Bluetooth sound box capable of blowing air and removing dust
Technical Field
The invention relates to the technical field of Bluetooth, in particular to a Bluetooth sound box capable of blowing air and removing dust.
Background
The Bluetooth sound box is mainly a portable sound box, the appearance is generally small and portable, the Bluetooth sound box can be placed on a desktop for a long time, the appearance of the sound box and a loudspeaker can accumulate some dust, the user experience is influenced, and the cleaning difficulty is high, the sound box appearance is generally cleaned or cleaned by manually utilizing a chicken feather blanket or a wet cleaning cloth in the conventional mode, because the dust has light weight, the dust can be rolled into half air due to air flow generated when the dust is swung when the chicken feather blanket is used for cleaning, dust raising occurs in a room, other objects are polluted, the appearance of the sound box cannot be effectively cleaned, the appearance of the sound box is cleaned through the wet cleaning cloth, water marks are easily generated on the surface of a shell of the sound box, and the cleaning cloth cannot clean some deep and narrow grooves of the shell, so that the Bluetooth sound box capable of blowing and dust removal needs to be developed, and the problem that the Bluetooth sound box can be placed on the desktop for a long time, the appearance of the sound box and the horn can accumulate some dust, and the problem that the appearance of the sound box cannot be effectively carried out is solved.
Summary of the invention
Aiming at the defects of the prior art, the invention is realized by the following technical scheme: a Bluetooth sound box capable of blowing air and removing dust structurally comprises a control panel, a spherical shell, a hollowed-out sound amplification groove, a dust collection port, a horn, a water level observation ruler, a water discharge nozzle and rotary dust removal equipment, wherein the control panel is arranged at the central position of the top of the spherical shell and is of a circular structure, the control panel is fixedly buckled on a groove in the top of the spherical shell, the hollowed-out sound amplification groove is arranged below the control panel, the hollowed-out sound amplification groove and the spherical shell are of an integrated structure, the horn is arranged in the hollowed-out sound amplification groove, the horn is fixedly buckled on a groove in the central position in the hollowed-out sound amplification groove, the dust collection ports are arranged on two sides of the horn, the dust collection ports and the spherical shell are of an integrated structure, two exhaust ports are uniformly arranged at the rear end of the spherical shell at equal intervals, the water level observation ruler is arranged at the central, and a drainage nozzle is arranged below the water level observation ruler, and the rotary dust removal equipment is arranged at the central position of the bottom of the spherical shell.
As a further optimization of the technical scheme, the rotary dust removing equipment consists of a rotary transmission device and a dust removing and exhausting device, wherein two dust removing and exhausting devices are arranged above the rotary transmission device and are in an axisymmetric structure, and the rotary transmission device is in transmission connection with the dust removing and exhausting devices.
As a further optimization of the technical scheme, the rotary transmission device comprises a base, a spherical shell connecting support, a central vertical rod, an inner gear ring, driven gears, a shaft lever and a balance stress support, wherein the base is of a circular structure, the central position of the top of the base is provided with the central vertical rod, the bottom end of the central vertical rod is connected with the base, the bottom end of the central vertical rod is embedded and fixed on a groove at the central position of the top of the base through a bearing ring, the spherical shell connecting support is arranged above the base, the top surface of the spherical shell connecting support is embedded and fixed at the bottom of the spherical shell, the spherical shell connecting support is connected with the central vertical rod, the inner gear ring is arranged above the spherical shell connecting support, the outer wall of the inner gear ring is embedded and fixed on the groove at the inner wall of the spherical, the driven gear is meshed with the inner gear ring, the shaft lever is arranged at the center of the driven gear and is in interference fit with the driven gear, the balance stress support is arranged at the top end of the center vertical rod, and two ends of the balance stress support are connected with the top end of the shaft lever.
As a further optimization of the technical scheme, the balance stress support consists of a balance ring, a coupler, side cross rods, an upper ball shaft sleeve, a central cross rod and a lower ball shaft sleeve, the central position inside the balance ring is provided with the upper ball shaft sleeve, the two ends of the upper ball shaft sleeve are provided with the couplers, the coupler and the balance ring are in interference fit, the central cross rod is arranged between the upper ball shaft sleeve and the coupler, the upper ball shaft sleeve and the coupler are connected through the central cross rod, the lower ball shaft sleeve is arranged below the upper ball shaft sleeve, the two sides of the central cross rod are provided with the side cross rods and are in an axisymmetric structure, the central cross rod is connected with the lower ball shaft sleeve through the side cross rods, the upper ball shaft sleeve and the lower ball shaft sleeve are embedded and fixed on the central vertical rod, and the central vertical rod can rotate in the process through the upper ball shaft sleeve and the lower ball shaft, the balance stress bracket can not be driven to rotate, and the shaft coupling is connected with the top end of the shaft lever.
As a further optimization of the technical scheme, the dust removal and exhaust device comprises an air inlet cover, an air inlet impeller, a spray ring, an exhaust nozzle, a water tank, a water circulation mechanism, a connecting shaft and a driving belt pulley, wherein the air inlet cover is arranged in a spherical shell and is buckled with the spherical shell, the top of the air inlet cover is provided with an air inlet, the air inlet is connected with a dust suction port through a corrugated hose, the bottom of the air inlet cover is provided with the water tank, the water tank is of a hollow cylindrical structure, the top of the water tank is buckled with the bottom of the air inlet cover, the connecting shaft is arranged at the center of the water tank, the top end of the connecting shaft penetrates through the water tank and is fixed on the air inlet cover, the connecting shaft is movably connected with the water tank and the air inlet cover, the driving belt pulley is arranged below the water tank and is, air inlet impeller and connecting axle connect, the spray ring be the loop configuration and locate air inlet impeller below, the gomphosis of spray ring fix on the cover inner wall recess that admits air, the water tank both sides be equipped with the exhaust nozzle, the exhaust nozzle be equipped with two gas vents with the even equidistance in spherical shell rear end and be connected, water tank bottom be equipped with two hydrologic cycle mechanisms and be the axisymmetric structure.
As the further optimization of this technical scheme, hydrologic cycle mechanism constitute by transmission shaft, drainage water wheels, drainage cavity, baffle, drain pipe, driven pulley, drive belt, drainage cavity top be connected with the notch of water tank bottom, drainage cavity inside be equipped with the baffle and the two structure as an organic whole, transmission shaft vertical fixation on the baffle, transmission shaft and baffle swing joint, baffle top be equipped with drainage water wheels, drainage water wheels and transmission shaft connect, baffle below be equipped with driven pulley, driven pulley and transmission shaft connect, driven pulley and drive pulley pass through drive belt transmission and connect, the drain pipe locate drainage cavity bottom, drainage cavity and spray ring be connected through the drain pipe.
As a further optimization of the technical scheme, the water level inside the water tank is always lower than the height of the exhaust nozzle.
Advantageous effects
The Bluetooth sound box capable of blowing and removing dust has the advantages of reasonable design, strong functionality and the following beneficial effects:
according to the rotary transmission device, the outer wall of the inner gear ring is embedded and fixed on the groove on the inner wall of the spherical shell, and the spherical shell is connected with the central vertical rod through the spherical shell connecting support, so that the inner gear ring is driven to rotate in the process of rotating the spherical shell from the outside, and the inner gear ring is meshed with the driven gear, so that the driven gear rotates and drives the shaft rod to rotate;
the dust removal exhaust device of the invention has the advantages that because the shaft lever is connected with the connecting shaft through the coupler, the connecting shaft can rotate according to the rotating lead of the shaft lever when the shaft lever rotates and drives the air inlet impeller arranged in the air inlet cover to rotate, the air inlet impeller can generate strong suction when rotating clockwise at high speed to suck dust around the spherical shell into the water tank, because the transmission shaft is in transmission connection with the connecting shaft through the transmission belt, the transmission shaft can rotate according to the rotating lead of the connecting shaft when the connecting shaft rotates and drives the water discharge wheel to rotate, the water discharge wheel can generate downward negative pressure suction when rotating clockwise, water in the water tank is filled into the spray ring through the water discharge pipe, and water is atomized through the compressed water outlet of the spray ring, so that small water drops can be adhered to the dust sucked into the water tank, and the dust can be deposited at the bottom of the water tank due to the, at the moment, clean air without dust is discharged from the exhaust nozzle, and through the structural design of the water circulation mechanism, the water source in the water tank can be recycled, so that the waste is reduced;
the invention applies force clockwise from the outside to rotate the spherical shell, can enable the rotary transmission device and the dust removal exhaust device to work in sequence, the rotary transmission device can ensure that the spherical shell is balanced and simultaneously efficiently converts circumferential motion of the spherical shell into work of the dust removal exhaust device, so that the dust removal exhaust device sucks dust around the spherical shell and falling on the shell into the water tank through negative pressure suction generated when the air inlet impeller rotates clockwise, the water source in the water tank is filled into the spray ring to atomize the water through the downward negative pressure suction force generated by the clockwise rotation of the water discharge wheel, so that an atomization zone is formed below the air inlet impeller, the air can purify dust through the atomization zone, the dust is precipitated at the bottom of the water tank, with this solve bluetooth speaker and place on the desktop for a long time, the outward appearance of audio amplifier and loudspeaker department can accumulate some dusts, and can't effectual problem going on the audio amplifier outward appearance.
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 a bluetooth speaker capable of blowing air and removing dust according to the present invention.
FIG. 2 is a schematic front view of the rotary dust-removing apparatus of the present invention;
FIG. 3 is a schematic front view of the rotary actuator of the present invention;
FIG. 4 is a schematic top view of the balanced force bracket of the present invention;
FIG. 5 is a schematic structural view of a cross section of a dust-removing exhaust apparatus according to the present invention;
fig. 6 is a schematic structural view of the water circulation mechanism of the present invention.
In the figure: control panel-1, spherical shell-2, hollow sound amplifying groove-3, dust suction port-4, horn-5, water level observation ruler-6, water discharge nozzle-7, rotary dust removing equipment-8, rotary transmission device-81, base-81 a, spherical shell connecting support-81 b, central vertical rod-81 c, inner gear ring-81 d, driven gear-81 e, shaft rod-81 f, balance stress support-81 g, balance ring-81 g1, shaft coupling-81 g2, side cross rod-81 g3, upper ball shaft sleeve-81 g4, central cross rod-81 g5, lower ball shaft sleeve-81 g6, dust removing exhaust device-82, air inlet cover-82 a, air inlet impeller-82 b, spray ring-82 c, air discharge nozzle-82 d, air discharge nozzle-81 g4, central cross rod-81 g5, lower ball shaft sleeve-81 g6, The water circulation device comprises a water tank-82 e, a water circulation mechanism-82 f, a transmission shaft-82 f1, a water discharge wheel-82 f2, a water discharge cavity-82 f3, a partition plate-82 f4, a water discharge pipe-82 f5, a driven pulley-82 f6, a transmission belt-82 f7, a connecting shaft-82 g and a driving pulley-82 h.
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. 1-6, the present invention provides a bluetooth speaker capable of blowing air and removing dust;
referring to fig. 1, the structure of the dust collector comprises a control panel 1, a spherical shell 2, a hollow sound amplifying groove 3, a dust collection port 4, a horn 5, a water level observation ruler 6, a water discharge nozzle 7 and a rotary dust removing device 8, wherein the control panel 1 is arranged at the center of the top of the spherical shell 2, the control panel 1 is of a circular structure and is fastened and fixed on a groove at the top of the spherical shell 2, the hollow sound amplifying groove 3 is arranged below the control panel 1, the hollow sound amplifying groove 3 and the spherical shell 2 are of an integrated structure, the horn 5 is arranged inside the hollow sound amplifying groove 3, the horn 5 is fastened and fixed on the groove at the center of the hollow sound amplifying groove 3, the dust collection ports 4 are arranged at two sides of the horn 5, the dust collection port 4 and the spherical shell 2 are of an integrated structure, and two exhaust ports are uniformly arranged at the rear end of the spherical shell 2 at equal intervals, the water level observation ruler 6 is arranged at the central position of the front end of the spherical shell 2, a drainage nozzle 7 is arranged below the water level observation ruler 6, and the rotary dust removal equipment 8 is arranged at the central position of the bottom of the spherical shell 2.
Referring to fig. 2, the rotary dust removing device 8 is composed of a rotary transmission device 81 and a dust removing and exhausting device 82, two dust removing and exhausting devices 82 are arranged above the rotary transmission device 81 and are in an axisymmetric structure, and the rotary transmission device 81 is in transmission connection with the dust removing and exhausting devices 82.
Referring to fig. 3, the rotation transmission device 81 includes a base 81a, a spherical housing connection support 81b, a central upright 81c, an annular gear 81d, a driven gear 81e, a shaft 81f, and a balance force-bearing support 81g, the base 81a is a circular structure, the central position of the top of the base is provided with the central upright 81c, the bottom end of the central upright 81c is connected with the base 81a, the bottom end of the central upright 81c is embedded and fixed in a groove of the central position of the top of the base 81a through a bearing ring, the base 81a can be kept stationary during the rotation of the central upright 81c, the spherical housing connection support 81b is arranged above the base 81a, the top surface of the spherical housing connection support 81b is embedded and fixed at the bottom of the spherical housing 2, the spherical housing connection support 81b is connected with the central upright 81c, the annular gear 81d is arranged above the spherical housing connection support 81b, the outer wall of the inner gear ring 81d is embedded and fixed on a groove in the inner wall of the spherical shell 2, two driven gears 81e are uniformly arranged in the inner gear ring 81d at equal intervals, the driven gears 81e are meshed with the inner gear ring 81d, a shaft rod 81f is arranged in the center of the driven gears 81e and is in interference fit with the shaft rod 81f, the balance stress support 81g is arranged at the top end of the center vertical rod 81c, and two ends of the balance stress support 81g are connected with the top end of the shaft rod 81 f.
Referring to fig. 4, the balanced force-bearing bracket 81g includes a balancing ring 81g1, a shaft coupler 81g2, a side rail 81g3, an upper ball sleeve 81g4, a central cross bar 81g5, and a lower ball sleeve 81g6, an upper ball sleeve 81g4 is disposed at a central position inside the balancing ring 81g1, shaft couplers 81g2 are disposed at two ends of the upper ball sleeve 81g4, the shaft couplers 81g2 and the balancing ring 81g1 are in interference fit, a central cross bar 81g5 is disposed between the upper ball sleeve 81g4 and the shaft couplers 81g2, the upper ball sleeve 81g4 and the shaft couplers 81g2 are connected by a central cross bar 81g5, the lower ball sleeve 81g6 is disposed below the upper ball sleeve 81g4, side rails 81g5 are disposed at two sides of the central cross bar 81g3 and have a symmetrical structure, and the central cross bar 81g5 and the lower ball sleeve 81g6 are connected by a side rail 6, the center cross rod 81g5, the side cross rod 81g3 and the balance ring 81g1 are connected in sequence to form a balance support, stress points can be dispersed, the stability is improved, the upper ball bearing sleeve 81g4 and the lower ball bearing sleeve 81g6 are embedded and fixed on the center vertical rod 81c, the center vertical rod 81c can be driven to rotate in the rotating process through the upper ball bearing sleeve 81g4 and the lower ball bearing sleeve 81g6, the balance stress support 81g cannot be driven to rotate, and the top ends of the shaft coupling 81g2 and the shaft rod 81f are connected.
Referring to fig. 5, the dust removing and air exhausting device 82 comprises an air inlet cover 82a, an air inlet impeller 82b, a spray ring 82c, an air outlet 82d, a water tank 82e, a water circulating mechanism 82f, a connecting shaft 82g, and a driving pulley 82h, wherein the air inlet cover 82a is arranged inside the spherical shell 2 and is fastened with the spherical shell 2, an air inlet is arranged at the top of the air inlet cover 82a, the air inlet is connected with the dust suction opening 4 through a corrugated hose, the water tank 82e is arranged at the bottom of the air inlet cover 82a, the water tank 82e is in a hollow cylindrical structure, the top of the water tank 82e is fastened with the bottom of the air inlet cover 82a, the connecting shaft 82g is arranged at the center of the water tank 82e, the top end of the connecting shaft 82g penetrates through the water tank 82e and is fixed on the air inlet cover 82a, the connecting shaft 82g is movably connected with the water tank 82e and the, drive pulley 82h and connecting axle 82g connect, the inside impeller 82b that is equipped with of air inlet cover 82a, impeller 82b and connecting axle 82g connect, spray ring 82c be the loop configuration and locate impeller 82b below, spray ring 82c gomphosis fix on air inlet cover 82a inner wall recess, water tank 82e both sides be equipped with exhaust nozzle 82d, exhaust nozzle 82d and the even equidistance of spherical shell 2 rear end be equipped with two gas vents and be connected, water tank 82e bottom be equipped with two water circulation mechanism 82f and be the axisymmetric structure, the inside water level of water tank 82e be less than exhaust nozzle 82 d's height all the time.
Referring to fig. 6, the water circulation mechanism 82f comprises a transmission shaft 82f1, a water discharge wheel 82f2, a water discharge cavity 82f3, a partition 82f4, a water discharge pipe 82f5, a driven pulley 82f6 and a transmission belt 82f7, the top of the water discharge cavity 82f3 is connected with a notch at the bottom of a water tank 82e, a partition 82f4 is arranged in the water discharge cavity 82f3 and is of an integrated structure, the transmission shaft 82f1 is vertically fixed on the partition 82f4, the transmission shaft 82f1 is movably connected with the partition 82f4, the water discharge wheel 82f2 is arranged above the partition 82f4, the water discharge wheel 82f2 is connected with the transmission shaft 1, a driven pulley 82f6 is arranged below the partition 82f4, the driven pulley 82f6 is connected with the transmission shaft 82f1, the driven pulley 82f6 is connected with the driven pulley 82h through the transmission belt 7 f7 h, the drain pipe 82f5 is arranged at the bottom of the drain cavity 82f3, and the drain cavity 82f3 is connected with the spray ring 82c through the drain pipe 82f 5.
The specific realization principle is as follows:
the spherical shell 2 is forced to rotate clockwise from the outside, the rotary transmission device 81 and the dust removal and exhaust device 82 can work in sequence, the spherical shell 2 can be ensured to be balanced by the rotary transmission device 81, circumferential motion of the spherical shell 2 is efficiently converted into work of the dust removal and exhaust device 82, the dust removal and exhaust device 82 generates negative pressure suction when the air inlet impeller 82b rotates clockwise, dust around the spherical shell 2 and falling on the shell is sucked into the water tank 82e, water is atomized by filling a water source in the water tank 82e into the spray ring 82c through downward negative pressure suction generated by the clockwise rotation of the water discharge wheel 82f2, an atomization area is formed below the air inlet impeller 82b, air can purify the dust through the atomization area, the dust is precipitated at the bottom of the water tank 82e, and the water level and the turbidity degree in the water tank 82e can be observed by observing the water level gauge 6, the water source in the water tank 82e can be drained through the drainage nozzle 7, and a clean water source can be filled in, so that the problems that the appearance of the sound box and the appearance of the loudspeaker cannot be effectively carried out due to the fact that some dust is accumulated on the appearance and the loudspeaker of the Bluetooth sound box when the Bluetooth sound box is placed on a desktop for a long time are solved; the outer wall of the inner gear ring 81d is embedded and fixed on a groove on the inner wall of the spherical shell 2, and the spherical shell 2 is connected with the central upright rod 81c through the spherical shell connecting support 81b, so that the inner gear ring 81d is driven to rotate in the process of rotating the spherical shell 2 from the outside, and the inner gear ring 81d is meshed with the driven gear 81e, so that the driven gear 81e rotates and drives the shaft rod 81f to rotate, the balanced positioning of the driven gear 81e is realized through the balanced stress support 81g, and the central cross rod 81g5, the side cross rod 81g3 and the balance ring 81g1 are sequentially connected to form a balanced support with uniform stress, so that stress points of the spherical shell 2 rotating from the outside can be dispersed, and the transmission stability is improved; in the dust removing and air exhausting device 82, because the shaft lever 81f and the connecting shaft 82g are connected through the coupler 81g2, the connecting shaft 82g can rotate according to the rotating lead of the shaft lever 81f when the shaft lever 81f rotates, and drives the air inlet impeller 82b arranged in the air inlet cover 82a to rotate, strong suction force can be generated when the air inlet impeller 82b rotates clockwise at high speed, dust around the spherical shell 2 is sucked into the water tank 82e, because the transmission shaft 82f1 and the connecting shaft 82g are in transmission connection through the transmission belt 82f7, the transmission shaft 82f1 can rotate according to the rotating lead of the connecting shaft 82g when the connecting shaft 82g rotates, and drives the water discharge wheel 82f2 to rotate, downward negative pressure suction force can be generated when the water discharge wheel 82f2 rotates clockwise, water in the water tank 82e is filled into the spray ring 82c through the water discharge pipe 82f5, and water is atomized through the compressed water outlet of the spray ring, the water droplets are adhered to the dust sucked into the water tank 82e, so that the dust is deposited to the bottom of the water tank 82e due to the gravity generated by the water droplets wrapping, and at the moment, the clean air without dust is discharged from the air discharge nozzle 82d, and through the structural design of the water circulation mechanism 82f, the water source in the water tank 82e can be recycled, and the waste is reduced.
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.