CN116220498B - Automatically controlled window of opening - Google Patents

Abstract

The invention discloses an electrically-controlled opening window, which comprises a window frame and a window arranged in the window frame, wherein a first chute is arranged at the bottom of the window frame, a second chute and a third chute are arranged at the top of the window frame, the window comprises a first window and a second window, the first window is positioned at two sides of the window frame, the second window is positioned at the middle position of the window frame, one end, close to the side wall of the window frame, of the first window is rotatably connected to the window frame, a first bulge is arranged at the top of the first window, a second bulge is arranged at the bottom of the second window, a third bulge and a fourth bulge are arranged at the top of the second window, the second bulge is slidably connected in the first chute, the fourth bulge is slidably connected in the third chute, a first slider and a second slider are also slidably connected in the second chute, the first slider is connected with the first bulge at the top of the first window through a first connecting rod, the second slider is connected with the fourth bulge through a second connecting rod, the first slider is provided with a first iron core and a first iron core is wound on the first iron core.

Description

Automatically controlled window of opening

Technical Field

The invention relates to an electrically-controlled opening window.

Background

There are two types of windows, one is a roll-off window and one is a translation window. The translational window can be opened by half the area of the window at most, and ventilation is needed or large articles are carried through the window. And the windows are required to be laminated with each other, so that the thickness of the window frame is at least twice as large as that of the window, which also results in a great consumption of material. The window that turns open can be with the whole opening of window place window frame area, but the window that turns open, the one end of window is the swivelling joint on the window frame, so the width of window frame can not be greater than the width of two windows, if again, just need install vertical roof beam on the window frame additional. The beam is difficult to process in an aluminum alloy window frame, and even if the beam is added, large articles cannot pass through due to the existence of the beam. There is a need for improvement.

Disclosure of Invention

Aiming at the defects of the prior art, the invention provides the window with the electric control opening, which can greatly reduce the material consumption and has unlimited width of the window frame which can be opened.

The technical scheme adopted for solving the technical problems is as follows: the utility model provides an automatically controlled window of opening, includes the window frame and sets up the window in the window frame, its characterized in that: the bottom of the window frame is provided with a first sliding groove, the top of the window frame is provided with a second sliding groove and a third sliding groove, the window comprises a first window and a second window, the first window is positioned on two sides of the window frame, the second window is positioned in the middle of the window frame, one end of the first window, which is close to the side wall of the window frame, is rotationally connected to the window frame, the top of the first window is provided with a first bulge, the bottom of the second window is provided with a second bulge, the top of the second window is provided with a third bulge and a fourth bulge, the second bulge is slidingly connected in the first sliding groove, the third bulge is slidingly connected in the second sliding groove, the window further comprises a first driving mechanism for driving the first window to rotate and a second driving mechanism for driving the second window to move, the first driving mechanism pushes the first bulge, the second driving mechanism pushes the fourth bulge, the top of the window is provided with a plurality of gaps which are communicated with the third sliding groove, and the number of gaps is the same as the number of gaps to be slidingly connected to the end of the window. When the window needs to be opened, the first driving mechanism is started first, the first driving mechanism pushes the first bulge, and as one end of the first window is rotationally connected to the window frame, the first sliding block is transmitted to the first bulge to push the first window to rotate, and the first window is opened. Then the second driving mechanism is restarted, the second driving mechanism pushes the fourth protrusion to move, and as the second window is not fixed, the second window can move along the first sliding groove and the second sliding groove until the third protrusion on the second window is contacted with the first driving device, at the moment, the second slider cannot push the second window to move continuously, the fourth protrusion is just located at the notch, the second connecting rod pushes the second window to rotate, and the second window is also opened. In this form of window, there is no stacking relationship between the windows, as compared to conventional, removable windows, and thus the window frame is not made very thick, material is saved, and it can be fully opened. Compared with the traditional window which is turned open, the window frame of the window can be larger than the width of two windows, and the adaptability is wider.

In the above technical scheme, preferably, the first driving mechanism includes a first slider, the first slider is slidingly linked in the second chute, a first magnet is provided on the first slider, the second driving mechanism includes a second slider, the second slider is slidingly connected in the second chute, a second magnet is provided on the second slider, a plurality of coils are provided at the top of the second chute, and the coils are oppositely arranged with the first slider and the second slider. The magnetic change of the top coil can be controlled by switching on and off the top coil of the sliding groove, so that the first magnet and the second magnet are attracted to advance or retreat towards a set direction, the movement of the first sliding block and the second sliding block is realized, the first sliding block pushes the first window to move through the first connecting rod, and the second sliding block pushes the second window to slide first and then rotate through the second rod.

In the above technical solution, preferably, when the first window is in the closed state, the first protrusion on the first window is located at the notch. By the design, when the first sliding block is pushed, the first protrusion can be directly pushed to rotate outwards, and the first window is driven to rotate outwards.

In the above technical solution, preferably, the first window is opened to a maximum state, and when the second window is slid to the first slider to be contacted, the fourth protrusion on the second window is located at the notch. Therefore, when the second window moves to be in contact with the first sliding block, the second sliding block can directly push the fourth bulge to rotate outwards when being pushed continuously, and the second window is driven to rotate outwards.

In the above technical solution, preferably, the first sliding groove is provided with a second magnet and a blind hole, the first window is rotatably connected with the blind hole, the first window is opened to a maximum state, and when the second window slides to contact with the first sliding block, the second protrusion at the bottom of the second window and the second magnet are attracted to each other. When the second window is closed, the second sliding block pulls the fourth bulge, force along the second sliding groove is applied to the second window, so that the second window slides before closing, after the second magnet is added, the second window can be prevented from sliding along the second sliding groove when the second window rotates, and only after the second window is completely closed, the second sliding block can pull the second window to slide.

In the above technical solution, preferably, an end portion of the first slider is arc-shaped, and the second protrusion is cylindrical. So designed, the second window will not be obstructed from rotating again after the second string contacts the first slider.

In the above technical solution, preferably, the first chute and the second chute are disposed in parallel.

In the above technical solution, preferably, a circle of baffle is provided on the inner side of the window frame, and the baffle is located on the inner ring of the window frame. The baffle is located the inner circle, and when the window was closed, the baffle formed the isolation between window, avoided the rainwater to follow the gap infiltration between window frame and the window.

The beneficial effects of the invention are as follows: when the window needs to be opened, the first driving mechanism is started first, the first driving mechanism pushes the first bulge, and as one end of the first window is rotationally connected to the window frame, the first sliding block is transmitted to the first bulge to push the first window to rotate, and the first window is opened. Then the second driving mechanism is restarted, the second driving mechanism pushes the fourth protrusion to move, and as the second window is not fixed, the second window can move along the first sliding groove and the second sliding groove until the third protrusion on the second window is contacted with the first driving device, at the moment, the second slider cannot push the second window to move continuously, the fourth protrusion is just located at the notch, the second connecting rod pushes the second window to rotate, and the second window is also opened. In this form of window, there is no stacking relationship between the windows, as compared to conventional, removable windows, and thus the window frame is not made very thick, material is saved, and it can be fully opened. Compared with the traditional window which is turned open, the window frame of the window can be larger than the width of two windows, and the adaptability is wider.

Drawings

Fig. 1 is a schematic perspective view of a window according to the present invention.

Fig. 2 is a schematic front view (partially cut-away) of the present invention.

Fig. 3 is a top view (partially cut away) of fig. 2.

Fig. 4 is a schematic view of the first window of the present invention when opened.

Fig. 5 is a top view (partially cut away) of fig. 4.

Fig. 6 is a schematic view of the second window of the present invention when moved to an open position.

Fig. 7 is a top view (partially cut away) of fig. 6.

Fig. 8 is a schematic view of the second window of the present invention when opened.

Fig. 9 is a top view (partially cut away) of fig. 8.

Fig. 10 is a schematic view of a first slider.

FIG. 11 is a schematic view of a second slider.

FIG. 12 is a schematic diagram showing the force applied to the first slider in a magnetic field.

Detailed Description

The invention is described in further detail below with reference to the attached drawings and detailed description:

fig. 1 and 12 show an electrically controlled opening window, comprising a window frame 1 and a window 2 arranged in the window frame, wherein the bottom of the window frame 1 is provided with a first sliding groove 11, the top of the window frame 1 is provided with a second sliding groove 12 and a third sliding groove 13, and the second sliding groove 12 and the third sliding groove 13 are arranged in parallel. The inner side of the window frame 1 is provided with a circle of baffles 1a, and the baffles 1a are positioned on the inner ring of the window frame 1. The baffle is located the inner circle, and when the window was closed, the baffle formed the isolation between window, avoided the rainwater to follow the gap infiltration between window frame and the window.

The window 2 comprises a first window 21 and a second window 22, the first window 21 is located on two sides of the window frame 1, the second window 22 is located in the middle of the window frame 1, and one end, close to the side wall of the window frame 1, of the first window 21 is rotatably connected to the window frame 1. The top of the first window 21 has a first protrusion 211.

The bottom of the second window 22 is provided with a second protrusion 221, the top of the second window 22 is provided with a third protrusion 222 and a fourth protrusion 223, the second protrusion 221 is slidably connected in the first chute 11, the third protrusion 222 is slidably linked in the second chute 12, the fourth protrusion 223 is slidably linked in the third chute 13, the second chute 12 is also slidably connected with a first slider 31 and a second slider 32, and the first slider 31 is connected with the first protrusion 211 on the top of the first window 21 through a first connecting rod 3 a. The second slider 32 is connected to the fourth protrusion 223 through a second link 3 b. The second chute 12 has a plurality of coils 121 on the top thereof.

The first slider 31 includes a first iron core 31 and a first magnet 312 disposed on the first iron core 311, and the second slider 32 includes a second iron core 321 and a second magnet 322 disposed on the second magnet 322. The adjacent first magnets 312 are opposite in magnetic polarity, and the adjacent second magnets 322 are opposite in magnetic polarity.

The top of the window frame 1 has two notches 14 communicating with the third sliding groove 13, the number of the notches 14 being the same as the number of the windows 2 to be slid to that end.

The first protrusion 211 on the first window 21 is located at the notch 14 when the first window 21 is in the closed state. By the design, when the first sliding block is pushed, the first protrusion can be directly pushed to rotate outwards, and the first window is driven to rotate outwards.

The first window 21 is opened to the maximum state, and when the second window 22 is slid to the contact state of the first slider 31, the fourth protrusion 223 on the second window 22 is located at the notch 14. Therefore, when the second window moves to be in contact with the first sliding block, the second sliding block can directly push the fourth bulge to rotate outwards when being pushed continuously, and the second window is driven to rotate outwards.

The first sliding groove 11 is provided with a third magnet 111 and a blind hole 112, the first window 21 is rotatably connected with the blind hole 112, the first window 21 is opened to a maximum state, and when the second window 22 is slid to be in contact with the first sliding block 31, the second protrusion 221 at the bottom of the second window 22 and the second magnet 111 are attracted to each other. When the second window is closed, the second sliding block pulls the fourth bulge, force along the second sliding groove is applied to the second window, so that the second window slides before closing, after the second magnet is added, the second window can be prevented from sliding along the second sliding groove when the second window rotates, and only after the second window is completely closed, the second sliding block can pull the second window to slide.

When the window needs to be opened, the coil above the first magnet is electrified, the coil attracts the first magnet to drive the first sliding block to move towards the edge of the window frame, and as one end of the first window is rotationally connected to the window frame, the first sliding block transmits the first protruding force to push the first window to rotate, and the first window is opened. Then the coil above the second magnet is electrified, the coil drives the second sliding block to move towards one side of the window frame, the second window can move along the first sliding groove and the second sliding groove because the second window is not fixed until the second bulge and the third bulge on the second window are contacted with the first sliding block, at the moment, the second sliding block cannot push the second window to move continuously, the fourth bulge is just located at the notch, the second connecting rod pushes the second window to rotate, and the second window is also opened. In this form of window, there is no stacking relationship between the windows, as compared to conventional, removable windows, and thus the window frame is not made very thick, material is saved, and it can be fully opened. Compared with the traditional window which is turned open, the window frame of the window can be larger than the width of two windows, and the adaptability is wider.

When the window is closed, then the coil above the second magnet is electrified, the second slider slides towards the middle of the window frame, at the moment, the second bulge at the bottom of the second window and the second magnet are attracted mutually, so that the second window cannot move at the first time, the second slider pulls the second window to rotate until the second window is completely closed, when the second slider is pulled again, the connection between the second bulge and the second magnet is released, and then the second window is pulled to slide along the second groove. When the second window is pulled to the designated position. The coil above the first magnet is charged, the first sliding block slides towards the middle of the window frame to drive the first window to rotate until the first window is completely closed, and therefore the window is closed.

Claims (7)

1. The utility model provides an automatically controlled window of opening, includes the window frame and sets up the window in the window frame, its characterized in that: the bottom of the window frame is provided with a first sliding groove, the top of the window frame is provided with a second sliding groove and a third sliding groove, the window comprises a first window and a second window, the first window is positioned on two sides of the window frame, the second window is positioned at the middle position of the window frame, one end, close to the side wall of the window frame, of the first window is rotationally connected to the window frame, the top of the first window is provided with a first protrusion, the bottom of the second window is provided with a second protrusion, the top of the second window is provided with a third protrusion and a fourth protrusion, the second protrusion is slidably connected to the first sliding groove, the third protrusion is slidably connected to the second sliding groove, the fourth protrusion is slidably connected to the third sliding groove, the second sliding groove is further provided with a first driving mechanism for driving the first window to rotate and a second driving mechanism for driving the second window to move, the first driving mechanism pushes the first protrusion, the second driving mechanism pushes the fourth protrusion, the top of the window is provided with a plurality of gaps which are communicated with the third sliding groove, the second sliding groove is provided with a plurality of first sliding blocks, the second sliding blocks are connected to the first sliding blocks through the first sliding blocks, the first sliding blocks are connected to the second sliding blocks, the first sliding blocks are provided with the first sliding blocks, the second sliding blocks are provided with the first sliding blocks, and the first sliding blocks are provided with the first sliding blocks.

2. An electronically opened window according to claim 1, wherein: when the first window is in a closed state, the first bulge on the first window is positioned at the notch.

3. An electronically opened window according to claim 2, wherein: and when the first window is opened to the maximum state and the second window is slid to the contact state of the first sliding block, the fourth bulge on the second window is positioned at the notch.

4. An electronically opened window according to claim 3, wherein: the first sliding groove is internally provided with a third magnet and a blind hole, the first window is rotationally connected with the blind hole, the first window is opened to a maximum state, and when the second window slides to be contacted with the first sliding block, the second bulge at the bottom of the second window is attracted with the third magnet mutually.

5. An electronically opened window according to claim 1, wherein: the end part of the first sliding block is arc-shaped, and the second protrusion is cylindrical.

6. An electronically opened window according to claim 1, wherein: the first sliding groove and the second sliding groove are arranged in parallel.

7. An electronically opened window according to claim 1, wherein: the inner side of the window frame is provided with a circle of baffle plates, and the baffle plates are positioned on the inner ring of the window frame.