JP7052691B2 - Centrifugal blower, manufacturing method of centrifugal blower - Google Patents

Description

The present disclosure relates to a centrifugal blower and a method for manufacturing a centrifugal blower.

Conventionally, as a centrifugal blower applied to an air conditioner for a vehicle having a two-layer flow of inside and outside air, a centrifugal blower capable of simultaneously sucking the outside air and the inside air from one side of the fan axis in the axial direction is known. (For example, see Patent Document 1).

This type of centrifugal blower is arranged inside the centrifugal fan in the radial direction, and is provided with a separation cylinder that separates and flows the outside air and the inside air to the centrifugal fan. Specifically, Patent Document 1 discloses the above-mentioned centrifugal blower in which the separation cylinder is divided into upper and lower parts.

Japanese Unexamined Patent Publication No. 2018-109383

By the way, when the separation cylinder is divided into upper and lower parts as in the centrifugal blower described in Patent Document 1, a gap is likely to be generated in the connecting portion of the upper and lower members, and the air separability by the separation cylinder may be deteriorated. ..

On the other hand, it is conceivable that the separation cylinder is made of an integrally molded product, but in this case, the separation cylinder and the fan casing are separated to ensure the coaxiality of the separation cylinder and the suction port of the fan casing. It becomes difficult to do.

It is an object of the present disclosure to provide a centrifugal blower capable of ensuring the coaxiality of the suction port of the separation cylinder and the fan casing while suppressing deterioration of air separability due to the separation cylinder, and a method for manufacturing the centrifugal blower.

The invention according to claim 1 is
It ’s a centrifugal blower,
A centrifugal fan (10) that blows out air sucked from one side in the axial direction (DRa) of the fan axis (CL) toward the outside in the radial direction (DRr).
A fan casing (30) in which a suction port (31) through which air sucked into the centrifugal fan passes is formed at a portion located on one side in the axial direction with respect to the centrifugal fan while accommodating the centrifugal fan.
It includes a tubular portion (52) located inside the centrifugal fan in the radial direction, and separates the air passing through the suction port into the inner air flowing inside the tubular portion and the outer air flowing outside the tubular portion. With a separation cylinder (50),
The separation cylinder has an air introduction portion (51) arranged on one side in the axial direction with respect to the tubular portion, and the tubular portion and the air introduction portion are made of an integrally molded product.
The fan casing is formed with at least one suction-side through hole (310) penetrating in the axial direction at a portion forming the suction port.
In the air introduction portion, a tubular side through hole (510) is formed at a portion where the tubular portion is coaxial with the suction port and the centrifugal fan and overlaps with the suction side through hole in the axial direction. ..

According to this, since the tubular part and the air introduction part constituting the separation cylinder are made of an integrally molded product, the inside of the separation cylinder is different from the one in which the separation cylinder is divided into upper and lower parts as in the prior art. Sufficient separation between air and outside air can be ensured.

In addition, the air introduction portion of the separation cylinder is formed with a cylinder-side through-hole that vertically overlaps with the suction-side through-hole of the fan casing in a state where the tubular portion is coaxial with the suction port and the centrifugal fan. According to this, it is possible to secure the coaxiality of the suction port of the separation cylinder and the fan casing by assembling the separation cylinder to the fan casing so that the suction side through hole and the cylinder side through hole overlap in the axial direction. It will be possible.

The invention according to claim 8 is
It is a manufacturing method of the centrifugal blower (1).
Centrifugal blower
A centrifugal fan (10) that blows out air sucked from one side in the axial direction (DRa) of the fan axis (CL) toward the outside in the radial direction (DRr).
A fan casing (30) in which a suction port (31) through which air sucked into the centrifugal fan passes is formed at a portion located on one side in the axial direction with respect to the centrifugal fan while accommodating the centrifugal fan.
It includes a tubular portion (52) located inside the centrifugal fan in the radial direction, and separates the air passing through the suction port into the inner air flowing inside the tubular portion and the outer air flowing outside the tubular portion. With a separation cylinder (50),
The separation cylinder has an air introduction portion (51) arranged on one side in the axial direction with respect to the tubular portion, and the tubular portion and the air introduction portion are made of an integrally molded product.
The fan casing is formed with at least one suction-side through hole (310) penetrating in the axial direction at a portion forming the suction port.
In the air introduction portion, a tubular side through hole (510) is formed in a portion where the tubular portion is coaxial with the suction port and the centrifugal fan and overlaps with the suction side through hole in the axial direction. ,
Inserting the protrusions (93, 94) of the positioning jig (90) into the through hole on the cylinder side of the separation cylinder,
Inserting the protrusion into the suction side through hole with the protrusion inserted into the cylinder side through hole,
It includes assembling the separation cylinder to the fan casing with the protrusions inserted into the cylinder side through hole and the suction side through hole.

According to this, it is possible to obtain a centrifugal blower capable of ensuring the coaxiality of the suction port of the separation cylinder and the fan casing while suppressing the deterioration of the air separability due to the separation cylinder.

The reference numerals in parentheses attached to each component or the like indicate an example of the correspondence between the component or the like and the specific component or the like described in the embodiment described later.

It is a schematic axial sectional view of the centrifugal blower which concerns on 1st Embodiment. FIG. 2 is a cross-sectional view taken along the line II-II of FIG. It is a schematic sectional drawing which shows a part of the centrifugal blower which concerns on 1st Embodiment. It is explanatory drawing for demonstrating each through hole formed in the centrifugal blower which concerns on 1st Embodiment. It is a schematic diagram of the positioning jig used at the time of manufacturing the centrifugal blower which concerns on 1st Embodiment. It is explanatory drawing for demonstrating a part of the manufacturing process of the centrifugal blower which concerns on 1st Embodiment. It is explanatory drawing for demonstrating the attachment procedure of a separation cylinder to a jig. It is explanatory drawing for demonstrating the attachment state to the jig of the separation cylinder. It is explanatory drawing for demonstrating the mounting procedure of a fan casing to a jig. It is explanatory drawing for demonstrating the mounting state of a fan casing to a jig. It is explanatory drawing for demonstrating the mounting procedure of a centrifugal fan to a jig. It is explanatory drawing for demonstrating the mounting state of a centrifugal fan to a jig. It is a schematic sectional drawing which shows a part of the centrifugal blower which concerns on 2nd Embodiment. It is explanatory drawing for demonstrating each through hole formed in the centrifugal blower which concerns on 2nd Embodiment. It is a schematic sectional drawing which shows a part of the centrifugal blower which concerns on 3rd Embodiment. It is explanatory drawing for demonstrating each through hole formed in the centrifugal blower which concerns on 3rd Embodiment. It is a schematic sectional drawing which shows a part of the centrifugal blower which concerns on 4th Embodiment.

Hereinafter, embodiments of the present disclosure will be described with reference to the drawings. In the following embodiments, the same reference numerals may be assigned to parts that are the same as or equivalent to those described in the preceding embodiments, and the description thereof may be omitted. Further, when only a part of the component is described in the embodiment, the component described in the preceding embodiment can be applied to the other part of the component. The following embodiments can be partially combined with each other as long as the combination is not particularly hindered, even if not explicitly stated.

(First Embodiment)
Hereinafter, one embodiment of the present disclosure will be described with reference to FIGS. 1 to 12. In the present embodiment, the centrifugal blower 1 of the present disclosure is capable of separating the outside air of the vehicle interior (hereinafter, also referred to as outside air) and the air inside the vehicle (hereinafter, also referred to as inside air) and blowing them into the vehicle interior. An example applied to a two-layer vehicle air conditioner will be described.

The centrifugal blower 1 is arranged inside the instrument panel at the front of the vehicle interior. As shown in FIGS. 1 and 2, the centrifugal blower 1 includes a centrifugal fan 10, an electric motor 20, a fan casing 30, an inside / outside air switching unit 40, and a separation cylinder 50.

The centrifugal fan 10 is a fan that blows out air sucked from one side of the axial DRa of the fan axis CL toward the outside of the radial DRr. The centrifugal fan 10 is composed of a sirocco fan. The centrifugal fan 10 is not limited to the sirocco fan, and may be composed of a radial fan, a turbo fan, or the like.

Here, the axial direction DRa is a direction extending along the fan axis CL. Further, the radial DRr is orthogonal to the fan axis CL and extends radially around the fan axis CL.

Specifically, the centrifugal fan 10 has a plurality of blades 11, a main plate 12, and a separation plate 13. The plurality of blades 11 are arranged side by side around the fan axis CL. Each of the plurality of blades 11 has a one-sided end 111 which is one end of the axial DRa and the other end 112 which is the other end of the axial DRa. An inter-blade air passage 110 through which air flows is formed between the plurality of blades 11.

The main plate 12 is composed of a disk-shaped member centered on the fan axis CL. The rotating shaft 22 of the electric motor 20 is connected to the central portion of the main plate 12 so as not to rotate relative to each other. In the main plate 12, the other side blade tips 112 of the plurality of blades 11 are fixed to the outer portion of the radial DRr.

The separation plate 13 separates the air flowing between the plurality of blades 11 into the air flowing on one side of the axial DRa with respect to the separation plate 13 and the air flowing on the other side of the axial DRa with respect to the separation plate 13. It is a member of. That is, the separation plate 13 is a member for dividing the interwing air passage 110 into the first blade passage 110A and the second blade passage 110B arranged on the other side of the axial DRa with respect to the first blade passage 110A. Specifically, the separation plate 13 intersects each of the plurality of blades 11 and is composed of an annular plate-shaped member centered on the fan axis CL. The separation plate 13 is fixed to the blade 11 at a portion intersecting with the blade 11.

The centrifugal fan 10 is configured as an integrally molded product in which a plurality of blades 11, a main plate 12, and a separation plate 13 are integrally molded by a molding technique such as injection molding. The centrifugal fan 10 may be composed of a plurality of blades 11, a main plate 12, and a part of a separation plate 13 as separate bodies.

The electric motor 20 is an electric drive device that rotates the centrifugal fan 10. The electric motor 20 has a main body portion 21 that generates power, a rotating shaft 22 that is rotated by the power of the main body portion 21, and a motor cover 23.

The rotating shaft 22 extends from the main body 21 toward one side of the axial DRa. The rotating shaft 22 is fixed to the main plate 12 of the centrifugal fan 10 by the motor cap 24. As a result, when the rotating shaft 22 rotates, the centrifugal fan 10 rotates.

The motor cover 23 is a member that covers a portion of the main body 21 on the other side of the axial DRa. The motor cover 23 is fixed to the fan casing 30 while holding the main body portion 21.

The fan casing 30 is a housing that houses the centrifugal fan 10 inside. The fan casing 30 is formed with a suction port 31 through which air sucked into the centrifugal fan 10 passes. The suction port 31 is formed at a portion located on one side of the axial DRa with respect to the centrifugal fan 10. Further, the fan casing 30 is formed with a fan insertion hole 32 for inserting the centrifugal fan 10 into a portion located on the other side of the axial DRa with respect to the centrifugal fan 10.

The fan casing 30 has a bell mouth 33, a mounting frame 34, a blowout passage forming portion 35, and a partition plate 36. The bell mouth 33 constitutes the peripheral portion of the suction port 31 in the fan casing 30. The bell mouth 33 has an arcuate cross-sectional shape so that air can flow smoothly into the suction port 31.

The mounting frame 34 is a rectangular frame for mounting the inside / outside air switching portion 40 to the fan casing 30. The mounting frame 34 is provided at a portion of the fan casing 30 located on one side of the centrifugal fan 10 in the axial direction DRa.

The blowout passage forming portion 35 is a member that forms a blowout air passage 350 through which the air blown from the centrifugal fan 10 flows outside the radial DRr with respect to the centrifugal fan 10. The blown air passage 350 is formed in a spiral shape around the centrifugal fan 10. That is, in the fan casing 30, a blown air passage 350 is formed in a spiral shape around the centrifugal fan 10. Such a fan casing 30 is also called a scroll casing. The fan casing 30 may be composed of a casing other than the scroll casing.

The partition plate 36 is arranged inside the blowout passage forming portion 35. The partition plate 36 is composed of an annular plate-shaped member centered on the fan axis CL. The partition plate 36 divides the outlet air passage 350 into a first outlet passage 350A on one side of the axial DRa and a second outlet passage 350B located on the other side of the axial DRa with respect to the first outlet passage 350A. There is.

In the partition plate 36, a portion outside the radial DRr is fixed to the inner wall of the blowout passage forming portion 35. The partition plate 36 is arranged so that the inner portion of the radial DRr faces the outer portion of the radial DRr of the separation plate 13 in the radial DRr. As a result, the air from the first wing passage 110A of the centrifugal fan 10 flows into the first blowing passage 350A, and the air from the second wing passage 110B of the centrifugal fan 10 flows into the second blowing passage 350B.

Although not shown, an air conditioning unit is connected to the outlet of the blowout air passage 350. The air-conditioning unit is a unit in which a cooling heat exchanger and a heating heat exchanger that adjust the temperature of the air blown into the vehicle interior are housed inside the air-conditioning casing that forms the air passage. The air blown out from the fan casing 30 by the rotation of the centrifugal fan 10 is adjusted to a desired temperature inside the air conditioning unit, and then blown out into the vehicle interior.

The fan casing 30 is made of a resin (for example, polypropylene) having a certain degree of elasticity and excellent strength. The fan casing 30 is actually composed of an assembly body in which a plurality of divided bodies are assembled due to reasons such as resin molding or assembly of built-in parts. The plurality of divided bodies are fastened by fastening means such as screws and clips.

Specifically, the fan casing 30 is composed of three divided bodies such as an upper side divided body 30A, a lower side divided body 30B, and a partition plate 36. The fan casing 30 is configured such that the upper split body 30A, the partition plate 36, and the lower split body 30B are laminated to each other in the axial direction DRa.

The upper split body 30A is a split body that constitutes a portion of the fan casing 30 on one side of the axial DRa. The upper split body 30A is provided with a suction port 31, a bell mouth 33, a mounting frame 34, and the like. The lower split body 30B is a split body that constitutes a portion of the fan casing 30 on the other side of the axial DRa. A fan insertion hole 32 is formed in the lower split body 30B.

Subsequently, the inside / outside air switching unit 40 switches and introduces air from inside and outside the vehicle, and is attached to the mounting frame 34 in the fan casing 30. The inside / outside air switching unit 40 has an inside / outside air casing 41 that constitutes an outer shell.

The inside / outside air casing 41 is arranged on one side of the axial DRa with respect to the fan casing 30. It constitutes a suction casing that forms an air passage through which the air introduced into the inside / outside air casing 41 and the suction port 31 passes. The inner / outer air casing 41 is made of a resin (for example, polypropylene) having a certain degree of elasticity and excellent strength.

The inside / outside air casing 41 is formed with an outside air introduction port 411 for introducing outside air, a first inside air introduction port 412 for introducing inside air, and a second inside air introduction port 413. The outside air introduction port 411, the first inside air introduction port 412, and the second inside air introduction port 413 are formed so as to be arranged in a predetermined direction orthogonal to the fan axis CL.

Here, inside the inside / outside air casing 41, the inside air from the first introduction space 410A and the second inside air introduction port 413 into which the outside air from the outside air introduction port 411 or the inside air from the first inside air introduction port 412 is introduced is introduced. A second introduction space 410B is formed. Further, the inside / outside air casing 41 is formed with a communication passage 414 that communicates the first introduction space 410A and the second introduction space 410B.

An air filter 42 is arranged inside the inside / outside air casing 41. The air filter 42 is a filter material that removes dust and the like in the air introduced into the inside / outside air casing 41. The air filter 42 is made of a material having air permeability. As the material of the air filter 42, for example, a non-woven fabric made of resin fibers such as PET and PP can be adopted.

In the inside / outside air casing 41, an opening / closing member 43 for opening / closing each introduction port 411, 421, 413 is arranged on the upstream side of the air flow of the air filter 42. The opening / closing member 43 is a first opening / closing door 431 that selectively opens / closes the outside air introduction port 411 and the first inside air introduction port 412, and a second opening / closing door 432 that selectively opens / closes the second inside air introduction port 413 and the communication passage 414. And have.

The first opening / closing door 431 is composed of a rotary door that rotates about a first door shaft 431a. Further, the second opening / closing door 432 is composed of a rotary door that rotates about the second door shaft 432a, similarly to the first opening / closing door 431.

Inside the inside / outside air casing 41, a seal plate 44 is provided which comes into contact with the second opening / closing door 432 when the second opening / closing door 432 is displaced to a position where the communication passage 414 is closed. The seal plate 44 extends along the axis of each door shaft 431a, 432a. The seal plate 44 is arranged adjacent to the air suction surface of the air filter 42. The seal plate 44 is arranged so as to cross the internal space of the inside / outside air casing 41.

The inside / outside air switching unit 40 configured in this way separates the inside air by opening the outside air introduction port 411 at the first opening / closing door 431 and opening the second inside air introduction port 413 at the second opening / closing door 432. It is possible to flow the inside of the cylinder 50 and the inside of the separation cylinder 50. That is, the inside / outside air casing 41 can allow the inside air introduced from the second inside air introduction port 413 to flow inside the separation cylinder 50 and the outside air introduced from the outside air introduction port 411 to flow outside the separation cylinder 50. It is configured.

Subsequently, the separation cylinder 50 is a tubular member extending in the axial direction DRa. That is, the separation cylinder 50 extends along the axial DRa, and the portions located at both ends of the axial DRa are open. The separation cylinder 50 includes a tubular portion arranged inside the radial DRr of the centrifugal fan 10. The separation cylinder 50 is made of a resin (for example, polypropylene) having a certain degree of elasticity and excellent strength.

The separation cylinder 50 has at least a part of the fan casing 30 so that the air passing through the suction port 31 is separated into the inner air flowing inside the tubular portion and the outer air flowing outside the tubular portion. It is positioned inside.

The separation cylinder 50 has an air introduction portion 51 located on one side of the axial DRa and a tubular portion 52 located on the other side of the axial DRa with respect to the air introduction portion 51. In the separation cylinder 50, the tubular portion 52 is positioned inside the radial DRr of the centrifugal fan 10, and the air introduction portion 51 is arranged on one side of the axial DRa with respect to the tubular portion 52.

The air introduction portion 51 is composed of a portion of the separation cylinder 50 located on one side of the axial DRa. The air introduction portion 51 has an upstream end thereof opened toward the second introduction space 410B so that the air introduced into the second introduction space 410B of the inside / outside air casing 41 flows into the inside of the separation cylinder 50. There is. Specifically, the air introduction portion 51 has a substantially rectangular outer shape when viewed from one side of the axial DRa. The air introduction portion 51 has a size capable of covering substantially half of the area of the bell mouth 33 of the fan casing 30.

The tubular portion 52 is a portion for guiding the inner air flowing inside the separation cylinder 50 and the outer air flowing outside the separation cylinder 50 to the centrifugal fan 10. In the tubular portion 52, one side of the axial DRa is connected to the air introduction portion 51. Further, the tubular portion 52 has a shape that extends toward the other side of the axial DRa in the radial direction DRr in order to guide the inner air and the outer air between the plurality of blades 11. That is, the diameter of the tubular portion 52 increases toward the other side of the axial DRa.

The separation cylinder 50 is arranged so that the downstream end portion of the tubular portion 52 faces the inner portion of the separation plate 13 of the centrifugal fan 10 in the radial direction DRr. As a result, the outside air flowing outside the separation cylinder 50 flows into the first wing passage 110A of the centrifugal fan 10, and the inside air flowing inside the separation cylinder 50 flows into the second wing passage 110B of the centrifugal fan 10.

The separation cylinder 50 is configured as an integrally molded product in which the air introduction portion 51 and the tubular portion 52 are integrally molded by a molding technique such as injection molding in consideration of the separability between the outer air and the inner air. The separation cylinder 50 is separate from the fan casing 30, and is configured to be able to be assembled to the fan casing 30.

Here, if the separation cylinder 50 is separate from the centrifugal fan 10 and the fan casing 30, the separation cylinder 50 has a coaxiality with the fan axis CL of the centrifugal fan 10, the suction port 31 of the fan casing 30, and the like. It is necessary to assemble it to the fan casing 30 after securing the above.

On the other hand, the centrifugal blower 1 has a circular cross-section that penetrates the fan casing 30 and the separation cylinder 50 in the axial direction DRa in order to secure the coaxiality between the separation cylinder 50 and the suction port 31 of the fan casing 30. A through hole is formed.

As shown in FIG. 3, the fan casing 30 is formed with a plurality of suction-side through holes 310 penetrating in the axial DRa at a portion forming the suction port 31. Specifically, the suction-side through hole 310 is a portion of the fan casing 30 that is radially outside the bell mouth 33 and overlaps with the air introduction portion 51 and the partition plate 36 of the separation cylinder 50 in the axial DRa. Is formed in.

Further, in the air introduction portion 51 of the separation cylinder 50, the tubular portion 52 overlaps the suction side through hole 310 and the axial DRa in a state where the tubular portion 52 is coaxial with the suction port 31 and the centrifugal fan 10, respectively, in the axial DRa. A cylinder-side through hole 510 is formed to penetrate. The air introduction portion 51 is formed with the same number of cylinder-side through-holes 510 as the suction-side through-holes 310.

Further, the partition plate 36 of the fan casing 30 penetrates the partition plate 36 in the axial direction DRa at a portion where the tubular portion 52 overlaps the suction side through hole 310 and the axial DRa in a state where the tubular portion 52 is coaxial with the suction port 31 and the centrifugal fan 10, respectively. A partition-side through hole 360 is formed. The partition plate 36 is formed with the same number of partition-side through-holes 360 as the suction-side through-holes 310.

In the centrifugal blower 1, the separation cylinder 50 is assembled to the fan casing 30 in a state where the suction side through hole 310, the cylinder side through hole 510, and the partition side through hole 360 overlap each other in the axial direction DRa.

As shown in FIG. 4, the suction side through hole 310 has a size of the partition side through hole 360 or more and the cylinder side through hole 510 or less. Specifically, the suction-side through hole 310 has a hole diameter of Φ1 of Φ3 or more of the partition-side through hole 360 and a hole diameter of Φ2 or less of the cylinder-side through hole 510. The suction side through hole 310 of the present embodiment has a hole diameter Φ1 larger than the hole diameter Φ3 of the partition side through hole 360 and smaller than the hole diameter Φ2 of the cylinder side through hole 510 (that is, Φ3 <Φ1). <Φ2).

The suction side through hole 310, the cylinder side through hole 510, and the partition side through hole 360 are sized so that the protrusions 93 and 94 of the positioning jig 90 can be inserted. The positioning jig 90 is a jig for assembling the centrifugal fan 10, the fan casing 30, and the separation cylinder 50 in a coaxial state.

As shown in FIG. 5, the jig 90 has a base 91, a fan holding portion 92 that protrudes upward from the base 91 and holds the centrifugal fan 10, and a plurality of protrusions that protrude from the base 91 in the same direction as the fan holding portion 92. It has parts 93 and 94.

In the jig 90, a holding groove portion 921 is formed with respect to the fan holding portion 92 so that the centrifugal fan 10 can be held in the fan holding portion 92. The holding groove portion 921 has a groove shape corresponding to the rotating shaft 22 so that the rotating shaft 22 of the centrifugal fan 10 in which the electric motor 20 is integrated can be held. The fan holding portion 92 is sized so that the tubular portion 52 of the separation cylinder 50 can be inserted.

In the jig 90, a plurality of protrusions 93 and 94 can insert the cylinder side through hole 510 of the separation cylinder 50, the suction side through hole 310 of the fan casing 30, and the partition side through hole 360, respectively. The plurality of protrusions 93 and 94 are composed of rod-shaped protrusions that taper toward the tip side. The plurality of protrusions 93 and 94 are provided in the same number as the suction side through holes 310.

Subsequently, among the manufacturing processes of the centrifugal blower 1, the assembly process of the centrifugal fan 10, the fan casing 30, and the separation cylinder 50 will be described with reference to FIGS. 6 to 12. In this assembling step, the centrifugal fan 10, the fan casing 30, and the separation cylinder 50 are laminated and assembled in the axial DRa by using the positioning jig 90 described above.

As shown in FIG. 6, in the first step of the assembling step, a plurality of protrusions 93 and 94 of the jig 90 are inserted into the cylinder side through holes 510 of the separation cylinder 50, and the separation cylinder 50 is held by the jig 90. do. In this step, as shown in FIG. 7, the tubular portion 52 of the separation cylinder 50 is inserted into the fan holding portion 92 of the jig 90 and separated in a posture in which the tubular portion 52 is located above the air introduction portion 51. A plurality of protrusions 93 and 94 of the jig 90 are inserted into the cylinder side through hole 510 of the cylinder 50. As a result, as shown in FIG. 8, the separation cylinder 50 is held by the jig 90.

Subsequently, in the second step of the assembly step shown in FIG. 6, a plurality of protrusions 93 and 94 of the jig 90 are inserted into the suction side through hole 310 and the partition side through hole 360 of the fan casing 30, respectively, and the fan casing is inserted. 30 is held in the jig 90 in which the separating cylinder 50 is held. In this step, as shown in FIG. 9, a plurality of protrusions 93 and 94 of the jig 90 are inserted into the suction side through hole 310 of the fan casing 30 in a posture in which the fan insertion hole 32 is located above the suction port 31. .. After that, a plurality of protrusions 93 and 94 of the jig 90 are inserted into the partition side through hole 360. As a result, as shown in FIG. 10, the fan casing 30 is held by the jig 90.

Subsequently, in the third step of the assembly step shown in FIG. 6, the rotary shaft 22 of the centrifugal fan 10 integrated with the electric motor 20 is fitted into the holding groove portion 921 of the fan holding portion 92 of the jig 90, and the centrifugal fan 10 is fitted. Is held in the jig 90 in which the fan casing 30 and the separation cylinder 50 are held.

In this step, as shown in FIG. 11, the rotating shaft 22 of the centrifugal fan 10 is fitted into the holding groove portion 921 of the fan holding portion 92 in a posture in which the electric motor 20 is located above the centrifugal fan 10. As a result, as shown in FIG. 12, the centrifugal fan 10 is held by the jig 90.

Subsequently, in the fourth step of the assembly step shown in FIG. 6, each part is fastened with screws, clips, etc. while the centrifugal fan 10, the fan casing 30, and the separation cylinder 50 are held by the jig 90. Fasten by means.

According to such an assembly step, the centrifugal fan 10, the fan casing 30, and the separation cylinder 50 are respectively placed in a state where the suction side through hole 310, the cylinder side through hole 510, and the partition side through hole 360 are overlapped with each other in the axial direction DRa. Can be assembled.

Further, the centrifugal blower 1 can be obtained by attaching the inside / outside air switching unit 40 to the assembled body in which the centrifugal fan 10, the fan casing 30, and the separation cylinder 50 are assembled.

The centrifugal blower 1 manufactured in this way can be set as an air suction mode to an outside air mode for sucking outside air, an inside air mode for sucking inside air, and an inside / outside air mode for separately sucking outside air and inside air at the same time. ..

The outside air mode is a mode in which only the outside air is introduced inside the inside / outside air casing 41. The centrifugal blower 1 is configured such that the first opening / closing door 431 is displaced at a position where the outside air introduction port 411 is opened and the second opening / closing door 432 is displaced at a position where the communication passage 414 is opened in the outside air mode.

The inside air mode is a mode in which only the inside air is introduced inside the inside / outside air casing 41. In the centrifugal blower 1, in the inside air mode, the first opening / closing door 431 is displaced to the position where the first inside air introduction port 412 is opened, and the second opening / closing door 432 is displaced to the position where the second inside air introduction port 413 is opened. It is configured.

The inside / outside air mode is a mode in which outside air and inside air are introduced inside the inside / outside air casing 41. The centrifugal blower 1 is configured such that the first opening / closing door 431 is displaced at a position where the outside air introduction port 411 is opened and the second opening / closing door 432 is displaced at a position where the second inside air introduction port 413 is opened in the inside / outside air mode. Has been done.

In the centrifugal blower 1, when the centrifugal fan 10 is rotated by the electric motor 20 in the inside / outside air mode, outside air is introduced from the outside air introduction port 411 into the first introduction space 410A and from the second inside air introduction port 413 as shown in FIG. Inside air is introduced into the second introduction space 410B.

The outside air introduced into the first introduction space 410A is sucked into the first wing passage 110A of the centrifugal fan 10 through the suction port 31 of the fan casing 30 and the outside of the separation cylinder 50. The outside air sucked into the first wing passage 110A is blown out to the first blowing passage 350A.

On the other hand, the inside air introduced into the second introduction space 410B is sucked into the second wing passage 110B of the centrifugal fan 10 through the suction port 31 of the fan casing 30 and the inside of the separation cylinder 50. The outside air sucked into the second wing passage 110B is blown out to the second blowout passage 350B.

Although not shown, the outside air flowing through the first outlet passage 350A and the inside air flowing through the second outlet passage 350B are different after being introduced into the air conditioning unit from the fan casing 30 and adjusted to a desired temperature inside the air conditioning unit. It is blown into the passenger compartment from the air outlet.

In the centrifugal blower 1 described above, the tubular portion 52 and the air introduction portion 51 constituting the separation cylinder 50 are integrally molded products. According to this, it is possible to sufficiently secure the separability between the inner air and the outer air by the separation cylinder 50 as compared with the case where the separation cylinder 50 is divided into upper and lower parts. That is, according to the centrifugal blower 1 of the present embodiment, when the air introduced from the inside / outside air switching unit 40 flows inside and outside the separation cylinder 50, it is possible to prevent the air flowing inside and outside the separation cylinder 50 from being mixed. can.

In addition, in the air introduction portion 51 of the separation cylinder 50, the tubular portion 52 overlaps the suction side through hole 310 of the fan casing 30 and the axial DRa in a state where the tubular portion 52 is coaxial with the suction port 31 and the centrifugal fan 10, respectively. A through hole 510 is formed. Further, the partition plate 36 of the fan casing 30 is formed with a partition side through hole 360 that overlaps the suction side through hole 310 and the axial DRa in a state where the tubular portion 52 is coaxial with the suction port 31 and the centrifugal fan 10, respectively. Has been done.

According to this, by assembling the separation cylinder 50 to the fan casing 30 so that the through holes 310, 510, 360 overlap each other in the axial direction DRa, the suction port 31 of the separation cylinder 50, the centrifugal fan 10, and the fan casing 30 The coaxiality of can be secured.

Further, the centrifugal blower 1 inserts the protrusions 93 and 94 of the positioning jig 90 in the order of the cylinder side through hole 510, the suction side through hole 310, and the partition side through hole 360 to form the fan casing 30 and the separation cylinder 50. It is configured to ensure coaxiality. In such a configuration, the suction side through hole 310 has a partition side through hole 360 or more and a cylinder side through hole so that the protrusions 93 and 94 can be easily inserted and removed from each through hole 310, 360, 510. It is desirable that the size is 510 or less. Further, it is desirable that the protrusions 93 and 94 are composed of rod-shaped protrusions that taper toward the tip side.

Here, in the prior art, the separation cylinder 50 and the fan casing 30 are bridged by ribs in the vicinity of the suction port 31. In such a structure, although it is easy to secure the coaxiality between the separation cylinder 50 and the suction port 31 of the fan casing 30, the ribs provided in the vicinity of the suction port 31 cause an abnormal noise.

On the other hand, the centrifugal blower 1 of the present embodiment does not have a rib for connecting the separation cylinder 50 to the fan casing 30 near the suction port 31, so that it is possible to suppress abnormal noise that may occur in the prior art. ..

Further, in the centrifugal blower 1, water may enter from the outside air introduction port 411 in the suction mode in which the outside air is introduced from the inside / outside air switching unit 40, but it is necessary to drain the water for the purpose of ensuring electrical insulation or hygiene. be.

On the other hand, in the centrifugal blower 1 of the present embodiment, the cylinder side through hole 510 is formed in the separation cylinder 50, and the suction side through hole 310 and the partition side through hole 360 are formed in the fan casing 30. These through holes can also function as drain holes for discharging the water that has entered the inside of the centrifugal blower 1. According to this, since the extra holes do not increase in the fan casing 30 and the separation cylinder 50, the separability between the inside air and the outside air inside the centrifugal blower 1 can be ensured.

(Variation example of the first embodiment)
In the above-mentioned first embodiment, the suction side through hole 310, the cylinder side through hole 510, and the partition side through hole 360 are exemplified by the through hole having a circular cross section, but the present invention is not limited thereto. The suction side through hole 310, the cylinder side through hole 510, and the partition side through hole 360 may be composed of, for example, through holes having a triangular cross section, a quadrangular cross section, and an elliptical cross section.

(Second Embodiment)
Next, the second embodiment will be described with reference to FIGS. 13 and 14. In the present embodiment, the sizes of the cylinder side through hole 510, the suction side through hole 310, and the partition side through hole 360 are different from those of the first embodiment. In the present embodiment, the parts different from the first embodiment will be mainly described, and the same parts as those in the first embodiment may be omitted.

As shown in FIGS. 13 and 14, the suction side through hole 310 is composed of a through hole having a circular cross section larger than the cylinder side through hole 510 and the partition side through hole 360. The suction-side through hole 310 has a hole diameter of Φ1 larger than that of the partition-side through-hole 360 and the cylinder-side through-hole 510, respectively. Specifically, in the present embodiment, the hole diameter Φ2 of the cylinder side through hole 510 is larger than the hole diameter Φ3 of the partition side through hole 360 and smaller than the hole diameter Φ1 of the suction side through hole 310. .. If the suction side through hole 310 is formed at a position where it overlaps the cylinder side through hole 510 and the partition side through hole 360 in the axial direction DRa, the suction side through hole 310 is not coaxial with the cylinder side through hole 510 and the partition side through hole 360. May be good.

Other configurations are the same as those of the first embodiment. Since the centrifugal blower 1 of the present embodiment has the same configuration as that of the first embodiment, the separation cylinder 50 and the fan are suppressed while suppressing the deterioration of the air separability due to the separation cylinder 50 as in the first embodiment. The coaxiality of the suction port 31 of the casing 30 can be ensured.

(Third Embodiment)
Next, the third embodiment will be described with reference to FIGS. 15 and 16. The present embodiment is different from the first embodiment in that the shape of the suction side through hole 310 is different from the shape of the cylinder side through hole 510 and the partition side through hole 360. The parts different from the first embodiment will be mainly described, and the same parts as the first embodiment may be omitted.

As shown in FIGS. 15 and 16, the cylinder-side through hole 510 and the partition-side through hole 360 are composed of through holes having a circular cross section as in the first embodiment. Unlike the first embodiment, the suction-side through hole 310 of the present embodiment is composed of a through hole having an oval cross section.

The suction-side through hole 310 has a cross-sectional area S1 larger than that of the partition-side through-hole 360 and the cylinder-side through-hole 510, respectively. Specifically, in the present embodiment, the cross-sectional area S2 of the cylinder-side through hole 510 is larger than the cross-sectional area S3 of the partition-side through-hole 360 and smaller than the cross-sectional area S1 of the suction-side through-hole 310. .. If the suction side through hole 310 is formed at a position where it overlaps the cylinder side through hole 510 and the partition side through hole 360 in the axial direction DRa, the suction side through hole 310 is not coaxial with the cylinder side through hole 510 and the partition side through hole 360. May be good.

Other configurations are the same as those of the first embodiment. Since the centrifugal blower 1 of the present embodiment has the same configuration as that of the first embodiment, the separation cylinder 50 and the fan are suppressed while suppressing the deterioration of the air separability due to the separation cylinder 50 as in the first embodiment. The coaxiality of the suction port 31 of the casing 30 can be ensured.

(Fourth Embodiment)
Next, the fourth embodiment will be described with reference to FIG. The present embodiment is different from the first embodiment in that a recess 361 is formed in place of the partition-side through hole 360 with respect to the partition plate 36. In the present embodiment, the parts different from the first embodiment will be mainly described, and the same parts as those in the first embodiment may be omitted.

As shown in FIG. 17, in the partition plate 36, in a state where the tubular portion 52 is coaxial with the suction port 31 and the centrifugal fan 10, the suction side through hole 310 and the axial DRa overlap each other in the axial DRa. A recessed recess 361 is formed. The recess 361 is configured so that the tips of the protrusions 93 and 94 of the positioning jig 90 can be fitted. The fan casing 30 and the separation cylinder 50 can insert the protrusions 93 and 94 of the positioning jig 90 into the cylinder side through hole 510 and the suction side through hole 310, and the tip portions of the protrusions 93 and 94 can be inserted through the fan casing 30 and the separation cylinder 50. Are assembled to each other in a state where they can be fitted into the recess 361.

Other configurations are the same as those of the first embodiment. In the centrifugal blower 1 of the present embodiment, the protrusions 93 and 94 of the positioning jig 90 are inserted through the cylinder side through hole 510 and the suction side through hole 310, and the tip portions of the protrusions 93 and 94 are fitted into the recess 361. By making it possible, it becomes possible to secure the coaxiality of each component. Therefore, the centrifugal blower 1 of the present embodiment secures the coaxiality of the separation cylinder 50 and the suction port 31 of the fan casing 30 while suppressing the deterioration of the air separability due to the separation cylinder 50 as in the first embodiment. can do.

In addition, the centrifugal blower 1 of the present embodiment does not have a through hole formed in the partition plate 36. Therefore, the centrifugal blower 1 can suppress the mixing of the outside air and the inside air in the blown air passage 350.

(Other embodiments)
Although the typical embodiments of the present disclosure have been described above, the present disclosure is not limited to the above-described embodiments, and can be variously modified as follows, for example.

In the above-described embodiment, the partition plate 36 provided with the partition-side through hole 360 and the recess 361 is exemplified, but the partition plate 36 is not limited to this. When the partition plate 36 is integrally molded with, for example, the upper side dividing body 30A, the partition side through hole 360 and the recess 361 may not be provided.

In the above-described embodiment, the centrifugal fan 10 provided with the separation plate 13 is exemplified, but the present invention is not limited to this. For example, the centrifugal fan 10 may have a structure in which the separation plate 13 is not provided.

In the above-described embodiment, the fan casing 30 is exemplified, but is not limited to, the fan casing 30 which is composed of three divided bodies such as the upper side divided body 30A, the lower side divided body 30B, and the partition plate 36. The fan casing 30 may be composed of, for example, three or more divided bodies. Further, the fan casing 30 may be partially divided in the axial direction DRa.

In the above-described embodiment, the inside / outside air casing 41 in which one outside air introduction port and two inside air introduction ports are formed is exemplified, but the present invention is not limited thereto. As the inner / outer air casing 41, for example, one in which one outside air introduction port and one inside air introduction port are formed may be adopted as long as it is possible to separately inhale the outside air and the inside air.

In the above-described embodiment, the opening / closing member 43 is exemplified by the first opening / closing door 431 and the second opening / closing door 432, but the present invention is not limited thereto. The opening / closing member 43 may be composed of, for example, three or more opening / closing doors. Further, the opening / closing door constituting the opening / closing member 43 is not limited to the rotary door, and may be composed of, for example, a cantilever type plate door, a sliding door, or the like.

In the above-described embodiment, an example in which the centrifugal blower 1 of the present disclosure is applied to an air conditioner for a vehicle having two layers of inside and outside air has been described, but the present invention is not limited thereto. The centrifugal blower 1 of the present disclosure can be applied to devices other than the air conditioner for vehicles having two layers of inside and outside air.

Needless to say, in the above-described embodiment, the elements constituting the embodiment are not necessarily essential except when it is clearly indicated that they are essential and when they are clearly considered to be essential in principle.

In the above-described embodiment, when numerical values such as the number, numerical value, quantity, range, etc. of the components of the embodiment are mentioned, when it is clearly indicated that it is particularly essential, and when it is clearly limited to a specific number in principle. Except for cases, etc., it is not limited to the specific number.

In the above-described embodiment, when the shape, positional relationship, etc. of a component or the like is referred to, the shape, positional relationship, etc. are not specified unless otherwise specified or limited in principle to a specific shape, positional relationship, etc. Not limited to, etc.

(summary)
According to the first aspect shown in part or all of the above embodiments, the centrifugal blower comprises a centrifugal fan, a fan casing, and a separation tube. The separation cylinder has an air introduction portion arranged on one side in the axial direction with respect to the tubular portion, and the tubular portion and the air introduction portion are made of an integrally molded product. The fan casing is formed with at least one suction-side through hole (310) penetrating in the axial direction at a portion forming the suction port. In the air introduction portion, a tubular side through hole is formed at a portion where the tubular portion is coaxial with the suction port and the centrifugal fan and overlaps with the suction side through hole in the axial direction.

According to the second aspect, the fan casing of the centrifugal blower is formed with a blown air passage through which the air blown from the centrifugal fan flows outside in the radial direction with respect to the centrifugal fan. The fan casing has a partition plate that partitions the blowout air passage into a first blowout passage located on one side in the axial direction and a second blowout passage located on the other side in the axial direction with respect to the first blowout passage. .. The partition plate has a partition-side through hole that penetrates in the axial direction at a portion that overlaps the suction-side through hole in the axial direction in a state where the tubular portion is coaxial with the suction port and the centrifugal fan.

According to this, by assembling the separation cylinder to the fan casing so that the suction side through hole, the cylinder side through hole, and the partition side through hole overlap in the axial direction, the suction port of the separation cylinder, the centrifugal fan, and the fan casing , The coaxiality of the partition plate can be secured.

According to the third aspect, in the centrifugal blower, the suction side through hole is larger than the partition side through hole and smaller than the cylinder side through hole. According to this, for example, when ensuring the coaxiality of each component by inserting the protrusion of the positioning jig in the order of the through hole on the cylinder side, the through hole on the suction side, and the through hole on the partition side, the protrusion for each through hole It is easy to insert and remove. This greatly contributes to the realization of smooth assembly work.

According to the fourth aspect, in the centrifugal blower, the fan casing and the separation cylinder are in a state where the protrusion of the positioning jig can be inserted into the cylinder side through hole, the suction side through hole, and the partition side through hole. It is assembled. According to this, it is possible to secure the coaxiality of each component by inserting the protrusion of the positioning jig into the through hole on the cylinder side, the through hole on the suction side, and the through hole on the partition side.

According to the fifth aspect, the fan casing of the centrifugal blower is formed with a blown air passage through which the air blown from the centrifugal fan flows outside in the radial direction with respect to the centrifugal fan. The fan casing has a partition plate that partitions the blowout air passage into a first blowout passage located on one side in the axial direction and a second blowout passage located on the other side in the axial direction with respect to the first blowout passage. .. The partition plate has a concave portion formed in the axial direction at a portion where the tubular portion is coaxial with the suction port and the centrifugal fan and overlaps with the suction side through hole in the axial direction.

According to this, by assembling the separation cylinder to the fan casing so that the suction side through hole, the cylinder side through hole, and the recess overlap in the axial direction, the separation cylinder, the centrifugal fan, the suction port of the fan casing, and the partition plate are attached. The coaxiality of can be secured.

According to the sixth aspect, in the centrifugal blower, the fan casing and the separation cylinder can insert the protrusion of the positioning jig into the through hole on the cylinder side and the through hole on the suction side, and the tip portion of the protrusion can be inserted. They are assembled to each other so that they can be fitted into the recesses. According to this, it is possible to secure the coaxiality of each part by inserting the protrusion of the positioning jig through the through hole on the cylinder side and the through hole on the suction side, and further fitting the tip of the protrusion into the recess. Become.

According to the seventh aspect, the centrifugal fan of the centrifugal blower has a blade air passage formed between a plurality of blades arranged around the fan axis and a blade air passage formed between the blades in the first blade passage and the first blade. It has a separating plate that divides into a second wing passage arranged on the other side in the axial direction with respect to the passage. The separation plate is set so that the outer air is blown from the first wing passage to the first blowout passage and the inner air is blown from the second wing passage to the second blowout passage. According to this, for example, when different types of air having different temperatures and humidity flow inside and outside the separation cylinder, the different types of air can be blown out from the centrifugal fan in a separated state.

According to the eighth aspect, in the method of manufacturing a centrifugal blower, a protrusion is inserted into a through hole on the suction side with a protrusion of a positioning jig inserted in a through hole on the cylinder side of a separation cylinder, and in this state, a fan is inserted. Assemble the separation cylinder to the casing.

1 Centrifugal blower 10 Centrifugal fan 30 Fan casing 31 Suction port 310 Suction side through hole 50 Separation cylinder 51 Air introduction part 510 Cylinder side through hole 52 Cylindrical part

Claims (8)

It ’s a centrifugal blower,
A centrifugal fan (10) that blows out air sucked from one side in the axial direction (DRa) of the fan axis (CL) toward the outside in the radial direction (DRr), and
A fan casing (30) that accommodates the centrifugal fan and has a suction port (31) through which air sucked into the centrifugal fan passes at a portion located on one side of the centrifugal fan in the axial direction. ,
The inner air flowing inside the tubular portion and the outer air flowing outside the tubular portion include the tubular portion (52) arranged inside the centrifugal fan in the radial direction, and the air passing through the suction port is allowed to flow inside the tubular portion. With a separation tube (50) that separates from the air,
The separation cylinder has an air introduction portion (51) arranged on one side in the axial direction with respect to the tubular portion, and the tubular portion and the air introduction portion are made of an integrally molded product. ,
The fan casing is formed with at least one suction-side through hole (310) penetrating in the axial direction at a portion forming the suction port.
The air introduction portion is a tubular side through hole that penetrates in the axial direction at a portion that overlaps the suction side through hole in the axial direction in a state where the tubular portion is coaxial with the suction port and the centrifugal fan, respectively. Centrifugal blower on which 510) is formed. In the fan casing, a blowout air passage (350) through which air blown from the centrifugal fan flows is formed on the outer side in the radial direction with respect to the centrifugal fan, and the blowout air passage is located on one side in the axial direction. It has a partition plate (36) that partitions the first blowing passage (350A) and the second blowing passage (350B) located on the other side in the axial direction with respect to the first blowing passage.
The partition plate has a partition-side through hole (360) that penetrates in the axial direction at a portion that overlaps the suction-side through hole in the axial direction with the tubular portion coaxial with the suction port and the centrifugal fan. ) Is formed in the centrifugal blower according to claim 1. The centrifugal blower according to claim 2, wherein the suction-side through hole has a size equal to or larger than the partition-side through hole and smaller than or equal to the cylinder-side through hole. The fan casing and the separation cylinder are in a state in which the protrusions (93, 94) of the positioning jig (90) can be inserted into the cylinder side through hole, the suction side through hole, and the partition side through hole. The centrifugal blower according to claim 3, which is assembled with each other. In the fan casing, a blowout air passage (350) through which air blown from the centrifugal fan flows is formed on the outer side in the radial direction with respect to the centrifugal fan, and the blowout air passage is located on one side in the axial direction. It has a partition plate (36) that partitions the first blowing passage (350A) and the second blowing passage (350B) located on the other side in the axial direction with respect to the first blowing passage.
In the partition plate, a recess (361) recessed in the axial direction is formed at a portion where the tubular portion is coaxial with the suction port and the centrifugal fan and overlaps with the suction side through hole in the axial direction. The centrifugal blower according to claim 1. The fan casing and the separation cylinder are capable of inserting the protrusions (93, 94) of the positioning jig (90) into the cylinder-side through hole and the suction-side through hole, and the tip of the protrusion. The centrifugal blower according to claim 5, wherein the members are assembled to each other in a state where they can be fitted into the recess. In the centrifugal fan, a plurality of blades (11) arranged around the fan axis and a blade air passage (110) formed between the plurality of blades are provided with a first blade passage (110A) and the first blade passage (110A). It has a separation plate (12) for dividing into a second wing passage (110B) arranged on the other side in the axial direction with respect to one wing passage.
The separation plate is set so that the outer air is blown from the first wing passage to the first blowing passage, and the inner air is blown from the second wing passage to the second blowing passage. Item 2. The centrifugal blower according to any one of Items 2 to 6. It is a manufacturing method of the centrifugal blower (1).
The centrifugal blower is
A centrifugal fan (10) that blows out air sucked from one side in the axial direction (DRa) of the fan axis (CL) toward the outside in the radial direction (DRr), and
A fan casing (30) that accommodates the centrifugal fan and has a suction port (31) through which air sucked into the centrifugal fan passes at a portion located on one side of the centrifugal fan in the axial direction. ,
The inner air flowing inside the tubular portion and the outer air flowing outside the tubular portion include the tubular portion (52) arranged inside the centrifugal fan in the radial direction, and the air passing through the suction port is allowed to flow inside the tubular portion. With a separation tube (50) that separates from the air,
The separation cylinder has an air introduction portion (51) arranged on one side in the axial direction with respect to the tubular portion, and the tubular portion and the air introduction portion are made of an integrally molded product. ,
The fan casing is formed with at least one suction-side through hole (310) penetrating in the axial direction at a portion forming the suction port.
The air introduction portion is a tubular side through hole that penetrates in the axial direction at a portion that overlaps the suction side through hole in the axial direction in a state where the tubular portion is coaxial with the suction port and the centrifugal fan, respectively. 510) is formed,
Inserting the protrusions (93, 94) of the positioning jig (90) into the cylinder-side through hole of the separation cylinder, and
Inserting the protrusion into the suction-side through hole with the protrusion inserted into the cylinder-side through hole,
A centrifugal blower comprising assembling the separation cylinder to the fan casing with the protrusion inserted into the cylinder side through hole and the suction side through hole.

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