CN111270943A - Intelligent window opening robot for left and right sliding windows - Google Patents

Abstract

The invention discloses an intelligent window opening robot for a left and right sliding window, which structurally comprises a window opening robot, a signal receiver, a charging connector, a solar cell panel and an emergency stop button, wherein the window opening robot comprises a machine body, an outward opening mechanism, an adsorption mechanism, a storage battery and an inward opening mechanism, the window opening robot receives a mobile phone signal and a remote controller signal through the signal receiver, the window opening robot adsorbs an inner window sash through the adsorption mechanism, a rack is connected with the outer window sash, the rack is controlled through the outward opening mechanism to drive the outer window sash to open and close, the window opening robot drives the inner window sash to move integrally through the inward opening mechanism, so that the window opening robot pushes and pulls the inner window sash through the adsorption mechanism to realize the intelligent remote operation window opening function, and the solar cell panel is used for providing electric energy for the robot.

Description

Intelligent window opening robot for left and right sliding windows

Technical Field

The invention relates to the technical field of intelligent home furnishing, in particular to an intelligent window opening robot for a left sliding window and a right sliding window.

Background

Along with the improvement of living standard, people are continuously increasing to the demand nature of intelligent house product, and the wide application is in the austral window, sliding sash of house and office space, behind the installation intelligence windowing facility, can easily realize opening and closing through the remote control of cell-phone APP realization window.

The left and right sliding windows of current house and office space adopt manual mode to realize opening and closing mostly, the remote control or drive-by-wire windowing facility that have now on the market is mostly installed at austral window top or middle part, the complicated installation of structure is unchangeable, and the atress balance that is unfavorable for movable window frame causes the switch window not smooth and easy or the track of deviating from, partial remote control windowing facility function is complicated, high price, the low in popularization rate, although electric window opener has brought a lot of facilities for switch window, nevertheless because it relies on electric power to start, will appear window opening and closing difficulty when outage or window opener break down, electric window opener will restrict opening or closing of casement this moment, the daily life of giving the user brings inconveniently.

Disclosure of Invention

Aiming at the defects of the prior art, the invention is realized by the following technical scheme: an intelligent window opening robot for a left sliding window and a right sliding window structurally comprises a window opening robot, a signal receiver, a charging connector, a solar cell panel and an emergency stop button, wherein the solar cell panel is arranged at the rear end of the window opening robot, the window opening robot is connected with the solar cell panel, the signal receiver is mounted at the top end of the window opening robot, the charging connector is arranged at the middle position of the top end of the window opening robot, the window opening robot and the charging connector are of an integrated structure, the emergency stop button is arranged at the left end of the window opening robot, and the window opening robot is mechanically connected with the emergency stop button;

the robot of windowing by organism, outward opening mechanism, adsorption equipment structure, battery, interior division of mechanism, the inside top of organism in the middle of be equipped with outward opening mechanism, organism and outward opening mechanism mechanical connection, the organism right-hand member on be equipped with adsorption equipment structure, organism and adsorption equipment structure fixed connection, organism internally mounted have the battery, the inside bottom of organism have interior division of mechanism, organism and interior division of mechanism cooperate.

As a further optimization of the technical scheme, a magnet is arranged below the bottom end of the machine body, and the machine body is connected with the magnet glue.

As the further optimization of this technical scheme, outer opening mechanism constitute by first motor, motor shaft, drive gear, rack, stabilizing mean, first motor bottom have the motor shaft, first motor and motor shaft one end mechanical connection, the motor shaft other end on be equipped with drive gear, motor shaft and drive gear fixed connection, drive gear on the surface be equipped with the rack, drive gear and rack mesh mutually, the rack on be equipped with stabilizing mean, rack and stabilizing mean sliding fit.

As a further optimization of the technical scheme, the stabilizing mechanism consists of a buckling rod, a sliding strip and rolling balls, wherein one end of the buckling rod is provided with the sliding strip, the buckling rod and the sliding strip are of an integrated structure, and the rolling balls are arranged on the surface of the sliding strip.

As the further optimization of the technical scheme, the adsorption mechanism consists of a supporting rod, a nut push block, a sucker and an extrusion block, the surface of the supporting rod is provided with the nut push block, the supporting rod is in threaded connection with the nut push block, the right end of the nut push block is provided with the extrusion block, the nut push block and the extrusion block are of an integrated structure, the right side of the extrusion block is provided with the sucker, and the extrusion block is in sliding fit with the sucker.

As the further optimization of this technical scheme, interior division of mechanism constitute by second motor, transmission shaft, worm, walking wheel, bearing frame, the second motor on be equipped with the transmission shaft, second motor and transmission shaft one end mechanical connection, the transmission shaft other end on be equipped with two worms, transmission shaft and worm structure as an organic whole, the transmission shaft other end on install the bearing frame, the worm bottom have the walking wheel, worm and walking wheel mesh mutually.

As a further optimization of the technical scheme, a worm wheel shaft is arranged between the travelling wheel and the travelling wheel, the travelling wheel and the worm wheel shaft are in clearance fit, more than two friction balls are arranged on the surface of the travelling wheel, and the travelling wheel is connected with the friction balls through glue.

As a further optimization of the technical scheme, the outward opening mechanism and the inward opening mechanism are electrically connected with the storage battery.

As a further optimization of the technical scheme, the supporting rod is connected with the sucking disc glue.

As the further optimization of the technical scheme, the rack is made of stainless steel materials and is not easy to damage.

Advantageous effects

The invention relates to an intelligent window opening robot for a left and right sliding window, which is characterized in that a nut push block is rotated to drive an extrusion block to extrude air of a sucker, so that the sucker is adsorbed below the side frame of an inner window sash, a rack is arranged below the inner side of the outer window sash, when a window needs to be opened, a signal receiver is operated through a mobile phone or a remote controller, when a single window needs to be opened, a second motor is driven to drive a transmission shaft to rotate, the transmission shaft drives a worm gear shaft to rotate through a worm, so that the worm gear shaft drives a travelling wheel to rotate and move, the travelling wheel increases friction resistance through a friction ball to drive the window opening robot to move, the window opening robot pulls the inner window sash to move through an adsorption mechanism to finish single opening work of the window, when the double windows need to be opened, a first motor is driven to drive a motor shaft to rotate, the motor shaft drives the outer window sash to move, and then the inward opening mechanism is controlled to open the inner window sash to push the double-sash window open, the window opening robot is inserted and embedded on the rack by utilizing the sliding strip on the buckling rod, the sliding stability of the window opening robot is improved, and the sliding strip reduces frictional resistance and friction damage through the rolling ball.

Compared with the prior art, the invention has the beneficial effects that: the robot that windows receives cell-phone signal and remote controller signal through signal receiver, the robot that windows adsorbs the internal casement through adsorption apparatus, be connected the rack with the outer casement, control the rack through out-opening mechanism and drive the outer casement switch, the robot that windows utilizes in-opening mechanism to drive the bulk movement, make the robot that windows pass through the casement in the adsorption apparatus push-and-pull, realize intelligent remote operation windowing function, utilize solar cell panel to provide the electric energy for this machine, the device installation is simple and easy, the cost is lower, be suitable for and use widely, and application scope is wide.

Drawings

Other features, objects and advantages of the invention will become more apparent upon reading of the detailed description of non-limiting embodiments with reference to the following drawings:

fig. 1 is a schematic structural diagram of an intelligent window opening robot for a left and right sliding window.

Fig. 2 is a front view section static state diagram of the intelligent window opening robot for the left and right sliding windows.

Fig. 3 is a front view section working state diagram of the intelligent window opening robot for the left and right sliding windows.

Fig. 4 is a schematic structural view of the stabilizing mechanism of the present invention.

FIG. 5 is a schematic view of the adsorption mechanism of the present invention.

Fig. 6 is a schematic view of a top-view cross-sectional structure of an intelligent windowing robot for a left and right sliding window.

FIG. 7 is an enlarged view of A of FIG. 6 according to the present invention.

In the figure: the window-opening robot comprises a window-opening robot-1, a signal receiver-2, a charging connector-3, a solar panel-4, an emergency stop button-5, a machine body-1 a, an external opening mechanism-1 b, an adsorption mechanism-1 c, a storage battery-1 d, an internal opening mechanism-1 e, a magnet-1 a1, a first motor-1 b1, a motor shaft-1 b2, a driving gear-1 b3, a rack-1 b4, a stabilizing mechanism-1 b5, a buckling rod-1 b51, a sliding bar-1 b52, a rolling ball-1 b53, a support rod-1 c1, a nut push block-1 c2, a suction cup-1 c3, an extrusion block-1 c4, a second motor-1 e1, a transmission shaft-1 e2, a worm-1 e3, a traveling wheel-1 e4, a bearing seat-1 e5, a wheel shaft-1 e41, a worm-1 e41, friction ball-1 e 42.

Detailed Description

In order to make the technical means, the original characteristics, the achieved purposes and the effects of the invention easy to understand, the following description and the accompanying drawings further illustrate the preferred embodiments of the invention.

Examples

Referring to fig. 1-7, the invention provides an intelligent window opening robot for a left and right sliding window, which structurally comprises a window opening robot 1, a signal receiver 2, a charging connector 3, a solar cell panel 4 and an emergency stop button 5, wherein the solar cell panel 4 is arranged at the rear end of the window opening robot 1, the window opening robot 1 is connected with the solar cell panel 4, the signal receiver 2 is arranged at the top end of the window opening robot 1, the charging connector 3 is arranged at the middle position of the top end of the window opening robot 1, the window opening robot 1 and the charging connector 3 are of an integrated structure, the emergency stop button 5 is arranged at the left end of the window opening robot 1, the window opening robot 1 is mechanically connected with the emergency stop button 5, and the window opening robot 1 is composed of a machine body 1a, an outward opening mechanism 1b, an adsorption mechanism 1c and a storage battery 1d, Interior division mechanism 1e, the inside top of organism 1a in the middle of be equipped with outer division mechanism 1b, organism 1a and outer division mechanism 1b mechanical connection, organism 1a right-hand member on be equipped with adsorption apparatus structure 1c, organism 1a and adsorption apparatus structure 1c fixed connection, organism 1a internally mounted have battery 1d, the inside bottom of organism 1a have interior division mechanism 1e, organism 1a and interior division mechanism 1e cooperate.

Magnet 1a1 is arranged under the bottom end of body 1a, and body 1a and magnet 1a1 are connected by glue.

The external opening mechanism 1b comprises a first motor 1b1, a motor shaft 1b2, a driving gear 1b3, a rack 1b4 and a stabilizing mechanism 1b5, wherein the motor shaft 1b2 is arranged below the bottom end of the first motor 1b1, one end of the first motor 1b1 is mechanically connected with one end of the motor shaft 1b2, the other end of the motor shaft 1b2 is provided with the driving gear 1b3, the motor shaft 1b2 is fixedly connected with the driving gear 1b3, the surface of the driving gear 1b3 is provided with the rack 1b4, the driving gear 1b3 is meshed with the rack 1b4, the rack 1b4 is provided with the stabilizing mechanism 1b5, and the rack 1b4 is in sliding fit with the stabilizing mechanism 1b 5.

The stabilizing mechanism 1b5 comprises a buckling rod 1b51, a slide bar 1b52 and a rolling ball 1b53, wherein one end of the buckling rod 1b51 is provided with the slide bar 1b52, the buckling rod 1b51 and the slide bar 1b52 are of an integrated structure, and the surface of the slide bar 1b52 is provided with the rolling ball 1b 53.

Adsorption apparatus 1c constitute by branch 1c1, nut ejector pad 1c2, sucking disc 1c3, extrusion piece 1c4, branch 1c1 on the surface be equipped with nut ejector pad 1c2, branch 1c1 and nut ejector pad 1c2 threaded connection, nut ejector pad 1c2 right-hand member on be equipped with extrusion piece 1c4, nut ejector pad 1c2 and extrusion piece 1c4 structure as an organic whole, extrusion piece 1c4 right side on be equipped with sucking disc 1c3, extrusion piece 1c4 and sucking disc 1c3 sliding fit.

Interior division 1e by second motor 1e1, transmission shaft 1e2, worm 1e3, walking wheel 1e4, bearing frame 1e5 constitute, second motor 1e1 on be equipped with transmission shaft 1e2, second motor 1e1 and transmission shaft 1e2 one end mechanical connection, transmission shaft 1e2 other end on be equipped with two worm 1e3, transmission shaft 1e2 and worm 1e3 structure as an organic whole, transmission shaft 1e2 other end on install bearing frame 1e5, worm 1e3 bottom have walking wheel 1e4, worm 1e3 and walking wheel 1e4 mesh mutually.

A worm wheel shaft 1e41 is arranged between the traveling wheel 1e4 and the traveling wheel 1e4, the traveling wheel 1e4 and the worm wheel shaft 1e41 are in clearance fit, more than two friction balls 1e42 are arranged on the surface of the traveling wheel 1e4, and the traveling wheel 1e4 and the friction balls 1e42 are connected through glue.

The external opening mechanism 1b and the internal opening mechanism 1e are both electrically connected with the storage battery 1d, the supporting rod 1c1 is connected with the sucker 1c3 through glue, and the rack 1b4 is made of stainless steel materials and is not prone to damage.

The principle of the invention is as follows: the nut push block 1c2 drives the extrusion block 1c4 to extrude the air of the suction cup 1c3 by rotating the nut push block 1c2, so that the suction cup 1c3 is adsorbed under the side frame of the inner window sash, the rack 1b4 is installed under the inner side of the outer window sash, when the window needs to be opened, the signal receiver 2 is operated by a mobile phone or a remote controller, when the single window needs to be pushed open, the second motor 1e1 is driven to drive the transmission shaft 1e2 to rotate, the transmission shaft 1e2 drives the worm wheel shaft 1e41 to rotate by using the worm 1e3, so that the worm wheel shaft 1e41 drives the traveling wheel 1e4 to rotate, the traveling wheel 1e4 increases the friction resistance through the friction ball 1e42 to drive the window opening robot 1 to move, the window opening robot 1c pulls the inner window sash to move to complete the single window opening work of the window, when the double window needs to be pushed open, the first motor 1b1 drives the motor shaft 1b2 to rotate, the motor shaft 1b2 drives the outer window sash to move by meshing the driving gear 1b3 and the rack 1b4, and then the inward opening mechanism 1e is controlled to open the inner window sash to push open the double-sash window, the window-opening robot 1 utilizes the sliding strip 1b52 on the buckling rod 1b51 to be inserted and embedded on the rack 1b4, the sliding stability of the window-opening robot is improved, the sliding strip 1b52 reduces the friction resistance through the rolling ball 1b53, and the friction damage is reduced.

The method for solving the problems comprises the following steps: the robot that windows 1 receives cell-phone signal and remote controller signal through signal receiver 2, the robot that windows 1 adsorbs the interior casement through adsorption equipment 1c, be connected rack 1b4 and outer casement, control rack 1b4 through outer opening mechanism 1b and drive the outer casement switch, the robot that windows 1 utilizes interior mechanism 1e to drive overall movement, make the robot that windows 1 pass through the interior casement of adsorption equipment 1c push-and-pull, realize intelligent remote operation windowing function, utilize solar cell panel 4 to provide the electric energy for this machine, the device installation is simple and easy, the cost is lower, be suitable for and use widely, and application scope is wide.

While there have been shown and described what are at present considered the fundamental principles of the invention, the essential features and advantages thereof, it will be understood by those skilled in the art that the present invention is not limited by the embodiments described above, which are merely illustrative of the principles of the invention, but rather, is capable of numerous changes and modifications in various forms without departing from the spirit or essential characteristics thereof, and it is intended that the invention be limited not by the foregoing descriptions, but rather by the appended claims and their equivalents.

Furthermore, it should be understood that although the present description refers to embodiments, not every embodiment may contain only a single embodiment, and such description is for clarity only, and those skilled in the art should integrate the description, and the embodiments may be combined as appropriate to form other embodiments understood by those skilled in the art.

Claims (7)

1. The utility model provides an intelligence machine people that windows of austral window, sliding sash about, its structure includes windowing robot (1), signal receiver (2), the joint (3) that charge, solar cell panel (4), emergency stop button (5), windowing robot (1) rear end on be equipped with solar cell panel (4), windowing robot (1) and solar cell panel (4) be connected, windowing robot (1) top on install signal receiver (2), windowing robot (1) top intermediate position on be equipped with the joint (3) that charge, windowing robot (1) and the joint (3) structure that charges as an organic whole, windowing robot (1) left end on be equipped with emergency stop button (5), windowing robot (1) and emergency stop button (5) mechanical connection, its characterized in that:

windowing robot (1) by organism (1a), outer opening mechanism (1b), adsorption apparatus structure (1c), battery (1d), interior division mechanism (1e), organism (1a) inside top in the middle of be equipped with outer opening mechanism (1b), organism (1a) and outer opening mechanism (1b) mechanical connection, organism (1a) right-hand member on be equipped with adsorption apparatus structure (1c), organism (1a) and adsorption apparatus structure (1c) fixed connection, organism (1a) internally mounted have battery (1d), organism (1a) inside bottom have interior division mechanism (1e), organism (1a) and interior division mechanism (1e) cooperate.

2. The intelligent robot for windowing left and right sliding windows according to claim 1, characterized in that: magnet (1a1) is arranged under the bottom end of body (1a), and body (1a) and magnet (1a1) are connected by glue.

3. The intelligent robot for windowing left and right sliding windows according to claim 1, characterized in that: the external opening mechanism (1b) consists of a first motor (1b1), a motor shaft (1b2), a driving gear (1b3), a rack (1b4) and a stabilizing mechanism (1b5), wherein the bottom end of the first motor (1b1) is provided with a motor shaft (1b2), one end of the first motor (1b1) is mechanically connected with one end of the motor shaft (1b2), the other end of the motor shaft (1b2) is provided with the driving gear (1b3), the motor shaft (1b2) is fixedly connected with the driving gear (1b3), the surface of the driving gear (1b3) is provided with the rack (1b4), the driving gear (1b3) is meshed with the rack (1b4), the rack (1b4) is provided with the stabilizing mechanism (1b5), and the rack (1b4) is in sliding fit with the stabilizing mechanism (1b 5).

4. The intelligent robot for windowing left and right sliding windows according to claim 3, characterized in that: stabilizing mean (1b5) constitute by buckle pole (1b51), draw runner (1b52), spin (1b53), buckle pole (1b51) one end on be equipped with draw runner (1b52), buckle pole (1b51) and draw runner (1b52) be the integrated structure, draw runner (1b52) install spin (1b53) on the surface.

5. The intelligent robot for windowing left and right sliding windows according to claim 1, characterized in that: adsorption apparatus (1c) constitute by branch (1c1), nut ejector pad (1c2), sucking disc (1c3), extrusion piece (1c4), branch (1c1) be equipped with nut ejector pad (1c2) on the surface, branch (1c1) and nut ejector pad (1c2) threaded connection, nut ejector pad (1c2) right-hand member on be equipped with extrusion piece (1c4), nut ejector pad (1c2) and extrusion piece (1c4) be the integral structure, extrusion piece (1c4) right side on be equipped with sucking disc (1c3), extrusion piece (1c4) and sucking disc (1c3) sliding fit.

6. The intelligent robot for windowing left and right sliding windows according to claim 1, characterized in that: interior division (1e) constitute by second motor (1e1), transmission shaft (1e2), worm (1e3), walking wheel (1e4), bearing frame (1e5), second motor (1e1) on be equipped with transmission shaft (1e2), second motor (1e1) and transmission shaft (1e2) one end mechanical connection, transmission shaft (1e2) other end on be equipped with two worms (1e3), transmission shaft (1e2) and worm (1e3) be the integral structure, transmission shaft (1e2) other end on install bearing frame (1e5), worm (1e3) bottom have walking wheel (1e4), worm (1e3) and walking wheel (1e4) mesh mutually.

7. The intelligent robot for windowing left and right sliding windows according to claim 6, characterized in that: a worm wheel shaft (1e41) is arranged between the traveling wheel (1e4) and the traveling wheel (1e4), the traveling wheel (1e4) and the worm wheel shaft (1e41) are in clearance fit, more than two friction balls (1e42) are arranged on the surface of the traveling wheel (1e4), and the traveling wheel (1e4) and the friction balls (1e42) are connected through glue.

Images