CN108952532B - Method for controlling running of sliding block by electric intelligent mode and structure of louver blade - Google Patents

Abstract

The invention relates to a structure of an electric intelligent control sliding block and a louver. The electromagnetic clutch is arranged in each sliding block and is provided with an independent control loop, the control loop controls the electromagnetic clutch, the electromagnetic clutch controls the closing and the separating of the screw rod and the transmission nut, and each control loop is connected with a main controller. According to the invention, an independent control loop is arranged for each sliding block, the control loop controls the clutch device, and the clutch device controls the closing and separating of the transmission nut, so that the accurate and personalized control on the sliding block operation can be achieved, the user requirement is met, the structure is simple, and the production cost is low.

Description

Method for controlling running of sliding block by electric intelligent mode and structure of louver blade

Technical Field

The invention relates to a method for controlling the running of a sliding block by electric intelligence and a structure of a louver blade.

Background

At present, the structure of electric control slider can not accomplish accurate control and individualized control, perhaps has the structure complicacy, and the noise is big, problem that manufacturing cost is higher.

Disclosure of Invention

Aiming at the defects existing in the prior art, the invention provides a method for controlling the running of the sliding block by using an electric intelligent mode and a structure of the shutter blade, which are reasonable in structure and low in cost, can accurately and individually control the unfolding stroke of the sliding block, and are convenient to use.

The structure of the sliding block operation of the invention comprises a screw rod driven by a mobile motor, wherein a plurality of nuts and sliding blocks are arranged on the screw rod, an electromagnetic clutch is arranged in each sliding block and is provided with an independent control loop, the control loop controls the electromagnetic clutch, the electromagnetic clutch controls the closing and the separating of the screw rod and a transmission nut, and each control loop is connected with a main controller; the two ends of each sliding block are provided with power-taking electrodes, and the left end face or the right end face is also provided with the same discharge electrode; the electromagnetic clutch is a limited or wireless reversing electromagnet; the screw rod is made of steel, and the nut is made of polytetrafluoroethylene; the sliding block operation mode comprises a sliding block collecting operation mode, when the sliding block operates towards one end face, the sliding block 1 firstly touches one end face, meanwhile, an electrode is connected, a control loop of the sliding block 1 separates a transmission nut, the sliding block 1 stops operating, a screw rod normally rotates, when the sliding block 2 touches the sliding block 1, the electrode is connected, a control loop of the sliding block 2 separates the transmission nut, and the like, and when the last sliding block touches the electrode, the operation is completely stopped.

The automatic sliding device is characterized by further comprising a sliding block running mode, when the sliding blocks need to be unfolded, a main controller firstly sends a closing instruction to the sliding blocks at the tail ends, after the sliding blocks at the tail ends are closed, the sliding blocks at the tail ends leave the electrodes at first, at the moment, the sliding blocks at the tail ends keep a closing state and drive away from the outer end face, when the sliding blocks at the tail ends run to a set distance, the main controller sends an instruction to the sliding blocks at the nearest tail ends, and the like, and after the sliding blocks at the 1 st drive away, the sliding block running mode is completed, and the set distance of the sliding blocks at the adjacent sliding blocks is input and set by the main controller.

The operation structure of the louver blade comprises an electric intelligent control sliding block operation structure, wherein the sliding block operation structure comprises a screw rod driven by a mobile motor, a plurality of nuts and sliding blocks are arranged on the screw rod, an electromagnetic clutch is arranged in each sliding block and is provided with an independent control loop, the control loop controls the electromagnetic clutch, the electromagnetic clutch controls the closing and the separating of the screw rod and a transmission nut, and each control loop is connected with a main controller; the two ends of each sliding block are provided with power-taking electrodes, and the left end face or the right end face is also provided with the same discharge electrode; the electromagnetic clutch is a limited or wireless reversing electromagnet; the screw rod is made of steel, and the nut is made of polytetrafluoroethylene; the structure of the louver blade further comprises a blade rotating shaft motor, a blade rotating shaft is arranged on the sliding block, and the blade rotating shaft is connected with the louver blade; the rotating angle range of the louver blade is 0-150 degrees; when the louver blade is at 90 degrees, the sliding block performs retraction and extension actions on the lead screw.

According to the invention, an independent control loop is arranged for each sliding block, the control loop controls the clutch device, and the clutch device controls the closing and separating of the transmission nut, so that the accurate and personalized control on the sliding block operation can be achieved, the user requirement is met, the structure is simple, and the production cost is low. The shutter is connected to the sliding block through a rotating shaft, and the shutter is unfolded in cooperation with the movement of the sliding block, so that the shutter is integrally controlled to open and close.

Drawings

Fig. 1 is a schematic drawing of a slider folding structure of the present invention.

FIG. 2 is a schematic view of the slide of the present invention in an open configuration.

FIG. 3 is a schematic diagram of the circuit control of the present invention.

Fig. 4 is a schematic view of the structure of the installation blind of the present invention.

Fig. 5 is a schematic view of the furled structure of the installation blind of the present invention.

Fig. 6 is a schematic view of an open configuration of the installation blind of the present invention.

Fig. 7 is a schematic structural view of an electromagnetic clutch according to the present invention.

Detailed Description

The invention is described in further detail below with reference to the accompanying drawings.

As shown in figures 1-4, the structure for controlling the operation of the sliding block by the electric intelligent control device comprises a screw rod 3 driven by a mobile motor, baffle plates 1 are arranged at two ends of the screw rod, the screw rod is a T-shaped screw rod wire with the maximum length not exceeding 6 meters, 20 sliding blocks 2 are arranged on the screw rod, an electromagnetic clutch 6 is arranged in each sliding block and is provided with an independent control loop and a signal receiver 5, the control loop controls the electromagnetic clutch, the electromagnetic clutch controls the closing and the separating of the screw rod and a transmission nut, and each control loop is connected with a main controller. The two ends of each sliding block are provided with power-taking electrodes, and the left end face or the right end face is also provided with the same discharge electrode. The electromagnetic clutch is a limited or wireless reversing electromagnet. The screw rod is made of steel, and the nut is made of polytetrafluoroethylene. Still include blade pivot motor 7, blade pivot motor connects blade pivot gear 8, pivot gear connects blade pivot 9, blade pivot connect tripe 10.

As shown in fig. 7, the slider clutch is activated by electromagnetic power failure. When the power is on, the magnet is attracted, the sliding block is separated from the trapezoidal screw rod, the sliding block is not linked with the screw rod, namely the screw rod rotates, and the sliding block is fixed in place. When the power is off, the separated modules are folded by the force of the spring, and the sliding block is meshed with the trapezoidal screw rod to realize linkage, namely, when the screw rod rotates positively and negatively, the sliding block can move forwards and backwards

The electric intelligent control sliding block structure comprises a sliding block collecting operation mode and a sliding block releasing mode:

when the sliding block operates, as shown in fig. 1, the sliding block No. 1 and the trigger switch 4 touch the right end face firstly when the sliding block operates on the right end face, meanwhile, the electrode is connected, the sliding block No. 1 control loop separates the transmission nut, the sliding block No. 1 stops operating, the screw rod rotates normally, when the sliding block No. 2 touches the sliding block No. 1, the electrode is connected, the sliding block No. 2 control loop separates the transmission nut, and the like, and when the sliding block No. 20 touches the electrode, the operation is completely stopped.

As shown in fig. 2, the main control board firstly sends a closing instruction to the 20 # slide block, when the 20 # slide block is closed, the 20 # slide block leaves the electrode firstly, at this time, the 20 # slide block keeps the closing state and drives away from the right end face, when the 20 # slide block runs to 220mm, the main control board sends an instruction to the 19 # slide block, and so on, and when the 1 # slide block drives away, the 20 # slide block completes the sliding block operation mode. The distance between each two sliding blocks can be accurately controlled through the motor, the distance can be adjusted at will, and the corresponding size is input on the main controller.

As shown in fig. 5 and 6, when the slider is fully in place, the louver has a rotation angle in the range of 0-150 °. When the sliding block rotates to 90 degrees, the sliding block is retracted, otherwise, the sliding block is retracted when the sliding block rotates to 90 degrees, and the sliding block is retracted on the screw rod.

The foregoing is merely illustrative of the preferred embodiments of the present invention and is not intended to be limiting. Any modification, equivalent replacement, improvement, etc. made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (3)

1. The method for electrically and intelligently controlling the operation of the sliding block is characterized in that the structure of the sliding block operation comprises a screw rod driven by a moving motor, a plurality of nuts and sliding blocks are arranged on the screw rod, an electromagnetic clutch is arranged in each sliding block and is provided with an independent control loop, the control loop controls the electromagnetic clutch, the electromagnetic clutch controls the closing and the separating of the screw rod and a transmission nut, and each control loop is connected with a main controller; the two ends of each sliding block are provided with power-taking electrodes, and the left end face or the right end face is also provided with the same discharge electrode; the electromagnetic clutch is a wired or wireless reversing electromagnet; the screw rod is made of steel, and the nut is made of polytetrafluoroethylene; the sliding block running method comprises a sliding block collecting running mode, when the sliding block runs, the sliding block 1 firstly touches an end face when running towards the end face, meanwhile, an electrode is connected, a control loop of the sliding block 1 separates a transmission nut, the sliding block 1 stops running, a screw rod normally rotates, when the sliding block 2 touches the sliding block 1, the electrode is connected, a control loop of the sliding block 2 separates the transmission nut, and the like, and when the last sliding block touches the electrode, the running is completely stopped.

2. The method for controlling the operation of the sliding block by the electric intelligent control device according to claim 1, further comprising a sliding block operation mode, wherein when the sliding block needs to be unfolded, a main controller firstly sends a closing command to the sliding block at the tail end, after the sliding block at the tail end is closed, the sliding block at the tail end leaves an electrode first, at the moment, the sliding block at the tail end keeps a closing state and drives away to the outer end face, when the sliding block at the tail end moves to a set distance, the main controller sends a command to the sliding block at the nearest tail end, and the like, and after the sliding block at the 1 st drives away, the sliding block operation mode is completed, and the set distance of the sliding out of the adjacent sliding blocks is input and set by the main controller.

3. The structure of the electric intelligent control shutter blade is characterized by comprising an electric intelligent control slide block operation structure, wherein the slide block operation structure comprises a screw rod driven by a mobile motor, a plurality of nuts and slide blocks are arranged on the screw rod, an electromagnetic clutch is arranged in each slide block and is provided with an independent control loop, the control loop controls the electromagnetic clutch, the electromagnetic clutch controls the closing and the separating of the screw rod and a transmission nut, and each control loop is connected with a main controller; the two ends of each sliding block are provided with power-taking electrodes, and the left end face or the right end face is also provided with the same discharge electrode; the electromagnetic clutch is a wired or wireless reversing electromagnet; the screw rod is made of steel, and the nut is made of polytetrafluoroethylene; the structure of the louver blade further comprises a blade rotating shaft motor, a blade rotating shaft is arranged on the sliding block, and the blade rotating shaft is connected with the louver blade; the rotating angle range of the louver blade is 0-150 degrees; when the louver blade is at 90 degrees, the sliding block performs retraction and extension actions on the lead screw.