CN205502957U - Many mode control shutter - Google Patents

Abstract

The utility model discloses a many mode control shutter, a plurality of second window leaves (15) below including first window leaf (7) and being located first window leaf (7) all are equipped with on first window leaf (7), the second window leaf (15) photosensitive sensor (8), are equipped with on first window leaf (7) angle sensor (17), all be equipped with the window rachis on first window leaf (7), the second window leaf (15), the one end of first window rachis (6) and the both ends of second window rachis (14) are all fixed through rachis and window frame (16), the other end and control rod (3) of first window rachis (6) are connected, and control rod (3) are connected through shaft coupling (2) and motor (1), the both ends of first window rachis (6), second window rachis (14) all are equipped with gear (5), and vertical adjacent gear (5) are through idler (11) transmission, photosensitive sensor (8), angle sensor (17) and motor (1) all are connected with controller (20).

Description

A multi-mode control shutter

technical field

The utility model belongs to the technical field of shutters, in particular to a multi-mode control shutter.

Background technique

Blinds are beautiful and generous, not only can block ultraviolet rays, but also can play a role in warming in winter and cooling in summer, so they are deeply respected and loved by modern people. At present, the light adjustment scheme of blinds mainly uses friction wheels and traction ropes to control the deflection angle of the blades. The traction ropes are easy to get entangled with other components, resulting in transmission failure; and the entire working device is completely exposed, which is easily affected by dust and humid air. The working life is shorter.

And along with the improvement of people's living standards, traditional shutters can no longer meet people's needs for window automation and intelligent control. Although the light-controlled blinds that have appeared in recent years can automatically adjust the window opening by using the external light intensity, their control mode is single, which cannot meet the needs of people who plan to rest for a longer time on weekends or individualized control needs.

Utility model content

The purpose of the utility model is to provide a multi-mode control shutter, which solves the problems in the prior art that the traction rope is easily entangled with other components, resulting in transmission failure and single control mode, which cannot meet people's individualized control needs.

In order to achieve the above object, the utility model adopts the following technical solutions to achieve.

A multi-mode control blinds, including a controller, a remote controller, a first window leaf and a plurality of second window leaves located below the first window leaves; the first window leaves and the second window leaves are respectively provided with photosensitive sensors , the first blade is provided with an angle sensor; the first blade is provided with a first blade shaft, and the second blade is respectively provided with a second blade shaft;

One end of the first window blade shaft is fixedly connected with a first end shaft, and the first end shaft is arranged on the upper part of the window frame through a first bearing; the other end of the first window blade shaft is connected with a joystick, and the joystick passes through The shaft is connected with a motor; the two ends of the second blade shaft are respectively connected with a second end shaft, and the second end shaft is arranged on the window frame through a second bearing; the first blade shaft, the second blade shaft There are gears at both ends of the shaft, and every two longitudinally adjacent gears are driven by idler gears;

The output end of the photosensitive sensor and the output end of the angle sensor correspond to the light intensity signal input end and the angle signal input end of the electrical connection controller respectively, and the output end of the controller is electrically connected to the control end of the motor; the wireless connection of the remote controller In the controller, the remote control is provided with an initialization mode button of the blind, a light control automatic adjustment mode button, a manual adjustment mode button and a power switch button.

Preferably, each idler gear is connected with an idler shaft, and the idler shaft is respectively arranged on the window frame through a third bearing; the gear, the idler, the idler shaft and the third bearing are all arranged inside the window frame.

Preferably, both the first end shaft and the first bearing are arranged inside the window frame.

Preferably, the joystick includes a cylindrical motor connection end and a cylindrical blade shaft connection end, the diameter of the blade shaft connection end being smaller than the diameter of the motor connection end.

Preferably, the motor connection end passes through the window frame, and a fourth bearing is provided between the motor connection end and the window frame.

Preferably, the vane shaft connection end of the joystick is in interference fit with the first vane shaft, wherein the top shape of the first vane shaft connection end is conical, and the vane shaft connection end of the joystick is provided with a A matching recessed hole in the top of the first vane shaft.

Preferably, the first vane shaft and the second vane shaft are respectively connected with the corresponding first end shaft and the second end shaft by interference fit; wherein, the tops of both ends of the first vane shaft and the second vane shaft The shapes are conical; the interface of the first end shaft and the second end shaft are respectively provided with concave holes matching the shapes of the tops of the first vane shaft and the second vane shaft.

Preferably, the controller is connected to the battery through wires, and the battery is connected to the solar panel through wires.

The beneficial effect of the utility model is that, through the combination of the first window leaf, the second window leaf, the first window leaf shaft, the second window leaf shaft, gears, idlers, photosensitive sensors, controllers, remote controllers, etc. The mode control shutter solves the problems in the prior art that the traction rope is easily entangled with other components, resulting in transmission failure and single control mode, which cannot meet people's individual control needs.

Description of drawings

The utility model will be described in detail below in conjunction with the accompanying drawings and specific embodiments.

Fig. 1 is a structural diagram of a multi-mode control shutter of the present invention;

Figure 2 is an enlarged view on the left side of Figure 1;

Figure 3 is an enlarged view on the right side of Figure 1;

Fig. 4 is a schematic diagram of the joystick of Fig. 1;

Fig. 5 is a schematic diagram of the end shaft of Fig. 1;

Fig. 6 is the circuit connection block diagram of Fig. 1;

FIG. 7 is a schematic diagram of the remote controller in FIG. 6 .

In the figure, 1. motor; 2. shaft coupling; 3. joystick, 301, motor connection end, 302, window blade shaft connection end; 4, fourth bearing; 5, gear; 6, first window blade shaft; 7. The first window leaf; 8. Photosensitive sensor; 9. The first end shaft; 10. The first bearing; 11. The idler; 12. The idler shaft; 13. The third bearing; 14. The second window shaft; 15 , second window leaf; 16, window frame; 17, angle sensor; 18, remote controller, 1801, light control automatic adjustment mode button, 1802, manual adjustment mode button, 1803, initialization mode button, 1804, power switch button; 19 , power amplifier; 20, controller; 21, A/D converter; 22, battery; 23, solar panel; 24, second end shaft; 25, second bearing; 26, interface.

detailed description

Referring to Fig. 1 , a structure of a multi-mode control shutter of the present invention includes a first window blade 7 and a plurality of second window blades 15 located below the first window blade 7; the first window blade 7 and the first window blade 7 Two window blades 15 are provided with photosensitive sensors 8, and the first window blade 7 is provided with an angle sensor 17; the first window blade 7 is provided with a cylindrical first window blade shaft 6, and the second window blade 15 are provided with a cylindrical second vane shaft 14, the first vane shaft 6 and the second vane shaft 14 have the same diameter; one end of the first vane shaft 6 is fixedly connected with the first end shaft 9, the first The end shaft 9 is arranged on the upper part of the window frame 16 through the first bearing 10; the other end of the first vane shaft 6 is connected with the joystick 3, and the joystick 3 is connected with the motor 1 through the coupling 2; the second vane shaft 14 The two ends are respectively connected with a second end shaft 24 , and the second end shaft 24 is arranged on the window frame 16 through a second bearing 25 .

Referring to Fig. 2 and Fig. 3, the two ends of the first vane shaft 6 and the second vane shaft 14 are respectively provided with a spur gear 5, and every two longitudinally adjacent gears 5 are driven by an idler gear 11, Each idler 11 is provided with an idler shaft 12 which is fixed by a third bearing 13 and a window frame 16 . The gear 5 , the first end shaft 9 , the first end shaft 9 , the fourth bearing 4 , the first bearing 10 , the idler 11 , the idler shaft 12 and the third bearing 13 are all arranged inside the window frame 16 .

Referring to Fig. 4, the joystick 3 includes a cylindrical motor connection end 301 and a cylindrical window blade shaft connection end 302, and the diameter of the window blade shaft connection end 302 is smaller than the diameter of the motor connection end 301; It is connected with the connecting end 302 of the vane shaft with an interference fit, wherein the shapes of the tops at both ends of the first vane shaft 6 are conical, and the connecting end 302 of the vane shaft is provided with a port that matches the shape of the first vane shaft 6 ports. of concave holes. The motor connection end 301 passes through the window frame 16 , and the fourth bearing 4 is arranged between the motor connection end 301 and the window frame 16 .

Referring to Fig. 5, the first vane shaft 6 and the second vane shaft 14 are connected with the corresponding first end shaft 9 and the second end shaft 24 with an interference fit; wherein, the first vane shaft 6 and the second vane shaft 14 The shapes of the tops at both ends are conical; the interface 26 of the first end shaft 9 and the second end shaft 24 is provided with a concave hole matching the shape of the ports of the first vane shaft 6 and the second vane shaft 14. hole.

With reference to Fig. 6, the output end of photosensitive sensor 8 and the output end of angle sensor 17 correspond to the light intensity signal input end and the angle signal input end of electrical connection controller 20 respectively by A/D converter 21, the output end of controller 20 passes through The power amplifier 19 is electrically connected to the control terminal of the motor 1; the controller 20 is connected to the battery 22 through wires, and the battery 22 is connected to the solar panel 23 through wires.

The remote controller 18 is wirelessly connected to the controller 20 , and the remote controller 18 is provided with an initialization mode button 1803 , a light control automatic adjustment mode button 1801 , a manual adjustment mode button 1802 and a power switch button 1804 .

Referring to FIG. 7 , the remote control 18 is provided with a light control automatic adjustment mode button 1801 , a manual adjustment mode button 1802 , an initialization mode button 1803 and a power switch button 1804 .

Among them, the light control automatic adjustment mode is to automatically adjust the opening and closing angle of the shutter blades according to the difference between indoor and outdoor light intensity, so as to control the brightness of the light entering the room, so as to meet the needs of people to automatically control the opening and closing of the shutters. The control principle is: photosensitive sensor 8. Send the detected light intensity information to the controller 20. When the light intensity information is higher than the preset information, the controller 20 gives instructions to the motor 1, and the motor 1 rotates forward to drive the first window blade shaft 6 to rotate. The window vane shaft 6 drives the gear 5 to rotate, and the gear 5 drives the second vane shaft 14 below to rotate through the idler gear 11, and so on, so as to open the window vane of the shutter. When the light intensity information is lower than the preset information, the controller 20 gives an instruction to the motor 1, and the motor 1 reverses to drive the first window blade 7 and the second window blade 15 to close.

The manual adjustment mode is a control mode that manually controls the opening and closing angle of the blinds according to people's own actual needs, and is used to realize people's individual needs. That is, after the manual adjustment mode button 1802 is pressed, the controller 20 receives an instruction to send forward rotation information to the motor 1, and the motor 1 drives the first window blade shaft 6 and the second window blade shaft 14 to rotate, and opens the first window blade 7 , the second window blade 15. When the first window vane 7 and the second window vane 15 are opened to the maximum angle, the angle sensor 17 sends a signal to the controller 20, and the controller 20 controls the motor 1 to reverse, and the first window vane 7 and the second window vane 15 start to rotate. closure. During this period, when the first window blade 7 and the second window blade 15 are opened to a desired angle, the user presses the manual adjustment mode button 1802, the controller 20 commands the motor 1 to stop rotating, and the window blade maintains the current angle.

The initialization mode is used to control the shutter blades to return to the closed state, so as to meet people's needs for extended sleep time on weekends. That is, after the initialization mode button is pressed, the controller 20 commands the motor 1 to reverse, and when the window blade is fully closed, the angle sensor 17 transmits information to the controller 20, and the controller 20 controls the motor 1 to stop rotating.

The utility model passes through the first window leaf 7, the second window leaf 15, the first window leaf shaft 6, the second window leaf shaft 14, the gear 5, the idler wheel 11, the photosensitive sensor 8, the controller 20, the remote controller 18, etc. The combined multi-mode control shutter solves the problems in the prior art that the traction rope is easily entangled with other components, resulting in transmission failure and single control mode, which cannot meet people's individual control needs.

The above content is a further detailed description of the utility model in combination with specific preferred embodiments, and it cannot be assumed that the specific implementation of the utility model is only limited to these descriptions. For a person of ordinary skill in the technical field to which the utility model belongs, without departing from the concept of the utility model, some simple deduction or substitutions can also be made, which should be regarded as belonging to the protection scope of the utility model.

Claims (8)

1. a multi-mode controls shutter, it is characterised in that: include controller (20), remote controller (18), the first window leaf (7) and be positioned at multiple second window leaves (15) of the first window leaf (7) lower section；Being respectively equipped with light sensor (8) on described first window leaf (7), the second window leaf (15), described first window leaf (7) is provided with angular transducer (17)；Described first window leaf (7) is provided with the first window rachis (6), and the second window leaf (15) is respectively equipped with the second window rachis (14)；

One end of described first window rachis (6) is fixedly connected with the first end axle (9), and the first end axle (9) is arranged on window frame (16) top by clutch shaft bearing (10)；The other end of described first window rachis (6) connects stick (3), and stick (3) is connected by shaft coupling (2) motor (1)；The two ends of described second window rachis (14) are connected to the second end axle (24), and the second end axle (24) is arranged on window frame (16) by the second bearing (25)；Described first window rachis (6), the second window rachis (14) be respectively arranged at two ends with gear (5), by idle pulley (11) transmission between the gear (5) that each two is longitudinally adjacent；

The light intensity signal input of the outfan of described light sensor (8) electrical connection the most corresponding with the outfan of angular transducer (17) controller (20) and angle signal input, the control end of outfan electrical connection motor (1) of controller (20)；Controller (20) described in described remote controller (18) wireless connections, described remote controller (18) is provided with the initialization mode button (1803) of shutter, light-operated is automatically adjusted mode button (1801), manual adjustment mode button (1802) and power switch button (1804).

Multi-mode the most according to claim 1 controls shutter, it is characterized in that: described each idle pulley (11) connects idler shaft (12), idler shaft (12) is arranged on window frame (16) by the 3rd bearing (13) respectively；It is internal that described gear (5), idle pulley (11), idler shaft (12) and the 3rd bearing (13) are each provided at window frame (16).

Multi-mode the most according to claim 1 controls shutter, it is characterised in that: it is internal that described first end axle (9), clutch shaft bearing (10) are each provided at window frame (16).

Multi-mode the most according to claim 1 controls shutter, it is characterized in that: described stick (3) includes that columned motor connects end (301) and columned window rachis connects end (302), and window rachis connects the diameter of end (302) and connects the diameter of end (301) less than motor.

Multi-mode the most according to claim 4 controls shutter, it is characterized in that: described motor connects end (301) and passes window frame (16), is provided with the 4th bearing (4) between motor connection end (301) and window frame (16).

Multi-mode the most according to claim 4 controls shutter, it is characterized in that: the window rachis of described stick (3) connects end (302) and the first window rachis (6) interference fit, wherein, it is coniform that first window rachis (6) connects the top shape of end, and the window rachis of stick (3) connects end (302) and is provided with a shrinkage pool matched with the first window rachis (6) top shape.

Multi-mode the most according to claim 1 controls shutter, it is characterised in that: described first window rachis (6), the second window rachis (14) connect with the first corresponding end axle (9), the second end axle (24) interference fit respectively；Wherein, the first window rachis (6), the shape at the second window rachis (14) top, two ends are coniform；Described first end axle (9), the seam of the second end axle (24) are respectively equipped with the shrinkage pool matched with the first window rachis (6), the second window rachis (14) two ends top shape.

Multi-mode the most according to claim 1 controls shutter, it is characterized in that: described controller (20) is connected by wire with accumulator (22), accumulator (22) is connected by wire with solar panel (23).