CN208793316U - A kind of volute structure of centrifugal blower - Google Patents

Abstract

The utility model relates to a kind of volute structures of centrifugal blower, including volute tongue, front shroud, back shroud and spiral case ring wall, spiral case ring wall includes the first ring wall and the second ring wall, first ring wall be connected between front shroud and back shroud and and front shroud, back shroud encloses spiral case cavity, second ring wall is set in spiral case cavity and spiral case cavity is divided into exocoel and inner cavity, the back edge of second ring wall is mutually connected with back shroud, the forward edge of second ring wall at least gradually tilts backwards downwards for exocoel and inner cavity to be connected from middle part, the air guide hole close to air outlet arrangement is provided in the axial direction on second ring wall.In centrifugal blower use process, fraction is discharged through exocoel from air outlet, another part air-flow is recycled to the air guide hole of inner cavity top through inner cavity and is discharged by air outlet, the setting of above-mentioned second ring wall plays good shunting function, to reduce gas backstreaming, reduce eddy current problem, to reduce fan noise, improve fan efficiency.

Description

A kind of volute structure of centrifugal blower

Technical field

The utility model relates to range hood technical fields, refer specifically to a kind of volute structure of centrifugal blower.

Background technique

Domestic cooking fume remover uses multi-blade centrifugal fan, carries out air-breathing, exhaust.Blower is generally by spiral case, motor, impeller Deng composition.Wherein tongue-shaped projection part is referred to as volute tongue in spiral case, and main function is to separate flowing gas, prevents gas in spiral case Internal circulation flow.Due to gas pressure height, complex flow, the flow noise generated near volute tongue, rotational noise near volute tongue It is the Main Noise Sources of centrifugal blower, reducing the noise near volute tongue can significantly reduce range hood noise.

Application publication number is a kind of Chinese patent application " volute of blower for range hood " (Shen of CN105526193A Please number: CN201610111243.1) disclose a kind of structure comprising volute tongue, volute tongue include volute tongue inner wall, and volute tongue forms closing Cavity, at least one longitudinal baffle is disposed with along the axis direction of spiral case in cavity, along the axis direction cloth of vertical spiral case Multiple radial partitions are equipped with, the cavity is separated into multiple independent closed noise reduction cavitys by longitudinal baffle and radial partition, Hole is offered in the corresponding volute tongue inner wall section of each noise reduction cavity.Cavity in volute tongue is separated into multiple independences by above structure Closed areola, the hole thus opened up on areola and corresponding side wall forms Helmholtz resonator, according to Hai Muhuo Hereby resonance principle, after sound transmission comes, close sound wave and resonator generate resonance with the resonator intrinsic frequency, are vibrating In the process, the air column in cavity and cavity inner wall friction and sound energy consumption, to carry out sqouynd absorption lowering noise.

Above structure reduces fan noise by way of noise reduction cavity is arranged to a certain extent, still, due to snail Space is smaller at tongue, and gas is difficult disposably to be discharged, and remaining gas is easy reflux and forms vortex, and fan efficiency is caused to drop It is low, and vortex noise is generated, and then blower is caused still to there is biggish noise.

Utility model content

Whirlpool can be effectively abolished for the current state of the art, the technical problem to be solved by the utility model is to provide a kind of Stream and reduction gas backstreaming are to reduce the volute structure of fan noise, the centrifugal blower for improving fan efficiency.

Technical solution adopted by the utility model to solve the above technical problems is as follows: a kind of volute structure of centrifugal blower, Including volute tongue, front shroud, back shroud and spiral case ring wall, the front shroud and back shroud time interval are arranged, the spiral case ring wall Between front shroud and back shroud, the volute tongue is set to the air outlet in the first end of spiral case ring wall and close to spiral case and arranges, It is characterized by: the spiral case ring wall includes the first ring wall and the second ring wall, first ring wall is connected to front shroud and rear cover Spiral case cavity is enclosed between plate and with front shroud, back shroud, and second ring wall is set in spiral case cavity and by spiral case cavity It is divided into exocoel and inner cavity, the back edge of second ring wall is mutually connected with back shroud, and the forward edge of second ring wall is extremely It is few gradually to tilt backwards downwards for exocoel and inner cavity to be connected from middle part, it is provided in the axial direction on second ring wall close The air guide hole of air outlet arrangement.

Preferably, the posterior edges of second ring wall are connected with the leading flank of back shroud, on front side of second ring wall The top at edge is connected with the trailing flank of front shroud, and the minimum widith of second ring wall in the axial direction is maximum width 0.25~0.5 times.The central part of the front shroud offers air inlet, second ring wall and air inlet arranged concentric.It adopts With the structure, in order to play preferable shunting function.

As an improvement, the volute tongue bottom is provided with opening corresponding with air guide hole, which is provided with can be by snail Air-flow in shell inner cavity imports the flow-guiding structure at spiral case air outlet.Using the structure, directly air-flow is formed from the second ring wall Inner cavity in be delivered at air outlet, can abolish well vortex and reduce gas backstreaming.

In the above scheme, the air guide hole is along the second ring wall axially through to make the second ring wall be formed as open loop knot Structure, the first end of second ring wall and the volute tongue one side edge far from air outlet that is open are connected, and the of second ring wall Two ends and volute tongue are formed with gap between the lower surface of air outlet.It is led using such structure when compressor flow is smaller Flow structure can be at closed state, and the fraction shunted from the inner cavity that the second ring wall is formed is discharged and through going out from above-mentioned gap Air port discharge.

As an improvement, the volute tongue has volute tongue inner wall, the two sides closing of the volute tongue is to form cavity, the volute tongue Outside is provided with the first baffle extended along volute tongue outer wall into cavity, the top of the first baffle and corresponding volute tongue inner wall it Between be formed with the flow-guiding channel, diversion cavity, the opening are enclosed between the lower part and cavity inner wall of the first baffle It is opened in the bottom of diversion cavity, the flow-guiding channel and diversion cavity collectively form the flow-guiding structure.It is led using such Flow structure, to abolish vortex and reduce gas backstreaming.

It improves again, the baffle that can opening covered or open opening is additionally provided in the diversion cavity.When blower compared with Hour, opening can be covered by baffle, when compressor flow is larger, can be opened opening by baffle.

Preferably, it is provided with the sensor that can detect air force on the inner wall of second ring wall, is set in the volute tongue It is equipped with the adjusting component that can be adjusted according to air force whether baffle is opened and closed relative to opening.Using the structure, when air quantity compared with Hour, it adjusts component and does not act on, conventional structure, that is, meet demand of volute tongue adjusts component in distinguished and admirable impact when air quantity is larger To the opening that will be open, performance abolishes vortex and reduces gas backstreaming function for lower drive baffle movement.

Preferably, the adjusting component includes linking arm, pin shaft and actuator, and the linking arm is set to the of baffle One end is simultaneously connected on volute tongue side wall by pin shaft with being able to rotate, and the baffle is set to overthe openings and can drive with being able to rotate Moving part is rotated by, and the second end of the baffle is rotatably mounted end.It is provided in the volute tongue and is arranged close to air side Accommodating cavity, the actuator is motor in the accommodating cavity, and the output shaft of the motor is connected with the pin shaft.It adopts With above structure, moved convenient for driving baffle, to realize opening or closing for opening.

It improves again, is provided with second baffle on the outside of the first baffle, the second baffle and volute tongue side wall, first baffle are total With closed first cavity is enclosed, it is provided with first entered in the first cavity for air-flow self-conductance stream chamber on the first baffle and leads to Hole.Preferably, the first baffle with a thickness of 1.5~2mm, the diameter of the first through hole is 1~1.8mm.Using in this way Structure, it can be achieved that the secondary exclusion of reflux gas, and be further reduced vortex, meanwhile, first baffle, second baffle and the two Between the first cavity can form noise elimination resonant structure, to inhibit the turbulence noise at this, realize noise reduction effect.

It is further improved, setting is parallel to the third baffle of second baffle arrangement, the third gear in first cavity Plate and second baffle, volute tongue inner wall enclose the second cavity jointly, be provided in the third baffle for air-flow from the first cavity into Enter the second through-hole of the second cavity.The third baffle with a thickness of 0.75~1mm, the diameter of second through-hole is 0.5~ 0.75mm.Although above-mentioned first baffle, second baffle and the first cavity between the two form noise elimination resonant structure, but Nonlinear acoustic resistance may be generated, and then forms quadratic noise, above-mentioned third baffle and the second cavity are set, can be inhibited wider Noise band, preferably offset original noise, and there is higher acoustic absorptivity, final volute tongue under the conditions of realizing big flow Locate the reduction of noise, the raising of vortex abolished with blower press, efficiency.

In the above embodiments, the volute tongue inner wall includes the first side plate bending, the second side plate bending and the first planar section, described First side plate bending is close to the impeller arrangement of centrifugal blower and the first guide face of lower surface composition centrifugal blower, first plane Section is set to the air outlet side of spiral case and inner surface constitutes the second guide face of centrifugal blower, and second side plate bending is connected to first Between side plate bending and the first planar section.

For the ease of connection, the volute tongue top edge is connected with front shroud, back shroud top edge, the volute tongue lower edge It is connected with the first end margin of spiral case ring wall and passes through silica gel sealing.

Preferably, the first baffle includes the second planar section and third side plate bending, and second planar section is close to first Planar section arrangement, the upper end of the third side plate bending is mutually connected with the lower end of the second planar section, and the third side plate bending is to second Side plate bending direction is arched upward and lower end is mutually connected with the upper surface of the first side plate bending.Between first planar section and the second planar section The width of the flow-guiding channel of formation is gradually reduced from bottom to top.Diversion cavity is collectively formed with long and narrow flow-guiding channel in above structure General shape is 6 structure, so that playing the role of good water conservancy diversion breaks whirlpool.

Preferably, the lower surface of the baffle is configured to the first cambered surface to arch upward downwards, corresponding, the opening two sides Wall is formed to the mating surface to match with the first cambered surface.The upper surface of the baffle is formed with the second arc to arch upward upwards Face, the radian of second cambered surface are greater than the radian of the first cambered surface, and the round and smooth mistake in junction of first cambered surface and the second cambered surface It crosses.Above structure can reduce baffle to distinguished and admirable resistance.

Compared with the prior art, the advantages of the utility model are: spiral case ring wall is divided into the first ring wall by the utility model And second ring wall, spiral case cavity is divided into exocoel and inner cavity by first ring wall, the second ring wall, in centrifugal blower use process, Fraction is discharged through exocoel from air outlet, and another part air-flow is recycled to the air guide hole of inner cavity top through inner cavity and passes through outlet air Mouth discharge, the setting of above-mentioned second ring wall plays good shunting function, to reduce gas backstreaming, reduces vortex and asks Topic, to reduce fan noise, improve fan efficiency.

Detailed description of the invention

Fig. 1 is the structural schematic diagram (being equipped with impeller) of the utility model embodiment；

Fig. 2 is the cross-sectional view of Fig. 1；

Fig. 3 is the structural schematic diagram of volute tongue in the utility model embodiment；

Fig. 4 is the assembling structure schematic diagram of baffle and linking arm, actuator in the utility model embodiment；

Fig. 5 is the cross-sectional view of volute tongue in the utility model embodiment；

Fig. 6 is the structural schematic diagram that baffle is hidden in Fig. 5；

Fig. 7 is the enlarged structure schematic diagram of part A in Fig. 2.

Specific embodiment

The utility model is described in further detail below in conjunction with figure embodiment.

As shown in Fig. 1~7, the volute structure of the centrifugal blower of the present embodiment include volute tongue 1, front shroud 2, back shroud 3 and Spiral case ring wall 4, front shroud 2 and 3 time interval of back shroud arrange that spiral case ring wall 4 is connected between front shroud 2 and back shroud 3, snail Tongue 1 is set in the first end of spiral case ring wall 4, a side wall of volute tongue 1 side wall and front shroud 2, rear cover opposite with spiral case ring wall 4 Plate 3 encloses air outlet 40 jointly.

In the present embodiment, spiral case ring wall 4 includes the first ring wall 41 and the second ring wall 42, and the first ring wall 41 is connected to front cover Spiral case cavity is enclosed between plate 2 and back shroud 3 and with front shroud 2, back shroud 3, the second ring wall 42 is set in spiral case cavity 40 And spiral case cavity 40 is divided into exocoel 401 and inner cavity 402, the back edge of the second ring wall 42 is connected with 3 phase of back shroud, the second ring The forward edge of wall 42 gradually tilts backwards downwards for exocoel 401 and inner cavity 402 to be connected from top, on the second ring wall 42 It is provided in the axial direction with the air guide hole 421 arranged close to air outlet 40.The posterior edges and rear cover of second ring wall 42 of the present embodiment The leading flank of plate 3 is connected, and the top of 42 forward edge of the second ring wall is connected with the trailing flank of front shroud 2, the second ring wall 42 Minimum widith in the axial direction is 0.25~0.5 times of maximum width.The central part of front shroud 2 offers air inlet 21, the Two ring walls 42 and 21 arranged concentric of air inlet, in order to play preferable shunting function.

1 bottom of volute tongue of the present embodiment is provided with opening 1111 corresponding with air guide hole 421, is arranged above the opening 1111 There is the flow-guiding structure that the air-flow in spiral case inner cavity 402 can be imported at spiral case air outlet 40.The structure is directly by air-flow from second It is delivered at air outlet 40 in the inner cavity 402 that ring wall 42 is formed, vortex can be abolished well and reduces gas backstreaming.Air guide hole 421 along the second ring wall 42 axially through to make the second ring wall 42 be formed as open loop structure, the first end of the second ring wall 42 with 1111 one side edges far from air outlet 40 of opening of volute tongue 1 are connected, and the second end and volute tongue 1 of the second ring wall 42 are close to air outlet Gap 420 is formed between 40 lower surface, when compressor flow is smaller, flow-guiding structure can be at closed state, from the second ring The fraction shunted in the inner cavity 402 that wall 42 is formed is discharged from above-mentioned gap 420 and is discharged through air outlet 40.

The volute tongue 1 of the present embodiment has volute tongue inner wall 11, which includes the first side plate bending 111, the second cambered surface Section 112 and the first planar section 113, impeller arrangement and lower surface composition centrifugal blower of first side plate bending 111 close to centrifugal blower The first guide face, the first planar section 113 be set to spiral case 40 side of air outlet and inner surface constitute centrifugal blower the second water conservancy diversion Face, the second side plate bending 112 are connected between the first side plate bending 111 and the first planar section 113.1 top edge of volute tongue of the present embodiment It is connected with front shroud 2,3 top edge of back shroud by screw, 1 lower edge of volute tongue and the first end margin of spiral case ring wall 4 pass through Screw connection is connected and passes through silica gel sealing.

1 two sides of volute tongue of the present embodiment are respectively arranged with a volute tongue side plate 12, and the volute tongue side plate 12 is by two side seals of volute tongue 1 It closes to be provided on the outside of the volute tongue 1 to forming cavity 10, being open corresponding to cavity 10 and extend along volute tongue outer wall into cavity 10 First baffle 13.First baffle 13 includes the second planar section 131 and third side plate bending 132, and the second planar section 131 is flat close to first Face section 113 arranges that the upper end of third side plate bending 132 is mutually connected with the lower end of the second planar section 131, and third side plate bending 132 is to the Two side plate bendings, 112 direction is arched upward and lower end is mutually connected with the upper surface of the first side plate bending 112.Second planar section of first baffle 13 113 are formed with long and narrow flow-guiding channel 14, and the width of the flow-guiding channel 14 between 131 and the first planar section of volute tongue inner wall 11 It is gradually reduced from bottom to top.Diversion cavity 15 is enclosed between 10 inner wall of lower part and cavity of first baffle 13, opening 1111 opens up In in the first side plate bending 111 to supply stream enter diversion cavity 15 in.Above-mentioned flow-guiding channel 14 is collectively formed with diversion cavity 15 leads Flow structure.The baffle 100 that opening 1111 can be covered or open opening 1111 is additionally provided in diversion cavity 15.Baffle 100 lower surface is configured to the first cambered surface 101 to arch upward downwards, corresponding, and 1111 two sidewalls of opening are formed to and the first arc The mating surface 1112 that face 101 matches.The upper surface of baffle 100 is formed with the second cambered surface 102 to arch upward upwards, second arc The radian in face 102 is greater than the radian of the first cambered surface 101, and the junction rounding off of the first cambered surface 101 and the second cambered surface 102, The structure can reduce baffle 100 to distinguished and admirable resistance.The diversion cavity 15 of the present embodiment and the long and narrow common shape of flow-guiding channel 14 The structure for being 6 at general shape, so that playing the role of good water conservancy diversion breaks whirlpool.

The sensor 422 that can detect air force is provided on the inner wall of second ring wall 42, being provided in volute tongue 1 can basis Air force adjusts the adjusting component 16 whether baffle 100 is opened and closed relative to opening 1111.Adjusting component 16 includes linking arm 161, pin shaft 162 and actuator 163, linking arm 161 are two and are connected to the two sides of 100 first end of baffle, connection The other end of arm 161 is connected on volute tongue side plate 12 with being able to rotate by pin shaft 162, and junction is close to the second side plate bending 112 Arrangement.Baffle 100 is set to 1111 top of opening and can be rotated by actuator 163, the of baffle 100 with being able to rotate Two ends are rotatably mounted end.The accommodating cavity 19 close to air side arrangement is provided in volute tongue 1, actuator 163 is set on the accommodating The output shaft of motor in chamber 19, the motor is connected with pin shaft 162, to drive baffle 100 to move, to realize opening 1111 open or close.

In the present embodiment, it is provided with second baffle 17 on the outside of first baffle 13, the upper end of the second baffle 17 and first The outlet air end of planar section 113 is connected, and the lower end of the second baffle 17 is connected with the outer end of the first planar section 113, thus Closed first cavity 170 is enclosed jointly with volute tongue side plate 12, first baffle 13, is provided on first baffle 13 for air-flow self-conductance Flow the first through hole 130 that chamber 15 enters in the first cavity 170.First baffle 13 with a thickness of 1.5~2mm, first through hole 130 Diameter is 1~1.8mm.Setting is parallel to the third baffle 18 of the arrangement of second baffle 17, the third baffle in first cavity 170 18 enclose the second cavity 180 with second baffle 17, volute tongue inner wall jointly, are provided in third baffle 18 for air-flow from the first cavity 17 enter the second through-hole 181 of the second cavity 18.Third baffle 18 with a thickness of 0.75~1mm, the diameter of the second through-hole 181 is 0.5~0.75mm.Although above-mentioned first baffle 13, second baffle 17 and the first cavity 170 between the two form noise elimination Resonant structure it is also possible to nonlinear acoustic resistance can be generated, and then forms quadratic noise, above-mentioned third baffle 18 and the second chamber is arranged Body 180 can inhibit broader noise band, preferably offset original noise, and have higher acoustic absorptivity, final real The reduction of noise, the raising of vortex abolished with blower press, efficiency at volute tongue under the conditions of existing big flow.

Using the volute structure of the present embodiment, when compressor flow is smaller, noise is smaller, and baffle 100 will be open 1111 It closes, fraction is discharged through exocoel 401 from air outlet 40, and another part air-flow is recycled to 402 top of inner cavity through inner cavity 402 Air guide hole 421 and gap 420 are simultaneously discharged by air outlet 40；When compressor flow is larger, reflux of the gas at volute tongue 1 increases, When sensor 422 detects that air quantity reaches certain numerical value, controller controls actuator 163 and baffle 100 is driven to rotate, and will be open 1111 open, at this point, portion gas enters in diversion cavity 15 through air guide hole 421, opening 1111, the gas into diversion cavity 15 Part is directly over after long and narrow flow-guiding channel 14 accelerates and is discharged from air outlet 40, and another part passes through the on first baffle 13 One through-hole 130 the first cavity 170 of entrance, after being then passed through the second through-hole 181 entrance the second cavity 180 circulation in third baffle 18 It is discharged from flow-guiding channel 14, realizes the secondary discharge of reflux gas, reduce gas backstreaming, abolished eddy current problem, thus It reduces fan noise, improve fan efficiency；And the noise elimination resonant structure that first baffle, second baffle, third baffle are formed It can inhibit turbulence noise, inhibit broader noise band, preferably offset original noise, and there is higher sound absorption system Number, the finally reduction of noise, the raising of vortex abolished with blower press and efficiency at volute tongue under the conditions of realization big flow.

Claims (20)

1. a kind of volute structure of centrifugal blower, including volute tongue (1), front shroud (2), back shroud (3) and spiral case ring wall (4), institute Front shroud (2) and back shroud (3) time interval is stated to arrange, the spiral case ring wall (4) be set to front shroud (2) and back shroud (3) it Between, the volute tongue (1) is set to the air outlet (40) in the first end of spiral case ring wall (4) and close to spiral case and arranges, it is characterised in that: The spiral case ring wall (4) includes the first ring wall (41) and the second ring wall (42), and first ring wall (41) is connected to front shroud (2) Spiral case cavity is enclosed between back shroud (3) and with front shroud (2), back shroud (3), second ring wall (42) is set to spiral case Exocoel (401) and inner cavity (402), the back edge and back shroud of second ring wall (42) are divided into cavity and by spiral case cavity (3) mutually it is connected, the forward edge of second ring wall (42) is at least gradually tilted backwards downwards from middle part thus by exocoel (401) And inner cavity (402) are connected, and the air guide hole close to air outlet (40) arrangement is provided in the axial direction on second ring wall (42) (421)。

2. the volute structure of centrifugal blower according to claim 1, it is characterised in that: the rear side of second ring wall (42) Edge is connected with the leading flank of back shroud (3), the top of the second ring wall (42) forward edge and the rear side of front shroud (2) Face is connected, and the minimum widith of second ring wall (42) in the axial direction is 0.25~0.5 times of maximum width.

3. the volute structure of centrifugal blower according to claim 1, it is characterised in that: the central portion of the front shroud (2) Position offers air inlet (21), second ring wall (42) and air inlet (21) arranged concentric.

4. the volute structure of centrifugal blower according to claim 1, it is characterised in that: volute tongue (1) bottom be provided with The corresponding opening (1111) of air guide hole (421), the opening (1111) top is provided with can be by the air-flow in spiral case inner cavity (402) Import the flow-guiding structure at spiral case air outlet (40).

5. the volute structure of centrifugal blower according to claim 4, it is characterised in that: the air guide hole (421) is along second Ring wall (42) axially through to make the second ring wall (42) be formed as open loop structure, the first end of second ring wall (42) with Volute tongue opening (1111) is connected far from the one side edge of air outlet (40), the second end and volute tongue of second ring wall (42) (1) gap (420) are formed between the lower surface of air outlet (40).

6. the volute structure of centrifugal blower according to claim 4, it is characterised in that: the volute tongue (1) has in volute tongue Wall (11), the two sides closing of the volute tongue (1) are provided with along volute tongue (1) outside on the outside of the volute tongue (1) to be formed cavity (10) The first baffle (13) that wall extends into cavity (10), between the top of the first baffle (13) and corresponding volute tongue inner wall (11) It is formed with flow-guiding channel (14), encloses diversion cavity (15) between the lower part and cavity (10) inner wall of the first baffle (13), The bottom for being opened in diversion cavity (15), the flow-guiding channel (14) collectively form described lead with diversion cavity (15) Flow structure.

7. the volute structure of centrifugal blower according to claim 6, it is characterised in that: also set up in the diversion cavity (15) There is the baffle (100) for (1111) opening that opening (1111) can be covered or will be open.

8. the volute structure of centrifugal blower according to claim 7, it is characterised in that: the inner wall of second ring wall (42) On be provided with the sensor (422) that can detect air force, be provided on the volute tongue (1) can according to air force adjust water conservancy diversion Adjusting component (16) whether block (100) is opened and closed relative to opening (1111).

9. the volute structure of centrifugal blower according to claim 8, it is characterised in that: the adjusting component (16) includes Linking arm (161), pin shaft (162) and actuator (163), the linking arm (161) are set to the first end of baffle (100) and lead to It crosses pin shaft (162) to be connected to being able to rotate on volute tongue (1) side wall, the baffle (100) is set to opening (1111) with being able to rotate Top can be simultaneously rotated by actuator (163), and the second end of the baffle (100) is rotatably mounted end.

10. the volute structure of centrifugal blower according to claim 9, it is characterised in that: be provided with and lean in the volute tongue (1) The accommodating cavity (19) of nearly air side arrangement, the actuator (163) are the motor in the accommodating cavity (19), the motor Output shaft is connected with the pin shaft (162).

11. the volute structure of centrifugal blower according to claim 6, it is characterised in that: on the outside of the first baffle (13) Second baffle (17) are provided with, the second baffle (17) and volute tongue side wall, first baffle (13) enclose closed first jointly Cavity (170), be provided on the first baffle (13) enter for air-flow self-conductance stream chamber (15) it is first logical in the first cavity (170) Hole (130).

12. the volute structure of centrifugal blower according to claim 11, it is characterised in that: the thickness of the first baffle (13) Degree is 1.5~2mm, and the diameter of the first through hole (130) is 1~1.8mm.

13. the volute structure of centrifugal blower according to claim 11, it is characterised in that: in first cavity (170) The third baffle (18) for being parallel to second baffle (17) arrangement, the third baffle (18) and second baffle (17), volute tongue are set Inner wall encloses the second cavity (180) jointly, is provided on the third baffle (18) and enters the from the first cavity (170) for air-flow The second through-hole (181) of two cavitys (180).

14. the volute structure of centrifugal blower according to claim 13, it is characterised in that: the thickness of the third baffle (18) Degree is 0.75~1mm, and the diameter of second through-hole (181) is 0.5~0.75mm.

15. the volute structure of centrifugal blower according to claim 6, it is characterised in that: the volute tongue inner wall (11) includes First side plate bending (111), the second side plate bending (112) and the first planar section (113), first side plate bending (111) is close to centrifugation The impeller arrangement of blower and the first guide face of lower surface composition centrifugal blower, first planar section (113) are set to spiral case Air outlet (40) side and inner surface constitute the second guide face of centrifugal blower, and second side plate bending (112) is connected to the first arc Between face section (111) and the first planar section (113).

16. the volute structure of centrifugal blower according to claim 1, it is characterised in that: volute tongue (1) top edge is with before Cover board (2), back shroud (3) top edge are connected, and volute tongue (1) lower edge is connected with the first end margin of spiral case ring wall (4) It connects and passes through silica gel sealing.

17. the volute structure of centrifugal blower according to claim 15, it is characterised in that: the first baffle (13) includes Second planar section (131) and third side plate bending (132), second planar section (131) close first planar section (113) arrangement, The upper end of the third side plate bending (132) is mutually connected with the lower end of the second planar section (131), the third side plate bending (132) to Second side plate bending (112) direction is arched upward and lower end is mutually connected with the upper surface of the first side plate bending (111).

18. the volute structure of centrifugal blower according to claim 17, it is characterised in that: first planar section (113) The width of the flow-guiding channel (14) formed between the second planar section (131) is gradually reduced from bottom to top.

19. the volute structure of centrifugal blower according to claim 7, it is characterised in that: the following table of the baffle (100) Face is configured to the first cambered surface (101) to arch upward downwards, corresponding, and described opening (1111) two sidewalls are formed to and the first cambered surface (101) mating surface (1112) to match.

20. the volute structure of centrifugal blower according to claim 19, it is characterised in that: the baffle (100) it is upper Surface is formed with the second cambered surface (102) to arch upward upwards, and the radian of second cambered surface (102) is greater than the arc of the first cambered surface (101) Degree, and the junction rounding off of first cambered surface (101) and the second cambered surface (102).