The present invention relates to the technical field of silencers, in particular to a silencer.
It is easy for gas to generate noise in a rapid flowing process. As noise is prone to affecting the normal life of people, it is a necessity to employ a silencer to reduce noise. There are many application scenes of the silencers, for example, devices such as automobiles, ships, guns, air compressors, and air blowers. The silencers are primarily mounted on air flow channels or exhaust systems of aerodynamic devices.
The silencers may be divided into dissipative silencers, resistant silencers, impedance compound silencers, micro-perforated plate silencers, small-bore silencers and active silencers according to silencing principles. Some of the silencers reduce the flow rate of gas by lengthening the exhaust distance of the air flow so as to reduce noise. Some of the silencers reduce noises by forming small holes in the air guide tube. However, current silencers are generally complex in structure. Various components are mounted in the air guide tube, so that it is also troublesome to manufacture and assemble the silencer.
Aiming at defects in the prior art, the present invention aims to provide a silencer which is simple in structure, easy to manufacture and assemble, and good in silencing effect.
The technical scheme of the present invention to solve the technical problem is as follows: provided is a silencer, including:
a main air guide tube provided with an air guide channel, the main air guide tube including an air inlet end and an air outlet end away from the air inlet end;
an assistant air guide tube, both ends of an assistant air guide tube being connected with an outer wall of the main air guide tube, and the assistant air guide tube including a guide section and a reflux section communicated with each other; an end of the guide section away from the reflux section being provided with an air inlet, and the air inlet being communicated with the air guide channel; an end of the reflux section away from the guide section being provided with an air outlet, and the air outlet being communicated with the air guide channel; and a separation distance between the air outlet and the air inlet end being greater than that between the air inlet and the air inlet end;
wherein an air flow may enter the air guide channel from the air inlet end and is divided into a first branch flow and a second branch flow when flowing through the air inlet; the first branch flow flows to the air outlet end continuously along the air guide channel; the second branch flow enters from the air inlet, and is exhausted from the air outlet along the assistant air guide tube and comes together with the first branch flow; and a flow direction of the second branch flow flowing out of the air outlet is opposite to that of the first branch flow.
Further, the guide section inclines outwards gradually from an end close to the air inlet towards an end away from the air inlet, the reflux section being arranged in an arc-shaped tube shape.
Further, an included angle between the arc-shaped tube in a tangential direction at an end of the air outlet and a center line of the main air guide tube is an acute angle.
Further, the air outlet end of the main air guide tube is an upper end, the air inlet end thereof is a lower end, and the arc-shaped tube inclines downwards in the tangential direction at the end of the air outlet.
Further, there are a plurality of assistant air guide tubes and the assistant air guide tubes are evenly distributed on an outer wall of the main air guide tube.
Further, multiple rows of assistant air guide tubes are distributed on the outer wall of the main air guide tube, and each row of assistant air guide tubes includes a plurality of assistant air guide tubes evenly distributed in a circumferential direction of the main air guide tube.
Further, the air outlet end of the main air guide tube is the upper end, and the air inlet end thereof is the lower end; the upper end of the main air guide tube is provided with a plurality of first assistant air guide tubes and the lower end of the main air guide tube is provided with a plurality of second assistant air guide tubes; and
a first gap exists between adjacent two first assistant air guide tubes, a second gap exists between adjacent two second assistant air guide tubes, one second assistant air guide tube is arranged below the first gap, and one first assistant air guide tube is arranged above the second gap.
Further, the silencer further comprising an air inlet tube and an air outlet tube, the air inlet tube being connected with the air inlet end in a plugged manner and the air outlet tube being connected with the air outlet end in a plugged manner.
Further, the air outlet end is provided with a first convex ring along the circumferential direction of the main air guide tube, and the air outlet end is provided with a second convex ring along the circumferential direction of the main air guide tube; and
the air inlet tube is connected in the first convex ring in a plugged manner and the air outlet tube is connected in the second convex ring in a plugged manner.
Further, the silencer further comprising a housing, one end of the housing sleeving the air inlet tube and the other end thereof sleeving the air outlet tube, wherein the housing is provided with an accommodation cavity, in which the main air guide tube and the assistant air guide tubes are accommodated.
Compared with the prior art, the present invention at least has the following beneficial effects:
in the present invention, the plurality of assistant air guide tubes are evenly distributed on the main air guide tube, and each of the assistant air guide tubes includes the guide section and the reflux section that are communicated with each other. When a gas enters from the air inlet end, a part of air flow (the first branch flow) flows towards the air outlet end continuously along the air guide channel while the other part of air flow (the second branch flow) enters from the air inlet of the assistant air guide tube, flows in sequence along the guide section and the reflux section, and flows out from the air outlet of the reflux section. The flow direction of the air flow flowing through the reflux section faces the air inlet end, i.e., the second air flow flows through the reflux section to generate a reflux that comes together with the air flow (the first branch flow) flowing towards the air outlet end from the air inlet end, so that the speed of the first branch flow may be reduced quickly. During the process where the air flow moves in the assistant air guide tube, the flowing of the air flow is equivalently lengthened and double speed reduction effects are exerted to the air flow equivalently, so that the silencing effect is good, and the integral structure of the silencer is quite simple. There is no need to arrange any part in the main air guide tube, so that it is also quite easy to manufacture and assemble the silencer
The present invention is detailed in conjunction with the drawings and the embodiments below.
In the drawings:
Specific embodiments of the present invention are described below, and further descriptions of the technical scheme of the present invention are made below in combination with the drawings. The present invention is not limited to the embodiments.
It is to be noted that all directional indications (for example, upper, lower, left, right, front, back and the like) in the embodiment of the present invention are merely used for explaining relative positional relations, moving conditions, and the like among components in a certain special position (as shown in the drawings). If the special position changes, the directional indications change correspondingly.
In addition, terms ‘first’, ‘second’, ‘one’, and the like are only used for a description purpose rather than being construed to indicate or imply relative importance or implicitly indicate the quantity of indicated technical features. Thus, features defining ‘first’, ‘second’, and the like can expressively or implicitly include at least one feature. In the description of the present invention, unless otherwise specified, ‘a plurality of’ means at least two, for example, two, three, etc.
In the present invention, unless otherwise expressly stated and defined, terms ‘connect’, ‘fix’, and the like shall be understood in a board sense, for example, ‘fix’ may be fixedly connected, detachably connected, or integrally connected; they may be mechanically connected or electrically connected; they may be directly connected or connected via an intermediate, or they may communication of two components insides or an interactive relation of the two components, unless otherwise specified. Those skilled in the art can understand the specific meanings of the terms in the present invention under specific circumstances.
In addition, the technical schemes of the embodiments of the present invention may be combined with each other based on implementation by those of ordinary skill in the field. When the technical schemes contradict each other in combination or may not be realized, it is to be considered that there is no combination of the technical schemes, which shall not fall into the protection scope of the present invention.
As shown in
As shown in
Preferably, the guide section 20 inclines outwards gradually from an end close to the air inlet 201 towards an end away from the air inlet 201, the reflux section 21 being arranged in an arc-shaped tube shape. The guide section 20 is arranged as an inclined tube and the reflux section 21 is arranged as an arc-shaped tube. An included angle between the arc-shaped tube in a tangential direction at the end of the air outlet 211 and a center line of the main air guide tube 1 is an acute angle, which guarantees that the flow direction of the second branch flow g2 flowing out of the air outlet 211 from the reflux section 21 is opposite to that of the first branch flow g1. The second branch flow g2 can reduce the speed of the first branch flow g1 effectively, so that the speed of the air flow g entering from the air inlet end 11 and being exhausted from the air outlet end 12 is reduced effectively, and therefore, noise of the air flow is reduced.
It is defined that the air outlet end 12 of the main air guide tube 1 is an upper end and the air inlet end 11 thereof is a lower end. According to an arrangement direction in
As shown in
Further preferably, multiple rows of assistant air guide tubes 2 are distributed on the outer wall of the main air guide tube 1, and each row of assistant air guide tubes 2 includes a plurality of assistant air guide tubes 2 evenly distributed in a circumferential direction of the main air guide tube 1. During the use process, the quantity of the assistant air guide tubes 2 may be set according to an actual demand so as to adjust the effect of reducing the speed of the air flow g by the silencer. The air outlet end 12 of the main air guide tube 1 is the upper end, the air inlet end 11 thereof is the lower end; the upper end of the main air guide tube 1 is provided with a plurality of first assistant air guide tubes 2A and the lower end of the main air guide tube 1 is provided with a plurality of second assistant air guide tubes 2B; and a first gap 22 exists between adjacent two first assistant air guide tubes 2A, a second gap 23 exists between adjacent two second assistant air guide tubes 2B, one second assistant air guide tube 2B is arranged below the first gap 22, and one first assistant air guide tube 2A is arranged above the second gap 23. Each row of assistant air guide tubes at the upper and lower ends are distributed fully along the circumferential direction of the main air guide tube 1, so that the speed of the first branch flow g1 is reduced by means of the plurality of strands of decelerated air flows (i.e., the second branch flows g2) in multiple directions, and the speed reduction effect is improved, and thereby, noise is reduced.
During the actual use process, the plurality of assistant air guide tubes 2 are evenly distributed on the main air guide tube 1, and each of the assistant air guide tubes 2 includes the guide section 20 and the reflux section 21 that are communicated with each other. When a gas enters from the air inlet end 11, a part of air flow g (the first branch flow g1) flows towards the air outlet end 12 continuously along the air guide channel 10 while the other part of air flow g (the second branch flow g2) enters from the air inlet 201 of the assistant air guide tube, flows in sequence along the guide section 20 and the reflux section 21, and flows out from the air outlet 211 of the reflux section 21. The flow direction of the air flow g flowing through the reflux section 21 faces the air inlet end 11, i.e., the second air flow g flows through the reflux section 21 to generate a reflux that comes together with the air flow g (the first branch flow g1) flowing towards the air outlet end 11 from the air inlet end 12, so that the speed of the first branch flow g1 may be reduced quickly. During the process where the air flow g moves in the assistant air guide tube, the flow of the air flow g is equivalently lengthened and double speed reduction effects are exerted to the air flow g equivalently, so that the silencing effect is good, and the integral structure of the silencer is quite simple. There is no need to arrange any part in the main air guide tube 1, so that it is also quite easy to manufacture and assemble the silencer.
As shown in
The silencer further includes a housing 5, one end of the housing 5 sleeving the air inlet tube 3 and the other end of the housing 5 sleeving the air outlet tube 4. The housing 5 is arranged in a split manner and the housing 5 includes a round tube and sealing plates arranged both ends of the round tube. The round tube sleeves the two sealing plates, and the housing 5 is fixed to the main air guide tube 1 as the two sealing plates respectively sleeve the air inlet tube 3 and the air outlet tube 4. The housing 5 is provided with an accommodation cavity 50, where both the main air guide tube 1 and the assistant air guide tubes 2 are accommodated in the accommodation cavity 50. The housing not only may shield an internal structure of the silencer to guarantee the aesthetic degree, but also may protect the main air guide tube 1 and all the assistant air guide tubes 2 so as to reduce a condition of air leakage as they are broken by other components.
In the scheme, the silencer is simple and compact in structure, easy to manufacture and assemble, and good in silencing effect, and the whole silencer has few parts.
The specific embodiments described herein are merely illustrations of spirit of the present invention. Various modifications or supplements can be made on the described specific embodiments or can be replaced a similar manner by those skilled in the art without deviating from the spirit of the present invention or surpassing the scope defined by the attached claims.
Number | Date | Country | Kind |
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202110979829.0 | Aug 2021 | CN | national |
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Number | Date | Country | |
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20230067947 A1 | Mar 2023 | US |