JPH11336693A - Airtight retainer in air blower - Google Patents

Abstract

PROBLEM TO BE SOLVED: To enable air to be supplied or exhausted at high pressure by airtightly sealing a fan cover of an air blower. SOLUTION: In this air blower, a fan attached to an electric motor is rotatably surrounded by a fan cover 14 or the like, and the fan cover 14 or the like is installed in the motor via two sealing members 21 and 21a. In this case, a sharpened acute projection 22a or the like in contact with these sealing members 21 and 21a at a part contacting with these members 21 and 21a is formed in a flange parts f and f1 made up in a position in contact with the sealing members 21 and 21a of the can cover 14 or the like, and then the fan cover 14 or the like is butted to the sealing members 21 and 21a is use of the sharpened acute projection 22a, making it so as to be sealably installed.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a blower for supplying combustion air to a burner of a hot water supply device such as a gas or oil hot water supply device and for discharging exhaust gas after combustion into the atmosphere. The present invention relates to an improvement in an airtightness maintenance device of a blower which can supply and exhaust air at a high pressure, which can maintain air in a fan cover of the blower in an airtight manner and maintain complete combustion without affecting disturbance.

[0002]

2. Description of the Related Art FIG. 1 is a cut-away sectional view of a main part of a commonly used blower. In FIG. 1, reference numeral 1 denotes, for example, a shading coil type electric motor. The electric motor 1 is provided on a stator core 3 having a coil bobbin 2 wound with a coil (not shown) mounted on one side and on the other side of the stator core 3. Brackets 6, 6 a mounted on the stator core 3 with a rotor 4 rotatably inserted into the insertion holes and bearings 5, 5 a rotatably supporting a rotor shaft 4 a axially mounted on the rotor 4. And a shading coil 7 wound around the stator core 3.

As shown in FIG. 1, the electric motor 1 is provided with, for example, a blowing means 10 for pressure-feeding air to a burner portion of a water heater or discharging exhaust gas. As shown in FIG. 1, the blowing means 10 includes two turbo fans 11 and 12 and the turbo fans 11 and 1.
And 2nd fan covers 13 and 1 for individually housing
4 and a base 15 of the blowing means 10 for partitioning between the first fan cover 13 and the electric motor 1.

When assembling the blowing means 10, first, a rubber ring 3 for maintaining airtightness is attached to a bracket 6 of the electric motor 1.
1, the base 15 of the blower 10 is screwed into a mounting bolt a inserted through the stator core 3 of the electric motor 1 in the same direction as the direction in which the rotor shaft 4 a projects, and the rubber ring 31 is connected to the nut b. On the base 1, the fastening screw c is screwed into the nut b from the base 15 side and tightened, so that the base 1
5 and the electric motor 1 are integrally fixed.

Subsequently, the first turbo fan 11 is mounted on the rotor shaft 4a protruding from the through hole 16 of the base 15 in proximity to the base 15. Thereafter, with the first turbo fan 11 being surrounded, the air circulation hole 1 is located at the center position.
A first fan cover 13 having a substantially dish-shaped cross section with an opening 7 is attached to the base 15 using a tightening screw or the like. As shown in FIGS. 1 and 2, a plurality of straightening plates 18 are formed around the through hole 16 in the radial direction at equal intervals from each other outside the bottom surface of the first fan cover 13. Have been.

[0006] A second turbo fan 12 is mounted on the tip of the rotor shaft 4a.
The second fan cover 14 having a substantially convex cross section surrounding the second fan cover 2 is attached to the periphery of the bottom surface of the first fan cover 13 by using a tightening screw or the like while surrounding the rectifying plate 18. By putting on, the assembly of the blowing means 10 is completed.
In FIG. 1, reference numeral 19 denotes an air (outside air) inlet opening at the center of the second fan cover 14, and reference numeral 20 denotes an outlet provided at an end of the base 15 (see FIG. 2).

When the electric motor 1 is started, the first and second turbo fans 11 and 12 of the blower 10 rotate, and
Air is introduced into the second fan cover 14 from the inlet 19. The air introduced into the second fan cover 14 is
While moving to the peripheral edge in the second fan cover 14, it is successively guided by the rectifying plate 18 provided on the bottom surface of the first fan cover 13 and moves to the flow hole 17. The first turbo fan 11, which enters into the fan cover 13 and is newly mounted in the first fan cover 13 and rotates, is pressure-fed to a peripheral edge in the first fan cover 13 in a state where a large pressure is applied. Then, the water is sent from the discharge port 20 to the combustion section of the hot water supply device (not shown).

[0008]

In the above-mentioned blower, when outside air (air) is supplied to the burner portion of the hot water supply device, the pressure is increased to some extent in consideration of disturbance countermeasures and combustion / heat transfer efficiency of the burner. Pumping is required. There is no problem if a turbo fan having a large diameter is used to increase the supply power of the outside air. However, when the installation location of the blower is small, the turbo fans 11 and 12 are stacked and used as described above. Often. In this way, the diameter of the blowing means 10 in the blower is small, which is convenient. In addition, the fan cover 1
As shown in FIG. 10A, the sealing portions 3 and 14, ie, between the first and second fan covers 13 and 14 and between the first fan cover 13 and the base 15, In order to increase the airtightness, the airtightness is maintained by inserting flat seal members 21 and 21a (packing) made of rubber or the like.

As shown in FIG. 2, the seal members 21, 21a are provided with first and second fan covers 13, 14, respectively.
A ring-shaped sealing member 21 is provided between the base 15 and the base 15.
The first and second fan covers 13 and 14 and the first and second fan covers 13 and 14 and the first and second fan covers 13 and 14, respectively, are formed between the first and second fan covers 13 and 13 in FIG. As shown in (2), by tightening using the tightening screws d and e, each part is clamped.

However, as shown in FIG. 2, each of the seal members 21, 21a is inevitably elongated in proportion to the size of the outer peripheral edge of the corresponding fan cover 13, 14. For this reason, the tightening force of the tightening screws d and e acts and the sealing member 2
1, 21a and the flanges f of the fan covers 13 and 14,
f ₁ part but no gap between the (see FIG. 10 (a)), the site of clamping screws d, e is not present, i.e., the fan cover that is present between the clamping screw and the clamping screw Since the fastening force of the fastening screw does not act so much on the flange portion, a floating phenomenon occurs partially, and a small gap is formed. In this portion, the airtightness of the first and second fan covers 13 and 14 is improved. There was a problem of being damaged, and it was not possible to pump outside air at a high pressure.

In order to solve the above-mentioned problem, it is sufficient to reduce the interval between the tightening screws. However, this requires a large number of tightening screws. This is uneconomical and requires the same number of screws as the number of fastening screws on the fan cover flange for mounting a large number of fastening screws, resulting in a significant decrease in the mechanical strength of the fan cover itself. Was.

In view of the above-mentioned problems, the present invention can maintain the airtightness economically with a simple structure without specially using a large number of tightening screws for the seal of the fan cover used in the blower. It is another object of the present invention to provide an airtightness maintaining device for a blower configured as above.

[0013]

According to the first aspect of the present invention,
In a blower in which a fan attached to an electric motor is rotatably surrounded by a fan cover, and the fan cover is attached to the electric motor via a seal member and a support member for the fan cover, the fan cover and the seal member of the fan cover are provided. A sharp projection having a sharpened protruding end in contact with the seal member is formed in a portion of the flange portion formed in contact with the seal member at a position in contact with the seal member.

According to a second aspect of the present invention, a guide member for setting a mounting position of the fan cover is formed on a support member for supporting the fan cover via the seal member.

According to a third aspect of the present invention, there is provided a blower in which a fan mounted on a motor is rotatably surrounded by a fan cover, and the fan cover is mounted on the motor via a seal member and a support member for the fan cover. At
A flange portion formed at a position where the fan cover is in contact with the seal member, and / or a support member that supports the fan cover via the seal member, at a site where the seal member is in contact with the seal member. It is characterized in that an arc-shaped pressing portion to be pressed and contacted is formed.

According to a fourth aspect of the present invention, there is provided a blower in which a fan attached to a motor is rotatably surrounded by a fan cover, and the fan cover is mounted on the motor via a seal member and a support member for the fan cover. At
An arc-shaped concave groove is formed at a position corresponding to each of the flange portion formed at a position where the fan cover comes into contact with the seal member, and a support member that supports the fan cover via the seal member. It is characterized in that a hollow sealing member is pressed and clamped in the concave groove while maintaining the hollow state.

According to a fifth aspect of the present invention, there is provided a blower in which a fan mounted on a motor is rotatably surrounded by a fan cover, and the fan cover is mounted on the motor via a seal member and a support member for the fan cover. At
A flange formed at a position where the fan cover comes into contact with the seal member, a support member that supports the fan cover via the seal member, and a semicircular fitting groove and a protruding end at a portion that comes into contact with the seal member. A sharpened projection is formed on the sealing member, and a bulging portion is formed at a portion of the sealing member that fits into the fitting groove. The air conditioner is characterized in that it is airtightly interposed between the flange portion and the member supporting the fan cover.

According to the present invention, when a fan mounted on a motor is rotatably surrounded by a fan cover and the fan cover is mounted on the motor via a seal member, the fan cover or the seal member, or both members, When the fan cover and the seal member were brought into contact with each other, convex and concave portions for sealing and holding both members airtightly were formed individually, so that the mounting interval of the tightening screws for fixing the fan cover of the blower was increased. In addition, the airtightness of the fan cover can be improved satisfactorily, and the sealing work between the fan cover and the seal member can be performed quickly, easily, and economically.

[0019]

DESCRIPTION OF THE PREFERRED EMBODIMENTS An embodiment of the present invention will be described below with reference to FIGS. In FIGS. 3 to 5, when the components shown in FIGS. 1 and 2 are the same as those shown in FIG. 3 to 5 show a first embodiment of the present invention. FIG. 3 is a cross section taken along line AA of FIG. 2, FIG. 4 is a cross section taken along line BB of FIG. 2, and FIG.
2 shows a cross section taken along line CC of FIG.

3 to 5, the difference between the first embodiment of the present invention and the prior art is that the first and second fan covers 13 and 14 forming the blowing means 10 are first formed on the peripheral edges. flange f, the f _1, as shown in FIG. 5 (a),
A portion in contact with the sealing member 21,21a which form a planar flat (lower surface of the flange f, f _1), the flange f, f
_{1 along} the length direction (see FIG. 2),
The point is that sharp projections 22 and 22a in which the contact portion 21a is sharpened are formed.

Next, in FIG. 3, a guide member 23a for locking the end (left side in FIG. 3) of the flange portion f of the first fan cover 13 is connected to the outer peripheral edge of the base 15 by the flange portion f.
That is, it was bent at a right angle so as to abut the end of ₁ .
Also, on the upper surface of the first fan cover 13 corresponding to the flange f of the second fan cover 14, a locking projection 24 protruding from the heel portion (the right side in FIG. 3) of the flange f is engaged. A guide member 23 for stopping and preventing the second fan cover 14 from descending more than necessary (that is, compressing the seal member 21 more than necessary) is provided around the flange portion f so as to face the flange portion f. It was done.

In the first embodiment, when the blowing means 10a of the blower is constructed, as shown in FIGS.
The fan cover 13 is interposed a seal member 21a to the base 15 by nono, in this state, after the contact with the end portion of the flange portion f ₁ to the guide member 23a, a flange portion f with the fastening screws d ₁ and the base 15 are screwed and fastened. That is,
The first fan cover 13 and the base 15 are fastened and fixed.

Subsequently, the second fan cover 14 is mounted on the peripheral edge of the upper surface of the first fan cover 13 via the seal member 21 so that the guide member 23 and the locking projection 2 are mounted.
4 is locked as shown in FIG. 4, and in this state, a tightening screw e is inserted and screwed from the flange f of the second fan cover 14 to the first fan cover 13, thereby forming the second fan cover. The blower 10a is configured by mounting and fixing the 14 on the first fan cover 13.

When the blowing means 10a is constructed as described above, the sharp projections 22, 22a formed on the flange portions f, f1 of the _first and second fan covers 13, 14 are as shown in FIG. each flange portion f, fastening screws d to fasten the f _1, tip was sharpened tip by tightening force of e is collides to the upper surface of the seal member 21, 21a, the sealing member 21,2
1a Each flange portion f, the fastening force of f _1, thereby clamped tightly without voids in the first fan cover 13 and the base 15 consists of a first, second fan cover 13 The sealing portion g of the blowing means 10a (FIG. 4)
Reference) is hermetically sealed.

The seal members 21 and 21a are made of, for example, a closed-cell polyethylene resin having excellent elasticity. However, if necessary, the seal members 21 and 21a have a high elasticity such as a soft rubber or the like. Of course, a material may be used. Thus, the first and second fan covers 13, 1
4 of the flange f, pointed projections 22 and 22 formed in the f ₁
By providing a, the flange portion f, when fastened to the fan cover 13 by utilizing the f _1, the sealing member of the site by screwing the clamping screw d, e 21, 21a
Is almost crushed, as shown in FIGS.
Seal member 2 located away from tightening screws d and e
As shown in FIG. 5, the sharp projections 2 and 21a use the elastic force of the sealing members 21 and 21a without being crushed.
2 and 22a are in contact with the sealing members 21 and 21a.

Therefore, the flange portions f and f _{1 at} positions away from the fastening portions of the fastening screws d and e are sealed between the first fan cover 13 and the base 15 without floating. 21 and 21a are sandwiched, and the formation of a gap in this portion is well prevented, and the air-tight state of the blowing means 10a is reliably maintained. As a result, the outside air that has flowed into the first and second fan covers 13 and 14 of the blowing unit 10a is airtightly sealed by the blowing unit 10a.
The inflow outside air (air) can be satisfactorily pressure-fed and fed to, for example, a burner of a hot water supply device (not shown). In addition, since the air blowing means 10a is maintained in an airtight state, the inflowing outside air is reduced by the first and second fan covers 13 and 14.
Since there is no leakage to the outside from the sealing portion, there is no reduction in combustion / heat transfer efficiency and no noise due to leakage of outside air.

Next, a second embodiment of the present invention will be described with reference to FIG. The second embodiment shown in FIG.
Sealing member 21 of 3, 14 of the flange portion f (not shown flange portion f ₁ of the fan cover 13) (sealing member 2
1a is not shown), the arc-shaped pressing portion 25
Is formed, and the sealing member 21,
The flanges f, f of the first and second fan covers 13, 14 are pressed and sandwiched between the corresponding members (the upper surface of the first fan cover 13, the base 15).
₁ and sealing members 21 and 21a are tightened by tightening screws d and e.
Satisfactorily in a part where no air exists, and
The sealing part g of a can be reliably sealed, and the air-tight state of the air blowing means 10a can be maintained well.

FIG. 7 shows a third embodiment of the present invention, in which the sealing portion g of the blowing means 10a is connected to the flange portion f of the second fan cover 14 and the upper surface of the first fan cover 13. Are formed so as to maintain the airtight state of the air blowing means 10a by forming the arc-shaped pressing portions 26 and 26a, respectively, and using the pressing portions 26 and 26a to sandwich the seal member 21. In the third embodiment, the flange f1 of the _first fan cover 13 and the base 1
5 is the same as the sealing structure of the second fan cover 14, and the description and illustration thereof are omitted.

Further, a fourth embodiment of the present invention shown in FIG.
A sealing member g of the blowing means 10a is configured by using a sealing member 21b (21c not shown) made of a hollow pipe made of a synthetic resin having excellent flexibility.
An arc-shaped concave groove 27, 27a is formed on the flange portion f of the second fan cover 14 and the upper surface of the first fan cover 13 corresponding to the flange portion f, and a hollow seal is formed in the concave groove 27, 27a. The sealing member g of the blowing means 10a is formed by fitting the member 21b and fixing the flange portion f and the upper surface of the first fan cover 13, and the hollow sealing member 21b When the air in the hollow portion expands due to heat, the air gap of the sealing portion g of the air blowing means 10a can be satisfactorily closed.
Can be reliably maintained in an airtight state. Note that, also in the fourth embodiment, the sealing structure between the first fan cover 13 and the base 15 is the same as that of the second fan cover 1.
4 and the description and illustration are omitted.

FIG. 9 shows a fifth embodiment of the present invention.
Similarly to the fourth embodiment, semicircular fitting grooves 28 and 28a are provided in the flange portion f of the second fan cover 14 and the upper surface of the first fan cover 13, and the fitting grooves 2
Sharp projections 29, 29a are respectively provided on the sides of 8, 28a, while a sealing member 21d (21e is not shown).
As shown in FIG. 9, the swelling portion 30 is formed by swelling a portion to be fitted in the fitting grooves 28 and 28a.
d, the bulging portion 30 is loosely fitted using the fitting grooves 28, 28a, and the flange portion f and the upper surface of the first fan cover 13 are fixed, so that the bulging portion 3 of the seal member 21d is formed.
0 and the sharp projections 29, 29a provided on the flange portion f, etc., seal the space between the first and second fan covers 13, 14 to form a sealed portion g of the blowing means 10a. is there. Also in the fifth embodiment, the sealing structure between the first fan cover 13 and the base 15 is the same as the sealing structure of the second fan cover 14, so that the description and illustration thereof will be omitted. Is omitted.

[0031]

As described above, according to the present invention, when a fan mounted on a motor is rotatably surrounded by a fan cover, and the fan cover is mounted on the motor via a seal member, the fan cover is provided. Or, when the fan cover and the seal member are brought into contact with the seal member or the both members, the convex and concave portions for sealing and holding the two members in an airtight manner are individually formed. Even if the attachment intervals of the threaded screws are widened, the airtightness of the fan cover can be improved and the fan cover can be sealed.
In addition, the sealing work between the fan cover and the sealing member can be performed quickly, easily, and economically because the number of tightening screws used can be greatly reduced, and the production cost of the blower is good. Can be reduced.

[Brief description of the drawings]

FIG. 1 is a side view showing a main part of a blower with a cutout.

FIG. 2 is a plan view of the blower.

3 is a cross-sectional view taken along the line AA of FIG. 2, showing an enlarged main part of the airtightness holding device of the present invention.

FIG. 4 is a cross-sectional view taken along the line BB of FIG. 2;

FIG. 5 is a sectional view taken along line CC of FIG. 2;

FIG. 6 is an enlarged sectional view of a main part for describing a second embodiment of the present invention.

FIG. 7 is an enlarged sectional view of a main part for describing a third embodiment of the present invention.

FIG. 8 is an enlarged sectional view of a main part for describing a fourth embodiment of the present invention.

FIG. 9 is an enlarged sectional view of a main part for describing a fifth embodiment of the present invention.

FIG. 10 is an enlarged sectional view of a main part for explaining a conventional airtightness holding device.

[Explanation of symbols]

 DESCRIPTION OF SYMBOLS 1 Electric motor 10 Blowing means 11, 12 Turbo fan 13, 14 Fan cover 15 Base 21 Seal member 22 Sharp protrusion 23 Guide member

Continued on the front page (51) Int.Cl. ⁶ Identification symbol FI // H02K 7/14 H02K 7/14 A

Claims (5)

[Claims] 1. A blower, wherein a fan mounted on an electric motor is rotatably surrounded by a fan cover, and the fan cover is mounted on the electric motor via a seal member and a support member of the fan cover. The flange formed at the position where it contacts the seal member of
An airtightness maintaining device for a blower, wherein a sharp projection having a sharpened protruding end in contact with the seal member is formed in a portion in contact with the seal member. 2. The airtightness of a blower according to claim 1, wherein a guide member for setting a mounting position of the fan cover is formed on a support member that supports the fan cover via the seal member. apparatus. 3. A blower in which a fan mounted on an electric motor is rotatably surrounded by a fan cover, and the fan cover is mounted on the electric motor via a seal member and a support member of the fan cover. A flange portion formed at a position where it contacts the seal member of
An arc-shaped pressing portion that presses and abuts the seal member is formed at one or both of the support member that supports the fan cover via the seal member and a portion that contacts the seal member. Airtightness maintenance device for blower 4. A blower, wherein a fan mounted on an electric motor is rotatably surrounded by a fan cover, and the fan cover is mounted on the electric motor via a seal member and a support member of the fan cover. A flange portion formed at a position where it contacts the seal member of
A support member supporting the fan cover via the seal member, to form an arc-shaped concave groove at a position corresponding to each other,
An airtightness maintaining device for a blower, wherein a hollow sealing member is pressed and held in the pair of concave grooves while maintaining a hollow state. 5. A blower, wherein a fan attached to an electric motor is rotatably surrounded by a fan cover, and the fan cover is attached to the electric motor via a seal member and a support member of the fan cover. A flange portion formed at a position where it contacts the seal member of
A semicircular fitting groove and a sharp projection with a sharpened protruding end are formed on a supporting member that supports the fan cover via the sealing member, and the fitting member is fitted on the sealing member. A bulging portion is formed at a portion to be fitted in the groove, and this sealing member is airtightly interposed between the flange portion of the fan cover and the member supporting the fan cover by loosely fitting the bulging portion into the fitting groove. An airtightness maintaining device for a blower, wherein the airtightness maintaining device is inserted and attached.