CN105781386A - Louver - Google Patents

Abstract

The invention discloses a louver, and belongs to the technical field of louvers. The louver comprises a plurality of louver flakes, a transmission mechanism, a motor, a wireless signal receiving module and a controller. All the louver flakes are installed on the transmission mechanism, the transmission mechanism is connected with the motor, the motor is connected with the controller, and the wireless signal receiving module is electrically connected with the controller. The wireless signal receiving module is used for receiving telecommands and sending the telecommands to the controller. The controller is used for controlling the motor to drive the transmission mechanism to operate according to the telecommands, so that all the louver flakes installed on the transmission mechanism are made to rotate. The louver disclosed in the embodiment can be controlled remotely, so that a user does not need to walk to a stay wire to control the louver to be opened or closed, and the operation process is simple.

Description

A kind of shutter

Technical field

It relates to shutter technical field, particularly to a kind of shutter.

Background technology

Shutter can block ultraviolet radiation, does not also affect the ventilation of indoor simultaneously, and shutter may also operate as certain deadening, is therefore widely used in the middle of household and office finishing.

Current shutter includes multiple louver and bracing wire, and multiple louver intervals are arranged and each louver couples together with bracing wire, and bracing wire is generally located on the side of shutter, and user can pass through to control bracing wire and drive each louver to rotate simultaneously；When rotating the EDGE CONTACT making adjacent two louvers, shutter is closed, and light cannot be shining into indoor；When rotation makes there is interval between adjacent two louvers, shutter is opened, and light can be shining into indoor.

In the process realizing the disclosure, inventor have found that prior art at least there is problems in that

User needs to go to bracing wire place and could adjust the louver of shutter by controlling bracing wire and open or close, and operating process is loaded down with trivial details.

Summary of the invention

In order to solve problem of the prior art, disclosure embodiment provides a kind of shutter, and described shutter includes multiple louver, drive mechanism, motor, reception of wireless signals module and controller；

Each louver in the plurality of louver is arranged on described drive mechanism, and described drive mechanism is connected with described motor, and described motor is connected with described controller, and described reception of wireless signals module electrically connects with described controller；

Described reception of wireless signals module, is used for receiving telecommand and described telecommand being sent to described controller；

Described controller, for controlling drive mechanism operating described in described driven by motor according to described telecommand, makes each louver being arranged on described drive mechanism rotate.

Alternatively, the connecting rod that described drive mechanism includes power transmission shaft, fixing axle is corresponding with described each louver；

The louver that one end of described connecting rod is corresponding is fixed, and the other end is arranged on described power transmission shaft by a rotary part, and the middle part of described connecting rod is arranged on described fixing axle by another rotary part；Described power transmission shaft is connected with described motor.

Alternatively, described shutter also includes: the solar panel corresponding with described each louver and battery；

Described solar panel is arranged on the louver of its correspondence；

Described solar panel is connected with described battery, and described battery is connected with described controller.

Alternatively, described shutter also includes sunlight angle detector, and described sunlight angle detector electrically connects with described controller；

Described sunlight angle detector, for detecting the incident angle of sunlight and described incident angle being sent to described controller；

Described controller, is additionally operable to receive described incident angle and control each louver described in described driven by motor according to described incident angle rotate, makes the solar panel being arranged on described each louver vertical with the incident angle of described sunlight.

Alternatively, described shutter also includes sunlight intensity detector, and described sunlight intensity detector electrically connects with described controller；

Described sunlight intensity detector, for detecting the intensity of illumination of sunlight and described intensity of illumination being sent to described controller；

Described controller, is additionally operable to receive described intensity of illumination and control each louver described in described driven by motor according to described intensity of illumination rotate.

Alternatively, described controller is additionally operable to control described battery and powers to described controller and described motor.

Alternatively, described shutter also includes power output end, and described power output end electrically connects with described battery.

Alternatively, the solar panel that described each louver is corresponding is connected in series.

Alternatively, described reception of wireless signals module is bluetooth module or Anneta module.

Alternatively, described controller includes controlling module, and described control module is single-chip microcomputer or printed circuit board.

The technical scheme that disclosure embodiment provides has the benefit that

By each louver is arranged on drive mechanism in disclosure embodiment, drive mechanism is connected with motor, motor is connected with controller, receive telecommand by reception of wireless signals module and be sent to controller, controller is made to control the operating of driven by motor drive mechanism according to telecommand, and then make the louver being arranged on drive mechanism rotate, so, user can remotely control the anglec of rotation of shutter, controlling opening or closing of shutter without going to bracing wire place, operating process is simple.

Accompanying drawing explanation

In order to be illustrated more clearly that the technical scheme in disclosure embodiment, below the accompanying drawing used required during embodiment is described is briefly described, apparently, accompanying drawing in the following describes is only some embodiments of the disclosure, for those of ordinary skill in the art, under the premise not paying creative work, it is also possible to obtain other accompanying drawing according to these accompanying drawings.

Fig. 1 is the structural representation of the shutter that disclosure embodiment one provides；

Fig. 2 is the structural representation of the shutter that disclosure embodiment one provides；

Fig. 3 is the structural representation of the shutter that disclosure embodiment one provides；

Fig. 4 is the structural representation of disclosure embodiment one connecting rod provided and the louver being mounted with solar panel.

Wherein:

1 louver；

2 drive mechanisms, 21 power transmission shafts, 22 fixing axles, 23 connecting rods, 231 first kinks, 232 second kinks, 24 rotary parts, 25 expansion links；

3 motors；

4 controllers；

5 solar panels；

6 batteries；

A the first installing hole；

B the second installing hole；

C sunlight；

The angle towards ground that a the first kink and the second kink are formed；

The angle towards ground that b the second kink and louver are formed.

Detailed description of the invention

For making the purpose of the disclosure, technical scheme and advantage clearly, below in conjunction with accompanying drawing, disclosure embodiment is described in further detail.

Embodiment one

Current shutter needs user to go to bracing wire place, and the louver that could adjust shutter by controlling bracing wire is opened or closed, and operating process is loaded down with trivial details.

In order to solve prior art Problems existing, as it is shown in figure 1, disclosure embodiment provides a kind of shutter, this shutter includes multiple louver 1, drive mechanism 2, motor 3, reception of wireless signals module and controller 4；

Each louver 1 in multiple louvers 1 is arranged on drive mechanism 2, and drive mechanism 2 is connected with motor 3, and motor 3 is connected with controller 4, and reception of wireless signals module electrically connects with controller 4；

Reception of wireless signals module, is used for receiving telecommand and telecommand being sent to controller 4；

Controller 4, drives drive mechanism 2 to operate for controlling motor 3 according to telecommand, makes each louver 1 being arranged on drive mechanism 2 rotate.

By each louver 1 is arranged on drive mechanism 2 in disclosure embodiment, drive mechanism 2 is connected with motor 3, motor 3 is connected with controller 4, receive telecommand by reception of wireless signals module and be sent to controller 4, making controller 4 control motor 3 according to telecommand drives drive mechanism 2 to operate, and then make the louver 1 being arranged on drive mechanism 2 rotate, so, user can remotely control the anglec of rotation of shutter, controlling opening or closing of shutter without going to bracing wire place, operating process is simple.

User can pass through shutter remote controller and send telecommand to shutter, it is also possible to install remote control software on mobile terminals, sends telecommand to shutter by remote control software.

Such as, as shown in Figure 2, when user is out code by the telecommand that shutter remote controller sends, reception of wireless signals module receives this out code, and this out code is sent to controller 4, controller 4 controls motor 3 by this out code and drives drive mechanism 2 to operate, the each louver 1 being arranged on drive mechanism 2 is made to rotate, until the EDGE CONTACT of adjacent two louvers 1, now, shutter is closed, and light cannot be shining into indoor；

As shown in Figure 1, when user is OPEN by the telecommand that shutter remote controller sends, reception of wireless signals module receives this OPEN, and this OPEN is sent to controller 4, controller 4 controls motor 3 by this OPEN and drives drive mechanism 2 to operate, and makes each louver 1 being arranged on drive mechanism 2 rotate, until when there is interval between adjacent two louvers 1, shutter is opened, and light can be shining into indoor；

nullAlternatively，User can pass through shutter remote controller and control the anglec of rotation of each louver 1，Such as，Remote controller can be passed through and select the button of " 45 degree "，Reception of wireless signals module receives the instruction being somebody's turn to do " 45 degree "，And will should " 45 degree " be sent to controller 4，Controller 4 can according to should " 45 degree " instruction and now each louver 1 the anglec of rotation control each louver 1 rotate corresponding angle，Until the angle that each louver 1 and perpendicular are formed is 45 degree，Such as，As shown in Figure 3，If now the anglec of rotation of each louver 1 is in figure clockwise 15 degree，Now user selects " 45 degree " by remote controller，Then controller 4 can according to the instruction of " 45 degree " and the now anglec of rotation of each louver 1 and clockwise 15 degree，Control each louver 1 to continue to be rotated in a clockwise direction 30 degree，As shown in Figure 1，To reach the demand of user's " 45 degree ".

Alternatively, reception of wireless signals module is bluetooth module or Anneta module, and reception of wireless signals module can be integrated in the control module of controller 4, and wherein, the control module of controller 4 can be single-chip microcomputer or printed circuit board.

Alternatively, motor 3 can be motor.

Alternatively, as it is shown in figure 1, and referring to Fig. 2, drive mechanism 2 includes the connecting rod 23 of power transmission shaft 21, fixing axle 22 and each louver 1 correspondence；

The louver 1 that one end of connecting rod 23 is corresponding is fixed, and the other end is arranged on power transmission shaft 21 by a rotary part 24, and the middle part of connecting rod 23 is arranged on fixing axle 22 by another rotary part 24；Power transmission shaft 21 and fixing axle 22 are parallel to each other；Power transmission shaft 21 is connected with motor 3.

As shown in Figure 4, the louver 1 that one end of each connecting rod 23 is corresponding is fixed, the other end is provided with the first installing hole A, middle part is provided with the second installing hole B, as shown in Figure 1, rotary part 24 can be connecting pin, coupled together by the connecting pin the first installing hole A by each connecting rod 23 and power transmission shaft 21, coupled together by another connecting pin the second installing hole B by each connecting rod 23 and fixing axle 22, power transmission shaft 21 can pass through two expansion links 25 and be connected with motor 3, power transmission shaft 21 left and right directions in FIG can move back and forth under the drive of motor 3, reality can move back and forth for above-below direction, fixing axle 22 cannot move.

Alternatively, as shown in Figure 4, connecting rod 23 is bending structure, including the first kink 231 and the second kink 232, the first kink 231 and the second kink 232 can be concurrently formed by casting, first installing hole A is arranged on one end of the first kink 231, and the second installing hole B is arranged on the junction, boundary of the first kink 231 and the second kink 232；The angle a that first kink 231 and the second kink 232 are formed is less than 180 degree, can preferably be 140 degree, 150 degree or 160 degree, can be designed adjusting according to practical situation, after being arranged on power transmission shaft 21 by connecting pin by the first kink 231, the angle a that the first kink 231 and the second kink 232 are formed needs towards ground；One end of second kink 232 and the middle part of louver 1 are fixed up, the angle b that second kink 232 and louver 1 are formed is less than 90 degree, can preferably be 30 degree, 35 degree or 40 degree, can be designed adjusting according to practical situation, after second kink 232 is fixed together with louver 1, the angle b that the second kink 232 and louver 1 are formed needs towards ground；By another connecting pin, the second kink 232 is arranged on fixing axle 22, as shown in Figure 1 and referring to Fig. 2, connecting rod 23 can rotate around the connecting pin connecting the first kink 231 and power transmission shaft 21, the connecting pin that connects the second kink 232 and fixing axle 22.

As shown in Figure 1, now shutter is open mode, when user sends out code by shutter remote controller, controller 4 controls motor 3 and drives two expansion links 25 to move, two expansion links 25 are made to drive power transmission shaft 21 to move right, now be to the right the direction to the right in Fig. 1, actual sight can be downward, fixing axle 22 maintains static, connecting rod 23 is around the connecting pin connecting the first kink 231 and power transmission shaft 21, the connecting pin connecting the second kink 232 and fixing axle 22 rotates, as shown in Figure 2, until the EDGE CONTACT of adjacent two louvers 1, now, shutter is closed, light cannot be shining into indoor.

As shown in Figure 2, now shutter is closed mode, when user sends OPEN by shutter remote controller, controller 4 controls motor 3 and drives two expansion links 25 to move, two expansion links 25 are made to drive power transmission shaft 21 to left movement, now be the direction to the left in Fig. 2 to the left, actual sight can be upwards, fixing axle 22 maintains static, connecting rod 23 is around the connecting pin connecting the first kink 231 and power transmission shaft 21, the connecting pin connecting the second kink 232 and fixing axle 22 rotates, as shown in Figure 1, until when there is interval between adjacent two louvers 1, now, shutter is opened, light can be shining into indoor.

nullWhen user selects the button of " 45 degree " by shutter remote controller，Controller 4 can according to should " 45 degree " instruction and now each louver 1 the anglec of rotation control motor 3 drive two expansion links 25 to move，Two expansion links 25 are made to drive power transmission shaft 21 to move to corresponding direction，As shown in Figure 3，If now the anglec of rotation of each shutter is clockwise 15 degree，Now user selects " 45 degree " by remote controller，Then controller 4 can according to the instruction of " 45 degree " and the now anglec of rotation of each louver 1 and clockwise 15 degree，Controlling motor 3 drives two expansion links 25 to move，Two expansion links 25 are made to drive power transmission shaft 21 to the corresponding distance of left movement，Now be the direction to the left in Fig. 3 to the left，Actual sight can be upwards，Fixing axle 22 maintains static，Connecting rod 23 is around the connecting pin connecting the first kink 231 and power transmission shaft 21、The connecting pin connecting the second kink 232 and fixing axle 22 rotates，This corresponding distance can make each louver 1 continue to rotate 30 degree，As shown in Figure 1，Until the angle that each louver 1 and perpendicular are formed is clockwise 45 degree.

Alternatively, as it is shown in figure 1, shutter also includes the solar panel 5 corresponding with each louver 1 and battery 6；

Solar panel 5 is arranged on the louver 1 of its correspondence；

Solar panel 5 is connected with battery 6, and battery 6 is connected with controller 4.

By installing one piece of solar panel 5 on each louver 1, can realize each louver 1 can also make the solar panel 5 being positioned on shutter convert the solar energy collected to electric energy while blocking sunlight, and the electric energy of conversion is stored in battery 6, make use of the energy fully.

Alternatively, the solar panel 5 of each louver 1 correspondence can be together in series.Every piece of solar panel 5 is together in series, it is possible to obtain bigger voltage.

Alternatively, controller 4 is additionally operable to control battery 6 and powers to controller 4 and motor 3.

Control battery 6 by controller 4 to power to the equipment of itself of shutter, can without additionally powering for motor 3 and controller 4, when controller 4 detects that controller 4 and motor 3 need to power, battery 6 can be controlled be powered for controller 4 and motor 3, when controller 4 detects controller 4 and motor 3 full electricity, then control battery 6 to stop power supply, therefore without additionally powering for controller 4 and motor 3, only use the electric energy that shutter is changed can power into the equipment of itself of shutter, save the energy.

Alternatively, shutter also includes power output end, and power output end electrically connects with battery 6.

By arranging power output end for shutter, and power output end is electrically connected with battery 6, can make shutter is that other equipment are powered, such as the power input of power output end with other equipment such as mobile terminal or household reading lamp can be connected, it is powered for other equipment such as mobile terminal or household reading lamp, saves the energy.

Alternatively, shutter also includes sunlight angle detector, and sunlight angle detector electrically connects with controller 4；

Sunlight angle detector, for detecting the incident angle of sunlight and incident angle being sent to controller 4；

Controller 4, is additionally operable to receive incident angle and control motor 3 according to incident angle drive each louver 1 to rotate, makes the solar panel 5 being arranged on each louver 1 vertical with the incident angle of sunlight.

When user wants to convert solar energy into electric energy to greatest extent, sunlight angle detector can be enabled, the incident angle of detection is sent to controller 4 by sunlight angle detector, controller 4 can according to incident angle and now each louver 1 the anglec of rotation control each louver 1 rotate, until each louver 1 is vertical with the incident angle of sunlight.

Such as, as shown in Figure 2, if now the incident angle of sunlight C is 45 degree, then 45 degree of detection can be sent to controller 4 by sunlight angle detector, controller 4 according to incident angle 45 degree and now each shutter the anglec of rotation that is 0 degree send corresponding telecommand to motor 3, motor 3 is made to drive expansion link 25 to move, expansion link 25 drives power transmission shaft 21 to left movement respective distance, as shown in Figure 1, this respective distance can make each louver 1 rotate clockwise 45 degree, now each louver 1 is vertical with the incident angle of sunlight C, solar panel 5 on each louver 1 can convert solar energy into electric energy to greatest extent, improve energy utilization rate.

Alternatively, shutter also includes sunlight intensity detector, and sunlight intensity detector electrically connects with controller 4；

Sunlight intensity detector, for detecting the intensity of illumination of sunlight C and intensity of illumination being sent to controller 4；

Controller 4, is additionally operable to receive intensity of illumination and control motor 3 according to intensity of illumination drive each louver 1 to rotate.

When user wants the intensity of illumination in the conditioning chamber of shutter intelligence, sunlight intensity detector and sunlight angle detector can be enabled simultaneously, corresponding strength grade can be selected on shutter remote controller or on the remote control software of mobile terminal installation simultaneously, sunlight angle detector is by the incident angle of the sunlight C of detection, the intensity of illumination of detection is sent to controller 4 by sunlight intensity detector, controller 4 can according to incident angle, the anglec of rotation of intensity of illumination and now each louver 1 controls each louver 1 and rotates, until the intensity of illumination of indoor reaches the light levels that user selects.

Such as, if the light levels that user selects is middle rank, as shown in Figure 2, if now the anglec of rotation of each louver 1 is 0 degree, the incident angle of the sunlight C of sunlight angle detector detection is 45 degree, sunlight intensity detector detects that intensity of illumination now is more weak, such as there is cloud in the air, only faint sunlight, controller 4 can according to incident angle, the anglec of rotation of intensity of illumination and now each louver 1 calculates the angle that each window needs to adjust, if the angle calculated is 45 degree, as shown in Figure 1, then controlling motor 3 drives each louver 1 to be rotated clockwise to 45 degree, to reach the light levels that user selects；If the light levels that user selects is middle rank, as shown in Figure 2, now the anglec of rotation of each louver 1 is 0 degree, the illumination incident angle of sunlight angle detector detector detection is 45 degree, sunlight intensity detector detects that intensity of illumination now is stronger, controller 4 can according to incident angle, the anglec of rotation of intensity of illumination and now each louver 1 calculates the angle that each window needs to adjust, if the angle calculated is 15 degree, as shown in Figure 3, then controlling motor 3 drives each louver 1 to be rotated clockwise to 15 degree, to reach the light levels that user selects.Shutter can be made the intensity of illumination of sunlight C to be detected by arranging sunlight intensity detector, thus the more intelligent anglec of rotation adjusting each louver 1 is to reach the light levels demand of user.

Alternatively, light levels can be designed according to practical situation, for instance can have three or five light levels are available for user and select.

By each louver 1 is arranged on drive mechanism 2 in disclosure embodiment, drive mechanism 2 is connected with motor 3, motor 3 is connected with controller 4, receive telecommand by reception of wireless signals module and be sent to controller 4, making controller 4 control motor 3 according to telecommand drives drive mechanism 2 to operate, and then make the louver 1 being arranged on drive mechanism 2 rotate, so, user can remotely control the anglec of rotation of shutter, controlling opening or closing of shutter without going to bracing wire place, operating process is simple.

Above-mentioned disclosure embodiment sequence number, just to describing, does not represent the quality of embodiment.

The foregoing is only the preferred embodiment of the disclosure, not in order to limit the disclosure, within all spirit in the disclosure and principle, any amendment of making, equivalent replacement, improvement etc., should be included within the protection domain of the disclosure.

Claims (10)

1. a shutter, it is characterised in that described shutter includes multiple louver, drive mechanism, motor, reception of wireless signals module and controller；

Each louver in the plurality of louver is arranged on described drive mechanism, and described drive mechanism is connected with described motor, and described motor is connected with described controller, and described reception of wireless signals module electrically connects with described controller；

Described reception of wireless signals module, is used for receiving telecommand and described telecommand being sent to described controller；

Described controller, for controlling drive mechanism operating described in described driven by motor according to described telecommand, makes each louver being arranged on described drive mechanism rotate.

2. shutter according to claim 1, it is characterised in that the connecting rod that described drive mechanism includes power transmission shaft, fixing axle is corresponding with described each louver；

The louver that one end of described connecting rod is corresponding is fixed, and the other end is arranged on described power transmission shaft by a rotary part, and the middle part of described connecting rod is arranged on described fixing axle by another rotary part；Described power transmission shaft is connected with described motor.

3. shutter according to claim 1, it is characterised in that described shutter also includes: the solar panel corresponding with described each louver and battery；

Described solar panel is arranged on the louver of its correspondence；

Described solar panel is connected with described battery, and described battery is connected with described controller.

4. shutter according to claim 3, it is characterised in that described shutter also includes sunlight angle detector, and described sunlight angle detector electrically connects with described controller；

Described sunlight angle detector, for detecting the incident angle of sunlight and described incident angle being sent to described controller；

Described controller, is additionally operable to receive described incident angle and control each louver described in described driven by motor according to described incident angle rotate, makes the solar panel being arranged on described each louver vertical with the incident angle of described sunlight.

5. shutter according to claim 3, it is characterised in that described shutter also includes sunlight intensity detector, and described sunlight intensity detector electrically connects with described controller；

Described sunlight intensity detector, for detecting the intensity of illumination of sunlight and described intensity of illumination being sent to described controller；

Described controller, is additionally operable to receive described intensity of illumination and control each louver described in described driven by motor according to described intensity of illumination rotate.

6. shutter according to claim 3, it is characterised in that described controller is additionally operable to control described battery and powers to described controller and described motor.

7. shutter according to claim 3, it is characterised in that described shutter also includes power output end, and described power output end electrically connects with described battery.

8. shutter according to claim 3, it is characterised in that the solar panel that described each louver is corresponding is connected in series.

9. shutter according to claim 1, it is characterised in that described reception of wireless signals module is bluetooth module or Anneta module.

10. the shutter according to claim 1-9 any one claim, it is characterised in that described controller includes controlling module, and described control module is single-chip microcomputer or printed circuit board.