SUMMERY OF THE UTILITY MODEL
In view of this, in order to solve the problem that proposes in the above-mentioned background art, the utility model aims at providing a roots blower with amortization structure.
In order to achieve the above object, the utility model provides a following technical scheme:
a Roots blower with a sound attenuation structure comprises:
a fan housing; an air duct for guiding air is formed in the fan shell, and the air duct comprises an air inlet area, a sound attenuation area and an air outlet area which are sequentially arranged along the air guiding direction;
the filtering component is arranged in the air inlet area and matched with an air inlet of an air duct; the filter assembly includes the filter screen and can follow the scraper blade that the filter screen removed be equipped with a plurality of filtration pores on the filter screen, and all install the conveyer belt that the slope set up in every filtration pore, the conveyer belt includes nearly wind side and lee side, and passes through the nearly wind side of conveyer belt makes the filtration pore constitute the structural style that the air inlet end is big, the air-out end is little, when the scraper blade removed along the filter screen, orders about the nearly wind side of conveyer belt conveys to the air inlet end of filtration pore.
Preferably, the filter screen is the arc structure, the scraper blade sets up in one side of filter screen indent, and the one end of scraper blade and the contact of filter screen table wall, the other end are around the rotation of filter screen axle center.
Preferably, the roots blower further comprises:
the rotating assembly is rotatably arranged in the air inlet area and is positioned on the rear side of the air outlet of the filtering assembly along the air guide direction; the rotating assembly comprises a rotating shaft and a plurality of blades which are fixed on the rotating shaft in an array mode, and a transmission mechanism fixed on the outer wall of the fan shell is connected between the rotating assembly and the scraper;
and the air guide hopper is arranged between the rotating component and the filtering component and is used for vertically guiding the guided wind at the air inlet to the blade on one side of the rotating shaft.
Preferably, a plurality of silencing partition plates are arranged on the inner wall of the air guide hopper in an array mode, and a plurality of silencing channels are formed in the air guide hopper through the silencing partition plates.
Preferably, a silencing sleeve is fixedly sleeved at an outlet of the air guide hopper, and the rotating assembly is positioned inside the silencing sleeve; a porous area and a reflecting area are arranged on the silencing sleeve, the reflecting area corresponds to the outlet of the air guide hopper, and the area of the reflecting area is not smaller than the area of the outlet of the air guide hopper; n first muffling holes are equidistantly arranged in the porous area, at least N/2 first muffling holes are through holes, and the through holes are communicated with the inner side and the outer side of the muffling sleeve.
Preferably, in the sound-deadening sleeve, at least the porous region has an arc-shaped cross section.
Preferably, the roots blower further comprises a silencing assembly fixedly arranged in the silencing area, and the silencing assembly comprises:
sealing the mounting plate;
the first silencing pipes penetrate through the sealing mounting plate and are fixed on the sealing mounting plate, and the conduction of the two sides of the sealing mounting plate is realized through the first silencing pipes;
a porous mounting plate;
the second silencing pipes are fixed on the porous mounting plate, one ends of the second silencing pipes, which face the sealing mounting plate, are opened, and the air outlet ends of the first silencing pipes are inserted into the second silencing pipes in a one-to-one correspondence manner;
a third silencing pipe is sleeved and fixed on the first silencing pipe, two ends of the third silencing pipe are closed, and the third silencing pipe is positioned between the first silencing pipe and the second silencing pipe;
a plurality of second silencing holes are formed in the middle of the third silencing pipe, and are all positioned in the second silencing pipe; a conical air outlet sleeve is fixed at the air outlet end of the first silencing pipe, a plurality of air outlet holes are formed in the outer wall of the conical air outlet sleeve in an array mode, and one end of the third silencing pipe is fixed in the middle of the conical air outlet sleeve; and the second silencing pipe is provided with a convex mixing area, and the mixing area corresponds to the second silencing hole.
Compared with the prior art, the utility model, following beneficial effect has:
(1) The utility model discloses in, based on the cooperation of portable scraper blade and conveyer belt for the particulate matter that is blockked up in the filter screen filtration pore can in time be discharged, thereby has effectively avoided the problem that the filter screen blockked up, has guaranteed that filtration efficiency need not regularly to carry out the dismantlement of filter screen simultaneously and has washd.
(2) The scraper blade is correspondingly provided with a rotating assembly linked with the scraper blade, and the rotating assembly is driven based on the diversion of the air guide hopper, so that the scraper blade can timely move on the surface of the filter screen while the fan works, and an additional driving structure is not required to be arranged.
(3) To above-mentioned air guide hopper, be fixed with the amortization baffle in its inside, and be fixed with the amortization cover in its exit, can effectively realize making an uproar from this and fall tentatively to dispersion wind-guiding based on the amortization cover makes the air can evenly flow into the amortization district.
(4) The utility model discloses in, still be equipped with amortization subassembly, this amortization subassembly realizes the mixed flow amortization based on the combination of multiunit amortization pipe, realizes the first grade amortization specifically in first amortization pipe, then realizes the dispersion air-out through toper air-out cover to make partial air realize the second grade amortization respectively in second amortization pipe and third amortization pipe, and the mixed flow is strikeed along different directions in the second amortization pipe to air at last, thereby realizes tertiary amortization; the whole structure is simple, the volume is small, and the noise reduction effect is good.
Detailed Description
The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.
One of them is
Referring to fig. 1 to 9, the present invention provides a roots blower with a noise reduction structure, and the blower mainly includes:
a fan housing 1; an air duct for guiding air is formed in the fan shell 1, and the air duct comprises an air inlet area, a sound attenuation area and an air outlet area which are sequentially arranged along the air guiding direction; in addition, a driving area is arranged on the front side or the rear side of the wind guide of the sound attenuation area, and a rotor of the fan is arranged in the driving area;
the filtering component 2 is arranged in the air inlet area and matched with an air inlet of the air duct; the filtering component 2 comprises a filter screen 21 and a scraper 22 (preferably in a porous structure and not shown in the figure) capable of moving along the filter screen 21, a plurality of filtering holes are formed in the filter screen 21, a conveyor belt 23 obliquely arranged in each filtering hole is installed, each conveyor belt 23 comprises a near-wind side and a leeward side, the filtering holes form a structural form with a large air inlet end and a small air outlet end through the near-wind side of each conveyor belt 23, and when the scraper 22 moves along the filter screen 21, the near-wind side of each conveyor belt 23 is driven to convey to the air inlet end of each filtering hole.
Specifically, the screen 21 is preferably provided in an arc-shaped configuration;
specifically, the scraper 22 is preferably provided on the concave side of the strainer 21, and one end of the scraper 22 is in contact with the front wall of the strainer 21 while the other end thereof rotates around the axis of the strainer 21.
From above
Providing the first embodiment shown in fig. 1-3, in this embodiment, the outer convex side of the filter screen 21 faces the interior of the air duct, so that the scraper 22 is disposed at the front side of the inlet air of the filter screen 21;
also provides the second embodiment shown in fig. 4-6, in this embodiment, the concave side of the filter screen 21 faces the interior of the air duct, so that the scraper 22 is disposed at the rear side of the intake air of the filter screen 21;
specifically, when air enters the air duct, the air passes through the filter screen 21 in the direction indicated by the solid arrow in fig. 2 and 5, and in the process, the air passes through the filter holes in the direction indicated by the solid arrow in fig. 3 and 6, so that the position i is the air inlet end of the filter hole, the position ii is the air outlet end of the filter hole, the side a is the near-wind side of the conveyor belt 23, and the side b is the back-wind side of the conveyor belt 23. Simultaneously with the air intake, the scraper 22 rotates in the direction indicated by the dotted arrow in fig. 2 and 5, so that the movable end of the scraper 22 can move along the surface of the filter screen 21, gradually contacts with the plurality of conveyor belts 23 in the moving process, and the conveyor belts 23 are conveyed based on the moving friction, wherein the specific conveying direction is indicated by the dotted arrow in fig. 3 and 6, and the conveying from the air outlet end ii of the filter hole to the air inlet end i is realized. Wherein, the conduction area of air-out end ii is less than the conduction area of air inlet end i, consequently to the particulate matter that the volume is greater than the air-out end ii area, can be blocked in the filter pore, nevertheless based on the conveying of above-mentioned conveyer belt 23, can make the particulate matter remove to air inlet end i along with conveyer belt 23, and then make the particulate matter of jam can in time be discharged, and then avoid whole filter screen 21 to block up.
To the roots fan that above-mentioned discloses, still include:
the rotating component 3 is rotatably arranged in the air inlet area, and the rotating component 3 is positioned on the rear side of the air outlet of the filtering component 2 along the air guide direction; the rotating assembly 3 comprises a rotating shaft and a plurality of blades fixed on the rotating shaft in an array manner, and a transmission mechanism 31 fixed on the outer wall of the fan shell 1 is connected between the rotating assembly 3 and the scraper 22;
and the air guide hopper 4 is arranged between the rotating component 3 and the filtering component 2, and the air guide hopper 4 is used for vertically guiding the air guided from the air inlet to the blade on one side of the rotating shaft.
By last can know, when realizing above-mentioned air inlet, the air can produce the striking through the water conservancy diversion of wind-guiding bucket 4 after passing filter screen 21 to runner assembly 3's blade, orders about whole runner assembly 3 from this and rotates, and runner assembly 3 drives scraper blade 22 through drive mechanism 31 again and rotates to this automatic drive scraper blade 22 in whole roots's fan air inlet, and need not to set up extra drive structure, effective energy-conservation.
Preferably, regarding the air guide scoop 4:
as can be seen from fig. 7, a plurality of silencing partition plates 41 are arranged in an array on the inner wall of the air guide bucket 4, and a plurality of silencing passages are formed in the air guide bucket 4 by the silencing partition plates 41.
As can be seen from fig. 1-2 and 3-4, a silencing sleeve 5 is fixedly sleeved at the outlet of the air guiding hopper 4, and the rotating assembly 3 is located inside the silencing sleeve 5; a porous area and a reflecting area are arranged on the silencing sleeve 5, the reflecting area corresponds to the outlet of the air guide hopper 4, and the area of the reflecting area is not less than that of the outlet of the air guide hopper 4; n first muffling holes are arranged in the porous area at equal intervals, at least N/2 first muffling holes are through holes, and the through holes are communicated with the inner side and the outer side of the muffling sleeve 5.
Above-mentioned, based on the cooperation of amortization baffle 41 and amortization cover 5, can effectively realize straining the preliminary noise reduction of wind drive in-process to in above-mentioned amortization cover 5, the cross-sectional shape that has at least the porous district is the arc, realizes diversified homodisperse water conservancy diversion of air from this.
Two of it
Referring to fig. 1 to 9, the present invention further provides a roots blower with a noise reduction structure, and the blower mainly includes:
a fan housing 1; an air duct for guiding air is formed in the fan shell 1, and the air duct comprises an air inlet area, a sound attenuation area and an air outlet area which are sequentially arranged along the air guiding direction; in addition, a driving area is arranged on the front side or the rear side of the wind guide of the sound attenuation area, and a rotor of the fan is arranged in the driving area;
a silencing component 6 fixedly arranged in the silencing area.
Above-mentioned, and amortization subassembly 6 includes:
a seal mounting plate 61;
a plurality of first muffling pipes 62 fixed on the sealing installation plate 61 in a penetrating manner, and the conduction of the two sides of the sealing installation plate 61 is realized through the first muffling pipes 62;
a porous mounting plate 63;
a plurality of second muffling pipes 64 fixed to the porous mounting plate 63, wherein one ends of the second muffling pipes 64 facing the sealing mounting plate 61 are open, and the air outlet ends of the first muffling pipes 62 are inserted into the second muffling pipes 64 in a one-to-one correspondence manner;
the third muffling tube 65 fixed to the first muffling tube 62 is sleeved, both ends of the third muffling tube 65 are closed, and the third muffling tube 65 is located between the first muffling tube 62 and the second muffling tube 64.
Specifically, a plurality of second muffling holes are formed in the middle of the third muffling tube 65, and the plurality of second muffling holes are located inside the second muffling tube 64;
specifically, a conical air outlet sleeve 66 is fixed at the air outlet end of the first muffling pipe 62, a plurality of air outlet holes are formed in the outer wall of the conical air outlet sleeve 66 in an array manner, and one end of the third muffling pipe 65 is fixed at the middle position of the conical air outlet sleeve 66.
In summary, as can be seen from fig. 8, the principle of the above-mentioned silencing assembly 6 for silencing is as follows:
the air enters the silencing area through the air inlet area and is dispersed into the first silencing pipes 62 to realize first-stage silencing;
the air passing through the first muffling pipe 62 is discharged through the air outlet holes on the conical air outlet sleeve 66, and at the moment, based on the fixed position of the third muffling pipe 65, the air discharged through the conical air outlet sleeve 66 is divided into two parts, wherein one part enters the second muffling pipe 64, and the other part enters the third muffling pipe 65, so that secondary muffling is realized through the division;
the two split air flows along the gap between the first muffling pipe 62 and the third muffling pipe 65 and the gap between the third muffling pipe 65 and the second muffling pipe 64, and a part of air in the third muffling pipe 65 is guided into the second muffling pipe 64 through the second muffling hole, so that the two split air flows generate mixed flow at the position corresponding to the second muffling hole, and the two split air flows and cancels each other, thereby achieving a three-stage muffling effect, and is discharged through the open end of the second muffling pipe 64, and then flows to the porous mounting plate 63 based on the reflection of the sealing mounting plate 61, and flows into the driving area or the air outlet area.
Further, a convex mixing area is arranged on the second silencing pipe 64 and corresponds to the second silencing hole, so that the two parts of shunting air can be conveniently mixed for buffering, and the silencing effect generated by mixed flow is effectively improved.
Third step
Referring to fig. 1-9, the present invention further provides a roots blower with a noise reduction structure, and the blower specifically includes the blower housing 1, the filter assembly 2 and the noise reduction assembly 6.
It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.
Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.