CN216406517U - An automatic opening and closing intelligent window control system - Google Patents

Abstract

The utility model discloses an automatic opening and closing intelligent window control system, and belongs to the field of intelligent windows. The control system comprises a window frame, an inner window and a power unit, wherein the inner window is arranged in the window frame in a sliding fit mode, the power unit is arranged on the window frame and used for driving a matching seat to linearly reciprocate, an upper connector used for being connected and matched with the matching seat is correspondingly arranged on the inner window, a lower connector used for being connected and matched with the matching seat is correspondingly arranged on the window frame, the matching seat is respectively and independently connected and matched with the upper connector and the lower connector at different positions, the upper connector is used for driving the inner window to open and close, and the lower connector is used for driving a curtain to open and close. Aiming at the current situation that the opening and closing control of a window and a curtain is difficult to realize by the current intelligent window, the utility model can adopt the same set of driving system to respectively realize the opening and closing control of the window and the curtain, has simple integral structure and convenient application, and is suitable for popularization.

Description

An automatic opening and closing intelligent window control system

technical field

The utility model relates to the technical field of intelligent windows, in particular to an intelligent window control system for automatic opening and closing.

Background technique

At present, intelligent electric window openers have been used in the market. The machines used to open and close windows are called "window openers" or "window openers". window machine". Now it is a high-tech product in the domestic construction industry, and "smart electric windows" have become the latest development of the modern window industry.

At present, most of the smart windows ubiquitous on the market only have the function of intelligent electric window opening, and a few have the function of electric curtain opening. Most smart windows with curtain opening are equipped with two sets of drive components, one for driving the window and the other for driving the curtain. This kind of structure has low integration and many components, which is not easy to manufacture and install, and the window aesthetics after installation is poor. It can be seen that the research on smart windows in the industry is still in a long infancy.

After retrieval, the application with the application number of 2013100485968 discloses a smart window, which includes a window frame, a window sash installed in the window frame, a motor capable of driving the window sash to travel, a transmission device, and an automatic control device connected to the motor. The transmission device It includes a speed reduction device and a sliding device. The speed reduction device is installed at a corner of the window frame. The sliding device is installed horizontally in a horizontal side of the window frame and the window sash. The speed reduction device is connected to the motor and the sliding device. The controller and the sub-controller, as well as the sensor components and limit components respectively connected with the main controller and the sub-controller, and the sub-controller is connected with the motor. The application has the advantages of beautiful appearance and high degree of intelligence.

Another example is the application No. 2018108042301, which discloses a window control device, which includes at least two racks, a driving gear, a transmission assembly and a drive motor. The racks are installed on a one-to-one corresponding switchable window panel, and the drive motor For driving the drive gear to rotate, the transmission assembly is used to selectively transmit the power of the drive gear to at least one rack to drive the rack to move in a straight line, and when the transmission assembly drives two or more racks to move, adjacent The rack moves in the opposite direction. This application is convenient for the staff to drive the adjacent window panels to move in the opposite direction to open and close the window panels, so as to realize the function of automatic control of ventilation or rain protection, and does not affect the manual opening and closing process of the window panels.

To sum up, a large number of technologies have been disclosed for the opening and closing control of smart windows, but they still generally focus on controlling the opening and closing of windows individually, and the centralized control of windows and curtains is still less involved, and the application convenience is still great. room for improvement.

Utility model content

1. Technical problems to be solved by the utility model

The purpose of this utility model is to aim at the current situation that it is difficult for smart windows to realize the opening and closing control of windows and curtains respectively, and it is intended to provide an intelligent window control system for automatic opening and closing, which can adopt the same set of driving systems for realizing the opening and closing of windows and curtains respectively. Opening and closing control, the overall structure is simple, the application is convenient, and it is suitable for promotion.

2. Technical solutions

In order to achieve the above object, the technical scheme provided by the present utility model is:

The automatic opening and closing intelligent window control system of the utility model comprises a window frame and an inner window arranged in a sliding fit inside the window frame, and a power unit arranged on the window frame, the power unit is used for driving the matching seat to reciprocate in a straight line In operation, the inner window is correspondingly provided with an upper connector for connecting and mating with the mating seat, and the window frame is correspondingly provided with a lower connector for connecting and mating with the mating seat, and the mating seat is respectively connected with the upper connector at different positions. It is independently connected and matched with the lower connector, the upper connector is used to drive the inner window to open and close, and the lower connector is used to drive the curtain to open and close.

Furthermore, an installation hole is opened in the upper connector, and an armature column is installed in the installation hole in a sliding fit, and a return spring is arranged between the end of the armature column and the installation hole; a matching seat is correspondingly provided for the armature column to cooperate with. The upper matching hole is inserted, and the outer periphery of the upper matching hole is equipped with an electromagnetic coil; for the same reason, the structure of the lower connector is the same as that of the upper connector. The outer periphery of the matching hole is also matched with an electromagnetic coil.

Further, the ends of the upper matching hole and the lower matching hole are provided with in-position switches.

Further, the upper connector is arranged at the bottom of the inner window, the lower connector is arranged at the bottom of the window frame, the upper part of the mating seat is an upper mating seat that is mated and connected with the upper connector, and the lower part is a lower mating seat that is mated and connected with the lower connector. .

Further, the bottom of the window frame is also provided with a conveying guide roller and a lower conveying rope, the lower connector is fitted on the lower conveying rope and drives the lower conveying rope to transmit synchronously, the side of the window frame is provided with a side conveying rope, and the upper part of the window frame is provided with a side conveying rope. There is an upper transmission rope 1 and an upper transmission rope 2, the adjacent ends of the lower transmission rope and the side transmission rope are conveyed synchronously through the lower double guide rollers, and the adjacent ends of the side transmission rope and the upper transmission rope 1 pass through the upper double guide rollers. The rollers realize synchronous transmission. The upper transmission rope 1 and the upper transmission rope 2 are respectively provided with a curtain control slider 1 and a curtain control slider 2 which are connected with the curtains on both sides. The ends of the upper transmission rope 1 and the upper transmission rope 2 are close to each other. The upper guide rollers are respectively provided with gears for meshing transmission, and the linear reciprocating operation of the lower connector drives the curtain control slider 1 and the curtain control slider 2 to run relatively far away or close to each other, so as to realize the corresponding opening and closing of the curtains on both sides.

Further, the bottom of the window frame is correspondingly provided with a lower rail along the running track of the lower connector, and the lower connector reciprocates along the lower rail; the upper part of the window frame is along the running tracks of the curtain control slider 1 and the curtain control slider 2 respectively. Correspondingly, there is an upper slide rail.

Furthermore, the bottom of the window frame is correspondingly provided with a sliding rail along the movement track of the matching seat, and the matching seat reciprocates along the sliding rail under the driving of the power unit.

Furthermore, the power unit includes a power motor and a drive screw, the matching seat is a screw sleeve fitted on the drive screw, and the power motor drives the matching seat to reciprocate linearly.

Furthermore, the bottom, the side and the upper part of the window frame are also correspondingly provided with a bottom baffle, a side baffle and a top baffle, which are respectively used to cover the internal structure.

3. Beneficial effects

Compared with the prior art, the technical scheme provided by the present utility model has the following beneficial effects:

(1) The intelligent window control system of the present utility model can realize the respective opening and closing control of the inner window and the curtain by using the same group of power units. It is beneficial to reduce manufacturing cost and installation difficulty, and after installation, the overall structure is beautiful, the production cost is low, and it is easy to popularize and apply.

(2) The intelligent window control system of the present utility model realizes the connection and disengagement control of the connector and the mating seat through the cooperation of the electromagnetic coil and the armature column, which is convenient to operate and easy to control. In the connected state, the window can be automatically opened and closed by the drive of the power unit; when the connector and the mating seat are disengaged from each other, they do not hinder each other, and the traditional manual method can still be used to directly open and close the window, that is, keep With automatic window opening function and manual window opening function, it is more convenient and flexible to use.

(3) In the intelligent window control system of the present utility model, during the linear reciprocating operation of the matching seat, the electromagnetic coil is kept energized, thereby generating electromagnetic adsorption force, and it is always in the search state of the precise position during the operation process, and only when the corresponding armature pole is reached Only when it is in its position can the armature post be adsorbed and inserted into the mating hole accurately to complete the connection between the mating seat and the connector, so that the precise positioning of the overlapping position of the mating seat and the connector can be realized, especially to ensure that the mating seat is in different mating positions. Precise finding and positioning of different connectors.

(4) In the intelligent window control system of the present invention, the bottom of the window frame is correspondingly provided with a sliding rail along the running track of the lower connector, and the upper part of the window frame corresponds to the running track of the curtain control slider one and the curtain control slider two respectively. Equipped with upper slide rails to achieve stable guidance for the opening and closing process.

(5) In the intelligent window control system of the present invention, the bottom, side and upper parts of the window frame are also correspondingly provided with a bottom baffle, a side baffle and a top baffle, which are respectively used to cover the internal structure, which effectively protects the internal structure, Also keep the overall look nice.

Description of drawings

Fig. 1 is the structural representation of the intelligent window control system of the present invention;

Fig. 2 is the appearance schematic diagram of the intelligent window control system of the present invention;

Fig. 3 is the partial enlarged structure schematic diagram of A place in Fig. 1;

4 is a schematic cross-sectional structural diagram of a mating seat and an upper connector in the present invention;

Fig. 5 is a partial enlarged structural schematic diagram at B in Fig. 1;

FIG. 6 is a partial enlarged schematic view of the structure at C in FIG. 1 .

Description of the labels in the diagram:

100, window frame; 101, inner window; 102, bottom baffle; 103, side baffle; 104, top baffle; 105, upper connector; 106, armature column; 107, return spring; 200, power motor; 201 , drive screw; 202, matching seat; 203, upper matching seat; 204, upper matching hole; 205, lower matching hole; 206, electromagnetic coil; 207, in-position switch; 300, lower connector; 301, lower rail; 302 303, lower transmission rope; 304, lower double guide roller; 305, side transmission rope; 306, upper transmission rope 1; 307, upper single guide roller 1; 308, gear; 309, upper single guide roller Two; 310, the upper slide rail; 311, the curtain control slider one; 312, the curtain control slider two; 313, the upper transmission rope two.

Detailed ways

In order to further understand the content of the present utility model, the present utility model is described in detail with reference to the accompanying drawings.

In the description of the present invention, it should be noted that the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner" and "outer" The orientation or positional relationship indicated by etc. is based on the orientation or positional relationship shown in the accompanying drawings, which is only for the convenience of describing the present invention and simplifying the description, rather than indicating or implying that the referred device or element must have a specific orientation, with a specific orientation. Therefore, it should not be construed as a limitation on the present invention. Furthermore, the terms "first", "second", and "third" are used for descriptive purposes only and should not be construed to indicate or imply relative importance.

The present utility model will be further described below in conjunction with the embodiments.

Example 1

As shown in FIG. 1-FIG. 6, an automatic opening and closing intelligent window control system of the present embodiment includes a window frame 100 and an inner window 101 arranged in a sliding fit inside the window. Specifically, two inner windows 101 may be used. Including a power unit arranged on the window frame 100, the power unit is used to drive the mating seat 202 to reciprocate in a straight line, wherein the inner window 101 is correspondingly provided with an upper connector 105 for connecting and mating with the mating seat 202, and the window frame 100 A lower connector 300 is correspondingly provided on the upper part for connecting and mating with the mating seat 202. The mating seat 202 is independently connected and matched with the upper connector 105 and the lower connector 300 at different positions, and the upper connector 105 is used to drive the inner window 101. For opening and closing operation, the lower connector 300 is used to drive the curtain to open and close.

Specifically, as shown in FIG. 1 , in this embodiment, the power unit can be in the form of a power motor 200 and a drive screw 201 . The power motor 200 is arranged on the window frame 100 , and the output end is connected to one end of the drive screw 201 . The other end of the rod 201 can be rotatably connected to the window frame 100, the power motor 200 is used to drive the rotation of the transmission screw 201, the matching seat 202 is a screw sleeve installed on the transmission screw 201, and the window frame The bottom of 100 is provided with a sliding rail along the length extending direction, and the bottom of the matching seat 202 is matched with the sliding rail, so that the matching seat 202 is driven by the power motor 200 to reciprocate along the direction of the sliding rail, so as to realize the linear reciprocating operation of the matching seat 202 Control, in the same way, in practice, the power unit can also adopt other power drive structures in the industry to realize the control of the linear reciprocating operation of the mating seat 202, which will not be described in detail here.

In this embodiment, the upper connector 105 and the lower connector 300 are arranged at different positions. When the inner window 101 needs to be controlled, the mating seat 202 is driven by the power unit to reach the position of the upper connector 105, and the mating seat 202 and the upper connector 105 are controlled to realize Connecting relationship, the upper connector 105 is synchronously driven to run in a straight line. Since the upper connector 105 maintains a connection relationship with the inner window 101, that is, the linear running of the inner window 101 is synchronously driven, and the opening and closing of the inner window 101 is controlled at this time to achieve a suitable After the position, the mating seat 202 can be controlled to be disconnected from the upper connector 105; and during the period when the mating seat 202 and the upper connector 105 maintain the connection relationship, the mating seat 202 and the lower connector 300 are not connected; conversely, when it is necessary to control When the curtain is used, the matching seat 202 is driven by the power unit to reach the position of the lower connector 300, and the matching seat 202 is controlled to realize the connection relationship with the lower connector 300, and the lower connector 300 is synchronously driven to run in a straight line. There is a connection control relationship between them, that is, the opening and closing of the curtain can be controlled, and after reaching an appropriate position, the matching seat 202 can be controlled to be disconnected from the lower connector 300; The socket 202 and the upper connector 105 are not connected. Specifically, the independent connection and disengagement of the mating seat 202 with the upper connector 105 and the lower connector 300 can be performed by electromagnetic adsorption or other structural methods, which will not be described in detail here.

In this embodiment, the same group of power units can be used to realize the respective opening and closing control of the inner window 101 and the curtain. Under the premise of realizing multi-function, the structural integration is high, the driving structure is simplified, and it is beneficial to reduce manufacturing costs and reduce It is difficult to install, and the overall structure after installation is beautiful, the production cost is low, and it is easy to popularize and apply. The window 101 is controlled to open and close to meet flexible application. Similarly, the curtain control can also be controlled flexibly.

Example 2

The automatic opening and closing intelligent window control system of this embodiment is basically the same as that of the first embodiment. More specifically, as shown in FIG. 105 is provided with a through installation hole, the armature post 106 is slidably installed in the installation hole, and a return spring 107 is arranged between the end of the armature post 106 and the installation hole; The left end of the column 106 is provided with a spring mounting seat, the return spring 107 is sleeved on the outer circumference of the armature column 106 and the left end is connected to the spring mounting seat, and the right end is mounted against the inner wall of the stepped section of the mounting hole. When the armature column 106 is adsorbed by external force When it protrudes out of the mounting hole, the return spring 107 is pressed inward, and when the armature post 106 is released from adsorption, the interior of the upper connector 105 is retracted again under the action of the return spring 107 . An upper matching hole 204 for the armature post 106 to be inserted into the matching seat 202 is correspondingly provided, and an electromagnetic coil 206 is matched with the outer circumference of the upper matching hole 204; the electromagnetic coil 206 will generate electromagnetic adsorption force when the matching seat 202 is in a straight line. During operation, when the upper matching hole 204 reaches the position corresponding to the coinciding position with the armature post 106, the adsorption force of the electromagnetic coil 206 will attract the armature post 106 to the upper matching hole 204 to realize the connection. After the electromagnetic coil 206 is powered off, the armature post 106 exits the upper mating hole 204 to realize separation, so that the connection and separation state control of the mating seat 202 and the upper connector 105 can be flexibly realized.

Similarly, in the present embodiment, the structure of the lower connector 300 is the same as that of the upper connector 105 . The mating seat 202 is provided with a lower mating hole 205 for mating and connecting with the lower connector 300 , and the outer periphery of the lower mating hole 205 is also mated with a lower mating hole 205 . Solenoid coil 206 . Similarly, when the electromagnetic coil 206 remains energized, an electromagnetic adsorption force is generated. When the mating seat 202 is running in a straight line, when the lower mating hole 205 reaches the position coincident with the armature post in the lower connector 300, the electromagnetic coil 206 is attracted The armature column in the lower connector 300 is adsorbed and inserted into the lower matching hole 205 by force. When the power is turned off, the armature column in the lower connector 300 is reset and disengaged under the action of the return spring. And the ends of the upper matching hole 204 and the lower matching hole 205 are provided with in-position switches 207 . During the connection process, when the armature pole touches the in-position switch 207, it indicates that the connection is completed, and the power unit can continue to drive to run in a straight line.

As shown in FIG. 3 , in this embodiment, the upper connector 105 is arranged at the bottom of the inner window 101 , the lower connector 300 is arranged at the bottom of the window frame 100 , and the upper connector 105 and the lower connector 300 are in different positions, and the upper part of the mating seat 202 The upper fitting seat 203 is matched with the upper connector 105, and the lower part is the lower fitting seat matched with the lower connector 300, so that the inner window 101 and the curtain can be controlled separately.

It should be noted that the present embodiment utilizes the matching method of the electromagnetic coil 206 and the armature post 106 to control the power-on and power-off states of the electromagnetic coil 206 to achieve flexible control of the connection and disconnection between the mating seat 202 and the connector. During application, the power unit drives the mating seat 202 to run in a straight line, and the electromagnetic coil 206 remains energized, that is, it maintains a state of adsorption force. When the 202 runs to the position coincident with the upper connector 105 or the lower connector 300, the armature post 106 at the corresponding position can be adsorbed to realize the connection. In this process, the precise positioning of the connection position between the mating seat 202 and the connector is ensured. In particular, it can ensure that the mating seat 202 can accurately find and locate different connectors at different mating positions, that is, through the on-off control of the electromagnetic coils 206 in different positions, it can accurately find the upper connector 105 or the lower connector 300. to connect.

In this embodiment, the cooperation between the electromagnetic coil 206 and the armature post 106 is also helpful to realize the dual application of manual opening and closing control and electric opening and closing control. The window is driven to open and close electrically; and when the mating seat 202 and the connector are in a disengaged state, the two do not contact each other and will not interfere with each other. At this time, the power unit can be completely stopped, and the traditional manual method is still used. The window or curtain can be opened and closed directly, that is, the automatic window opening function and the manual window opening function are retained at the same time. Compared with the existing conventional smart windows that can only be opened electrically, the application method is more flexible and convenient.

Example 3

The automatic opening and closing intelligent window control system of this embodiment is basically the same as the above-mentioned embodiment. More specifically, as shown in FIG. 3 , FIG. 5 and FIG. 6 , the bottom of the window frame 100 in this embodiment is further provided with a transmission guide The roller and the lower transmission rope 303, the lower connector 300 is installed on the lower transmission rope 303 and drives the lower transmission rope 303 to transmit synchronously, the side transmission rope 305 is provided on the side of the window frame 100, and the upper transmission rope is provided on the upper part of the window frame 100 The first 306 and the second upper transmission rope 313, the adjacent ends of the lower transmission rope 303 and the side transmission rope 305 are conveyed synchronously through the lower double guide rollers 304, and the adjacent ends of the side transmission rope 305 and the upper transmission rope 306 pass through the upper The double guide rollers realize synchronous transmission. The upper transmission rope 1 306 and the upper transmission rope 2 313 are respectively provided with a curtain control slider 1 311 and a curtain control slider 2 312 connected to the curtains on both sides, and the upper transmission rope 1 306 and the uploader The guide rollers at the ends of the second rope feeder 313 that are close to each other are respectively provided with gears 308 for meshing transmission. , so as to realize the corresponding opening and closing of the curtains on both sides.

Specifically, the bottom of the window frame 100 is provided with a lower single guide roller 302 and a lower double guide roller 304, and the lower conveying rope 303 is installed around the lower single guide roller 302 and the lower double guide roller 304. The single guide roller is the The upper part is only suitable for installing a single conveyor rope, and the double guide rollers, that is, the upper part is provided with double-sided guide roller grooves, which can be suitable for installing two conveyor ropes at the same time; as shown in Figure 5, the lower double guide rollers 304 are located on the side of the window frame 100 position, the lower double guide roller 304 is connected with the lower transmission rope 303 and the side transmission rope 305 at the same time, and the lower connector 300 is arranged on the lower transmission rope 303 to drive the circumferential rotation of the lower transmission rope 303; The top is also in the form of double guide rollers, that is, as shown in Figure 6, the left side of the upper conveying rope 306 adopts an upper single guide roller 307, and the right side and the top of the side conveying rope 305 use a set of double guide rollers, and the side conveying ropes use a set of double guide rollers. The movement of 305 drives the movement of the upper transmission rope 1 306; both ends of the upper transmission rope 313 can be in the form of single guide rollers, the right end of which is the upper single guide roller 2 309, and the upper single guide roller 2 309 and the upper single guide roller. The roller shafts of roller one 307 are provided with gears 308 that mesh with each other. In this way, the relative movement of the upper transmission rope 1 306 and the upper transmission rope 2 313 is realized, that is, the curtain control slider one 311 and the curtain control slider two are finally realized. The relative motion control of 312 can control the opening and closing of the curtains on both sides. Specifically, the first curtain control slider 311 and the second curtain control slider 312 are respectively connected with the ends of the curtains on the corresponding sides, that is, the curtains are driven to open and close.

In this embodiment, the bottom of the window frame 100 is correspondingly provided with a lower rail 301 along the running track of the lower connector 300, and the lower connector 300 reciprocates along the lower rail 301; The upper slide rails 310 are respectively corresponding to the running tracks of the second sliding blocks 312, so as to realize stable guidance for the opening and closing process.

In this embodiment, a bottom baffle 102 , a side baffle 103 and a top baffle 104 are correspondingly provided at the bottom, sides and upper part of the window frame 100 , respectively, which are used to cover the internal structure. The schematic diagram of the appearance not only effectively protects the internal structure, but also maintains the overall appearance.

An automatic opening and closing intelligent window control method of the present embodiment, using the control system in the above-mentioned embodiment, includes the following steps:

S1. When the inner window 101 is controlled to open and close, the power unit drives the mating seat 202 to run in a straight line. Due to the adsorption effect of the electromagnetic coil 206 in the mating seat 202, when the mating seat 202 reaches the position of the upper connector 105, the upper connector 105 will be inserted into the upper connector 105. The armature post 106 is inserted into the upper matching hole 204 by adsorption, so that the matching seat 202 and the upper connector 105 remain connected, and the matching seat 202 synchronously drives the inner window 101 to open and close in a straight line; when the inner window 101 reaches a suitable position, the matching seat 202 The inner electromagnetic coil 206 is powered off, the armature post 106 is reset, and the mating seat 202 and the upper connector 105 remain disconnected; the opening and closing control of the inner window 101 is completed;

S2. When the curtain is controlled to open and close, the power unit drives the matching seat 202 to run in a straight line. Due to the adsorption effect of the electromagnetic coil 206 in the matching seat 202, when the matching seat 202 reaches the position of the lower connector 300, the armature column in the lower connector 300 is moved. Adsorbing and inserting into the lower matching hole 205 to keep the matching seat 202 and the lower connector 300 connected, and the matching seat 202 synchronously drives the lower connector 300 to run in a straight line;

S3. The linear running of the lower connector 300 synchronously drives the lower transmission rope 303 to run linearly, and is transmitted through the side transmission rope 305 to finally realize the relative operation of the upper transmission rope 1 306 and the upper transmission rope 2 313, so that the curtain control slider 1 311 and the curtain The control slider 2 312 controls the opening and closing of the curtain relative to the operation; when the curtain reaches an appropriate position, the electromagnetic coil 206 in the matching seat 202 is powered off, and the matching seat 202 and the lower connector 300 remain disconnected; the opening and closing control of the curtain is completed.

The present invention and its embodiments have been schematically described above, and the description is not restrictive, and what is shown in the accompanying drawings is only one of the embodiments of the present invention, and the actual structure is not limited thereto. Therefore, if those of ordinary skill in the art are inspired by it, without departing from the purpose of creation of the present utility model, without creative design of the structural mode and embodiment similar to the technical solution, all should belong to the present utility model. protected range.

Claims (9)

1. An intelligent window control system for automatic opening and closing, comprising a window frame (100) and an inner window (101) arranged in a sliding fit in the interior thereof, characterized in that: also comprising a power unit arranged on the window frame (100) , the power unit is used to drive the mating seat (202) to reciprocate in a straight line, the inner window (101) is correspondingly provided with an upper connector (105) for connecting and mating with the mating seat (202), and the window frame (100) is provided with an upper connector (105). Correspondingly, a lower connector (300) for connecting and mating with the mating seat (202) is provided. The connector (105) is used to drive the inner window (101) to open and close, and the lower connector (300) is used to drive the curtain to open and close. 2. An automatic opening and closing intelligent window control system according to claim 1, wherein the upper connector (105) is provided with a mounting hole, and the armature post (106) is slidably installed in the mounting hole, A return spring (107) is arranged between the end of the armature post (106) and the mounting hole; the upper fitting hole (204) for the fitting and insertion of the armature post (106) is correspondingly provided in the fitting seat (202), and the upper fitting hole (204) An electromagnetic coil (206) is fitted on the outer periphery; similarly, the structure of the lower connector (300) is the same as that of the upper connector (105). The lower matching hole (205) is matched and connected, and the outer periphery of the lower matching hole (205) is also matched with an electromagnetic coil (206). 3 . The automatic opening and closing intelligent window control system according to claim 2 , wherein the ends of the upper matching hole ( 204 ) and the lower matching hole ( 205 ) are provided with in-position switches ( 207 ). 4 . 4. The intelligent window control system for automatic opening and closing according to claim 2, wherein the upper connector (105) is arranged at the bottom of the inner window (101), and the lower connector (300) is arranged at the window frame ( 100) Bottom, the upper part of the mating seat (202) is an upper mating seat (203) that is matingly connected with the upper connector (105), and the lower part is a lower mating seat that is matingly connected with the lower connector (300). 5. An automatic opening and closing intelligent window control system according to claim 1, characterized in that: the bottom of the window frame (100) is further provided with a transmission guide roller and a lower transmission rope (303), and a lower connector (300) It is installed on the lower transmission rope (303) and drives the lower transmission rope (303) to transmit synchronously. The side transmission rope (305) is provided on the side of the window frame (100), and the upper transmission rope (306) and the upper transmission rope two (313), the adjacent ends of the lower transmission rope (303) and the side transmission rope (305) are conveyed synchronously through the lower double guide rollers (304), and the side transmission rope (305) and the upper transmission rope (305) The adjacent ends of the first rope (306) are conveyed synchronously through the upper double guide rollers. The upper transmission rope 1 (306) and the upper transmission rope 2 (313) are respectively provided with curtain control sliders which are connected with the curtains on both sides. The first (311) and the second curtain control slider (312), the upper transmission rope 1 (306) and the upper transmission rope 2 (313) are respectively provided with meshing gears (308) on the end guide rollers that are close to each other. The linear reciprocating operation of the connector (300) drives the curtain control slider one (311) and the curtain control slider two (312) to run relatively far away or close to each other, thereby realizing the corresponding opening and closing of the curtains on both sides. 6 . The intelligent window control system for automatic opening and closing according to claim 5 , wherein the bottom of the window frame ( 100 ) is correspondingly provided with a slide rail ( 301 ) along the running track of the lower connector ( 300 ). 7 . The lower connector (300) reciprocates along the slide rail (301); the upper part of the window frame (100) is respectively provided with an upper slide rail corresponding to the running tracks of the curtain control slide one (311) and the curtain control slide two (312). (310). 7. The intelligent window control system for automatic opening and closing according to claim 1, wherein the bottom of the window frame (100) is correspondingly provided with a sliding rail along the movement track of the matching seat (202), and the matching seat (202) ) is driven by the power unit to reciprocate along the slide rail. 8. An automatic opening and closing intelligent window control system according to claim 7, characterized in that: the power unit comprises a power motor (200) and a transmission screw (201), and the matching seat (202) is installed in the transmission The lead screw sleeve on the lead screw (201), the power motor (200) drives the matching seat (202) to reciprocate linearly. 9. An automatic opening and closing intelligent window control system according to any one of claims 1-8, characterized in that: the bottom, sides and upper parts of the window frame (100) are also correspondingly provided with a bottom baffle (102). ), side baffles (103) and top baffles (104), respectively, are used to cover the internal structure.

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