阅读说明：本技术 一种半导体摩擦发电机及使用方法 (Semiconductor friction generator and use method ) 是由 陈玉兰 于 2019-05-29 设计创作，主要内容包括：本发明提供一种半导体摩擦发电机及使用方法,其结构包括滑动卸拉把手、防水封门、侧护板、滚轮、支撑脚、发电机箱、维护侧板、接触分离式双类别发电装置,滑动卸拉把手背部固定安装在防水封门正端面上方位置位置,防水封门底端通过合页与发电机箱正端面下方机械连接,本发明通过一类发电机构对于二类半导体发电机构进行不断的摩擦并通过经过其内环面不断的调节直径差值,通过定位分离将二类半导体发电机构控制在分离与接触不断的切换中,并在每次处于切换状态下的电流输出值都会有部分增强,从而能够在不增加发电机体积的前提状态下提高发电机的发电功率,从而使其在被使用时能够更好的为使用者提供高效的电源输出。(The invention provides a semiconductor friction generator and a using method thereof, the structure of the generator comprises a sliding pull-down handle, a waterproof sealing door, a side protection plate, a roller, a supporting leg, a generator box, a maintenance side plate and a contact separation type double-class generating device, the back part of the sliding pull-down handle is fixedly arranged at a position above the positive end surface of the waterproof sealing door, and the bottom end of the waterproof sealing door is mechanically connected with the lower part of the positive end surface of the generator box through a hinge, the invention continuously rubs a second-class semiconductor generating mechanism through a first-class generating mechanism and continuously adjusts the diameter difference through the inner ring surface of the second-class generating mechanism, controls the second-class semiconductor generating mechanism in the continuous switching of separation and contact through positioning separation, and partially enhances the current output value in each switching state, thereby improving the generating power of the generator under the premise of not increasing the volume of the generator, thereby better providing a user with an efficient power output when used.)

1. The utility model provides a contact disconnect-type semiconductor friction generator, its structure includes that the slip unloads and draws handle (q), waterproof sealing door (w), side guard plate (e), gyro wheel (r), supporting legs (t), generator box (y), maintain curb plate (u), the two categorised power generation facility of contact disconnect-type (o), its characterized in that:

the back of the sliding unloading handle (q) is fixedly arranged at a position above the positive end face of a waterproof sealing door (w), the bottom end of the waterproof sealing door (w) is mechanically connected with the lower part of the positive end face of a generator box (y) through a hinge, the right end of the generator box (y) is provided with a maintenance side plate (u), the bottom end inside the generator box (y) is fixedly provided with a contact separation type double-category power generation device (o), side protection plates (e) are fixedly arranged on the front side and the rear side of the generator box (y) in a welding mode, and rollers (r) are arranged under the side protection plates (e);

the contact separation type double-category power generation device (o) comprises deep-accommodating groove strips (oq), sliding flexible strips (ow), double-category power generation mechanisms (oe), a magnetic ring side guide frame (or), a current leading-out frame (ot) and a power storage box (oy), wherein the deep-accommodating groove strips (oq) are provided with two sliding flexible strips (ow), and are fixedly installed on the left side and the right side of the magnetic ring side guide frame (or), the magnetic ring side guide frame (or) is arranged on the left side and the right side of the double-category power generation mechanisms (oe), the back of the double-category power generation mechanisms (oe) is attached to the inner surface of the current leading-out frame (ot), the power storage box (oy) is fixedly installed at the bottom end inside the power generation box (y), and the sliding flexible strips (ow) are installed inside the deep-accommodating groove strips (oq) in an embedding mode;

the double-type power generation mechanism (oe) comprises a first-type power generation mechanism (oe1), a second-type semiconductor power generation mechanism (oe2), two hot-stage regulation and control covers (oe3) and a cold-stage regulation and control cover (oe4), the outer ring surface of the first-type power generation mechanism (oe1) is embedded outside the inner ring surface of the second-type semiconductor power generation mechanism (oe2), two first-type power generation mechanisms (oe1) are arranged, the bottom end of the hot-stage regulation and control cover (oe3) is fixedly connected to the outer surface of the top end of the second-type semiconductor power generation mechanism (oe2) in an electric welding mode, and the top end of the cold-stage regulation and control cover (oe4) is fixedly connected to the outer surface of the bottom end of the second-type semiconductor power generation mechanism (oe2) in.

2. A contact split semiconductor triboelectric generator according to claim 1, characterized in that: one kind of power generation mechanism (oe1) including touch and divide friction guidance mechanism (oe11), locking triangle arris chamber (oe12), match pivot (oe13), including touch and divide friction guidance mechanism (oe11) to be equipped with two altogether and fixed mounting at the upper and lower both ends of matching pivot (oe13), match pivot (oe13) inside be equipped with locking triangle arris chamber (oe 12).

3. A contact split semiconductor triboelectric generator according to claim 2, characterized in that: the touch separation friction guidance mechanism (oe11) comprises an inner side cavity (oe111), an arc hook pressing bar (oe112), a top separation ball (oe113), an upper arm pressing bar (oe114), a sliding block (oe115) and a large arm supporting bar (oe116), wherein the inner side cavity (oe111) is arranged inside the large arm supporting bar (oe116) and is of an integrated structure with the large arm supporting bar, the bottom end of the sliding block (oe115) is welded with the top end of the upper arm pressing bar (oe114), the top end of the arc hook pressing bar (oe112) is arranged inside the inner side cavity (oe111) in an embedded mode, and the top separation ball (oe113) is fixedly arranged at the bottom end of the upper arm pressing bar (oe 114).

4. A contact split semiconductor triboelectric generator according to claim 3, characterized in that: the top separation ball (oe113) comprises an outer ball sleeve (oe1131), a cold-stage ball (oe1132), a constraint ring (oe1133), a hot-stage ball (oe1134), an output terminal (oe1135) and a locking bar (oe1136), wherein the front end face of the outer ball sleeve (oe1131) and the constraint ring (oe1133) are of an integrated structure, the right end of the cold-stage ball (oe1132) and the hot-stage ball (oe1134) are fixedly connected together through the locking bar (oe1136), the output terminal (oe1135) is installed on a connecting axis of the cold-stage ball (oe1132) and the hot-stage ball (oe1134) in an embedded mode, and the inner surface of the cold-stage ball (oe1132) and the inner surface of the hot-stage ball (oe1134) are attached to the inner surface of the outer ball sleeve (oe 1131).

5. A contact split semiconductor triboelectric generator according to claim 1, characterized in that: the second type of semiconductor power generation mechanism (oe2) comprises two deep guide plates (oe21), two hot-stage friction plates (oe22) and two cold-stage friction plates (oe23), the top ends of the deep guide plates (oe21) are fixedly connected with the front side of the bottom end face of each hot-stage friction plate (oe22), and the bottom ends of the deep guide plates (oe21) are installed inside the top ends of the cold-stage friction plates (oe23) in an embedded mode.

6. A semiconductor friction generator and method of use according to any one of claims 1 to 5 wherein:

in the invention, in the using process, the connection between the waterproof sealing door (w) and the generator box (y) can be released by sliding the detachable pull handle (q), so that the waterproof sealing door (w) is pulled out towards the outside, because the left side and the right side of the back of the waterproof sealing door (w) are connected together by the sliding flexible ligament (ow), when the waterproof sealing door (w) is pulled towards the outside, the double-class power generation mechanism (oe) can be taken out, in the limit state, the deep groove strip (oq) can limit the waterproof sealing door (w) to be in the state of fixed inclination angle, after the detection is completed and the waterproof sealing door (w) is installed again, the matching rotating shaft (oe13) can be embedded into the inner side surface of the magnetic ring side guide frame (or), and the contact friction guide mechanism (oe11) is driven to rotate by taking the matching rotating shaft (oe13) as the circle center through the mutual attraction state of the matching rotating shaft (oe 13);

and when the friction guiding mechanism (oe111) is in a rotating state, because the arc hook pressing bar (oe112) arranged in the friction guiding mechanism (oe111) has better elasticity, when the friction guiding mechanism (oe11) is axially rotated, the large arm supporting rod (oe116) and the upper arm pressing bar (oe114) are contacted in the middle area in the area close to the narrow road, and the hot-stage friction plate (oe22) and the cold-stage friction plate (oe23) are propped outwards by the length limited by the top separation ball (oe113) at the tail ends of the two, and the inner surface of the hot-stage friction plate (oe22) and the cold-stage friction plate (oe23) are intensively connected into the first-class power generating mechanism (oe1) through different temperatures at the two ends of the hot-stage friction plate (oe22) and the cold-stage friction plate (oe23) at the moment of contacting with the top separation ball (oe113), so that the second-class semiconductor power generating mechanism (oe2) is propped from the middle area;

when the temperature difference value is in a wide road area, the two types of semiconductor power generation mechanisms (oe2) can be in contact with each other towards the inside, so that the temperature difference value is increased in a short time, the output current value is increased, the arc hook pressing strip (oe112) in the contact friction guiding mechanism (oe11) can be pressed by the top separation ball (oe113oe113) to be pushed towards the opposite direction of the deep direction under the pressing of the corner of the large arm supporting rod (oe116), otherwise, the top separation ball (oe113) is pressed towards the inner ring surface of the two types of semiconductor power generation mechanisms (oe2) to be in contact with each other around the temperature difference value at the two sides, and the temperature difference value is connected with the hot-grade ball (oe1134) through the level ball (oe1132) and the hot-grade ball (oe1135) to be output.

Technical Field

The invention belongs to the field of semiconductors, and particularly relates to a semiconductor friction generator and a using method thereof.

Background

In the power generation process of the household semiconductor generator in the city, the current amount which can be output in the same time interval is in a fixed state because the temperature difference area of the cold and the hot is limited based on the size of the generator, the room price and the object price in the city are high, and part of residents can purchase small generators in order to reduce the long-term survival cost.

Based on the above description, the inventor finds that the existing semiconductor friction generator and the use method mainly have the following defects, such as:

the housing price in the city is generally higher, and the area of partial living place is smaller relatively, if increase its volume in order to improve the generated power of generator, will compress user's living space certainly to make it when being used, because the relation that the size is directly proportional with the generated energy, provide another kind of puzzlement for the user.

Disclosure of Invention

In order to solve the above technical problems, the present invention provides a semiconductor friction generator and a method for using the same, so as to solve the problems that the housing price is generally high in the existing city, the area of a part of living places is relatively small, and if the volume of the generator is increased to improve the generating power of the generator, the living space of a user is inevitably compressed, so that when the generator is used, another kind of trouble is provided for the user due to the direct relation between the body type and the generating capacity.

Aiming at the defects of the prior art, the purpose and the effect of the semiconductor friction generator and the using method thereof are achieved by the following specific technical means: the utility model provides a semiconductor friction generator and application method, its structure includes that the slip unloads and draws handle, waterproof sealing door, side guard plate, gyro wheel, supporting legs, generator box, maintenance curb plate, the two categorised power generation facility of contact separation formula, slip unloads and draws handle back fixed mounting in waterproof sealing door positive terminal surface top position, waterproof sealing door bottom is through hinge and generator box positive terminal surface below mechanical connection, generator box right side end is equipped with the maintenance curb plate, generator box inside bottom fixed mounting has the two categorised power generation facility of contact separation formula, side guard plate passes through welded mode fixed mounting in generator box front and back both sides, the gyro wheel is located under the side guard plate.

Two categorised power generation facility of contact disconnect-type includes deeply receiving the channel strip, slides and draws gentle ligament, two categorised electricity generation mechanism, magnetic ring side guide frame, electric current and draws forth frame, storage box, deeply receiving the channel strip and being equipped with two altogether and fixed mounting in the magnetic ring side guide frame left and right sides, the magnetic ring side guide erects in two categorised electricity generation mechanism left and right sides, two categorised electricity generation mechanism backs and the laminating of electric current draw forth frame internal surface, storage box fixed mounting is in the inside bottom of generator case, the flexible band of smooth drawing is installed inside deeply receiving the channel strip through the mode of embedding.

Preferably, the double-class power generation mechanism comprises a first-class power generation mechanism, a second-class semiconductor power generation mechanism, two hot-stage regulation and control covers and two cold-stage regulation and control covers, wherein the outer ring surface of the first-class power generation mechanism is embedded outside the inner ring surface of the second-class semiconductor power generation mechanism, the bottom end of each hot-stage regulation and control cover is fixedly connected to the outer surface of the top end of the second-class semiconductor power generation mechanism in an electric welding mode, the top end of each cold-stage regulation and control cover is fixedly connected to the outer surface of the bottom end of the second-class semiconductor power generation mechanism in an electric welding mode, the hot-stage regulation and control covers and the cold-stage regulation and control covers can continuously and respectively regulate the second-class semiconductor power generation mechanisms to be in different temperatures of two-stage differentiation, and can continuously supplement the second-class semiconductor power generation mechanisms when the second-class semiconductor power generation mechanisms are in, a better effect is obtained.

Preferably, the first-class power generation mechanism comprises two touch friction guidance mechanisms, two locking triangular prism cavities and two matching rotary shafts, the two touch friction guidance mechanisms are fixedly installed at the upper end and the lower end of each matching rotary shaft, the locking triangular prism cavities are arranged in the matching rotary shafts, and when the matching rotary shafts are embedded into the magnetic ring side guide frame, the magnetic stripes on the two sides of each rotary shaft can drive the rotary shafts to rotate and cut in the magnetic field of the magnetic ring of the matching rotary shafts, so that basic kinetic energy is provided for the touch friction guidance mechanisms to perform friction separation on the second-class semiconductor power generation mechanisms.

Preferably, the touch separation friction guidance mechanism comprises an inner side cavity, an arc hook pressing strip, a top separation ball, an upper arm pressing rod, a sliding block and a large arm supporting rod, wherein the inner side cavity is arranged inside the large arm supporting rod and is of an integrated structure with the large arm supporting rod, the bottom end of the sliding block is welded with the top end of the upper arm pressing rod, the top end of the arc hook pressing strip is installed inside the inner side cavity in an embedded mode, the top separation ball is fixedly installed at the bottom end of the upper arm pressing rod, the arc hook pressing strip is located inside the inner side cavity, and one end of the arc hook pressing strip, which is reversely hooked, is provided with partially compressed gas, so that the arc hook pressing strip has acting.

Preferably, the top separation ball comprises an outer ball sleeve, a cold-stage ball, a constraint ring, a hot-stage ball, an output terminal and a locking bar, the front end face of the outer ball sleeve and the constraint ring are of an integrated structure, the right end of the cold-stage ball and the hot-stage ball are fixedly connected together through the locking bar, the output terminal is installed on a connecting axis of the cold-stage ball and the hot-stage ball in an embedded mode, and the inner surfaces of the cold-stage ball and the hot-stage ball are attached to the inner surface of the outer ball sleeve.

Preferably, the second type of semiconductor power generation mechanism comprises two deep guide plates, a hot-stage friction plate and a cold-stage friction plate, the top ends of the deep guide plates are fixedly connected with the front side of the bottom end face of the hot-stage friction plate, and the bottom ends of the deep guide plates are installed inside the top ends of the cold-stage friction plates in an embedded mode.

Compared with the prior art, the invention has the following advantagesAdvantageous effects：

The invention carries out continuous friction on the second type of semiconductor power generation mechanism through the first type of power generation mechanism, continuously adjusts the diameter difference value through the inner ring surface of the second type of semiconductor power generation mechanism, controls the second type of semiconductor power generation mechanism in the switching of separation and contact through positioning and separation, and partially enhances the current output value in the switching state every time, thereby improving the power generation power of the generator under the premise of not increasing the volume of the generator, and better providing high-efficiency power output for a user when the power generation mechanism is used.

Drawings

Fig. 1 is a schematic structural diagram of a semiconductor friction generator and a using method thereof according to the present invention.

Fig. 2 is a schematic front sectional view of a contact separation type dual-class power generation device of a semiconductor friction generator and a using method thereof.

Fig. 3 is a top detailed structural schematic diagram of the dual-category power generation mechanism.

FIG. 4 is a schematic side view of a semiconductor power generation mechanism of the second type.

FIG. 5 is a schematic sectional detailed structure view of the friction guiding mechanism.

Fig. 6 is a schematic view of the bottom internal structure of the top separation ball.

In the figure: the device comprises a sliding release handle-q, a waterproof sealing door-w, a side guard plate-e, a roller-r, a supporting leg-t, a generator box-y, a maintenance side plate-u, a contact separation type double-category generating set-o, a deep-storage groove strip-oq, a sliding flexible belt-ow, a double-category generating mechanism-oe, a magnetic ring side guide frame-or, a current leading-out frame-ot, a power storage box-oy, a first-category generating mechanism-oe 1, a second-category semiconductor generating mechanism-oe 2, a heat-level regulating cover-oe 3, a cold-level regulating cover-oe 4, a contact friction guiding mechanism-oe 11, a locking triangular prism cavity-oe 12, a matching rotary shaft-oe 13, an inner side cavity-oe 111, an arc hook-oe 112, a top separation ball-oe 113, an upper arm pressing bar-oe 114, a sliding block-oe 115, a maintenance side plate-u, a contact separation type, The large arm support rod-oe 116, the outer ball sleeve-oe 1131, the cold-stage ball-oe 1132, the confinement ring-oe 1133, the hot-stage ball-oe 1134, the output terminal-oe 1135, the locking bar-oe 1136, the deep guide plate-oe 21, the hot-stage friction plate-oe 22 and the cold-stage friction plate-oe 23.

Detailed Description

The embodiments of the present invention will be described in further detail with reference to the drawings and examples. The following examples are intended to illustrate the invention but are not intended to limit the scope of the invention.

In the description of the present invention, "a plurality" means two or more unless otherwise specified; the terms "upper", "lower", "left", "right", "inner", "outer", "front", "rear", "head", "tail", and the like, indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, are only for convenience in describing and simplifying the description, and do not indicate or imply that the device or element referred to must have a particular orientation, be constructed in a particular orientation, and be operated, and thus, should not be construed as limiting the invention. Furthermore, the terms "first," "second," "third," and the like are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the description of the present invention, it is to be noted that, unless otherwise explicitly specified or limited, the terms "connected" and "connected" are to be interpreted broadly, e.g., as being fixed or detachable or integrally connected; can be mechanically or electrically connected; may be directly connected or indirectly connected through an intermediate. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.

Examples

As shown in figures 1 to 6:

the invention provides a semiconductor friction generator and a using method thereof, the structure of the semiconductor friction generator comprises a sliding and pulling-off handle q, a waterproof sealing door w, a side protection plate e, a roller r, a supporting leg t, a generator box y, a maintenance side plate u and a contact separation type double-class generating device o, the back of the sliding and pulling-off handle q is fixedly arranged at a position above the positive end surface of the waterproof sealing door w, the bottom end of the waterproof sealing door w is mechanically connected with the lower part of the positive end surface of the generator box y through a hinge, the right end of the generator box y is provided with the maintenance side plate u, the bottom end inside the generator box y is fixedly provided with the contact separation type double-class generating device o, the side protection plate e is fixedly arranged at the front side and the rear side of the generator box y in a welding manner, the roller r is arranged right below the side protection plate e, and the contact separation type double-class generating device o comprises a deep groove, Frame ot, accumulate case oy are drawn forth to two categorised electricity generation mechanism oe, magnetic ring side guide frame or, electric current, deeply receive the channel bar oq and be equipped with two and fixed mounting in the magnetic ring side guide frame or left and right sides altogether, two categorised electricity generation mechanism oe left and right sides are located to magnetic ring side guide frame or, the laminating of frame ot internal surface is drawn forth with the electric current in two categorised electricity generation mechanism oe backs, accumulate case oy fixed mounting is in the inside bottom of generator case y, the flexible ligament ow of sliding guide is installed inside deeply receiving channel bar oq through the mode of embedding.

Wherein the dual-type power generation mechanism oe comprises a first-type power generation mechanism oe1, a second-type semiconductor power generation mechanism oe2, a hot-stage regulation cover oe3 and a cold-stage regulation cover oe4, the outer ring surface of the first-type power generation mechanism oe1 is embedded outside the inner ring surface of the second-type semiconductor power generation mechanism oe2, two first-type power generation mechanisms oe1 are arranged, the bottom end of the hot-stage regulation cover oe3 is fixedly connected to the outer surface of the top end of the second-type semiconductor power generation mechanism oe2 in an electric welding mode, the top end of the cold-stage regulation cover oe4 is fixedly connected to the outer surface of the bottom end of the second-type semiconductor power generation mechanism oe2 in an electric welding mode, the hot-stage regulation cover oe3 and the cold-stage regulation cover oe4 can continuously and respectively regulate the second-type semiconductor power generation mechanisms 2 to be at different temperatures of two-stage differentiation, and can continuously supplement the second-type semiconductor power generation mechanisms when the second-stage power generation mechanisms 2 are in a separated state due to mutual neutralization consumption, thereby the two can obtain better effect in the process of contacting again.

The first-class power generation mechanism oe1 comprises a touch separation friction guidance mechanism oe11, a locking triangular prism cavity oe12 and a matching rotating shaft oe13, wherein the touch separation friction guidance mechanism oe11 is provided with two parts which are fixedly installed at the upper end and the lower end of a matching rotating shaft oe13, the locking triangular prism cavity oe12 is arranged inside the matching rotating shaft oe13, and when the matching rotating shaft oe13 is embedded inside a magnetic ring side guide frame or, magnetic strips on two sides of the rotating shaft can drive the rotating shaft to rotate and cut in a magnetic field of a magnetic ring of the magnetic ring, so that basic kinetic energy is provided for the touch separation friction guidance mechanism oe11 to perform friction separation in the second-class semiconductor power generation mechanism oe 2.

The partial friction guiding mechanism oe11 comprises an inner chamber oe111, a curved hook pressing bar oe112, a top partial ball oe113, an upper arm pressing bar oe114, a slider oe115 and a large arm supporting bar oe116, wherein the inner chamber oe111 is arranged inside the large arm supporting bar oe116 and is integrated with the large arm supporting bar oe116, the bottom end of the slider oe115 is welded with the top end of the upper arm pressing bar oe114, the top end of the curved hook pressing bar oe112 is arranged inside the inner chamber oe111 in an embedded manner, the top partial ball oe113 is fixedly arranged at the bottom end of the upper arm pressing bar oe114, the curved hook pressing bar oe112 is arranged inside the inner chamber oe111, and has an acting force which is always pushed outwards due to the fact that one end of the curved hook pressing bar 112, which is reversely hooked, the curved hook pressing bar 112 is always pushed outwards, the top partial ball oe113 connected with the bottom end of the upper arm pressing bar oe114 is always popped inwards, and when the pressing force towards the upper arm is smaller than the pressing force towards the pressing bar 114, otherwise, the pressure is pressed to retract.

The top ball oe113 comprises an outer ball sleeve oe1131, a cold-stage ball oe1132, a confinement ring oe1133, a hot-stage ball oe1134, an output terminal oe1135 and a locking bar oe1136, wherein the front end face of the outer ball sleeve oe1131 is integrated with the confinement ring oe1133, the right end of the cold-stage ball oe1132 is fixedly connected with the hot-stage ball oe1134 through the locking bar oe1136, the output terminal oe1135 is installed on the connecting line of the cold-stage ball oe1132 and the stage ball oe1134 in an embedded manner, the cold-stage ball oe1132 is attached to the inner surface of the hot-stage ball oe1134 and the inner surface of the outer ball sleeve oe1131, the cold-stage ball 1132 and the hot-stage ball oe1134 are in contact with and continuous friction with the hot-stage friction plates 22 and the cold-stage friction plates respectively, and the cold-stage friction plates are in constant contact with each other through the plug-in conduction contact with different temperatures, so that the output current flows towards the output terminal oe1135 through the bell effect.

The second type semiconductor power generation mechanism oe2 comprises two deep guide plates oe21, a hot-stage friction plate oe22 and a cold-stage friction plate oe23, the number of the deep guide plates oe21 is two, the top end of the deep guide plate oe21 is fixedly connected with the front side of the bottom end face of the hot-stage friction plate oe22, the bottom end of the deep guide plate oe21 is installed inside the top end of the cold-stage friction plate oe23 in an embedded mode, the deep guide plate oe21 serves as a guide for fixing the opposite positions of the hot-stage friction plate oe22 and the cold-stage friction plate oe23, one of the deep guide plates fixed with the hot-stage friction plate oe22 is embedded into the cold-stage friction plate oe23, and one of the deep guide plates fixed with the cold-stage friction plate oe23 is embedded into the hot-stage friction plate oe22 and is connected with the deep guide plates and is also located on a side plate for outputting current.

The specific use mode and function of the embodiment are as follows:

in the invention, in the using process, the connection between the waterproof sealing door w and the generator box y can be loosened by sliding the detachable pull handle q, so that the waterproof sealing door w is pulled out towards the outside, because the left side and the right side of the back of the waterproof sealing door w are connected with the sliding flexible belt ow, when the waterproof sealing door w is pulled towards the outside, the double-class generating mechanism oe can be taken out, in the limit state, the deep accommodating groove strip oq can limit the waterproof sealing door w to be in a state of fixed inclination angle, after the detection is completed and the waterproof sealing door w is remounted, the matching rotating shaft oe13 can be embedded into the inner side surface of the magnetic ring side guide frame or, the touch friction guide mechanism oe11 is driven to rotate by taking the matching rotating shaft oe13 as the center of a circle through the mutual attraction state of the two, and in the rotating state, because the arc hook pressing strip oe112 arranged in the touch friction guide mechanism oe111 has good elasticity, when the touch friction guide mechanism oe11 rotates in an axial standing manner, when the large arm support rod oe116 and the upper arm press oe114 are in contact with each other in the middle area in the area close to the narrow road, and the hot-stage friction plate oe22 and the cold-stage friction plate oe23 are pushed outwards by the length limited by the top separation ball oe113 at the tail ends of the two support rods, and the inner surfaces of the two support rods are in contact with the top separation ball oe113, the hot-stage friction plate oe22 and the cold-stage friction plate oe23 are intensively conducted into the first-class power generation mechanism oe1 through different temperatures at the two ends of the hot-stage friction plate oe22 and the cold-stage friction plate oe23 to form a power generation mechanism in a continuous motion state, because the second-class semiconductor power generation mechanism oe2 is pushed away from the middle area in the narrow road, and the second-class semiconductor power generation mechanism oe2 can be in contact with each other in the wide road, the temperature difference can be increased in a short time, the output current value is increased, and the arc top separation hook oe support rod oe112 in the contact with the contact friction guidance mechanism 11 can push the opposite direction of the press ball oe113 in the direction On the other hand, the top separation ball oe113 is attached to and surrounds the inner circumferential surface of the second type semiconductor power generation mechanism oe2, and the temperature difference between both sides is output by the output terminal oe1135 by leading the low-stage ball oe1132 and the high-stage ball oe 1134.

The embodiments of the present invention have been presented for purposes of illustration and description, and are not intended to be exhaustive or limited to the invention in the form disclosed. Many modifications and variations will be apparent to those of ordinary skill in the art. The embodiment was chosen and described in order to best explain the principles of the invention and the practical application, and to enable others of ordinary skill in the art to understand the invention for various embodiments with various modifications as are suited to the particular use contemplated.