CN108533115B - Driving assembly of electric sliding door and window - Google Patents

Abstract

The invention provides a driving assembly of an electric flat-open sliding door and window, which is characterized in that: the motor shaft is exposed out of the case; the window opening electric rope winding wheel is a wheel A, the electric rope winding wheel of the upper window closing system is a wheel C, and the electric rope winding wheel of the lower window closing system is a wheel B, wherein each wheel is a circumferentially fixed gear and a rope winding wheel on a rope winding wheel shaft, each rope winding wheel shaft is erected between shaft supporting seats at two sides, and the shaft supporting seats at two sides are sequentially fixed on a chassis; the driving gear is circumferentially fixed on the motor shaft, the gear on the wheel B and the gear on the wheel A are sequentially meshed, and the gears on the three wheels A, B and C are the same and larger than the driving gear; the axial directions of the motor shaft and each winding rope wheel shaft are the same with the sliding direction of the window sashes. The positive effects are as follows: full-automatic window closing and opening; the driving assembly integrates the functions of driving, decelerating, distributing and winding, and has a compact structure.

Description

Driving assembly of electric sliding door and window

Technical Field

The invention relates to a flat-open sliding door and window, in particular to an electric rope reel assembly of an electric flat-open sliding door and window.

Background

CN201443272U discloses a mechanism for opening and closing a sliding door and a sliding door, comprising a window sash, a window frame and a window sash opening, wherein the window sash comprises an upper transverse edge, a lower transverse edge, a front vertical edge, a rear vertical edge and glass, the window frame comprises an upper transverse frame, a lower transverse frame and a side vertical frame, and a window sash track is attached to the inner side of the window frame transverse frame. The window is characterized in that when the window is closed, the window sash is pushed to move towards the window sash opening, and the front vertical edge of the window sash moves to the window sash opening first. When the whole window sash moves to the window sash opening, the window sash is horizontally pushed to the outdoor direction, the spring force in the opening and closing mechanism is overcome, the whole window sash is horizontally moved and embedded into the window sash opening, and then the window lock is locked. At the moment, four side frames of the window sashes are correspondingly attached to four side frames of the window sashes opening, wherein the front vertical edges of the window sashes are attached to the side vertical frames of the window sashes opening, and the window closing device is like a flat-open window when the window is closed, so that the defect of poor sealing of the window closing of the sliding window is overcome. When the window is needed to be opened, the window lock is opened, and the window sash automatically pops out of the window sash opening under the action of a spring in the opening and closing mechanism. The window sashes are reversely pushed and pulled, the window sashes move towards the vertical frame direction of the side frame of the window frame, the window sashes leave the window sashes to open along the track, and the window sashes after being opened like a sliding window do not occupy the indoor space. It can be seen that the windowing and window closing of the CN201443272U is completed by hand pulling.

Disclosure of Invention

The invention aims to provide an electric flat-open sliding door and window and a driving assembly thereof.

The purpose of the invention is realized in the following way: including opening and closing mechanism, casement lower rail, window frame, casement opening and limit immediately frame, characterized by: a pair of upper and lower window closing systems are arranged between the outer side of the vertical frame of the window sash opening edge and the window sash; the lower window closing system is characterized in that a lower electric rope winding wheel is arranged on a window sash opening side vertical frame, a window closing lower angle wheel is arranged at the lower end of the window sash opening side vertical frame, a lower guide wheel is arranged at a point D of a window sash opening lower transverse frame (namely one section of a window frame lower transverse frame), after one end of a window closing steel wire rope is fixed on the electric rope winding wheel, the window closing steel wire rope sequentially passes through the window closing lower angle wheel and the lower guide wheel, the other end of the window closing steel wire rope is fixed at a point E of a window sash lower transverse edge, the point E is positioned between the midpoint of the lower transverse edge and a window sash rear vertical edge, and when the whole window sash moves to a window sash opening, the window closing steel wire rope between the point E and the point D extends indoors and outdoors; the upper and lower window closing systems are symmetrically arranged up and down; the electric rope winding wheel of the upper window closing system is called as a C wheel, and the electric rope winding wheel of the lower window closing system is called as a B wheel;

a window opening system is further arranged between the window sash opening side vertical frame and the window sash, wherein the window opening side vertical frame is provided with a window opening electric rope winding wheel, namely an A wheel, the upper end of the indoor side of the window sash opening side vertical frame and the upper end and the lower end of the indoor side of the window frame side vertical frame are respectively provided with a window opening angle wheel, and a traction trolley walks on a window sash lower rail; one end of the windowing steel wire rope is fixed on an electric rope winding wheel for windowing, and the other end of the windowing steel wire rope is fixed on a traction trolley after sequentially passing through windowing angle wheels at the upper end of a window sash opening side vertical frame and the upper end and the lower end of a window frame side vertical frame; one end of the traction rope is connected to the traction trolley, and the other end of the traction rope is connected to the lower transverse edge of the window sash;

all the angle wheels and the directional wheels are fixed pulleys, and the axial direction of the fixed pulleys is perpendicular to the plane where the window sash glass is positioned;

the A, B and C three wheels and a motor for driving the three wheels are integrated into a whole to form the driving assembly, wherein the motor is arranged in the case, and the motor shaft is exposed out of the case; A. the B and the C wheels are the same, each wheel is a gear and a rope winding wheel which are circumferentially fixed on a rope winding wheel shaft, each rope winding wheel shaft is erected between shaft supporting seats at two sides to provide support for each rope winding wheel shaft, the shaft supporting seats at two sides are sequentially fixed on a chassis, wherein a motor shaft perforation is further arranged on the shaft supporting seat adjacent to the chassis, and the motor shaft penetrates through the motor shaft perforation; the driving gear is circumferentially fixed on a motor shaft, the gear on the wheel B, the gear on the wheel A and the gear on the wheel C are sequentially meshed, wherein the gear on the three wheels A, B and C is the same, the driving gear is smaller than the gear on the three wheels A, B and C, and the driving gear form a speed reducer; the axial directions of the motor shaft and each winding rope wheel shaft are the same with the sliding direction of the window sashes.

The working process is that a pair of window closing systems are started when the window is closed, specifically, a motor rotates positively (anticlockwise), a driving gear rotates anticlockwise, a wheel C and a wheel A rotate anticlockwise, namely, an upper window closing steel wire rope and a lower window closing steel wire rope are in a rope collecting state, the window opening steel wire rope is in a rope releasing state, the upper window closing steel wire rope and the lower window closing steel wire rope draw a window sash to walk towards a window sash opening along a track, an E point gradually approaches to a D point, when a window sash front vertical edge moves to a window sash opening side vertical frame and the window sash stops walking, the window closing steel wire rope between the E point and the D point moves from indoor to outdoor, the wheels B and C continue to rotate and collect ropes, the window sash is drawn to overcome the spring force of the opening and closing mechanism and translate towards the outdoor direction, namely, the window sash opening until the window sash is integrally embedded into the window sash opening, then the window lock is locked, the motor is powered off, and the window closing is completed, and the spring is in a compressed state.

When the window is required to be opened, the window lock is opened, the spring ejects the window sash out of the window sash opening, and the starting motor reverses, so that the window opening steel wire rope is in a rope collecting state, the traction trolley walks towards the side vertical frame direction of the window frame, and meanwhile, the window closing steel wire rope is in a rope releasing state, and the window sash gradually leaves the window sash opening to open the window sash. After the window is moved to the required position, the motor is powered off, and the window sash is opened.

Compared with CN201443272U, the invention has the following positive effects: realize the full-automatic window closing and opening; the driving assembly integrates driving, decelerating, distributing and winding functions, has compact structure and is suitable for flat-open sliding doors and windows.

Drawings

The invention will be further described with reference to examples and figures.

Fig. 1 is a schematic view of the present invention (including perspective effect) as seen from the outside to the inside.

Fig. 2 is an enlarged view of the P portion in fig. 1.

Fig. 3 is a schematic view of the orthographic projection of the present invention from the indoor to the outdoor.

Fig. 4 is an exploded view of the drive assembly.

Fig. 5 is a P-direction view of fig. 4.

Detailed Description

The sliding door and window is a broken bridge aluminum alloy sliding window, namely, a broken bridge (or a broken bridge layer) and an outer frame are sequentially attached to the outer side of a sliding door and window frame.

In fig. 1, the left half of the window is a fixed sash 1,2, a middle stile, a sash opening 4 is arranged on the right half of the whole window, and a sash opening side standing frame 5 is arranged on the rightmost side of the whole window. A pair of upper and lower window closing systems are arranged between the outdoor side of the window sash opening side vertical frame and the window sash 3, and the outdoor side is the bridge-cut-off layer 5.1; the lower window closing system is characterized in that a lower electric rope winding wheel is arranged on the thickness surface of a broken bridge layer in a window sash opening side vertical frame, a window closing lower angle wheel 10 is arranged at the lower end of the window sash opening side vertical frame broken bridge layer, a lower guide wheel 12 is arranged at a point D of a broken bridge layer of a window sash opening lower transverse frame 11, one end of a lower window closing steel wire rope 9 is fixed on the lower electric rope winding wheel, the lower window closing steel wire rope sequentially passes through the window closing lower angle wheel and the lower guide wheel, the other end of the lower window closing steel wire rope is fixed at a point E of a window sash lower transverse side 3.1, the point E is positioned between the midpoint of the lower transverse side and a window sash rear vertical side 3.2, and when the whole window sash moves to a window sash opening, the window closing steel wire rope 9.1 between the point E and the point D is in an indoor and outdoor trend; the upper window closing system and the lower window closing system are symmetrically arranged up and down, namely the upper window closing system comprises an upper electric rope winding wheel, a window closing upper angle wheel 10', an upper window closing steel wire rope 9' and an upper guide wheel 12'; the electric rope winding wheel of the upper window closing system is called as a C wheel, and the electric rope winding wheel of the lower window closing system is called as a B wheel;

referring to fig. 3, a window opening system is further arranged between the window sash opening side vertical frame 5 and the window sash 3, the window opening electric rope rolling wheel A is arranged on the thick surface of the window sash opening side vertical frame, a window opening angle wheel 13 is respectively arranged at the upper end of the inner side of the window sash opening side vertical frame cavity and the upper end and the lower end of the inner side of the window frame side vertical frame cavity, and a traction trolley 15 walks on a window sash lower track 14; one end of the window wire rope 16 is fixed on the window electric rope winding wheel, and after passing through window angle wheels at the upper end of the window sash opening side vertical frame, the upper end and the lower end of the window frame side vertical frame in turn in the side vertical frame cavity, the other end of the window wire rope is fixed on the traction trolley; one end of a traction rope 17 is connected to the traction trolley, and the other end of the traction rope is connected to the lower transverse edge 3.1 of the window sash;

all the angle wheels and the directional wheels are fixed pulleys, and the axial direction of the fixed pulleys is perpendicular to the plane where the window sash glass is positioned; A. the axial directions of the three B, C wheels are parallel to the lower track of the window sash.

Referring to fig. 4, the driving assembly 100 is formed by integrating the above A, B, the above C three wheels and the motor for driving the three wheels, wherein the driving assembly 100 is installed on the bridge-cut-off layer 5.1, the driving assembly 100 is that the motor is installed in the case 101, and the motor shaft 102 is exposed out of the case; A. each of the wheels B and C is (reference numeral is exemplified by a wheel B), a gear 104 and a rope winding wheel 107 are circumferentially fixed on a rope winding wheel shaft 105, each rope winding wheel shaft is erected between two side shaft supporting seats 103 and 106 for providing support for each rope winding wheel shaft, the shaft supporting seats on two sides are sequentially fixed on a case, wherein a motor shaft perforation is further arranged on the shaft supporting seat 103 adjacent to the case, and the motor shaft penetrates through the motor shaft perforation; referring to fig. 5, a driving gear 108 is circumferentially fixed on a motor shaft, a gear 104 on a B wheel, a gear 109 on an a wheel, and a gear 110 on a C wheel are sequentially meshed, wherein the gears on A, B and C wheels are the same, the driving gear is smaller than the gears on A, B and C wheels, and they form a speed reducer with the driving gear; the axial directions of the motor shaft and each winding rope wheel shaft are the same with the sliding direction of the window sashes.

The working process is that a pair of window closing systems are started when the window is closed, specifically, a motor rotates positively (anticlockwise), a driving gear rotates anticlockwise, a wheel C and a wheel A rotate anticlockwise, namely, an upper window closing steel wire rope and a lower window closing steel wire rope are in a rope collecting state, the window opening steel wire rope is in a rope releasing state, the upper window closing steel wire rope and the lower window closing steel wire rope draw a window sash to walk towards a window sash opening along a track, an E point gradually approaches to a D point, when a window sash front vertical edge moves to a window sash opening side vertical frame and the window sash stops walking, the window closing steel wire rope between the E point and the D point moves from indoor to outdoor, the wheels B and C continue to rotate and collect ropes, the window sash is drawn to overcome the spring force of the opening and closing mechanism and translate towards the outdoor direction, namely, the window sash opening until the window sash is integrally embedded into the window sash opening, then the window lock is locked, the motor is powered off, and the window closing is completed, and the spring is in a compressed state.

When the window is required to be opened, the window lock is opened, the spring ejects the window sash out of the window sash opening, and the starting motor reverses, so that the window opening steel wire rope is in a rope collecting state, the traction trolley walks towards the side vertical frame direction of the window frame, and meanwhile, the window closing steel wire rope is in a rope releasing state, and the window sash gradually leaves the window sash opening to open the window sash. After the window is moved to the required position, the motor is powered off, and the window sash is opened.

Claims (2)

1. The utility model provides a drive assembly of electric flat-open sliding door, includes opening and shutting mechanism, casement lower rail, window frame, casement opening and limit upright frame thereof, characterized by: a pair of upper and lower window closing systems are arranged between the outer side of the vertical frame of the window sash opening edge and the window sash; the lower window closing system is characterized in that a lower electric rope winding wheel is arranged on a window sash opening side vertical frame, a window closing lower angle wheel is arranged at the lower end of the window sash opening side vertical frame, a lower guide wheel is arranged at a point D of a window sash opening lower transverse frame, after one end of a window closing steel wire rope is fixed on the electric rope winding wheel, the window closing steel wire rope sequentially passes through the window closing lower angle wheel and the lower guide wheel, the other end of the window closing steel wire rope is fixed at a point E of a window sash lower transverse side, the point E is positioned between the middle point of the lower transverse side and a window sash rear vertical side, and when the whole window sash moves to a window sash opening, the window closing steel wire rope between the point E and the point D is in an indoor and outdoor trend; the upper and lower window closing systems are symmetrically arranged up and down; the electric rope winding wheel of the upper window closing system is called as a C wheel, and the electric rope winding wheel of the lower window closing system is called as a B wheel; a window opening system is further arranged between the window sash opening side vertical frame and the window sash, wherein the window opening side vertical frame is provided with a window opening electric rope winding wheel, namely an A wheel, the upper end of the indoor side of the window sash opening side vertical frame and the upper end and the lower end of the indoor side of the window frame side vertical frame are respectively provided with a window opening angle wheel, and a traction trolley walks on a window sash lower rail; one end of the windowing steel wire rope is fixed on an electric windowing rope wheel, and then sequentially passes through windowing angle wheels at the upper end of a window sash opening side vertical frame, the upper end and the lower end of a window frame side vertical frame, and the other end of the windowing steel wire rope is fixed on a traction trolley; one end of the traction rope is connected to the traction trolley, and the other end of the traction rope is connected to the lower transverse edge of the window sash;

the motor is arranged in the case, and the motor shaft is exposed out of the case; the window opening electric rope winding wheel is a wheel A, the electric rope winding wheel of the upper window closing system is a wheel C, the electric rope winding wheel of the lower window closing system is a wheel B, A, B and the wheels C are the same, each wheel is formed by circumferentially fixing a gear and a rope winding wheel on a rope winding wheel shaft, each rope winding wheel shaft is erected between shaft supporting seats on two sides to provide support for each rope winding wheel shaft, the shaft supporting seats on two sides are sequentially fixed on a case, motor shaft perforation is further arranged on the shaft supporting seat adjacent to the case, and a motor shaft penetrates through the motor shaft perforation; the driving gear is circumferentially fixed on a motor shaft, the gear on the wheel B, the gear on the wheel A and the gear on the wheel C are sequentially meshed, wherein the gear on the three wheels A, B and C is the same, the driving gear is smaller than the gear on the three wheels A, B and C, and the driving gear form a speed reducer; the axial directions of the motor shaft and each winding rope wheel shaft are the same with the sliding direction of the window sashes.

2. The drive assembly for an electrically operated side-hung sliding door and window according to claim 1, wherein: the side-hung sliding door and window is a broken bridge aluminum alloy side-hung sliding window, namely, a broken bridge and an outer frame are sequentially attached to the outer side of a window frame of the side-hung sliding door and window; the drive assembly is arranged on the bridge-cutoff layer.