CN111520349A - Automatic maintenance equipment for wind force induction of indoor ceiling fan - Google Patents

Abstract

The invention discloses an indoor ceiling fan wind force sensing automatic maintenance device, wherein a fan cavity with a downward opening is arranged in the middle of a shell, air inlet channels communicated with the external space are respectively arranged in the left cavity wall and the right cavity wall of the fan cavity, the two air inlet channels are symmetrically distributed in the left and right directions, a wind force generating mechanism for generating wind force is arranged in the fan cavity, an automatic dust removing maintenance mechanism for removing dust according to wind force sensing is respectively arranged in the two air inlet channels, when a fan works, dust in air can be automatically filtered, so that the dust is prevented from entering along with air flow and finally attached to fan blades, when more dust is left after filtering, the dust can be timely processed and intensively collected through wind force sensing, so that the normal work of the fan is prevented from being influenced, when refrigeration is needed, the fan gear is only required to be adjusted to increase the rotating speed of the fan, so that a refrigeration mode can be automatically started, to meet more demands.

Description

Automatic maintenance equipment for wind force induction of indoor ceiling fan

Technical Field

The invention relates to the field of induction, in particular to an indoor ceiling fan wind force induction automatic maintenance device.

Background

The fan is the instrument of must getting cold in summer, and the kind of fan has the multiple, wherein just including the furred ceiling fan, and the fan can adhere to more dust on the flabellum at the during operation, and the difficult clearance of dust on the furred ceiling fan of just adhering to.

At present stage, most of ceiling fans need to be cleaned through manual work after attaching to more dust, and it is more difficult not only to need carry out the dismouting to the flabellum but also to clear up the dust, and general ceiling fan does not have the refrigeration function, and the function is single.

Disclosure of Invention

The invention aims to solve the technical problem of providing an indoor ceiling fan wind force sensing automatic maintenance device, solving the problems that the automatic maintenance function and the refrigeration function are not available and the like, and increasing the automatic maintenance function and the refrigeration function.

The invention is realized by the following technical scheme.

The invention relates to a wind force induction automatic maintenance device for an indoor ceiling fan, which comprises a shell, wherein a fan cavity with a downward opening is arranged in the middle of the shell, air inlet channels communicated with an external space are respectively arranged in the left cavity wall and the right cavity wall of the fan cavity, the two air inlet channels are symmetrically distributed in the left and right directions, a wind force generating mechanism for generating wind force is arranged in the fan cavity, an automatic dust removing maintenance mechanism for removing dust according to wind force induction is respectively arranged in the two air inlet channels, and a refrigerating mechanism for producing cold air is also respectively arranged in the upper cavity walls of the two air inlet channels; the automatic ash removal maintenance mechanism comprises driven cavities respectively positioned in the upper cavity walls of the two air inlet channels, a displacement cavity with a downward opening is arranged on the lower side of the driven cavity on the left side, a displacement block capable of moving left and right is arranged at the left end in the displacement cavity, a telescopic spring is connected between the left end surface of the displacement block and the left cavity wall of the displacement cavity, a clamping groove with an upward opening is arranged at the inner upper end of the displacement block, a filter plate positioned in the air inlet channel is fixedly arranged on the lower end surface of the displacement block, a pressing block cavity with a downward opening is arranged in the upper cavity wall at the right end of the displacement cavity, a pressing block capable of moving up and down is arranged in the pressing block cavity, a pressure spring is connected between the upper end surface of the pressing block and the upper cavity wall of the pressing block cavity, the upper end surface of the pressing block is connected with one end provided, the improved air inlet channel is characterized in that a rotating gear is arranged at the front end of the rotating rod, a rotating gear is arranged at the rear end of the rotating rod, a right end face is fixedly arranged on the upper end face of the pressing block and is connected with a first rack which is connected with the rotating gear in a meshed mode, a lifting plate capable of moving up and down is arranged in the driven cavity, a reset spring is connected between the upper end face of the lifting plate and the upper cavity wall of the driven cavity, a lower end face of the lifting plate is fixedly arranged on the lower end face of the lifting plate and extends into a second rack in the air inlet channel, a fixing plate is fixedly arranged on the right end face of the second rack, a scraping cavity with an opening facing right is arranged at the right end of the fixing plate, a scraping block capable of moving left and right is.

Furthermore, a pushing block cavity with a downward opening is arranged in the upper cavity wall of the driven cavity, a pushing block capable of moving up and down is arranged in the pushing block cavity, a compression spring is connected between the upper end face of the pushing block and the upper cavity wall of the pushing block cavity, the right end face of the pushing block is connected with the other end of the rope, a collecting cavity with a downward opening is arranged in each of the two lower cavity walls of the air inlet channels, threads are arranged on the cavity wall of the collecting cavity, a collector is arranged on the threads through threaded connection, an ash inlet communicated with the air inlet channels is arranged in each of the two upper cavity walls of the collecting cavity, and the ash inlet is located on the lower side of the filter plate.

Furthermore, the wind power generation mechanism comprises a motor fixed in the upper cavity wall of the fan cavity, the lower end of the motor is in power connection with a driving shaft, the lower end of the driving shaft is provided with a fan blade located in an external space, the lower end face of the shell is fixedly provided with a safety cover sleeved outside the fan blade, the upper end of the driving shaft is provided with a driving bevel gear, the left side of the driven cavity and the right side of the driven cavity are both provided with a transmission cavity, the left cavity wall of the fan cavity and the right cavity wall of the fan cavity are both rotatably provided with a driven shaft, one end of the driven shaft respectively extends into the two transmission cavities, and the two driven shafts are both provided with a driven bevel gear meshed with the driving bevel.

Furthermore, the refrigerating mechanism comprises a rotating block which is arranged at the right end of the driven shaft at the right side and is positioned in the transmission cavity, a refrigeration cavity with a downward opening is arranged at the lower side of the transmission cavity, an air refrigerator capable of moving up and down is arranged in the refrigeration cavity, an extension spring is connected between the upper end surface of the air refrigerator and the upper cavity wall of the refrigeration cavity, a power-on cavity is arranged on the upper side of the transmission cavity, an upper electrifying block which is electrically connected with an external power supply and can move up and down is arranged at the upper end in the electrifying cavity, a tension spring is connected between the upper end surface of the upper electrifying block and the upper cavity wall of the electrifying cavity, a lower electrifying block is fixedly arranged at the lower end in the electrifying cavity, an electric wire is electrically connected between the lower electrifying block and the air refrigerator, the upper end face of the air refrigerator is fixedly provided with a third rack, the upper end of the third rack extends into the electrifying cavity, and a pull rope is connected between the upper end face of the third rack and the lower end face of the upper electrifying block.

Further, the equidistance is equipped with ten outside chamber of stretching out of opening in the rotation piece, it can to stretch out the intracavity and be equipped with to stretch out the piece that stretches out of intracavity up-and-down motion, stretch out under the piece terminal surface with stretch out under the chamber and be connected between the chamber wall and be equipped with connecting spring, the rotation piece can be through ten stretch out the piece with the meshing of third rack is connected.

The invention has the beneficial effects that: the fan has a simple structure, is convenient and fast to operate, can automatically filter dust in air when the fan works, so that the dust is prevented from entering along with air flow and finally attached to fan blades, when more dust is left after filtering, the dust can be timely treated and collected in a centralized manner through wind force induction so as to avoid influencing the normal work of the fan, and when refrigeration is needed, the refrigeration mode can be automatically started only by adjusting the gear of the fan to increase the rotating speed of the fan, so that more requirements are met.

Drawings

In order to more clearly illustrate the embodiments of the invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the invention, and it is obvious for those skilled in the art that other drawings can be obtained based on these drawings without creative efforts.

FIG. 1 is a schematic structural diagram of an embodiment of the present invention;

FIG. 2 is a schematic structural diagram at A-A in FIG. 1 according to an embodiment of the present invention;

FIG. 3 is a schematic diagram of the structure at B in FIG. 1 according to an embodiment of the present invention;

FIG. 4 is a schematic structural diagram at C-C in FIG. 3 according to an embodiment of the present invention.

Detailed Description

The invention will now be described in detail with reference to fig. 1-4, wherein for ease of description the orientations described hereinafter are now defined as follows: the up, down, left, right, and front-back directions described below correspond to the up, down, left, right, and front-back directions in the projection relationship of fig. 1 itself.

The indoor ceiling fan air force induction automatic maintenance equipment described in conjunction with the attached drawings 1-4 comprises a casing 10, a fan cavity 11 with a downward opening is arranged in the middle of the casing 10, air inlet channels 36 communicated with the external space are respectively arranged in the left and right cavity walls of the fan cavity 11, the two air inlet channels 36 are distributed in bilateral symmetry, a wind force generating mechanism 26 for generating wind force is arranged in the fan cavity 11, an automatic ash removal maintenance mechanism 25 for removing dust according to wind force induction is arranged in each of the two air inlet channels 36, a refrigerating mechanism 38 for producing cold air is also arranged in the upper cavity wall of each of the two air inlet channels 36, each automatic ash removal maintenance mechanism 25 comprises a driven cavity 40 respectively arranged in the upper cavity wall of each of the two air inlet channels 36, a displacement cavity 65 with a downward opening is arranged at the lower side of the left driven cavity 40, and a displacement block 67 capable of moving left and right is arranged at the left end in the displacement cavity 65, a telescopic spring 69 is connected between the left end face of the displacement block 67 and the left cavity wall of the displacement cavity 65, a clamping groove 68 with an upward opening is arranged at the upper end in the displacement block 67, a filter plate 32 positioned in the air inlet channel 36 is fixedly arranged at the lower end face of the displacement block 67, a pressing block cavity 62 with a downward opening is arranged in the upper cavity wall at the right end of the displacement cavity 65, a pressing block 66 capable of moving up and down is arranged in the pressing block cavity 62, a pressure spring 63 is connected between the upper end face of the pressing block 66 and the upper cavity wall of the pressing block cavity 62, the upper end face of the pressing block 66 is connected with one end of a rope 45, a working cavity 61 is arranged at the right side of the driven cavity 40, a rotating rod 60 is rotatably arranged on the front cavity wall and the rear cavity wall of the working cavity 61, a rotating gear 71 is arranged at the front end of the rotating rod 60, a rotating gear 70 is arranged at the rear end of the rotating rod, be equipped with the lifter plate 41 that can up-and-down motion in the slave chamber 40, the lifter plate 41 up end with it is equipped with reset spring 46 to connect between the cavity wall on the slave chamber 40, the fixed lower extreme that is equipped with of lifter plate 41 lower extreme surface stretches into second rack 39 in the inlet air duct 36, the fixed plate 37 that is equipped with of second rack 39 right-hand member face, fixed plate 37 right-hand member is equipped with the opening and scrapes a chamber 34 to the right, scrape the piece 33 that is equipped with the ability side-to-side motion in the chamber 34, scrape piece 33 left end face with it is equipped with elasticity spring 35 to scrape to connect between the chamber 34 left side chamber wall.

Beneficially, a pushing block cavity 43 with a downward opening is formed in the upper cavity wall of the driven cavity 40, a pushing block 42 capable of moving up and down is arranged in the pushing block cavity 43, a compression spring 44 is connected between the upper end surface of the pushing block 42 and the upper cavity wall of the pushing block cavity 43, the right end surface of the pushing block 42 is connected with the other end of the rope 45, a collecting cavity 30 with a downward opening is formed in the lower cavity wall of each of the two air inlet channels 36, threads 31 are formed in the cavity wall of the collecting cavity 30, a collector 29 is connected to the threads 31 through threads, an ash inlet 73 communicated with the air inlet channels 36 is formed in the upper cavity wall of each of the two collecting cavities 30, and the ash inlet 73 is located on the lower side of the filter plate 32.

Beneficially, the wind generating mechanism 26 includes a motor 50 fixed in the upper cavity wall of the fan cavity 11, a driving shaft 51 is connected to the lower end of the motor 50 in a power manner, a fan blade 27 located in an external space is arranged at the lower end of the driving shaft 51, a safety cover 28 sleeved outside the fan blade 27 is fixedly arranged on the lower end face of the housing 10, a driving bevel gear 52 is arranged at the upper end of the driving shaft 51, a transmission cavity 18 is respectively arranged on the left side of the driven cavity 40 on the left side and the right side of the driven cavity 40 on the left side, a driven shaft 48 with one end respectively extending into the two transmission cavities 18 is rotatably arranged on the left cavity wall and the right cavity wall of the fan cavity 11, and a driven bevel gear 49 meshed with the driving bevel gear 52 is arranged on each of the two driven shafts 48.

Beneficially, the refrigeration mechanism 38 includes a rotating block 19 disposed at the right end of the driven shaft 48 on the right side and located in the transmission cavity 18, a refrigeration cavity 24 with a downward opening is disposed at the lower side of the transmission cavity 18, an air refrigerator 23 capable of moving up and down is disposed in the refrigeration cavity 24, an extension spring 22 is connected between the upper end surface of the air refrigerator 23 and the upper cavity wall of the refrigeration cavity 24, an electrifying cavity 13 is disposed at the upper side of the transmission cavity 18, an electrifying block 12 electrically connected with an external power supply and capable of moving up and down is disposed at the upper end in the electrifying cavity 13, a tension spring 14 is connected between the upper end surface of the electrifying block 12 and the upper cavity wall of the electrifying cavity 13, a lower electrifying block 16 is fixedly disposed at the inner lower end of the electrifying cavity 13, an electric wire 17 is electrically connected between the lower electrifying block 16 and the air refrigerator 23, a third rack 21 with an upper end extending into the electrifying cavity, a pull rope 15 is connected between the upper end face of the third rack 21 and the lower end face of the upper electrifying block 12.

Advantageously, ten outwardly-opened protruding cavities 54 are equidistantly arranged in the rotating block 19, protruding blocks 55 capable of moving up and down in the protruding cavities 54 are arranged in the protruding cavities 54, a connecting spring 53 is connected between the lower end surfaces of the protruding blocks 55 and the lower cavity wall of the protruding cavities 54, and the rotating block 19 can be meshed and connected with the third rack 21 through the ten protruding blocks 55.

In the initial state, the air cooler 23 is located in the cooling chamber 24 under the pulling force of the extension spring 22, and the sliding gear 57 on the left side is located on the right side of the second rack 39 and is in a non-meshed state with the second rack 39.

When the dust filter works, the motor 50 is started, the motor 50 works to drive the driving shaft 51 to rotate, so as to drive the driving bevel gear 52 and the fan blades 27 to rotate, the fan blades 27 rotate to suck outside air from the two air inlet channels 36 and discharge the air downwards, so as to generate wind power, the driving bevel gear 52 rotates to drive the two driven bevel gears 49 which are in meshed connection with the driving bevel gear to rotate, so as to drive the two driven shafts 48 to rotate, the driven shafts 48 rotate to drive the rotating block 19 and the sliding gear 57 to rotate, in the process that the outside air enters the fan cavity 11 from the air inlet channels 36, the filter plate 32 filters and blocks dust in the air, the dust is adsorbed on the left end face of the filter plate 32, when more dust is accumulated on the filter plate 32, the dust blocks sieve holes on the filter plate 32, so that the air cannot pass through the filter plate 32, and the filter plate 32 moves rightwards, the filter plate 32 is exposed from the ash inlet 73 after moving rightwards, the scraping block 33 keeps the right end always abutting against the left end surface of the filter plate 32 under the action of the elastic force of the elastic spring 35, the filter plate 32 moves rightwards to drive the displacement block 67 to move rightwards, the displacement block 67 moves rightwards to push the pressing block 66 to move upwards, the pressing block 66 moves upwards to drive the first rack 64 to move upwards, so as to drive the rotating gear 71 meshed with the first rack 64 to rotate, the rotating gear 71 rotates to drive the rotating rod 60 and the rotating gear 70 on the rotating rod 60 to rotate, the rotating gear 70 rotates to drive the third rack 59 meshed with the rotating gear to move leftwards, the third rack 59 moves leftwards to push the sliding gear 57 to move leftwards to be meshed with the second rack 39, the lower end of the pressing block 66 can enter the clamping groove 68, the clamping groove 68 cannot move leftwards to reset under the limiting action of the pressing block 66, so as to keep the, when the sliding gear 57 rotates to be meshed and connected with the second rack 39, the second rack 39 moves downwards to drive the fixing plate 37 to move downwards, so that the scraping block 33 moves downwards to scrape off dust on the left end surface of the filter plate 32 and finally falls into the collector 29 through the dust inlet 73, after the sliding gear 57 rotates to be disengaged from the second rack 39, the second rack 39 and the lifting plate 41 move upwards to reset under the tension of the reset spring 46, the lifting plate 41 impacts the pushing block 42 upwards in the resetting process, the pushing block 42 moves upwards to tension the rope 45, the pressing block 66 moves upwards to leave from the clamping groove 68 under the tension of the rope 45, the displacement block 67 moves leftwards to reset under the tension of the telescopic spring 69, and the pressing block 66 moves downwards to reset under the elastic force of the pressure spring 63 to drive the first rack 64 to move downwards and drive the third rack 59 to move rightwards to reset through mechanical transmission, the sliding gear 57 moves rightwards under the pulling force of the third rack 59 and is disengaged from the second rack 39, so that the dust removing process of the fan is completed; when refrigeration is needed, the rotating speed of the motor 50 is increased, the rotating speed of the driven shaft 48 is increased, so that the rotating speed of the rotating block 19 is increased, the extending block 55 slides out of the extending cavity 54 under the centrifugal action after the rotating speed of the rotating block 19 is increased, at the moment, the rotating block 19 can be meshed with the third rack 21 through the extending block 55, the rotating block 19 rotates to drive the third rack 21 meshed with the rotating block to move downwards, the third rack 21 moves downwards to drive the air refrigerator 23 to enter the air inlet channel 36 and pull the pull rope 15 to pull the upper electrifying block 12 to move downwards under the tensile force of the pull rope 15 and be in contact connection with the lower electrifying block 16, the air refrigerator 23 supplies power to start working, air passing through the air refrigerator 23 is refrigerated, and the collected dust can be treated by manually rotating the collector 29.

The above embodiments are merely illustrative of the technical ideas and features of the present invention, and the purpose thereof is to enable those skilled in the art to understand the contents of the present invention and implement the present invention, and not to limit the protection scope of the present invention. All equivalent changes and modifications made according to the spirit of the present invention should be covered within the protection scope of the present invention.

Claims (5)

1. The utility model provides an automatic maintenance equipment of indoor furred ceiling fan wind-force induction, includes the casing, its characterized in that: a fan cavity with a downward opening is arranged in the middle of the shell, air inlet channels communicated with the external space are respectively arranged in the left cavity wall and the right cavity wall of the fan cavity, the two air inlet channels are symmetrically distributed in the left and right directions, a wind power generation mechanism for generating wind power is arranged in the fan cavity, an automatic dust removal maintenance mechanism for removing dust according to wind power induction is respectively arranged in the two air inlet channels, and a refrigeration mechanism for producing cold air is also respectively arranged in the upper cavity walls of the two air inlet channels; the automatic ash removal maintenance mechanism comprises driven cavities respectively positioned in the upper cavity walls of the two air inlet channels, a displacement cavity with a downward opening is arranged on the lower side of the driven cavity on the left side, a displacement block capable of moving left and right is arranged at the left end in the displacement cavity, a telescopic spring is connected between the left end surface of the displacement block and the left cavity wall of the displacement cavity, a clamping groove with an upward opening is arranged at the inner upper end of the displacement block, a filter plate positioned in the air inlet channel is fixedly arranged on the lower end surface of the displacement block, a pressing block cavity with a downward opening is arranged in the upper cavity wall at the right end of the displacement cavity, a pressing block capable of moving up and down is arranged in the pressing block cavity, a pressure spring is connected between the upper end surface of the pressing block and the upper cavity wall of the pressing block cavity, the upper end surface of the pressing block is connected with one end provided, the improved air inlet channel is characterized in that a rotating gear is arranged at the front end of the rotating rod, a rotating gear is arranged at the rear end of the rotating rod, a right end face is fixedly arranged on the upper end face of the pressing block and is connected with a first rack which is connected with the rotating gear in a meshed mode, a lifting plate capable of moving up and down is arranged in the driven cavity, a reset spring is connected between the upper end face of the lifting plate and the upper cavity wall of the driven cavity, a lower end face of the lifting plate is fixedly arranged on the lower end face of the lifting plate and extends into a second rack in the air inlet channel, a fixing plate is fixedly arranged on the right end face of the second rack, a scraping cavity with an opening facing right is arranged at the right end of the fixing plate, a scraping block capable of moving left and right is.

2. The indoor ceiling fan wind sensing automatic maintenance equipment of claim 1, characterized in that: the dust collector is characterized in that a pushing block cavity with a downward opening is arranged in the upper cavity wall of the driven cavity, a pushing block capable of moving up and down is arranged in the pushing block cavity, a compression spring is connected between the upper end face of the pushing block and the upper cavity wall of the pushing block cavity, the right end face of the pushing block is connected with the other end of the rope, two collecting cavities with downward openings are arranged in the lower cavity wall of the air inlet channel, threads are arranged on the cavity wall of the collecting cavities, a collector is connected to the threads through threads, two dust inlet holes communicated with the air inlet channel are formed in the upper cavity wall of the collecting cavities, and the dust inlet holes are located on the lower side of the filter plate.

3. The indoor ceiling fan wind sensing automatic maintenance equipment of claim 1, characterized in that: the wind power generation mechanism comprises a motor fixed in the upper cavity wall of the fan cavity, the lower end of the motor is in power connection with a driving shaft, the lower end of the driving shaft is provided with a fan blade located in the external space, the lower end face of the shell is fixedly provided with a safety cover sleeved outside the fan blade, the upper end of the driving shaft is provided with a driving bevel gear, the left side of the driven cavity and the right side of the driven cavity are both provided with a transmission cavity, the left cavity wall of the fan cavity and the right cavity wall of the right cavity are both rotatably provided with two driven shafts, one end of each driven shaft extends into the two driven shafts in the transmission cavity, and the two driven shafts are both provided with a driven bevel gear.

4. The indoor ceiling fan wind sensing automatic maintenance equipment of claim 1, characterized in that: the refrigerating mechanism comprises a rotating block which is arranged at the right end of the driven shaft on the right side and is positioned in the transmission cavity, a refrigeration cavity with a downward opening is arranged at the lower side of the transmission cavity, an air refrigerator capable of moving up and down is arranged in the refrigeration cavity, an extension spring is connected between the upper end surface of the air refrigerator and the upper cavity wall of the refrigeration cavity, a power-on cavity is arranged on the upper side of the transmission cavity, an upper electrifying block which is electrically connected with an external power supply and can move up and down is arranged at the upper end in the electrifying cavity, a tension spring is connected between the upper end surface of the upper electrifying block and the upper cavity wall of the electrifying cavity, a lower electrifying block is fixedly arranged at the lower end in the electrifying cavity, an electric wire is electrically connected between the lower electrifying block and the air refrigerator, the upper end face of the air refrigerator is fixedly provided with a third rack, the upper end of the third rack extends into the electrifying cavity, and a pull rope is connected between the upper end face of the third rack and the lower end face of the upper electrifying block.

5. The indoor ceiling fan wind sensing automatic maintenance equipment of claim 4, wherein: the equidistance is equipped with ten outside cavities that stretch out of opening in the rotating block, it can to stretch out the intracavity and be equipped with to stretch out the piece that stretches out of intracavity up-and-down motion, stretch out under the piece terminal surface with it is equipped with coupling spring to stretch out to connect between the chamber wall down, the rotating block can be through ten stretch out the piece with third rack toothing connects.

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