31a: basement 31b: concrete wall 31c: concrete floor 31d: dry area 31e: layer of pulverized coal 31f: surface 32: solar panel 32a: stand 33: positive ground wire 34: negative ground wire 35: positive ground metal fitting 36: Ground bracket 37: Lots 38: Housing 41: breeding kennel 42: feedlots 43: Factory site 44: Factory 45: agricultural land

Claims (7)

  An electron supply unit is provided in a portion where a carbonaceous layer is buried in the ground or a portion where a carbonaceous layer is installed in a vertical hole provided in the land (hereinafter simply referred to as a “charcoal facility portion”). An electronic coal facility unit, wherein a side terminal is grounded to the carbonaceous layer, and a positive terminal of the electron supply unit is grounded to the ground surface.   It is an electric power supply charcoal facility part of Claim 1, Comprising: An electron supply part shall have a solar panel, the negative side terminal of the said solar panel is earth | grounded to a carbonaceous layer, and the positive side terminal of the said solar panel is connected An electronic coal facility that is grounded on the ground.   It is an electric power supply charcoal facility part described in Claim 1, Comprising: An electron supply part shall have a wind power generator, the negative side terminal of the said wind power generator is earth | grounded to a carbonaceous layer, and the positive electrode of the said wind power generator is set. Electric-powered charcoal facility, characterized in that the side terminal is grounded to the ground.   A residential land, a house, a livestock breeding site, a livestock breeding facility, a factory site, characterized in that the electric power supply coal facility part according to any one of claims 1 to 3 is provided on the residential land, land or farmland. Factory, agricultural land or farmland. In the residential land, land, or farmland, it has at least one power supply coal facility part according to any one of claims 1 to 3, and further has a plurality of coal facility parts,
The electric power supply charcoal facility part and the two charcoal facility parts adjacent to the electric power supply charcoal facility part are arranged so as to be positioned at the apexes of a substantially equilateral triangle in plan view, and further, the three adjacent charcoal facility parts are approximately one another. A residential land, a house, a livestock breeding site, a livestock breeding facility, a factory land, a factory, an agricultural land, or an agricultural land, characterized by being placed at the apex of an equilateral triangle.   In any one of the residential land, house, livestock breeding ground, livestock breeding facility, factory land, factory, agricultural land, or farmland described in claim 5, the distance between the feed-electric coal facility and the adjacent coal facility is 25 A residential land, a house, a livestock breeding land, a livestock breeding facility, a factory land, a factory, an agricultural land, or an agricultural land, characterized in that the distance between charcoal facilities adjacent to each other is 25 to 50 m.   A non-conductive bar, a conductive tip fitting attached to one end of the bar, and a solar panel attached to the other end of the bar, the negative side of the solar panel A power supply pile comprising a terminal and the tip fitting connected by a ground wire.

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