KR20120080667A

KR20120080667A - The tread mill that can make electricity

Info

Publication number: KR20120080667A
Application number: KR1020100138835A
Authority: KR
Inventors: 조상희; 조재필
Original assignee: 조상희; 조재필
Priority date: 2010-12-30
Filing date: 2010-12-30
Publication date: 2012-07-18

Abstract

The present invention relates to a configuration of a treadmill with a power generation function so as to produce electricity by rotating the treadmill motor (treadmill) by using a cycle pedal for power generation and exercise while not using the treadmill (treadmill).
In summary, the main frame (1) and the rear roller unit (1a1) and the front roller unit (1a2) and running belt (1a) vertical frame (1b) and saddle support (1f1) and conversion Knob 2a or conversion motor 2b and main motor 3c and main roller 1 (3d) or main roller 2 (3e) and reverse rotation guide roller 4 and power generating rotating plate 5 and pedals ( 5d) and power generating shaft drive belts (6) and power generating shafts (7) and power generating shaft drive belts (7a) and power generating rollers (7b) and electric storage devices (8) and electric vending machines (9); It is characterized by consisting of an automatic switching device (10),
The main motor 3c is characterized by having a configuration that is always converted to a motor role (running mode) or a generator role (power generation mode) by the conversion knob (2a) or the conversion motor (2b),
On the machine room bottom 101 of the machine room 100, only the conversion knob 2a or the conversion motor 2b and the moving device 3 and the main motor 3c and the reverse rotation guide roller 4 (running mode (roller type)) Constitution) or belt tension adjusting roller (4 "; configured only in running mode (belt type)) and power generating shaft (7), electric storage device (8), electric vending device (9) and automatic switching device (10). With a feature,
In the state in which the main motor motor shaft 3c1 is configured in the conversion motor 2b formed on the main motor mounting portion 3b of the moving device 3, the main motor motor 3c1 has a main roller 1 (3d) or The main roller 2 (3e; configured only in the running mode (belt type)) and the reverse rotation preventing tab 3c1a; The main roller 2 (3e) is characterized in that the belt groove (3e1) and the reverse rotation preventing groove (3e1a) is configured; The binding of the anti-rotation tab 3c1a to the main motor shaft 3c1 and the formation of the anti-rotation groove 3e1a on the main roller 2 3e are the main motors of the main motor motor shaft 3c1 in the power generation mode. It is characterized in that the roller 2 (3e) is a means for preventing the inside of the front roller unit driving belt (3f) is stopped in use in the power generation mode, so that the roller 2 (3e) is rotated without turning,
The reverse rotation guide roller (4; configured only in the running mode (roller type)) is characterized in that it has a configuration that is coupled to the reverse rotation guide roller shaft (4a); The reverse rotation guide roller (4) is characterized in that the running belt (1a) is configured to provide a means for rotating in the reverse direction in which a person can (move),
The belt tension adjustment roller 4 "; configured only in the running mode (belt type) is characterized in that it has a configuration that is bound to the belt tension adjustment roller shaft 4a",
Characterized in that the latching groove 4c is formed on one side of the belt tension adjusting roller shaft support portion 4b "
The power generation shaft (7) is characterized in that it has a configuration in which the power generation roller (7b) and the power generation shaft drive belt engagement portion (7a) is bound together,
The electric storage device (8) is characterized in that the main motor (3c) is configured as a means for temporarily storing the electricity produced in the power generation mode, the electric sales device (9) is used in the home and the electricity remaining in the power company The feature is that it is configured to perform the function that can be sold back to (KEPCO),
The automatic switching device 10 is characterized by consisting of the switching switch (10a) and the power supply terminal A (10b1a) and the power supply terminal B (10b1b) and the power storage terminal A (10c1a) and the power storage terminal B (10c1b). And,; When the main motor mounting portion 3b of the moving device 3 is placed in the running mode or the power generation mode by the operation of the conversion knob 2a or the conversion motor 2b, the main motor mounting portion 3b and the changeover switch 10a. Is automatically interlocked, which is when the main motor mounting portion (3b) pushes or drops the changeover switch (10a), the power supply terminal A (10b1a) and the power supply terminal B and the power storage terminal A (10c1a) and power storage When the terminal B (10c1b) is connected or disconnected, that is, supplying an external AC power to the main motor (3c) when the running mode is selected or released, or when switching off or vice versa, the main motor to the electric storage device (8) It is characterized by having a configuration that automatically stores and cuts the electricity produced in (3c).
In general, it was mainly used to exercise indoors using a running machine. And the reality is that it is mainly used as a washing machine shortly after purchasing a treadmill. However, the present invention can provide the electricity used at home while exercising, and can also obtain economic benefits by selling the remaining electricity to KEPCO. It is possible to produce at least 180Kw ~ 240Kw of electricity if each person only works for 30 ~ 40 minutes a day based on the family of 4 people. The burden of the electricity bill to be used disappears, and the remaining electricity can be sold back to KEPCO to cover a part of the utility bill, thereby enabling economic life. If a large portion of the electricity used in each household is self-sufficient with clean energy, it can suppress the creation of nuclear power plants that threaten humanity and prevent the creation of fossil fuel power plants that contribute to global warming. You can keep it.
In addition, adolescents who grow up become obsessed with their surroundings, making it impossible to live a psychologically stable life. In addition, even in adulthood, obesity is the cause of all illnesses, and the lack of confidence in the quality of life also causes a relatively phenomena. As a result, the government recognizes obesity as a nationwide issue and devises special measures such as setting a separate government budget for the treatment of obesity, which contributes to the home economy by producing electricity in a structure that the treadmill can simply exercise. If you think you can do it, you earn hard money and obesity naturally disappears to lead a healthy quality of life.

Description

Treadmill with Generating Functions {The Tread Mill that can make electricity}

The present invention is equipped with a cycle pedal for power generation and exercise on one side of the treadmill (treadmill), while using the power generation and exercise cycle pedals while not using the treadmill (treadmill) and at the same time running the treadmill (treadmill) The present invention relates to a configuration of a treadmill with a power generation function to generate electricity by rotating the motor in reverse.

This is based on the principle that a motor that rotates by receiving electricity is converted into a generator that can produce electricity when it is rotated in reverse.The motor acts as a treadmill in normal use, and at any time while the treadmill is not in use. By acting as a generator to produce the effect can be achieved.

In the past, the technology of producing electricity by turning the pedals of indoor exercise cycles was used. In this case, there were many uneconomical constraints such as the need to separately configure the generator inside the indoor exercise cycle and the output of the generator.

In the past, in general, the use of the running machine was mainly used for exercising indoors. Not long after the treadmill was purchased, the reality is that it is mainly used as a futon and not for the purpose of exercising.

At present, the government is considering special measures such as recognizing obesity as a nationwide problem and setting a separate government budget for the treatment of obesity. In addition, as part of measures to combat global warming, countries around the world are putting a lot of energy into clean energy production, and each country is supporting a huge budget for clean energy production-related industries nationwide. In addition, if carbon emission rights are officially traded at the UN in 2012, clean energy production-related industries are expected to expand rapidly.

However, the present invention has the object of the present invention to obtain the effect of a single profit that can produce a movement and electricity by rotating the motor built in the treadmill instead of simply indoor exercise or use as a futon hanger as in the past have.

In other words, you can get your own electricity from your home while exercising. In addition, the remaining electricity used in each home can be sold back to KEPCO for economic benefits. This means that if you are a family of four, you can produce at least 180 kilowatts (240 kilowatts) or 240 kilowatts of electricity per month if you exercise only 30-40 minutes a day. Self-procurement of 180Kw ~ 240Kw electricity in each household every month is advantageous for the progressive electricity rate, so the burden of the electricity bill used at home is eliminated and the remaining electricity can be sold back to KEPCO to cover part of the utility bill. Enable economic life. If a large part of electricity used in each household is self-sufficient with clean energy, it can suppress the creation of nuclear power plants that are dangerous to humankind and restrain the creation of fossil fuel power plants that contribute to global warming. You can keep it.

In addition, in the current situation in which obesity is considered as a nationwide problem and a special government budget is set up for the treatment of obesity, treadmills produce electricity in a structure that can be exercised only. When the idea that you can help is earning hard earn money and obesity naturally disappears to lead a healthy quality of life is an object of the present invention.

In achieving the purpose of the treadmill with a power generation function to generate electricity by rotating the motor as described above, the main frame (1) and the rear roller unit (1a1) and the front roller unit (1a2) and the running belt ( 1a) Vertical frame 1b and saddle support 1f1 and conversion handle 2a or conversion motor 2b and main motor 3c and main roller 1 3d and or main roller 2 3e and reverse rotation induction Roller 4 and power generating rotating plate 5 and pedal 5d and power generation shaft drive belt 6 and power generation shaft 7 and power generation shaft drive belt engagement portion 7a and power generation roller 7b And an electric storage device 8 and an electric sales device 9 and an automatic switching device 10,

The conversion knob 2a or the conversion motor 2b is described above with reference to FIGS. 5, 6, 13 and 7, 8, 14 and 9, 10, 15, 11, 12, and 16. It is characterized in that it has a configuration that is used to convert the position of the main motor 3c mounted on the main motor top portion 3b on the moving device 3 to the movement (running) mode or the power generation mode,

The main motor (3c) is characterized by having a configuration that is always converted to a motor role or a generator role by the conversion knob (2a) or the conversion motor (2b), that is, the conversion handle (2a) to use as a running machine Or by operating the conversion motor (2b) in the running mode, if you want to use as a generator is characterized in that it has a configuration that can always be converted to the power generation mode by operating the conversion knob (2a) or conversion motor (2b),

On the machine room bottom 101 of the machine room 100 (refer to FIG. 3), the conversion knob 2a or the conversion motor 2b and the moving device 3, the main motor 3c and the reverse rotation induction roller 4 (running mode ( Roller only): FIGS. 5 and 6 and 13 and 7 and 8 and 14) or belt tension adjusting roller 4 "; only in running mode (belt type): 9 and 10 and FIG. 15 and 11 and 12 and 16) and the power generation shaft (7), the electric storage device (8) and the electric vending device (9) and the automatic switching device (10),

The moving device (3) is characterized in that consisting of the transfer rail (3a1, 3a2) and the main motor mounting portion (3b),

The main motor motor shaft 3c1 has a main roller 1 (3d) or a main motor motor shaft 3c1 in a state in which the main motor motor shaft 3c1 is formed on the conversion motor 2b formed above the main motor mounting portion 3b of the moving device 3. Main roller 2 (3e; configured only in the running mode (belt type): 9 and 10 and 15 and 11 and 12 and 16) and the reverse rotation prevention tab (3c1a) characterized in that the configuration is bound Being; The main roller 2 (3e) is characterized in that the belt groove (3e1) and the reverse rotation preventing groove (3e1a) is configured; The binding of the anti-rotation tab 3c1a to the main motor shaft 3c1 and the formation of the anti-rotation groove 3e1a on the main roller 2 3e are the main motors of the main motor motor shaft 3c1 in the power generation mode. It is characterized in that the roller 2 (3e) is a means for preventing the inside of the front roller unit driving belt (3f) is stopped in use in the power generation mode, so that the roller 2 (3e) is rotated without turning,

The reverse rotation guide roller 4 (only in the running mode (roller type): FIGS. 5 and 6 and 13 and 7 and 8 and 14) is configured to bind to the reverse rotation guide roller shaft 4a. Characterized by having; The reverse rotation induction roller 4 is configured such that when the main motor 3c is converted to the running mode, the main roller 1 (3d) and the front roller unit (1a2) configured on the main motor motor shaft (3c1) are directly engaged with each other. When it rotates, the front roller unit 1a2 rotates in the opposite direction to the main roller 1 (3d), which causes the running belt 1a to rotate in the reverse direction, which is a means for changing it in the forward direction. Being,

The belt tension adjustment roller 4 "; configured only in the running mode (belt type): FIGS. 9 and 10 and 15 and 11 and 12 and 16 are coupled to the belt tension adjustment roller shaft 4a". Characterized by having a configuration; The belt tension adjustment roller shaft (4a ") is characterized in that it has a configuration bound to the belt tension adjustment roller shaft support (4b"); The belt tension adjustment roller shaft support portion (4b ") is characterized in that the configuration is bound to the belt tension adjustment roller shaft support load drop end (4b"1);

The belt tension adjustment roller shaft support portion 4b "is characterized in that a latching groove 4c is formed at one side thereof; The belt tension adjustment roller shaft support load lower end 4b" 1 is a machine thread bottom of the machine room 100 ( 101) is characterized by having a configuration fixed on,

The power generation shaft (7) is characterized in that it has a configuration in which the power generation roller (7b) and the power generation shaft drive belt engagement portion (7a) is bound together,

The electric storage device 8 is characterized in that the main motor (3c) is configured as a means for temporarily storing the electricity produced in the power generation mode,

The electric sales device (9) is characterized in that it is configured to serve to perform a function that can be used to sell the electricity remaining in the home and back to the power company (KEPCO),

When the main motor mounting portion 3b of the moving device 3 is placed in the running mode or the power generation mode by the operation of the conversion knob 2a or the conversion motor 2b, the main motor mounting portion 3b and the changeover switch 10a. Is automatically interlocked, which is characterized in that the main motor mounting portion (3b) has a configuration that occurs while pushing or falling the switch 10a; At this time, when the running mode is selected, the power supply terminal A (10b1a) and the power supply terminal B are automatically connected so that the main motor (3c) mounted on the main motor mounting portion (3b) can be operated from the external AC input. On the contrary, when the power generation mode is selected, the power supply terminal A 10b1a and the power supply terminal B are connected to operate the main motor 3c mounted on the main motor mounting portion 3b. In this state, the connection between the power supply terminal A (10b1a) and the power supply terminal B is released immediately so that the electric motor cannot be supplied to the main motor (3c). The power storage terminal A (10c1a) and the power storage terminal B (10c1b) is automatically connected to the storage having the configuration that can store the electricity produced by the main motor (3c) mounted on the main motor mounting portion (3b) It is characteristic.

As described above, the present invention can provide electricity for use at home while exercising. In addition, the remaining electricity used in each home can be sold back to KEPCO for economic benefits. This means that each family of four can produce at least 180 kilowatts and 240 kilowatts of electricity if they exercise only 30 to 40 minutes a day. Self-procurement of 180Kw ~ 240Kw electricity in each household every month is advantageous for the progressive electricity rate, so the burden of the electricity bill used at home is eliminated and the remaining electricity can be sold back to KEPCO to cover part of the utility bill. Enable economic life. If a large part of electricity used in each household is self-sufficient with clean energy, it can suppress the creation of nuclear power plants that are dangerous to humankind and restrain the creation of fossil fuel power plants that contribute to global warming. You can keep it.

In addition, adolescents who grow up become obsessed with their surroundings, making it impossible to live a psychologically stable life. In addition, even in adulthood, obesity is the cause of all illnesses, and the lack of confidence in the quality of life also causes a relatively phenomena. As a result, the government recognizes obesity as a nationwide issue and devises special measures such as setting a separate government budget for the treatment of obesity, which contributes to the home economy by producing electricity in a structure that the treadmill can simply exercise. If you think you can do it, you earn hard money and obesity naturally disappears to lead a healthy quality of life.

1 and 3 are three-dimensional views shown for explaining the configuration of the present invention.
Figure 2 is a side view showing for explaining the configuration of the present invention.
4 is a view for explaining a driving unit in the configuration of the present invention.
5 is a plan view for explaining a running mode (roller type) in the configuration of the present invention.
6 is a side view for explaining a running mode (roller type) in the configuration of the present invention.
7 is a plan view for explaining a power generation mode (roller type) in the configuration of the present invention.
8 is a side view for explaining a power generation mode (roller type) in the configuration of the present invention.
9 is a plan view for explaining a running mode (belt type) in the configuration of the present invention.
Fig. 10 is a side view for explaining a running mode (belt type) in the configuration of the present invention.
11 is a plan view for explaining a power generation mode (belt type) in the configuration of the present invention.
12 is a side view for explaining a power generation mode (belt type) in the configuration of the present invention.
Fig. 13 is a three-dimensional view for explaining a running mode (roller type) in the configuration of the present invention.
14 is a three-dimensional view for explaining a power generation mode (roller type) in the configuration of the present invention.
Fig. 15 is a three-dimensional view for explaining a running mode (belt type) in the configuration of the present invention.
Fig. 16 is a three-dimensional view for explaining a power generation mode (belt type) in the configuration of the present invention.
Figure 17 is a three-dimensional view shown to help understand the parts (roller type) of the present invention
18 is a three-dimensional view shown to help understand the parts (belt type) of the present invention.
Figure 19 is a view showing for explaining the operation of the belt tension adjustment roller shaft support load drop end 4b "1 in the present invention.
20A and 20B are views for explaining the principle of operation of the anti-rotation groove 3e1a and the anti-rotation tab 3c1a in the present invention.
FIG. 21 is a view showing for explaining the principle of operation of the gear part 3b3 provided below the moving device 3 in the present invention.
22 is a view showing for explaining the principle of operation of the automatic switching device 10 in the present invention.
Fig. 22A is a circuit diagram showing the principle of operation of the automatic switching device 10 in the present invention.

Hereinafter, the accompanying drawings 1 and 2 and 3 and 4 and 5 and 6 and 7 and 8 and 9 and 10 and 11 and 12 and 13 and 14 and 15 and 15, respectively. And described in detail with reference to Figure 17, 18 and 19 as follows.

1 and 3 are three-dimensional views shown to explain the configuration of the present invention, Figure 2 is a side view shown for explaining the configuration of the present invention with reference to Figures 4 to 17, as described above, The treadmill with the power generation function to produce electricity by rotating in reverse direction has the main frame (1) and the rear roller unit (1a1) and the front roller unit (1a2) and the running belt (1a) vertical frame (1b) and saddle support (1f1). ) And conversion knob 2a or conversion motor 2b and main motor 3c and main roller 1 (3d) and / or main roller 2 (3e) and reverse rotation guide roller 4 and power generating rotary plate (5) And pedal (5d) and power generation shaft drive belt (6) and power generation shaft (7) and power generation shaft drive belt binding unit (7a) and power generation roller (7b) and electric storage device (8) and electricity sales equipment ( 9) and automatic switching device 10 is characterized by.

Under the main frame (1) is characterized in that the shock absorbing shaft (1g) and the inclination angle adjusting shaft (1i) is configured; It characterized in that the main frame (1) above has a configuration having a vertical frame (1b) and hand rail (1b1) and a safety cover 1 (1d) and a safety cover 2 (1g),

One side of the vertical frame (1b) is characterized in that the handle (1b2) is configured; Characterized in that it has a configuration in which the handrail (1b1) is coupled to the vertical frame (1b) and the main frame (1); It characterized in that the control panel (1c) is configured above the vertical frame (1b); A treadmill control unit 1c1 and a power generation display unit 1c2 formed on the control panel 1c; The treadmill control unit (1c1) is characterized in that the operating stage associated with the running machine operation is configured; The power generation display unit (1c2) is characterized in that the saddle (1f) sitting by using a pedal (5d) to exercise and produce an operation stage associated with power generation when producing electricity;

It characterized in that the saddle (1f) is configured on the top of the saddle support (1f1); Characterized in that it has a configuration in which the height adjustment portion (1f2) is configured in the intermediate binding portion of the saddle support (1f1) and the saddle (1f);

The power generating rotary plate (5) is characterized in that it has a configuration that is bound to the power generating rotary shaft (5b); The power generating rotary plate (5) is characterized in that the shaft drive belt binding groove (5a) for generating power; Having a configuration in which a pedal 5d is coupled to an end of the power generating rotary shaft 5b; The power generating rotary shaft (5b) is characterized in that it has a configuration coupled with the power generating rotary shaft fixing portion (5c); The lower end of the power generating rotary shaft fixing unit (5c) is characterized in that it has a configuration that is fixed to the main frame (1);

The conversion knob 2a or the conversion motor 2b is described above with reference to FIGS. 5, 6, 13 and 7, 8, 14 and 9, 10, 15, 11, 12, and 16. It is characterized by having a configuration used for converting the position of the main motor 3c mounted on the main motor top part 3b on the moving device 3 to the movement (running) mode or the power generation mode as described above; In the case of the conversion knob (2a) manufacturing step for manually converting the position of the main motor (3c) mounted on the main motor top portion 3b on the moving device (3) to the movement (running) mode or power generation mode Is characterized in that the configuration alternatively configured with the conversion motor (2b) in the; The conversion motor (2b) in the manufacturing step for automatically converting the position of the main motor (3c) mounted on the main motor top portion 3b on the moving device (3) to the movement (running) mode or power generation mode Characterized in that it is configured alternatively to the conversion knob (2a); The conversion motor 2b is characterized in that it has a configuration to operate on the control panel 1c,

The main motor (3c) is characterized by having a configuration that is always converted to a motor role or a generator role by the conversion knob (2a) or the conversion motor (2b), that is, the conversion handle (2a) to use as a running machine Alternatively, when the conversion motor 2b is operated in the running mode and the generator is used as a generator, the conversion knob 2a or the conversion motor 2b is operated so that the conversion is always possible in the power generation mode. If you want to use it as a treadmill, the motor has a configuration that the motor rotates in reverse (forward), and if you want to use as a generator, the motor has a configuration that rotates in the forward (reverse) It is characterized by having the structure to act as a generator; The configuration and operation principle of the main motor 3c being always converted to a motor role or a generator role are as described above with reference to FIGS. 5 to 16.

FIG. 4 is a view for explaining a driving unit in the configuration of the present invention, as described above with reference to FIGS. 1 and 2 and 3.

FIG. 5 is a plan view illustrating the running mode (roller type) in the configuration of the present invention, which will be described with reference to the side view of FIG. 6 and the three-dimensional view of FIG. 13. 5, 6, 13, 7, 8, 14, 9, 10, 15, 11, 12, and 16, the mainframe (1; 1 and 3) will be described. And a configuration of the machine room 100 (refer to FIG. 3), which is characterized by the configuration on FIG. 4).

On the machine room bottom 101 of the machine room 100 (refer to FIG. 3), the conversion knob 2a or the conversion motor 2b and the moving device 3, the main motor 3c and the reverse rotation induction roller 4 (running mode ( Roller only): FIGS. 5 and 6 and 13 and 7 and 8 and 14) or belt tension adjusting roller 4 "; only in running mode (belt type): 9 and 10 and FIG. 15 and 11 and 12 and 16), a power generation shaft 7 and an electric storage device 8, an electric vending device 9 and an automatic switching device 10;

The conversion knob (2a) is characterized by consisting of a conversion shaft (2a1), a fixed portion (2a2) and a gear portion (2a3); The conversion shaft (2a1) is characterized in that it has a configuration bound to the fixed portion (2a2); The lower portion of the fixing portion (2a2) is characterized in that it has a configuration that is fixed on the machine room bottom 101,

The conversion motor (2b) is characterized in that it has a configuration fixed to the conversion motor fixing portion (2b3); The conversion motor fixing portion (2b3) is characterized in that it has a configuration that is fixed on the machine room bottom 101; Characterized in that the conversion motor (2b) has a configuration provided with a conversion motor shaft (2b1); The conversion motor shaft 2b1 is characterized in that the conversion motor shaft gear portion 2b2 is configured,

The conversion knob 2a or the conversion motor 2b is described above with reference to FIGS. 5, 6, 13 and 7, 8, 14 and 9, 10, 15, 11, 12, and 16. It is characterized by having a configuration used to convert the position of the main motor 3c mounted on the main motor mounting portion 3b on the moving device 3 to the movement (running) mode or the power generation mode as described above; In the case of the conversion knob (2a) in the manufacturing step for manually converting the position of the main motor (3c) mounted on the main motor mounting portion (3b) on the moving device 3 to the movement (running) mode or power generation mode Characterized by being configured alternatively to the conversion motor 2b; The conversion motor 2b automatically converts the position of the main motor 3c mounted on the main motor mounting portion 3b on the moving device 3 to a movement (running) mode or a power generation mode. Characterized in that it is configured alternatively to the handle (2a); The conversion motor 2b is characterized in that it has a configuration to operate on the control panel 1c,

The moving device (3) is characterized in that consisting of the transfer rail (3a1, 3a2) and the main motor mounting portion (3b); The moving device (3) is characterized in that it has a configuration that is fixed on the machine room bottom 101; The main motor mounting portion (3b) is characterized in that the rail holes (3b1, 3b2) is configured to have a configuration in which the conveying rails (3a1, 3a2) penetrates; A gear portion 3b3 (see Fig. 21) is formed under the main motor mounting portion 3b; One side of the main motor mounting portion (3b) is characterized in that it is configured only in the latching (3g; running mode (belt type): Figs. 9 and 10 and 15 and 11 and 12 and 16); Characterized in that the main motor mounting portion (3b) above the main motor (3c) has a configuration that is mounted and bound; When converting the main motor (3c) mounted on the main motor mounting portion (3b) into a running mode to use as a running machine, characterized in that the conversion knob (2a) or the conversion motor (2b) is configured as the conversion means, ; When converting the main motor (3c) mounted on the imaginary main motor mounting portion (3b) to the power generation mode to use as a generator capable of producing electricity, the conversion knob (2a) or the conversion motor (2b) configured as the conversion means Characterized by that; Referring to the operation means in the main motor mounting portion 3b configured in the moving device 3 to change to the running mode or the power generation mode, the gear portion 3b3 (see Fig. 21) and the lower portion of the main motor mounting portion 3b is described. In a state in which the gear portion 2a3 formed on the conversion shaft 2a1 of the conversion handle 2a or the conversion motor shaft gear portion 2b2 formed on the conversion motor shaft 2b1 of the conversion motor 2b has a configuration in which they are engaged. When the running mode or the power generation mode is selected, the gear unit 2a3 or the conversion motor shaft gear unit 2b2 is rotated, so that the main motor mounting portion 3b of the moving device 3 is placed in the running mode or the power generation mode. to be. At this time, the main motor (3c) configured on the main motor mounting portion (3b) is characterized in that it has a configuration to be completed in a position that can act as a running machine or generator,

The main motor motor shaft 3c1 has a main roller 1 (3d) or a main motor motor shaft 3c1 in a state in which the main motor motor shaft 3c1 is formed on the conversion motor 2b formed above the main motor mounting portion 3b of the moving device 3. Main roller 2 (3e; configured only in the running mode (belt type): 9 and 10 and 15 and 11 and 12 and 16) and the reverse rotation prevention tab (3c1a) characterized in that the configuration is bound Being; The main roller 2 (3e) is characterized in that the belt groove (3e1) and the reverse rotation preventing groove (3e1a) is configured; The binding of the anti-rotation tab 3c1a to the main motor shaft 3c1 and the formation of the anti-rotation groove 3e1a on the main roller 2 3e are the main motors of the main motor motor shaft 3c1 in the power generation mode. Means for preventing the inner side of the front roller unit driving belt 3f from being stopped in the power generation mode as the roller 2 (3e) rotates without turning, and the detailed principle and configuration thereof are detailed in FIG. Same as one. ;

The reverse rotation guide roller 4 (only in the running mode (roller type): FIGS. 5 and 6 and 13 and 7 and 8 and 14) is configured to bind to the reverse rotation guide roller shaft 4a. Characterized by having; The reverse rotation guide roller shaft (4a) is characterized in that it has a configuration bound to the reverse rotation guide roller shaft support (4b); The reverse rotation guide roller shaft support (4b) is characterized in that it has a configuration that is fixed on the machine room bottom 101 of the machine room 100; The reverse rotation induction roller 4 (only in the running mode (roller type): FIGS. 5 and 6 and 13 and 7 and 8 and 14) is to enable the effect of running forward when a person uses the running mode. What constitutes it; That is, the reverse rotation induction roller 4 is configured such that the main roller 1 (3d) and the front roller unit (1a2) configured on the main motor motor shaft (3c1) are directly connected when the main motor (3c) is converted to the running mode. When rotated by the rotation of the front roller unit (1a2) is a phenomenon that the main roller 1 (3d) is rotated in the opposite direction and the running belt (1a) is reversed in the reverse direction, which is a means for changing the direction The detailed principle thereof is as described above with reference to FIGS. 5 and 6, 13, 7, 8, and 14.

The belt tension adjustment roller 4 "; configured only in the running mode (belt type): FIGS. 9 and 10 and 15 and 11 and 12 and 16 are coupled to the belt tension adjustment roller shaft 4a". Characterized by having a configuration; The belt tension adjustment roller shaft (4a ") is characterized in that it has a configuration bound to the belt tension adjustment roller shaft support (4b"); The belt tension adjustment roller shaft support portion (4b ") is characterized in that the configuration is bound to the belt tension adjustment roller shaft support load drop end (4b"1); The belt tension adjustment roller shaft support portion 4b "is characterized in that a latching groove 4c is formed at one side thereof; The belt tension adjustment roller shaft support load lower end 4b" 1 is a machine thread bottom of the machine room 100 ( It is characterized in that it has a configuration that is fixed on the 101) and its configuration and operation principle as described above in Figure 19, and with reference to Figures 9 and 10 and 15 and 11 and 12 and 16 I can understand it.

The power generation shaft (7) is characterized in that it has a configuration in which the power generation roller (7b) and the power generation shaft drive belt binding portion (7a) is bound; The power generation shaft drive belt engagement portion 7a is characterized in that a power generation shaft drive belt engagement groove 7a1 is configured; The power generation shaft (7) is characterized in that it has a configuration that is bound to the power generation shaft support (7c1, 7c2); The shaft support for power generation (7c1, 7c2) is characterized in that it has a configuration that is fixed on the machine room bottom 101 of the machine room 100,

The electric storage device (8) is characterized in that the main motor (3c) comprises a means for temporarily storing the electricity produced in the power generation mode; The electric storage device (8) is characterized in that it has a configuration that includes a whole means for utilizing the electricity produced during the production of solar clean energy, such as rechargeable batteries, regulators and converters;

The electric sales device (9) is characterized in that it is configured to play a role in the function of reselling the electricity remaining in the home and used to the power company (KEPCO); The electric sales device (9) is characterized in that it has a configuration that includes the overall means for selling the electricity normally produced during the production of clean energy, such as sunlight;

The automatic switching device 10 is characterized by consisting of the switching switch (10a) and the power supply terminal A (10b1a) and the power supply terminal B (10b1b) and the power storage terminal A (10c1a) and the power storage terminal B (10c1b). And; The configuration and principle of the automatic switching device 10 are the same as described above with reference to FIG. 22. In summary, the main motor of the mobile device 3 is operated by the operation of the conversion knob 2a or the conversion motor 2b. When the mounting portion 3b is located in the running mode or the power generation mode, the main motor mounting portion 3b and the changeover switch 10a are automatically interlocked, which is caused by the main motor mounting portion 3b pushing or dropping the changeover switch 10a. Characterized by having a configuration that occurs while At this time, when the running mode is selected, the power supply terminal A (10b1a) and the power supply terminal B are automatically connected so that the main motor (3c) mounted on the main motor mounting portion (3b) can be operated from the external AC input. On the contrary, when the power generation mode is selected, the power supply terminal A 10b1a and the power supply terminal B are connected to operate the main motor 3c mounted on the main motor mounting portion 3b. In this state, the connection between the power supply terminal A (10b1a) and the power supply terminal B is released immediately so that the electric motor cannot be supplied to the main motor (3c). The power storage terminal A (10c1a) and the power storage terminal B (10c1b) is automatically connected to the storage having the configuration that can store the electricity produced by the main motor (3c) mounted on the main motor mounting portion (3b) Characteristics and its composition Dongwonri are as defined above in FIGS. 22 and 23.

The running mode (roller type) of FIG. 5 will be briefly described with reference to FIGS. 6 and 7 on the basis of the above description as follows. When the user selects the running mode, the main roller 1 (3d), the reverse rotation guide roller 4 and the front roller unit (1a2) is kept in engagement. At this time, if the power switch is turned on, the main roller 1 (3d) rotates in reverse. At this time, the reverse rotation guide roller 4 engaged with the main roller 1 (3d) performs a forward (reverse) rotation. At the same time, the front roller unit 1a2 meshed with the reverse rotation guide roller 4 makes a reverse rotation. At this time, the running belt (1a) configured between the front roller unit (1a2) and the rear roller unit (1a1) is reversed (forward) rotation, the user can exercise with the effect of running on the running belt (1a).

FIG. 7 is a plan view for explaining a power generation mode (roller type) in the configuration of the present invention, which will be described below with reference to the side view of FIG. 8 and the three-dimensional view of FIG. 14. When the user selects the power generation mode, the main roller 1 (3d) and the power generation roller 7b remain engaged. At this time, when the user starts indoor exercise (cycle) using the pedal 5d, the power generating rotary plate 5 starts reverse rotation and the power shaft driving belt 6 generates the power generating rotary plate 5. ) Transmits the rotational force to the shaft drive belt binding portion (7a) for the power generation shaft (7). At this time, the shaft drive belt binding unit 7a for power generation starts reverse rotation and the power generation shaft 7 maintains reverse rotation. In addition, the power generation roller 7b bound to the power generation shaft 7 starts reverse rotation. At this time, the main roller 1 (3d) engaged with the power generating roller (7b) is characterized by having a configuration to produce electricity by rotating in the forward (reverse) direction to produce electricity. The electricity produced at this time is characterized by having a configuration that is stored in the electrical storage device (8).

FIG. 9 is a plan view for explaining a running mode (belt type) in the configuration of the present invention, which will be described below with reference to the side view of FIG. 10 and the three-dimensional view of FIG. 15. When the user selects the running mode (belt type), the belt tension adjustment roller (4 ") automatically descends and presses the front roller unit driving belt (3f), which was kept loose when using the power generation mode, to generate tension. The front roller unit driving belt 3f is a belt that is coupled between the main roller 2 (3e) and the front roller unit (1a2) to operate when the running mode (belt type) is selected. As described above, the belt tension adjusting roller 4 " presses the front roller unit driving belt 3f, which is bound between the main roller 2 (3e) and the front roller unit (1a2). It keeps the tensioned state. At this time, if the power switch is turned on, the main roller 2 (3e) starts to reverse (forward) rotation. At the same time, the front roller unit driving belt 3f transmits the rotational force to the main roller 2 (3e) to the front roller unit (1a2) and starts reverse rotation (at the same time). At this time, the front roller unit (1a2) and the rear roller unit The running belt 1a configured between (1a1) is reversely rotated (forward) so that the user can exercise with the effect of running on the running belt 1a. On the contrary, when the user selects the power generation mode (belt type), the belt tension adjusting roller (4 ") is automatically raised and the power generation mode (belt type) is released, and between the main roller 2 (3e) and the front roller unit (1a2). The front roller unit driving belt (3f), which is bound to it, remains tensioned and remains loose. The belt tension adjusting roller (4 ") descends and presses the front roller unit driving belt (3f). Principle and construction for generating tension between the roller 2 (3e) and the front roller unit (1a2) and the front roller unit driving belt (3f) bound between the main roller (2e) and the front roller unit (1a2). Principle and configuration in which the main roller 2 (3e) is stopped even when the main motor (3c) in the power generation mode, that is, the forward (reverse) rotation in the power generation mode is described in detail in FIG. Same as one.

FIG. 11 is a plan view for explaining a power generation mode (belt type) in the configuration of the present invention, which will be described with reference to FIG. 12 and a three-dimensional view of FIG. 16 as follows. When the user selects the power generation mode, the main roller 1 (3d) and the power generation roller 7b remain engaged. At this time, when the user starts indoor exercise (cycle) using the pedal 5d, the power generating rotary plate 5 starts reverse rotation and the power shaft driving belt 6 generates the power generating rotary plate 5. ) Transmits the rotational force to the shaft drive belt binding portion (7a) for the power generation shaft (7). At this time, the shaft drive belt binding unit 7a for power generation starts reverse rotation and the power generation shaft 7 maintains reverse rotation. In addition, the power generation roller 7b bound to the power generation shaft 7 starts reverse rotation. At this time, the main roller 1 (3d) engaged with the power generating roller (7b) is characterized by having a configuration to produce electricity by rotating in the forward (reverse) direction to produce electricity. The electricity produced at this time is characterized by having a configuration that is stored in the electrical storage device (8). At this time, the main roller 2 (3e) is coupled to the main motor shaft (3c1) together with the main roller 1 (3d), even if the main motor (3c) in the power generation direction, that is, forward (reverse) rotation, the main roller 2 (3e) ) Is to maintain the stopped state, the principle and configuration are as described above in FIG. As described above, the main roller 2 (3e) configured in the main motor motor shaft (3c1) in the power generation mode is rotated without turning, so that the inner side of the front roller unit driving belt (3f) is stopped in the power generation mode is worn. It is a means for preventing that, and its detailed principle and configuration are as described above with reference to FIG.

17 is a three-dimensional view shown to help understand the parts (roller type) of the present invention, the configuration and principle are as described above in FIGS. 5 and 6 and 13 and 7 and 8 and 14.

18 is a three-dimensional view shown to help understand the parts (belt type) of the present invention, the configuration and principle are as described above in FIGS. 9 and 10 and 15 and 11 and 12 and 16.

19 is a view showing for explaining the operation of the belt tension adjustment roller shaft support load lowering end (4b "1) in the present invention, its configuration and principle are shown in Figures 9 and 10 and 15 and 11 and 12 and The same as described above in Figure 16, and will be described in detail as follows: When the user selects the running mode (belt type), a latch (3g) configured on the moving device (3) is belt tension adjustment roller shaft support (4b "). The belt tension adjustment roller shaft support portion 4b " lowers while being caught by the latching groove 4c formed on the < Desc / Clms Page number 5 > and at the same time, the belt tension adjustment roller 4 " As a result, the rotational force of the main roller 2 (3e) is transmitted to the front roller unit (1a2) and the running belt (1a) is rotated when the power is applied. End of the hook (3g) is characterized in that the pinion gear is configured to rotate; The latching groove (4c) is characterized in that consisting of a rack gear capable of linear movement; The belt tension adjustment roller shaft support portion 4b " is characterized in that it is bound to the belt tension adjustment roller shaft support load lowering portion 4b "1; The belt tension adjustment roller shaft support load drop end (4b "1) is characterized in that the spring for restoring the original configuration; when the force is lost to the belt tension adjustment roller shaft support portion (4b") is lost belt tension adjustment roller shaft support load In the stage 4b " 1, it is returned to its original position by the spring restoring spring, that is, when the user selects the power generation mode (belt type), the moving device 3 moves in the opposite direction, and at this time, the latch 3g and the latch 4c The belt tension adjusting roller shaft support portion 4b " is raised and returned to its original position by the spring restoring spring while the force formed therebetween is lost; At the same time, the tension holding the front roller unit driving belt 3f by the belt tension adjusting roller 4 "is lost and the rotational force of the main roller 2 (3e) is no longer transmitted to the front roller unit 1a2. In the mode (belt type), the running belt 1a no longer operates.

20A and 20B are diagrams for explaining the principle of operation of the anti-rotation groove 3e1a and the anti-rotation tab 3c1a in the present invention, the configuration and principle of which are shown in FIGS. 9 and 10 and 15 As described above with reference to FIGS. 11 and 12 and 16. The reverse rotation prevention tab (3c1a) is characterized in that the main motor motor shaft (3c1) in the running mode has a configuration that is unfolded by the centrifugal force when rotating at high speed; The reverse rotation prevention tab (3c1a) unfolded by the centrifugal force is in close contact with the reverse rotation prevention groove (3e1a) configured in the main roller 2 (3e) is characterized in that the main roller 2 (3e) is configured to rotate; Characterized in that the main motor motor shaft (3c1) has a configuration in which the centrifugal force is generated only when the main motor motor shaft (3c1) rotates at a high speed in a specific direction so that the reverse rotation preventing tab (3c1a) is unfolded; The rotational force of the main roller 2 (3e) is transmitted to the front roller unit (1a2) through the front roller unit driving belt (3f) and the rotational force transmitted is characterized in that it has a configuration for driving the running belt (1a).

On the contrary, as described above with reference to FIG. 12, in the power generation mode, the rotational force is no longer at high speed to the main roller 2 (3e), which is coupled to the main motor motor shaft 3c1 in a state where the tension is lost in the front roller unit driving belt 3f. It is characterized in that it is not transmitted to the reverse rotation prevention tab (3c1a) has a configuration to walk away from the reverse rotation prevention groove (3e1a); In other words, the main roller 2 (3e) bound together with the main roller 1 (3d) to the main motor motor shaft (3c1) is the main roller 2 (3e) even if the main motor (3c) in the power generation direction, that is, forward (reverse) rotation ) Is characterized by having a configuration that keeps the stopped state.

As described above, the main roller 2 (3e) configured in the main motor motor shaft (3c1) in the power generation mode is rotated without turning, so that the inner side of the front roller unit driving belt (3f) is stopped in the power generation mode is worn. It is a means to prevent that.

FIG. 21 is a view for explaining the operation principle of the gear unit 3b3 formed under the moving device 3 in the present invention. FIGS. 5 and 6 and 13 and 7 and 8 and 14 or 9, 10, 15, 11, 12 and 16 as described above and described in detail as follows. If you want to use as a treadmill as described above to operate the conversion knob (2a) or the conversion motor (2b) in the running mode, if you want to use a generator to operate the conversion knob (2a) or conversion motor (2b) power generation mode The means for switching to the running mode or the power generation mode in the state characterized by having a configuration capable of always converting to the following is as follows. The gear part 2a3 or the conversion motor shaft gear part 2b2 attached to the conversion handle 2a or the conversion motor 2b is engaged with the gear part 3b3 formed under the main motor top part 3b. Characterized by; Characterized in that it has a configuration to move in accordance with the user selects the running mode or the power generation mode in the above state; The gear grip 2a3 or the gearmotor shaft gear 2b2 attached to the gear 2a3 attached to the conversion knob 2a or the converting motor 2b is characterized in that it is composed of a pinion gear capable of rotational movement. ; The gear part 3b3 formed under the main motor top part 3b is characterized by being composed of a rack gear capable of linear motion.

22 is a view for explaining the principle of operation of the automatic switching device 10 in the present invention, the above 5 and 6 and 13 and 7 and 8 and 14 or 9 and 10 and 15 and 15. 11 and 12 and 16 as described above and described in detail as follows. Referring to the circuit diagram shown for explaining the operation principle of the automatic switching device 10 of Figure 22a as follows. The automatic switching device 10 is characterized by consisting of the switching switch (10a) and the power supply terminal A (10b1a) and the power supply terminal B (10b1b) and the power storage terminal A (10c1a) and the power storage terminal B (10c1b). And; The configuration and principle of the automatic switching device 10 are the same as described above with reference to FIG. 22. In summary, the main motor of the mobile device 3 is operated by the operation of the conversion knob 2a or the conversion motor 2b. When the mounting portion 3b is located in the running mode or the power generation mode, the main motor mounting portion 3b and the changeover switch 10a are automatically interlocked, which is caused by the main motor mounting portion 3b pushing or dropping the changeover switch 10a. Characterized by having a configuration that occurs while At this time, when the running mode is selected, the power supply terminal A (10b1a) and the power supply terminal B are automatically connected so that the main motor (3c) mounted on the main motor mounting portion (3b) can be operated from the external AC input. On the contrary, when the power generation mode is selected, the power supply terminal A 10b1a and the power supply terminal B are connected to operate the main motor 3c mounted on the main motor mounting portion 3b. In this state, the connection between the power supply terminal A (10b1a) and the power supply terminal B is released immediately so that the electric motor cannot be supplied to the main motor (3c). The power storage terminal A (10c1a) and the power storage terminal B (10c1b) is automatically connected to the storage having the configuration that can store the electricity produced by the main motor (3c) mounted on the main motor mounting portion (3b) It is characteristic.

<Explanation of Signs of Major Parts of Drawings>
Main frame 1a.Running belt 1a1.Rear roller unit
Front roller unit groove 1a2 Front roller unit groove 1 1a3 Front roller unit groove 2
1b.vertical frame 1b1.handrail 1b2.handle
1c Control panel 1c1 Treadmill control unit 1c2 Power generation display
1d.Safety cover 11f Saddle 1f1 Saddle support 1f2 Height adjustment 1g Safety cover 2 1h Shock absorption shaft
1i. Tilt angle adjusting shaft 100. Machine room 101. Machine room bottom
2a.Conversion Handle 2a1.Conversion Shaft 2a2.
2a3.Gear section 2b.Converter motor 2b1.Converter motor shaft
2b2.Converter Motor Shaft Gear 2b3.Convert Motor
3.Moving device 3a1,3a2.Transport rail 3b.Main motor tower
3b1,3b2.Rail hole 3b3.Gear section 3c.Main motor
3c1.Main motor motor shaft 3c1a.Reverse rotation prevention tab 3d.Main roller 1
3e.Main Roller 2 3e1.Belt Groove 3e1a.Reverse Rotating Groove
3f. Front roller unit drive belt 3g
4.Reverse induction roller 4a.Reverse induction roller shaft
4b. Reverse rotation induction roller shaft support 4 "belt tension roller
4a ".belt tension adjustment roller shaft 4b" .belt tension adjustment roller shaft support
4b "1.Belt tension adjusting roller shaft supporting load drop 4c.Latching groove
5.Rotating plate for power generation 5a. Shaft drive belt binding groove for power generation
5b. Power generating rotary shaft 5c. Power generating rotary shaft
5d.Pedal 6.Motorized Driving Belt
7.Power shaft 7a. Shaft drive belt fastening part
7a1.Powered shaft drive belt binding groove 7b.
7c1,7c2. Shaft support for power generation 8. Electric storage device
9. Electricity sales device 10. Automatic changeover device 10a.
Power supply terminal A 10b1a Power supply terminal B 10c1a Power supply terminal A
Power storage terminal B 11.AC power supply

Claims

In order to achieve the above object, the main frame 1, the rear roller unit 1a1, the front roller unit 1a2, the running belt 1a, the vertical frame 1b, the saddle support 1f1, and the conversion handle 2a. ) Or the conversion motor 2b and the main motor 3c and the main roller 1 (3d) and or the main roller 2 (3e) and the reverse rotation guide roller 4 and the power generating rotary plate (5) and the pedal (5d) and Power generation shaft drive belt (6) and power generation shaft (7) and power generation shaft drive belt binding unit (7a), power generation roller (7b) and electric storage device (8) and electric vending device (9) and automatic switching device (10) is characterized by

; The main motor 3c is characterized by having a configuration that is always converted to a motor role (running mode) or a generator role (power generation mode) by the conversion knob (2a) or the conversion motor (2b),

On the machine room bottom 101 of the machine room 100, only the conversion knob 2a or the conversion motor 2b and the moving device 3 and the main motor 3c and the reverse rotation guide roller 4 (running mode (roller type)) Or the belt tension adjusting roller 4 "(only in the running mode (belt type)) and the power generation shaft 7, the electric storage device 8, the electric sales device 9, and the automatic switching device 10. With a feature,

In the state in which the main motor motor shaft 3c1 is configured in the conversion motor 2b formed on the main motor mounting portion 3b of the moving device 3, the main motor motor 3c1 has a main roller 1 (3d) or The main roller 2 (3e; configured only in the running mode (belt type)) and the reverse rotation preventing tab 3c1a; The main roller 2 (3e) is characterized in that the belt groove (3e1) and the reverse rotation preventing groove (3e1a) is configured; The binding of the anti-rotation tab 3c1a to the main motor shaft 3c1 and the formation of the anti-rotation groove 3e1a on the main roller 2 3e are the main motors of the main motor motor shaft 3c1 in the power generation mode. It is characterized in that the roller 2 (3e) is a means for preventing the inside of the front roller unit driving belt (3f) is stopped in use in the power generation mode, so that the roller 2 (3e) is rotated without turning,

The reverse rotation guide roller (4; configured only in the running mode (roller type)) is characterized in that it has a configuration that is coupled to the reverse rotation guide roller shaft (4a); The reverse rotation guide roller (4) is characterized in that the running belt (1a) is configured to provide a means for rotating in the reverse direction in which a person can (move),

The belt tension adjustment roller 4 "; configured only in the running mode (belt type) is characterized in that it has a configuration that is bound to the belt tension adjustment roller shaft 4a",

Characterized in that the latching groove 4c is formed on one side of the belt tension adjusting roller shaft support portion 4b "

The power generation shaft (7) is characterized in that it has a configuration in which the power generation roller (7b) and the power generation shaft drive belt engagement portion (7a) is bound together,

The electric storage device (8) is characterized in that the main motor (3c) is configured as a means for temporarily storing the electricity produced in the power generation mode, the electric sales device (9) is used in the home and the electricity remaining in the power company The feature is that it is configured to perform the function that can be sold back to (KEPCO),

The automatic switching device 10 is characterized by consisting of the switching switch (10a) and the power supply terminal A (10b1a) and the power supply terminal B (10b1b) and the power storage terminal A (10c1a) and the power storage terminal B (10c1b). And,; When the main motor mounting portion 3b of the moving device 3 is placed in the running mode or the power generation mode by the operation of the conversion knob 2a or the conversion motor 2b, the main motor mounting portion 3b and the changeover switch 10a. Is automatically interlocked, which is when the main motor mounting portion (3b) pushes or drops the changeover switch (10a), the power supply terminal A (10b1a) and the power supply terminal B and the power storage terminal A (10c1a) and power storage When the terminal B 10c1b is connected or disconnected, i.e., when the running mode is selected or released, the main motor 3c is supplied with an external AC power supply, or when the vehicle is cut off or, conversely, when the power generation mode is selected or released, the main motor is connected to the main motor 3c. A treadmill with a power generation function characterized by having a configuration for automatically storing and cutting off electricity produced in (3c).