CN217300413U - Photovoltaic charging electric driving device for hollow glass with built-in shutter - Google Patents

Abstract

The utility model provides a built-in tripe cavity glass photovoltaic electric drive device that charges, includes electrical control mechanism, stores pylon mechanism and photovoltaic module, electrical control mechanism and photovoltaic module establish in stores pylon mechanism, characteristics: the electric control mechanism comprises a box body, a box cover, a circuit board and a rechargeable battery, wherein the box body is provided with a box body cavity, the circuit board and the rechargeable battery are arranged in the box body cavity, and the box cover is matched with the front side cover of the box body; the hanger mechanism comprises a hanger body, an adsorption plate and an electric connecting wire shield, the hanger body is hung at the top of the upper right corner or the upper left corner of the built-in shutter hollow glass, the adsorption plate is matched with one side, facing the box body, of the lower part of the hanger body, the electric connecting wire shield is matched with one side, facing outwards, of the hanger body, and the right end of the photovoltaic module is matched with the rear side of the photovoltaic module inserting and embedding mounting plate in an inserting and embedding manner; the matching cavity of the hanger body is matched with the lower part of the hanger body, and the box body is magnetically attracted with the adsorption plate. The photovoltaic module can be reasonably and reliably carried on the photovoltaic module inserting and embedding mounting plate to be assembled conveniently; the volume is small.

Description

Photovoltaic charging electric driving device with built-in shutter hollow glass

Technical Field

The utility model belongs to the technical field of built-in tripe cavity glass component, concretely relates to photovoltaic charging electric drive device of built-in tripe cavity glass.

Background

As known in the art, the lifting of the blind and the turning of the blind slats of the structural system incorporating the hollow louvered glass are conventionally or currently performed by manual operation of the outer manipulator of the inner and outer manipulators magnetically attracted together through the inner glass. In addition, regardless of the complicated structure and reasonable manufacturing cost, the manual controller moving up and down is relatively hard objectively, and is a difficult factor especially for the people of all ages.

The aforementioned laborious mode of operation of the manual dial-up and dial-down outer manipulator is fundamentally changed with the push-out of the electrically driven and/or photovoltaic charged electrically driven blinds. The so-called electric drive mainly refers to the driving of the lifting of the blind and the turning of the blind sheet by the electric motor by means of the mains supply, i.e. by means of the conventional household power supply; the photovoltaic charging electric drive means that a solar photovoltaic module (also called a photovoltaic panel module) is used for supplying electric energy to a motor, and the motor drives the shutter to lift and the shutter to turn, and typical examples of the shutter are "electrically driven or automatically powered to drive the hollow glass built-in shutter" recommended by CN 214835990U. By reading the patent literature not limited to the aforementioned CN214835990U publication and incorporating expertise, it can be basically determined that: the device for supporting and controlling the motor operation at least comprises an electric control mechanism and a hanging mechanism (namely a 'hanging mechanism') which is used as a mounting carrier of the electric control mechanism, specifically, the electric control mechanism electrically connected with the motor positioned between the inner glass and the outer glass is arranged on the hanging mechanism, and the hanging mechanism and the electric control mechanism are hung at the top of the right side or the left side of the built-in hollow louver glass at the position corresponding to the motor or in the state accompanying the motor (if the motor is positioned at the right end of the upper cross frame strip of the structural system of the window body, the hanging mechanism and the electric control mechanism are hung at the upper right corner of the built-in hollow louver glass, and vice versa).

The photovoltaic charging electric driving device, which is a combination of an electrical control mechanism and a hanging mechanism, is a factor of taking the photovoltaic panel module into consideration, such as how to reasonably and reliably mount the photovoltaic panel module on a hanger mechanism, how to make the structure of the hanger mechanism reasonable and simple, how to reasonably match the electrical control mechanism with the hanger mechanism, how to make the whole device exhibit a good miniaturization effect as much as possible, and the like, and the technical scheme to be introduced below is generated under such a background.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a help with photovoltaic template combination reason and carry on the stores pylon mechanism reliably and be favorable to guaranteeing rationality and the terse nature of the structure of stores pylon mechanism, be of value to make electrical control mechanism and stores pylon mechanism rationally cooperate, have be convenient for reduce whole volume and can reduce the built-in tripe cavity glass photovoltaic electric drive arrangement that charges of the area that shelters from of internal glass.

The utility model aims to realize the task that an electric drive device for photovoltaic charging of built-in louver hollow glass comprises an electric control mechanism, a hanger mechanism and a photovoltaic module, wherein the electric control mechanism and the photovoltaic module are arranged on the hanger mechanism, and the hanger mechanism, the electric control mechanism and the photovoltaic module are hung on the top of the upper right corner or the top of the upper left corner of the built-in louver hollow glass under the using state, the electric control mechanism is positioned on one side of the built-in louver hollow glass facing indoor under the using state, and the photovoltaic module is positioned on one side of the built-in louver hollow glass facing outdoor under the using state, the electric drive device is characterized in that the electric control mechanism comprises a box body, a box cover, a circuit board and a charging battery, the box body is provided with a box body cavity, a socket charging abdicating hole for communicating the box body cavity with the outside is arranged on the right cavity wall of the box body cavity of the box body, a hanging rack body matching cavity sunken on the surface of the box body is formed on the rear side wall body of the box body, the circuit board and the rechargeable battery are arranged in the box body cavity, the box cover is matched with the front side of the box body, and the box cover shields the circuit board and the rechargeable battery arranged in the box body cavity; the hanger mechanism comprises a hanger body, an adsorption plate and an electric connecting wire shield, the hanger body is hung at the top of the upper right corner or the top of the upper left corner of the built-in shutter hollow glass in a use state, the adsorption plate is matched with one side, facing the box body, of the lower part of the hanger body and corresponds to the hanger body matching cavity, the electric connecting wire shield is matched with one side, facing outwards in the use state, of the hanger body, a photovoltaic module inserting and embedding mounting plate extends towards the left side of the outwards facing side in the use state of the hanger body, and the right end of the photovoltaic module is in inserting and embedding matching with the rear side of the photovoltaic module inserting and embedding mounting plate; the matching cavity of the hanger body is matched with the lower part of the hanger body at the position corresponding to the adsorption plate, and the box body is magnetically attracted with the adsorption plate at the position corresponding to the adsorption plate through the bottom wall of the cavity of the box body.

In a specific embodiment of the utility model, the box body cavity is divided into a charging battery cavity positioned at the left side of the box body cavity division plate and a circuit board cavity positioned at the right side of the box body cavity division plate by the box body cavity division plate, and the front side surface of the box body cavity separation plate is retracted into the front side surface of the box body and forms a wiring space for electrically connecting the circuit board and the rechargeable battery with the rear side surface of the box cover, the circuit board is arranged in the circuit board cavity, a charging socket is arranged at the rear side of the right end of the circuit board and at the position corresponding to the charging socket abdicating hole, the charging socket extends into the charging socket abdicating hole, and a mounting boss corresponding to the position of the hanger body matching cavity is formed in the circuit board cavity, and the mounting boss is magnetically attracted with the adsorption plate through the cavity bottom wall of the box body cavity; circuit board electrical connection pin holes are arranged in the middle of the mounting boss in the height direction in a transverse distribution mode at intervals, penetrate through the cavity bottom wall of the box body cavity, circuit board electrical connection pins with the number equal to that of the circuit board electrical connection pin holes are arranged on the rear side of the control circuit board and in positions corresponding to the circuit board electrical connection pin holes, penetrate through the circuit board electrical connection pin holes and are electrically connected with the motor, the limiter and the photovoltaic module through circuits in the positions of the adsorption plate; an indicating lamp hole is formed in the box cover and in a position corresponding to the left end of the circuit board; the charging voltage for charging the rechargeable battery is 5-12V, the power supply for charging the rechargeable battery is a photovoltaic power supply or a commercial power supply provided by the photovoltaic module, and the rechargeable battery is a lithium battery; the charging socket is a USB charging port.

In another specific embodiment of the present invention, a set of manual control buttons is disposed on the front side of the circuit board, and an indicator is disposed at the left end of the circuit board and at a position corresponding to the indicator hole, and a protective decoration plate is disposed on the front side corresponding to the box cover and is disposed along with the box cover and the front side of the box body.

In another specific embodiment of the present invention, a fixed buckle is formed at the position of the upper edge of the back side of the photovoltaic module embedded mounting plate at an interval, a lower snap-gauge folded and unfolded backward is formed at the position of the lower edge of the back side, a photovoltaic module fixed buckle insertion and embedding matching groove is formed at the upper edge of the front side of the photovoltaic module, a photovoltaic module lower snap-gauge insertion and embedding matching groove is formed at the lower edge of the front side, the photovoltaic module fixed buckle insertion and embedding matching groove is in insertion and embedding matching with the fixed buckle, and the photovoltaic module lower snap-gauge insertion and embedding matching groove is in insertion and embedding matching with the lower snap-gauge; the longitudinal section of the hanger body is ⊓ -shaped, a pair of shield positioning columns are respectively formed on the rear side surface of the rear wall body of the hanger body and at the positions corresponding to the upper end and the lower end of the electric connecting line shield, a pair of shield positioning column fixing seats are respectively formed on the front side of the upper end and the front side of the lower end of the electric connecting line shield, the pair of shield positioning column fixing seats are respectively provided with a shield positioning column hole, and the shield positioning column fixing seats are inserted and fixed with the shield positioning columns through the shield positioning column holes; an electrical connecting wire abdicating groove is arranged at the lower part of the left side of the electrical connecting wire protective cover; a hanger body trough is provided on a rear wall of the hanger body and at a location corresponding to the electrical connection line shield, the hanger body trough extending toward an inboard top of the hanger body and then to a front wall of the hanger body.

In another specific embodiment of the present invention, an adsorption plate matching plate is formed at the lower part of the front wall body of the hanger body, and the adsorption plate is matched with the front side surface of the adsorption plate matching plate; the lower part of adsorption plate cooperation board is provided with the electric connection line contact pin with from left right side interval arrangement the electric connection line contact pin hole that equals with the quantity of electric connection line contact pin is seted up to the position interval of electric connection line contact pin on the adsorption plate and corresponding to the electric connection line contact pin, the electric connection line contact pin is from the rear side of adsorption plate through electric connection line contact pin hole extend to the front side of adsorption plate and with circuit board electric connection contact pin electric cooperation, circuit board electric connection contact pin with the help of the electric connection line contact pin by the circuit with motor, stopper and photovoltaic module electrical connection.

In still another specific embodiment of the present invention, the cover is provided with a cover button yielding opening corresponding to the position of the manual control button, the decorative plate is provided with a protective decorative plate button yielding cavity corresponding to the position of the cover button yielding opening, and the manual control button sequentially enters the cover button yielding opening and the protective decorative plate button yielding cavity.

In a more specific embodiment of the present invention, a magnetizable metal strip embedding cavity is formed in each of the upper and lower intermediate positions of the mounting boss in a horizontal state, and a magnetizable metal strip is embedded in the magnetizable metal strip embedding cavity; and a pair of magnetic block embedding seats are respectively formed at the upper part and the lower part of the rear side of the adsorption plate at intervals at the positions corresponding to the embedded cavities of the magnetizable metal strips, each magnetic block embedding seat is provided with a magnetic block embedding cavity, magnetic blocks are embedded in the magnetic block embedding cavities, and the magnetizable metal strips are magnetically attracted with the magnetic blocks through the cavity bottom wall of the box body cavity and the adsorption plate.

In still another specific embodiment of the present invention, a magnetic block embedding cavity is formed in each of the front upper portion and the front lower portion of the adsorption plate fitting plate and in a position corresponding to the pair of magnetic block embedding seats, and the pair of magnetic block embedding seats is embedded and matched with the magnetic block embedding cavity.

In yet another specific embodiment of the present invention, the magnetizable metal strip is an iron sheet strip.

The utility model provides a technical scheme's technological effect lies in: the photovoltaic module inserting and embedding mounting plate extends towards the left of the outward side in the use state of the hanger body of the hanger mechanism, so that the photovoltaic module can be reasonably and reliably carried on the photovoltaic module inserting and embedding mounting plate, and the rationality and the simplicity of the structure of the hanger mechanism can be favorably ensured; because the electrical control mechanism and the hanging rack mechanism form a matching relationship which tends to be modularized, the hanging rack mechanism and the electrical control mechanism can be hung on the top of the upper right corner or the top of the upper left corner of the built-in hollow louver glass in a use state, and the structure is simple and the assembly is convenient; the whole volume of the electric control mechanism is small, so that the shielding area of the inner glass can be obviously reduced in a use state.

Drawings

Fig. 1 is a structural diagram of an embodiment of the present invention.

Fig. 2 is a schematic view of the case and the circuit board of the electric control mechanism shown in fig. 1, as viewed from the rear side.

Fig. 3 is a detailed structural view of a hanger mechanism shown in fig. 1.

Fig. 4 is a schematic view of the hanger body and the adsorption plate shown in fig. 3 viewed from the rear side.

Fig. 5 is a schematic view of the box, the hanger body, the electrical connection line shield, and the photovoltaic module shown in fig. 1, viewed from the rear side.

Detailed Description

In the following description, all the concepts related to the directions or orientations of up, down, left, right, front and rear are based on the position state of fig. 1, and thus, should not be interpreted as a specific limitation to the technical solution provided by the present invention.

Referring to fig. 1, an electrical control mechanism 1, a rack mechanism 2 and a photovoltaic module 3 are shown, the electrical control mechanism 1 and the photovoltaic module 3 are disposed on the rack mechanism 2, and in a use state, the rack mechanism 2, the electrical control mechanism 1 and the photovoltaic module 3 are hung on the top of the upper right corner of the built-in hollow louver glass, but may also be hung on the top of the upper left corner, the electrical control mechanism 1 is located on a side of the built-in hollow louver glass facing indoors in the use state, and the photovoltaic module 3 is located on a side of the built-in hollow louver glass facing outdoors in the use state. Since the structure of the above-mentioned built-in venetian blind belongs to the prior art, see for example CN214835990U (electrically driven or autonomously powered driven hollow glass built-in venetian blind), the applicant does not describe it in detail.

As the technical scheme provided by the utility model: the electrical control mechanism 1 includes a box body 11, a box cover 12, a circuit board 13 and a rechargeable battery 14, the box body 11 and the box cover 12 are made of non-metal material, for example, by plastic molding, the box body 11 has a box cavity 111, a charging socket abdicating hole 1111 for communicating the box cavity 111 with the outside is opened on the right cavity wall of the box cavity of the box body 111, and a hanging rack body matching cavity 112 recessed on the surface of the box body 11 is formed on the rear side wall of the box body 11, the circuit board 13 and the rechargeable battery 14 are disposed in the box cavity 111, the box cover 12 is matched with the front side of the box body 11, and the circuit board 13 and the rechargeable battery 14 disposed in the box cavity 111 are shielded by the box cover 12; the material of the hanging rack mechanism 2 is preferably plastic, and it includes a hanging rack body 21, an adsorption plate 22 and an electric connection line shield 23, the hanging rack body 21 is hung on the top of the right upper corner of the built-in hollow glass by inserting and embedding in the using state, but can also be hung on the top of the left upper corner, the adsorption plate 22 matches with one side of the lower part of the hanging rack body 21 facing to the box body 11, i.e. the front side of the lower part of the hanging rack body 21 and corresponds to the hanging rack body matching cavity 112, the electric connection line shield 23 matches with one side of the hanging rack body 21 facing outward in the using state, and a photovoltaic module inserting and embedding mounting plate 211 extends to the left of the one side facing outward in the using state of the hanging rack body 21, the right end of the photovoltaic module 3 matches with the back side of the photovoltaic module inserting and embedding mounting plate 211 by inserting and embedding; the hanger body engaging chamber 112 is engaged with the lower portion of the hanger body 21 at a position corresponding to the adsorption plate 22, and the box body 11 is magnetically attracted to the adsorption plate 22 through the bottom wall of the box body chamber 111 at a position corresponding to the adsorption plate 22.

In the above-mentioned structure system of the hollow glass with built-in louver, if the motor is disposed at the right end of the upper part of the window body and the stopper is disposed at the left end of the upper part of the window body, the aforementioned hanger mechanism 2 is disposed at the upper part of the window body corresponding to the motor, otherwise, the same example, that is, the hanger mechanism 2 is disposed at the top of the upper right corner or the top of the upper left corner of the hollow glass with built-in louver along with the motor, and can be electrically connected (by a wire) with the motor conveniently.

Referring to fig. 2 in combination with fig. 1, the box cavity 111 is divided by a box cavity dividing plate 1112 into a charging battery cavity 1113 on the left side of the box cavity dividing plate 1112 and a circuit board cavity 1114 on the right side of the box cavity dividing plate 1112, and the front side of the box cavity divider 1112 is retracted into the front side of the box 11 to form a wiring space for electrically connecting the circuit board 13 and the rechargeable battery 14 with the rear side of the box cover 12, the circuit board 13 is disposed in the circuit board cavity 1114, a charging inlet 131 is provided at the rear side of the right end of the circuit board 13 and at a position corresponding to the charging inlet escape hole 1111, the charging socket 131 extends into the charging socket relief hole 1111, and a mounting boss 15 corresponding to the position of the hanger body mating cavity 112 is formed in the circuit board cavity 1114, the mounting boss 15 is magnetically attracted to the adsorption plate 22 via the bottom wall of the case body cavity 111; circuit board electrical connection pin holes 152 are arranged in the middle of the mounting boss 15 in the height direction and in a transverse distribution state at intervals, the circuit board electrical connection pin holes 152 penetrate through the cavity bottom wall of the box body cavity 111, circuit board electrical connection pins 132 (shown in fig. 2) are arranged on the rear side of the control circuit board 13 and at positions corresponding to the circuit board electrical connection pin holes 152, the number of the circuit board electrical connection pins 132 is equal to that of the circuit board electrical connection pin holes 152, the circuit board electrical connection pins 132 penetrate through the circuit board electrical connection pin holes 152, and the circuit board electrical connection pins 132 are electrically connected with the motor, the limiter and the photovoltaic module 3 by lines at the position of the adsorption plate 22; an indicator lamp hole 121 is formed on the box cover 12 and at a position corresponding to the left end of the circuit board 13; in this embodiment, the charging voltage for charging the rechargeable battery 14 is 5-12V, the power source for charging the rechargeable battery 14 is a photovoltaic power source provided by the photovoltaic module 3 or a mains power source, if there is a continuous rainy weather, the mains power source can be used to make up for the power shortage of the photovoltaic module 3, that is, the mains power source is used to charge the rechargeable battery 14, and the rechargeable battery 14 is a lithium battery; the charging socket 131 is a USB charging socket, and the rechargeable battery 14 can be a single-cell battery or a dual-cell battery with the specification of 200 and 4000 mA.

Preferably, the circuit board 13 is fixed by a pair of circuit board fixing screws 135 arranged diagonally to each other in a pair of screw holes (penetrating the cavity bottom wall via the mounting bosses 15) also diagonally opened corresponding to the pair of screw holes provided in the case cavity 111, that is, the cavity bottom wall of the circuit board cavity 1114. Further, as a preferable aspect, a battery defining flange 11131 may be formed on the wall of the aforementioned rechargeable battery chamber 1113 as needed.

The circuit board 13 is substantially a circuit board module, which can use the MCU microcomputer chip as a core to construct a circuit control system, and has control functions including, but not limited to, wireless remote control, connection control with a smart speaker such as a skatecat or a mini-phone, control with a mobile phone APP, and a timing switch function.

A set of manual control buttons 133 electrically controlling and cooperating with the circuit board 13 is provided on the front side of the circuit board 13, an indicator lamp 134 is provided at the left end of the circuit board 13 and at a position corresponding to the indicator lamp hole 121, and a decorative plate 16 is disposed on the front side corresponding to the box cover 12, and the decorative plate 16 cooperates with the box cover 12 and the front side of the box body 11. The manual control button 133 can realize the lifting function of short-press click and long-press.

Referring to fig. 3 to 5 in combination with fig. 1, a fixed buckle 2111 is formed at an interval at the upper edge of the rear side of the pv module embedded mounting board 211, a lower buckle 2112 folded and unfolded backward is formed at the lower edge of the rear side, a pv module fixed buckle insert-fit groove 31 is formed at the upper edge of the front side of the pv module 3, a pv module lower buckle insert-fit groove 32 is formed at the lower edge of the front side, the pv module fixed buckle insert-fit groove 31 is insert-fit with the fixed buckle 2111, and the pv module lower buckle insert-fit groove 32 is insert-fit with the lower buckle 2112; the longitudinal section of the hanger body 21 is ⊓ -shaped, the ⊓ -shaped cavity is inserted and matched with the top of the upper right corner of the built-in hollow glass, a pair of shroud positioning posts 214 are respectively formed on the rear side surface of the rear wall body of the hanger body 21 and at the positions corresponding to the upper end and the lower end of the electric connecting line shroud 23, a pair of shroud positioning post fixing seats 231 are respectively formed on the front side of the upper end and the front side of the lower end of the electric connecting line shroud 23, the pair of shroud positioning post fixing seats 231 are respectively provided with a shroud positioning post hole, and the shroud positioning post fixing seats 231 are inserted and fixed with the shroud positioning posts 214 through the shroud positioning post holes; an electrical connection line abdicating groove 232 is arranged at the lower part of the left side of the electrical connection line shield 23; a hanger body raceway groove 215 is opened on a rear wall of the hanger body 21 and at a position corresponding to the aforementioned electrical connection line shield 23, the hanger body raceway groove 215 extending toward an inside top of the hanger body 21 and then to a front wall of the hanger body 21.

An adsorption plate matching plate 212 is formed at the lower part of the front wall body of the hanger body 21, and the adsorption plate 22 is matched with the front side surface of the adsorption plate matching plate 212; at the lower portion of the absorption plate matching plate 212, there are provided (four) electrical connection wire pins 2121 spaced from the left to the right (which may be called "right to left"), in which the absorption plate 22 is provided with electrical connection wire pin holes 221 at positions corresponding to the electrical connection wire pins 2121 by a number equal to the number of the electrical connection wire pins 2121, the electrical connection wire pins 2121 extend from the rear side of the absorption plate 22 to the front side of the absorption plate 22 through the electrical connection wire pin holes 221 and are electrically matched with the circuit board electrical connection pins 132, and the circuit board electrical connection pins 132 are electrically connected to the motor, the stopper and the photovoltaic module 3 through the wires by the electrical connection wire pins 2121.

As can be seen from the foregoing description and with reference to fig. 1 to 5, since there are four circuit board electrical connection pins 132 and four electrical connection wire pins 2121, and there are four corresponding circuit board electrical connection pin holes 152 and four corresponding electrical connection wire pin holes 221, there are four corresponding circuits, two of the four circuits are electrically connected to the photovoltaic module 3 sequentially through the rack body cabling slot 215, the electrical connection wire shield cavity of the electrical connection wire shield 23, and the electrical connection wire abdication slot 232 from the two electrical connection wire pins 2121, and one of the other two of the four circuits is electrically connected to the motor and the limiter, and another circuit is electrically connected to the motor and the limiter, so that the circuit board 13, the motor, and the limiter are connected in series. Thereby electrically connecting each of the four wires to the circuit board 13.

A cover button yielding hole 122 is formed in the cover 12 at a position corresponding to the manual control button 133, a cover button yielding cavity 161 is formed in the decorative protection plate 16 at a position corresponding to the cover button yielding hole 122, and the manual control button 133 sequentially protrudes into the cover button yielding hole 122 and the decorative protection plate button yielding cavity 161.

A magnetizable metal strip embedding cavity 151 is formed in the middle positions of the upper part and the lower part of the installation boss 15 in a transverse state, and a magnetizable metal strip 1511 is embedded in the magnetizable metal strip embedding cavity 151; a pair of magnetic block embedding seats 222 are formed on the upper portion and the lower portion of the back side of the attraction plate 22 at intervals at positions corresponding to the magnetic metal bar embedding cavities 151, the magnetic block embedding seat 222 has a magnetic block embedding cavity 2221, a magnetic block 22211 is embedded in the magnetic block embedding cavity 2221, and the magnetic metal bar 1511 is magnetically attracted to the magnetic block 22211 through the cavity bottom wall of the box cavity 111 and the attraction plate 22.

A magnetic block insertion cavity 2122 is formed in each of the upper front portion and the lower front portion of the attraction plate fitting plate 212 and at a position corresponding to the pair of magnetic block insertion bases 222, and the pair of magnetic block insertion bases 222 are fitted into the magnetic block insertion cavity 2122.

In this embodiment, the magnetizable metal strip 1511 is an iron sheet strip.

When in use, the circuit board 13 controls a motor not shown in the figure, the motor drives a curtain sheet turnover shaft matched with the motor, and the curtain sheet turnover shaft drives a curtain sheet turnover rope wheel and a blind curtain lifting device, so that the curtain sheet is turned over or the blind curtain is lifted as required.

To sum up, the technical solution provided by the present invention remedies the defects in the prior art, successfully completes the invention task, and faithfully embodies the technical effects mentioned in the above technical effect column by the applicant.

Claims (9)

1. A photovoltaic charging electric driving device for hollow glass with built-in louver comprises an electric control mechanism (1), a hanger mechanism (2) and a photovoltaic module (3), wherein the electric control mechanism (1) and the photovoltaic module (3) are arranged on the hanger mechanism (2), the electric control mechanism (1) and the photovoltaic module (3) are hung on the top of the right upper corner or the top of the left upper corner of the hollow glass with the built-in louver in a use state, the electric control mechanism (1) is positioned on one side of the hollow glass with the built-in louver facing indoors in the use state, the photovoltaic module (3) is positioned on one side of the hollow glass with the built-in louver facing outdoors in the use state, and the electric control mechanism (1) is characterized by comprising a box body (11), a box cover (12), a circuit board (13) and a charging battery (14), the box body (11) is provided with a box body cavity (111), a charging socket abdicating hole (1111) used for enabling the box body cavity (111) to be communicated with the outside is formed in the right cavity wall of the box body cavity (111), a hanging rack body matching cavity (112) sunken in the surface of the box body (11) is formed in the rear side wall body of the box body (11), the circuit board (13) and the rechargeable battery (14) are arranged in the box body cavity (111), the box cover (12) is matched with the front side of the box body (11), and the circuit board (13) and the rechargeable battery (14) arranged in the box body cavity (111) are shielded by the box cover (12); the hanging rack mechanism (2) comprises a hanging rack body (21), an adsorption plate (22) and an electric connecting wire protective cover (23), the hanging rack body (21) is hung at the top of the upper right corner or the top of the upper left corner of the built-in hollow glass shutter in a use state, the adsorption plate (22) is matched with one side, facing the box body (11), of the lower part of the hanging rack body (21) and corresponds to the hanging rack body matching cavity (112), the electric connecting wire protective cover (23) is matched with one side, facing outwards, of the hanging rack body (21) in a use state, a photovoltaic module inserting and embedding mounting plate (211) extends leftwards of the side, facing outwards, of the hanging rack body (21) in a use state, and the right end of the photovoltaic module (3) is in inserting and embedding matching with the rear side of the photovoltaic module inserting and embedding mounting plate (211); the hanger body matching cavity (112) is matched with the lower part of the hanger body (21) at the position corresponding to the adsorption plate (22), and the box body (11) is magnetically attracted with the adsorption plate (22) at the position corresponding to the adsorption plate (22) through the cavity bottom wall of the box body cavity (111).

2. The photovoltaic charging electric driving device with built-in louver hollow glass according to claim 1, wherein the box cavity (111) is separated by a box cavity separating plate (1112) into a charging battery cavity (1113) located on the left side of the box cavity separating plate (1112) and a circuit board cavity (1114) located on the right side of the box cavity separating plate (1112), and the front side of the box cavity separating plate (1112) retracts into the front side of the box body (11) to form a routing space for the circuit board (13) to be electrically connected with the charging battery (14) with the rear side of the box cover (12), the circuit board (13) is disposed in the circuit board cavity (1114), a charging socket (131) is disposed on the rear side of the right end of the circuit board (13) and at a position corresponding to the charging socket abdicating hole (1111), the charging socket (131) extends into the charging abdicating hole (1111), and a mounting boss (15) corresponding to the position of the hanging rack body matching cavity (112) is formed in the circuit board cavity (1114), and the mounting boss (15) is magnetically attracted with the adsorption plate (22) by separating the cavity bottom wall of the box body cavity (111); circuit board electrical connection pin holes (152) are arranged in the middle of the mounting boss (15) in the height direction in a transverse distribution mode at intervals, the circuit board electrical connection pin holes (152) penetrate through the cavity bottom wall of the box body cavity (111), circuit board electrical connection pins (132) with the number equal to that of the circuit board electrical connection pin holes (152) are arranged on the rear side of the circuit board (13) and in positions corresponding to the circuit board electrical connection pin holes (152), the circuit board electrical connection pins (132) penetrate through the circuit board electrical connection pin holes (152) and are electrically connected with the motor, the limiter and the photovoltaic module (3) through lines at the position of the adsorption plate (22); an indicator lamp hole (121) is formed in the box cover (12) and at a position corresponding to the left end of the circuit board (13); the charging voltage for charging the rechargeable battery (14) is 5-12V, the power supply for charging the rechargeable battery (14) is a photovoltaic power supply or a commercial power supply provided by the photovoltaic module (3), and the rechargeable battery (14) is a lithium battery; the charging socket (131) is a USB charging port.

3. The photovoltaic charging electric driving device with built-in shutter hollow glass according to claim 2, characterized in that a set of manual control buttons (133) electrically controlling and matching with the circuit board (13) is arranged on the front side of the circuit board (13), an indicator lamp (134) is arranged at the left end of the circuit board (13) and at the position corresponding to the indicator lamp hole (121), a protecting and decorating plate (16) is arranged on the front side corresponding to the box cover (12), and the protecting and decorating plate (16) matches with the box cover (12) and the front side cover of the box body (11).

4. The photovoltaic charging electric driving device with built-in louver hollow glass according to claim 1, wherein a fixed buckle (2111) is formed at an interval of a position of an upper edge of a rear side of the photovoltaic module inserting and embedding mounting plate (211), a lower snap plate (2112) folded and unfolded backward is formed at a position of a lower edge of the rear side, a photovoltaic module fixed buckle inserting and embedding matching groove (31) is formed at an upper edge of a front side of the photovoltaic module (3), a photovoltaic module lower snap plate inserting and embedding matching groove (32) is formed at a lower edge of the front side, the photovoltaic module fixed buckle inserting and embedding matching groove (31) is inserted and embedded and matched with the fixed buckle (2111), and the photovoltaic module lower snap plate inserting and embedding matching groove (32) is inserted and embedded and matched with the lower snap plate (2112); the longitudinal section of the hanger body (21) is ⊓ -shaped, a pair of shroud positioning columns (214) are respectively formed on the rear side surface of the rear wall body of the hanger body (21) and at positions corresponding to the upper end and the lower end of the electric connecting line shroud (23), a pair of shroud positioning column fixing seats (231) are respectively formed on the front side of the upper end and the front side of the lower end of the electric connecting line shroud (23), the pair of shroud positioning column fixing seats (231) are respectively provided with a shroud positioning column hole, and the shroud positioning column fixing seats (231) are inserted and fixed with the shroud positioning columns (214) through the shroud positioning column holes; an electrical connecting wire abdicating groove (232) is arranged at the lower part of the left side of the electrical connecting wire protective cover (23); a hanger body trough (215) is provided on the rear wall of the hanger body (21) and at a position corresponding to the electrical connection line shield (23), the hanger body trough (215) extending towards the top of the inside of the hanger body (21) and then to the front wall of the hanger body (21).

5. The photovoltaic charging electric driving device with built-in louver hollow glass according to claim 2 is characterized in that the lower part of the front wall of the hanger body (21) is formed with an adsorption plate matching plate (212), and the adsorption plate (22) is matched with the front side surface of the adsorption plate matching plate (212); the lower part of adsorption plate cooperation board (212) is provided with electric connection line contact pin (2121) with from left right side interval arrangement mode on adsorption plate (22) and corresponding to electric connection line contact pin (2121) the position interval offer with electric connection line contact pin (2121) electric connection line contact pin hole (221) that the quantity equals, electric connection line contact pin (2121) extend to the front side of adsorption plate (22) and with circuit board electric connection contact pin (132) electric cooperation from the rear side of adsorption plate (22) through electric connection line contact pin hole (221), circuit board electric connection contact pin (132) with electric connection line contact pin (2121) by the circuit with motor, stopper and photovoltaic module (3) electric connection.

6. The photovoltaic charging electric driving device with built-in louver hollow glass according to claim 3, wherein a set of cover button yielding openings (122) are opened on the cover (12) and at positions corresponding to the set of manual control buttons (133), a set of protective cover button yielding cavities (161) are opened on the protective cover plate (16) and at positions corresponding to the set of cover button yielding openings (122), and the set of manual control buttons (133) sequentially extend into the cover button yielding openings (122) and the protective cover button yielding cavities (161).

7. The photovoltaic charging electric driving device with built-in louver hollow glass according to claim 5, wherein a magnetizable metal strip embedding cavity (151) is formed in a horizontal state at each of the upper and lower central positions of the mounting boss (15), and a magnetizable metal strip (1511) is embedded in the magnetizable metal strip embedding cavity (151); a pair of magnetic block embedding seats (222) are formed at the upper part and the lower part of the rear side of the adsorption plate (22) at intervals at positions corresponding to the magnetizable metal strip embedding cavities (151), each magnetic block embedding seat (222) is provided with a magnetic block embedding cavity (2221), magnetic blocks (22211) are embedded in the magnetic block embedding cavities (2221), and the magnetizable metal strip (1511) is separated from the cavity bottom wall of the box body cavity (111) and the adsorption plate (22) is magnetically attracted with the magnetic blocks (22211).

8. The photovoltaic charging electric driving device with built-in louver hollow glass according to claim 7, wherein a magnetic block embedded seat embedding cavity (2122) is formed on each of the upper and lower front sides of the absorption plate matching plate (212) and at a position corresponding to the pair of magnetic block embedded seats (222), and the pair of magnetic block embedded seats (222) is embedded and matched with the magnetic block embedded seat embedding cavity (2122).

9. The photovoltaic charging electric driving device with built-in venetian blind hollow glass according to claim 7, characterized in that the magnetizable metal strips (1511) are iron sheet strips.

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