CN116696194A - Concealed motor type electric window - Google Patents

Abstract

The application relates to a hidden motor type electric window, comprising: the window frame is provided with an upper transverse frame, an accommodating space is formed in the upper transverse frame, and a communication hole with the accommodating space is formed in the upper transverse frame; the window sash is arranged on one side of the window frame; the electric opener is accommodated in the accommodating space, and the output end of the electric opener is arranged in the communication hole. Since the electric opener is installed inside the upper cross frame, the visible area of the window is not blocked. Compared with the design of externally arranging the electric opener on the upper transverse frame, the hidden installation enables the upper part of the window to completely present a glass surface, and the light transmission area of the window is increased. Therefore, when a user watches outdoor landscapes or enjoys indoor lighting, the user can obtain wider visual field and more natural light, and secondly, the structure can be realized only by adding the containing space and the communication hole on the upper transverse frame, the special section bar is not required to be designed, the thickness of the section bar is not required to be increased, natural compatibility can be realized, the research and development period is greatly shortened, and the production and stock cost is reduced.

Description

Concealed motor type electric window

Technical Field

The application relates to the technical field of electric windows, in particular to a hidden motor type electric window.

Background

The power window refers to a window in which a power opening and closing function is installed. Compared with the traditional manual window, the electric window has greater convenience and comfort. The motor and the control system are arranged, so that automatic opening and closing operation can be realized through buttons, a remote controller or an automatic sensor, and manual labor is not required.

Some power windows employ a conventional window type (refer to fig. 1), in which a power opener (reference numeral 10 in fig. 1) is mounted on an upper cross frame (reference numeral 1 in fig. 1) and connected to a window sash (reference numeral 3 in fig. 1) through a guide profile (reference numeral 2 in fig. 1). However, this design may present some problems. Firstly, since the guide profile is located between the upper horizontal frame and the lower frame (reference numeral 4 in fig. 1) and is fixedly connected with the vertical frames on both sides, it can partially shield the visible area of the window sash glass, reducing the light transmission area of the window, which may affect the indoor lighting effect.

In addition, when installing and repairing the electric opener, the operating space (reference numeral 5 in fig. 1) is limited due to the presence of the guide profile, which may lead to more difficult disassembly and installation processes. This may cause certain inconveniences for repair and maintenance of the window.

The Chinese patent discloses a patent number: CN217054852U is a hidden unit curtain wall electric opening window system. The system is used for hiding the electric opener in the lower transverse frame, so that the whole curtain wall structure is more attractive, and potential safety hazards possibly caused by the exposure of electric components are avoided. However, in the production process, in order to adapt to the electric opener, the original profile needs to be modified, and a special profile is designed to realize the electric opener, so that the width of the lower frame is increased, the light transmission area of the window is reduced, and the research and development cost and the research and development period of the profile are increased.

In addition, the electric opening window system of the hidden unit curtain wall has higher requirements on waterproof performance, and materials such as waterproof aluminum plates, sealant and the like are required to be arranged in the system. However, this may increase the thickness of the lower rim and may cause heat of the electric opener to be not effectively discharged, possibly affecting its normal operation.

Therefore, there is an urgent need for a hidden motor type electric window to solve the problem that the light transmission area of the window is reduced due to the installation of an electric opener, and meanwhile, a special profile is not required to be designed, so that natural compatibility can be realized.

Disclosure of Invention

The application aims to provide a hidden motor type electric window, which solves the problem that the light transmission area of the window is reduced due to the installation of an electric opener, and meanwhile, the natural compatibility can be realized without designing special sectional materials.

According to an aspect of the present application, there is provided a hidden motor type power window, the power window comprising:

the window frame is provided with an upper transverse frame, an accommodating space is formed in the upper transverse frame, and a communication hole with the accommodating space is formed in the upper transverse frame;

the window sash is arranged on one side of the window frame;

the electric opener is accommodated in the accommodating space, and the output end of the electric opener is arranged in the communication hole;

and one end of the connecting component is arranged at the output end of the electric opener, and the other end of the connecting component is arranged at the window sash.

In at least one embodiment of the application, the upper rim of the sash has a side wall located on a side adjacent to the electric opener;

the connection assembly includes:

the guide piece is arranged on the side wall and is provided with a guide groove along the length direction of the upper frame of the window sash;

and one end of the connecting piece is arranged at the output end of the electric opener, and the other end of the connecting piece is arranged in the guide groove.

In at least one embodiment of the application, the connector is located between the guide and the upper cross frame.

In at least one embodiment of the application, a bottom surface is arranged on one side of the guide piece away from the electric opener, and the vertical distance between the bottom surface and the upper transverse frame is denoted as a;

a bottom wall is arranged on one side, far away from the electric opener, of the upper frame of the window sash, and the vertical distance between the bottom wall and the upper transverse frame is denoted as b; the relation is satisfied: a < b.

In at least one embodiment of the present application, a first mounting hole is formed at one end of the connecting piece, which is close to the electric opener;

the output end of the electric opener is provided with a second mounting hole, and the second mounting hole is positioned at one side of the electric opener, which is close to the fixing piece;

the connection assembly further includes:

and one end of the fixing piece is abutted with the connecting piece, and the other end of the fixing piece extends into the first mounting hole and is detachably connected with the output end of the electric opener.

In at least one embodiment of the present application, the connection assembly further comprises:

the sliding part is positioned in the guide groove and can slide in the guide groove, and the sliding part is arranged at one end of the connecting part far away from the electric opener.

In at least one embodiment of the present application, the guide groove is formed on one side of the guide piece, which is close to the upper transverse frame;

the communication hole is formed in one side, close to the bottom surface, of the upper transverse frame.

In at least one embodiment of the application, an opening communicated with the accommodating space is formed on one side, close to the room, of the upper transverse frame, and the opening is positioned on one side, far from the window sash;

the hidden motor type electric window further comprises:

the mounting plate is detachably arranged on the opening;

a first direction, which is a direction from the mounting plate to the electric opener, along which the mounting plate completely shields the opening.

In at least one embodiment of the present application, the hidden motor type power window further includes:

the window screen is arranged on one side, far away from the window sash, of the window frame, an avoidance groove is formed in one side, close to the window sash, of the window screen, and the connecting assembly can be accommodated in the avoidance groove;

the vertical distance from the bottom wall of the upper frame of the screen window to the upper transverse frame is marked as c, and the relation is satisfied: c < b.

In at least one embodiment of the present application, the hidden motor type power window further includes:

enclose and establish the piece, electronic opener locates enclose and establish in the piece, enclose and establish the piece and locate on the upper transverse frame, enclose and establish the piece with upper transverse frame encloses and establishes and form accommodation space.

The implementation of the embodiment of the application has the following beneficial effects:

1. the hidden motor type electric window in the embodiment is provided with an upper transverse frame, wherein an accommodating space is formed in the upper transverse frame, and a communication hole with the accommodating space is formed in the upper transverse frame; the window sash is arranged on one side of the window frame; the electric opener is accommodated in the accommodating space, and the output end of the electric opener is arranged in the communication hole.

Since the electric opener is installed inside the upper cross frame, the visible area of the window is not blocked. Compared with the design of externally arranging the electric opener on the upper transverse frame, the hidden installation enables the upper part of the window to completely present a glass surface, and the light transmission area of the window is increased. Therefore, when a user watches outdoor landscapes or enjoys indoor lighting, the user can obtain wider visual field and more natural light, and secondly, the structure can be realized only by adding the containing space and the communication hole on the upper transverse frame, the special section bar is not required to be designed, the thickness of the section bar is not required to be increased, natural compatibility can be realized, the research and development period is greatly shortened, and the production and stock cost is reduced.

Second, the output shaft of the electric opener is connected with the connection assembly through the communication hole, thereby reducing the window arch width of the window frame.

2. In the hidden motor type electric window in this embodiment, since the vertical distance from the bottom surface to the upper horizontal frame is smaller than the vertical distance from the bottom wall to the upper horizontal frame, the upper frame of the window sash completely shields the guide member when viewed along the direction parallel to the window sash glass, so as to avoid the guide member shielding the visible surface of the window sash. Thus, the user can obtain wider view and more natural light when watching outdoor landscape or enjoying indoor lighting.

3. In the motor-hidden type electric window in the embodiment, the mounting plate completely shields the opening along the first direction, so that the electric opener is contained in the relatively closed containing space, and the electric opener is prevented from being interfered or damaged by the outside. Secondly, because the mounting panel detachable locates the opening for in maintenance, clearance or installation electric opener's in-process, can dismantle the mounting panel, operation such as maintenance, clearance or installation are carried out to electric opener in the accommodation space.

Drawings

In order to more clearly illustrate the embodiments of the application or the technical solutions in the prior art, the drawings that are required in the embodiments or the description of the prior art will be briefly described, it being obvious that the drawings in the following description are only some embodiments of the application, and that other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

FIG. 1 is a schematic view of a conventional power window;

FIG. 2 is a schematic view of a hidden motor type power window according to an embodiment of the present application;

FIG. 3 is an exploded view of the hidden motor type motorized window of FIG. 2;

FIG. 4 is a schematic view of a portion of the connection assembly of FIG. 3;

FIG. 5 is a schematic view of another angle structure of the hidden motor type power window of FIG. 2;

FIG. 6 is a cross-sectional view of a portion of the structure of the hidden motor-driven window of FIG. 2 (upper cross frame in closed position);

fig. 7 is a window opening state diagram of the hidden motor type power window of fig. 2.

Wherein: 100. hiding the motor type electric window;

110. a window frame; 111. an upper horizontal frame; 111a, an accommodating space; 111b, communication holes; 111c, openings;

120. window sashes; 120a, sidewalls; 120b, a bottom wall;

130. an electric opener;

140. a connection assembly; 141. a guide member; 141a, guide grooves; 141b, bottom surface; 142. a connecting piece; 142a, a first mounting hole; 143. an output end; 143a, second mounting holes; 144. a fixing member; 145. a slider;

150. a mounting plate; A. a first direction;

160. a screen window; 160a, avoiding grooves.

Detailed Description

In order that the application may be readily understood, a more complete description of the application will be rendered by reference to the appended drawings. Preferred embodiments of the present application are shown in the drawings. This application may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete.

It will be understood that when an element is referred to as being "fixed to" another element, it can be directly on the other element or intervening elements may also be present. When an element is referred to as being "connected" to another element, it can be directly connected to the other element or intervening elements may also be present. The terms "vertical," "horizontal," "left," "right," and the like are used herein for illustrative purposes only.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this application belongs. The terminology used herein in the description of the application is for the purpose of describing particular embodiments only and is not intended to be limiting of the application. The term "and/or" as used herein includes any and all combinations of one or more of the associated listed items.

Referring to fig. 2-7, an embodiment of the present application provides a hidden motor type electric window, where the hidden motor type electric window 100 in this embodiment includes:

a window frame 110 having an upper horizontal frame 111, wherein an accommodation space 111a is formed in the upper horizontal frame 111, and a communication hole 111b is formed in the upper horizontal frame 111 and communicates with the accommodation space 111a;

a window sash 120 provided at one side of the window frame 110;

an electric opener 130 accommodated in the accommodation space 111a, an output end 143 of the electric opener 130 being provided in the communication hole 111b;

the connection assembly 140 has one end provided at the output 143 of the electric opener 130 and the other end provided at the window sash 120.

In the present embodiment, the window frame 110 has an upper horizontal frame 111, a housing space 111a is formed in the upper horizontal frame 111, and a communication hole 111b is formed in the upper horizontal frame 111 to communicate with the housing space 111a; a window sash 120 provided at one side of the window frame 110; the electric opener 130 is accommodated in the accommodation space 111a, and an output end 143 of the electric opener 130 is provided in the communication hole 111 b.

Next, the output shaft of the electric opener 130 is connected to the connection assembly 140 through the communication hole 111b, thereby reducing the window arch width of the window frame 110.

Since the electric opener 130 is installed inside the upper cross frame 111, the visible area of the window is not blocked. Compared with the design of externally arranging the electric opener 130 on the upper transverse frame 111, the hidden installation enables the upper part of the window to completely present a glass surface, and the light transmission area of the window is increased. Therefore, when a user watches outdoor landscapes or enjoys indoor lighting, the user can obtain wider visual field and more natural light, and secondly, the structure can be realized only by adding the containing space 111a and the communication hole 111b on the upper transverse frame 111, the special section bar is not required to be designed, the thickness of the section bar is not required to be increased, natural compatibility can be realized, the research and development period is greatly shortened, and the production and stock cost is reduced.

Note that, the window frame 110 has a rectangular frame shape; the outer shape of the upper horizontal frame 111 is substantially square or rectangular, and in this embodiment, the outer shape of the upper horizontal frame 111 is substantially square, and the upper horizontal frame 111 is a horizontal frame of the window frame 110 far from the ground; the communication hole 111b is a circular through hole for communicating the outside with the accommodation space 111a; the window sash 120 is a square frame; the electric opener 130 is a rocker motor, a rotary motor, a motor, or the like, and in this embodiment, the electric opener 130 is a rocker motor; the accommodating space 111a is a space for accommodating the electric opener 130; the window frame 110 is for fixing to a wall.

One side of the window sash 120 is rotatably connected with the window frame 110; the electric opener 130 is fixed in the housing space 111a by means of screws, bolts, or the like.

In at least one embodiment of the present application, the upper rim of the window sash 120 has a sidewall 120a, the sidewall 120a being located at a side near the electric opener 130;

the connection assembly 140 includes:

the guide member 141 is arranged on the side wall 120a, and the guide member 141 is provided with a guide groove 141a along the length direction of the upper frame of the window sash 120;

the connecting member 142 has one end provided at the output end 143 of the electric opener 130 and the other end provided in the guide groove 141 a.

In at least one embodiment of the present application, the connection 142 is located between the guide 141 and the upper cross frame 111.

In at least one embodiment of the present application, a bottom surface 141b is provided on a side of the guide member 141 remote from the electric opener 130, and a vertical distance from the bottom surface 141b to the upper cross frame 111 is denoted as a;

a bottom wall 120b is arranged on one side of the upper frame of the window sash 120 far away from the electric opener 130, and the vertical distance from the bottom wall 120b to the upper transverse frame 111 is denoted as b; the relation is satisfied: a < b.

Referring to fig. 2 to 7, in the present embodiment, when the electric opener 130 is activated, the connecting piece 142 is matched with the guiding groove 141a, so that the connecting piece 142 can slide along the path of the guiding groove 141a to drive the window sash 120 to perform opening and closing movement relative to the window frame 110.

When the window is opened, the electric opener 130 rotates forward to output torque, and drives the connecting piece 142 to rotate, so that the connecting piece 142 slides in the guide groove 141a along the path of the guide groove 141a, and one side of the window sash 120 is controlled to move in a direction away from the window frame 110, so that the window is opened, and the electric window is a flat-open window in the embodiment.

When the window is closed, the electric opener 130 reversely rotates to output torque, and drives the connecting piece 142 to rotate, so that the connecting piece 142 slides in the guide groove 141a along the path of the guide groove 141a, and one side of the window sash 120 is controlled to move towards the direction close to the window frame 110 to close the window, and the electric window is a flat-open window in the embodiment.

Since the vertical distance from the bottom surface 141b to the upper horizontal frame 111 is smaller than the vertical distance from the bottom wall 120b to the upper horizontal frame 111, the upper rim of the window sash 120 completely shields the guide 141 as viewed in a direction parallel to the glass of the window sash 120, so as to avoid the guide 141 shielding the viewing surface of the window sash 120. Thus, the user can obtain wider view and more natural light when watching outdoor landscape or enjoying indoor lighting.

The guide 141 has a substantially rectangular cross-sectional plate, the guide 141 has a substantially concave cross-sectional shape, and the guide groove 141a has a rectangular groove; the connector 142 has a substantially rectangular plate shape; the bottom surface 141b is a side of the guide member 141 near the ground; the upper frame of the window sash 120 is a frame of the window sash 120 which is far away from the ground transversely; the bottom wall 120b is a surface of the upper frame of the window sash 120 close to the ground.

The guide 141 is fixed to the side wall 120a by means of a screw or a bolt or the like.

It should be further noted that, when viewed in the horizontal direction, the connecting element 142 is located between the guide element 141 and the upper cross frame 111, and when viewed in the horizontal direction, the upper frame of the window sash 120 completely shields the connecting element 142, so as to avoid the connecting element 142 shielding the visible surface of the window sash 120. Thus, the user can obtain wider view and more natural light when watching outdoor landscape or enjoying indoor lighting.

The guide member 141 serves to guide the movement trace of the link member 142 to slide along the guide groove 141a on the upper frame of the window sash 120.

The link 142 may slide along the upper rim of the window sash 120 under the guide of the guide 141 and maintain a good fit with the guide groove 141 a.

In at least one embodiment of the present application, the end of the connection member 142 near the electric opener 130 is provided with a first mounting hole 142a;

the output end 143 of the electric opener 130 is provided with a second mounting hole 143a, and the second mounting hole 143a is positioned on one side of the electric opener 130 close to the fixing piece 144;

the connection assembly 140 further includes:

and a fixing member 144 having one end abutting the connecting member 142 and the other end disposed in the second mounting hole 143 a.

In at least one embodiment of the present application, the connection assembly 140 further includes:

and a slider 145 positioned in the guide groove 141a, the slider 145 being capable of sliding in the guide groove 141a, the slider 145 being provided at an end of the connection member 142 remote from the electric opener 130.

In at least one embodiment of the present application, the guide groove 141a is opened at one side of the guide 141 near the upper cross frame 111; the communication hole 111b is provided on the side of the upper cross frame 111 near the bottom surface 141 b.

Referring to fig. 2 to 7, in the present embodiment, since the communication hole 111b is formed at a side of the upper cross frame 111 near the bottom surface 141b, that is, the communication hole 111b is formed in a vertically downward direction and is located at a side of the upper cross frame 111 near the ground. Since the communication hole 111b is located at a side of the upper cross frame 111 near the bottom surface 141b, the fixing member 144 is accommodated in the communication hole 111b, and the fixing member 144 shields the communication hole 111b from rainwater entering into the accommodating space 111a through the communication hole 111b when viewed vertically downward.

Even if rainwater enters the communication hole 111b, since the communication hole 111b is located at a side of the upper cross frame 111 near the bottom surface 141b, the rainwater can flow out through the communication hole 111b by gravity to prevent the rainwater from entering the accommodating space 111a.

Secondly, in combination with software control, the electric window can be automatically closed by software control in rainy days, so that rainwater is prevented from entering the accommodating space 111a.

The connection member 142 is mounted and fixed by the fixing member 144, ensuring a reliable connection between the connection member 142 and the electric opener 130.

The sliding member 145 is disposed at an end of the connecting member 142 remote from the electric opener 130. The guide groove 141a is opened at one side of the guide 141 near the upper cross frame 111.

The sliding member 145 may perform a smooth sliding movement under the guide of the guide groove 141a, by the connection member 142.

During the movement, the electric opener 130 rotates forward, and outputs torque, and the connecting piece 142 is fixedly connected with the electric opener 130 through the fixing piece 144, so as to drive the connecting piece 142 to rotate.

The connecting piece 142 is rotatably connected with the sliding piece 145, and the sliding piece 145 is driven to move in the guide groove 141a along the track of the guide groove 141a under the condition that the connecting piece 142 rotates so as to open the window sash 120.

The electric opener 130 reversely rotates, and outputs torque, and the connecting piece 142 is fixedly connected with the electric opener 130 through the fixing piece 144, so that the connecting piece 142 is driven to reversely rotate.

The connecting piece 142 is rotatably connected with the sliding piece 145, and the sliding piece 145 is driven to move along the track of the guide groove 141a in the guide groove 141a under the condition that the connecting piece 142 reversely rotates so as to close the window sash 120.

The first mounting hole 142a is a non-circular through hole, the first mounting hole 142a is adapted to the external shape of the output end 143143 of the electric opener 130, and in this embodiment, the first mounting hole 142a is a prismatic hole.

The second mounting hole 143a is a through hole.

One end of the fixing member 144 is provided with an abutment end having a maximum diameter larger than that of the first mounting hole 142a, and the other end of the fixing member 144 is provided with a screw end for screw-coupling with the screw hole to fix the connecting member 142 to the output end 143143 of the electric opener 130.

The sliding member 145 is a slider, and has a square or circular shape, and in this embodiment, the sliding member 145 is rotatably connected to the connecting member 142.

In at least one embodiment of the present application, an opening 111c communicating with the accommodating space 111a is formed on the side of the upper cross frame 111 near the room, and the opening 111c is located on the side far from the window sash 120;

the hidden motor type power window 100 further includes:

a mounting plate 150 detachably provided to the opening 111c;

the first direction a, which is the direction from the mounting plate 150 to the electric opener 130, the mounting plate 150 completely blocks the opening 111c along the first direction a.

In at least one embodiment of the present application, the hidden motor type power window 100 further includes:

the screen window 160 is arranged on one side of the window frame 110, which is far away from the window sash 120, and one side of the screen window 160, which is close to the window sash 120, is provided with an avoidance groove 160a, and the connecting component 140 can be accommodated in the avoidance groove 160 a;

the vertical distance from the bottom wall of the upper frame of screen 160 to upper cross frame 111 is denoted as c, satisfying the relationship: c < b.

In at least one embodiment of the present application, the window sash 120 is rotatably connected with the window frame 110;

wherein the electric opener 130 drives the connection assembly 140 to move so as to open and close the window sash 120 with respect to the window frame 110.

Referring to fig. 2-7, in the present embodiment, the hidden motor type power window 100 further includes a detachable mounting plate 150 that is mounted on the opening 111c. The mounting plate 150 completely blocks the opening 111c in the first direction a, i.e., the direction from the mounting plate 150 to the electric opener 130. By such arrangement, the mounting plate 150 can effectively close the opening 111c, protecting the electric opener 130 and the connection assembly 140 in the housing space 111a.

Since the vertical distance from the bottom wall of the upper frame of the screen 160 to the upper horizontal frame 111 is smaller than the vertical distance from the bottom wall 120b (window sash 120) to the upper horizontal frame 111, the upper horizontal frame 111 completely shields the screen 160 when viewed in the horizontal direction from the window sash 130 to the screen 160, thereby avoiding the upper frame of the screen 160 from shielding the viewing surface of the upper glass of the window sash 120.

Since the mounting plate 150 completely blocks the opening 111c along the first direction a, the electric opener 130 is accommodated in the relatively airtight accommodating space 111a, so as to avoid the electric opener 130 from being interfered or damaged by the outside. Next, since the mounting plate 150 is detachably disposed in the opening 111c, the mounting plate 150 can be detached during maintenance, cleaning or installation of the electric opener 130, and maintenance, cleaning or installation of the electric opener 130 in the accommodating space 111a can be performed.

Because the guide profile fixedly arranged between the two mullions in the traditional mode is omitted, the application has larger operable space in the installation and maintenance processes and is convenient for maintenance or installation.

The hidden motor type power window 100 further includes a screen 160, which is positioned at a side of the window frame 110 remote from the window sash 120. The screen 160 has a recess 160a formed at a side thereof adjacent to the window sash 120 for receiving the connection assembly 140. Smooth movement of the connection assembly 140 in an extremely narrow space is ensured and interference with the screen 160 is avoided.

The window sash 120 is rotatably coupled to the window frame 110, and the window sash 120 can perform a rotational movement inside the window frame 110. So that the window sash 120 can be opened and closed with respect to the window frame 110.

By providing the opening 111c and the mounting plate 150, the housing space 111a can be closed and protected.

The design of the screen 160 and the escape groove 160a ensures smooth movement of the connection assembly 140.

It should be noted that, the mounting plate 150 is a riser; the mounting plate 150 is detachably connected to the upper cross frame 111 by a snap-fit connection.

The avoidance groove 160a is formed to be recessed toward a side far from the window sash 120, for accommodating the connection assembly 140 when the window is closed, so as to avoid interference between the connection assembly 140 and the screen window 160.

In at least one embodiment of the present application, the hidden motor type power window 100 further includes:

enclosing member (not shown), electric opener 130 is disposed in the enclosing member, the enclosing member is disposed on upper horizontal frame 111, and the enclosing member and upper horizontal frame 111 enclose to form accommodating space 111a.

In one embodiment of the present application, the enclosure is configured to be mounted on the upper transverse frame 111 and enclose an accommodating space 111a, so that the accommodating space 111a forms a relatively airtight space.

It should be noted that, the enclosing member and the upper transverse frame 111 can be fixed by means of an integrally formed arrangement, so as to save processing time and improve production and processing efficiency.

Thereby, a hidden motor type power window 100 is provided, comprising:

a window frame 110 having an upper horizontal frame 111, wherein an accommodation space 111a is formed in the upper horizontal frame 111, and a communication hole 111b is formed in the upper horizontal frame 111 and communicates with the accommodation space 111a;

a window sash 120 provided at one side of the window frame 110;

an electric opener 130 accommodated in the accommodation space 111a, an output end 143 of the electric opener 130 being provided in the communication hole 111b;

the connection assembly 140 has one end provided at the output 143 of the electric opener 130 and the other end provided at the window sash 120.

In the present embodiment, the window frame 110 has an upper horizontal frame 111, a housing space 111a is formed in the upper horizontal frame 111, and a communication hole 111b is formed in the upper horizontal frame 111 to communicate with the housing space 111a; a window sash 120 provided at one side of the window frame 110; the electric opener 130 is accommodated in the accommodation space 111a, and an output end 143 of the electric opener 130 is provided in the communication hole 111 b.

Since the electric opener 130 is installed inside the upper cross frame 111, the visible area of the window is not blocked. Compared with the design of externally arranging the electric opener 130 on the upper transverse frame 111, the hidden installation enables the upper part of the window to completely present a glass surface, and the light transmission area of the window is increased. Thus, when a user watches outdoor landscapes or enjoys indoor lighting, a wider view and more natural light can be obtained, and secondly, the structure can be realized only by adding the containing space 111a and the communication hole 111b on the upper transverse frame 111 without changing the thickness of the profile.

The above examples illustrate only a few embodiments of the application, which are described in detail and are not to be construed as limiting the scope of the claims. It should be noted that it will be apparent to those skilled in the art that several variations and modifications can be made without departing from the spirit of the application, which are all within the scope of the application. Accordingly, the scope of protection of the present application is to be determined by the appended claims.

Claims (10)

1. A hidden motor type power window, comprising:

the window frame is provided with an upper transverse frame, an accommodating space is formed in the upper transverse frame, and a communication hole with the accommodating space is formed in the upper transverse frame;

the window sash is arranged on one side of the window frame;

the electric opener is accommodated in the accommodating space, and the output end of the electric opener is arranged in the communication hole;

and one end of the connecting component is arranged at the output end of the electric opener, and the other end of the connecting component is arranged at the window sash.

2. The hidden electric powered window of claim 1, wherein the upper rim of the window sash has a sidewall located on a side proximate to the electric opener;

the connection assembly includes:

the guide piece is arranged on the side wall and is provided with a guide groove along the length direction of the upper frame of the window sash;

and one end of the connecting piece is arranged at the output end of the electric opener, and the other end of the connecting piece is arranged in the guide groove.

3. The hidden electric powered window of claim 2, wherein the connector is located between the guide and the upper cross frame.

4. The hidden motor type power window according to claim 2, wherein a bottom surface is provided on a side of the guide member away from the power opener, and a vertical distance from the bottom surface to the upper cross frame is denoted as a;

a bottom wall is arranged on one side, far away from the electric opener, of the upper frame of the window sash, and the vertical distance between the bottom wall and the upper transverse frame is denoted as b; the relation is satisfied: a < b.

5. The hidden motor type power window according to claim 2, wherein a first mounting hole is formed at one end of the connecting piece, which is close to the electric opener;

a second mounting hole is formed in the output end of the electric opener;

the connection assembly further includes:

one end of the fixing piece is abutted with the connecting piece, and the other end of the fixing piece extends into the first mounting hole and is detachably connected with the output end of the electric opener;

the second mounting hole is positioned on one side of the electric opener, which is close to the fixing piece.

6. The hidden motor-driven window according to claim 2, wherein the connection assembly further comprises:

the sliding part is positioned in the guide groove and can slide in the guide groove, and the sliding part is arranged at one end of the connecting part far away from the electric opener.

7. The hidden electric window according to claim 4, wherein the guide groove is formed at one side of the guide member close to the upper cross frame;

the communication hole is formed in one side, close to the bottom surface, of the upper transverse frame.

8. The hidden motor type electric window according to claim 1, wherein an opening communicated with the accommodating space is formed on one side of the upper transverse frame, which is close to the indoor space, and the opening is positioned on one side, which is far away from the window sash;

the hidden motor type electric window further comprises:

the mounting plate is detachably arranged on the opening;

a first direction, which is a direction from the mounting plate to the electric opener, along which the mounting plate completely shields the opening.

9. The hidden motor-driven window of claim 4, further comprising:

the window screen is arranged on one side, far away from the window sash, of the window frame, an avoidance groove is formed in one side, close to the window sash, of the window screen, and the connecting assembly can be accommodated in the avoidance groove;

the vertical distance from the bottom wall of the upper frame of the screen window to the upper transverse frame is marked as c, and the relation is satisfied: c < b.

10. The hidden motor-driven window according to claim 1, further comprising:

enclose and establish the piece, electronic opener locates enclose and establish in the piece, enclose and establish the piece and locate on the upper transverse frame, enclose and establish the piece with upper transverse frame encloses and establishes and form accommodation space.