JPH0526932Y2 - - Google Patents

Description

[Detailed Description of the Invention] (Industrial Application Field) The present invention relates to a blower for an automobile air conditioner, and particularly relates to an improvement of a fixing structure for fixing a motor cooling pipe for cooling a fan drive motor.

(Prior Art) For example, an intake unit 1 of an air conditioner for an automobile shown in FIG. It has an intake port 4 or 5.

In the fan device 2, a fan 7 provided in a fan scroll 6 and a rotating shaft 8 of a fan motor M are vertically connected, and when the motor M is operated, air taken in from the air intake port 4 or 5 is is taken into the fan scroll 6 through an opening 9 (commonly called a bell mouth) formed in the top wall 6a of the fan scroll 6, flows through a passage formed in the fan scroll 6, and flows through the fan scroll 6 through a passage formed in the fan scroll 6. The air is blown out from the outlet 10 at the end (see FIG. 4) to the next cooler unit or heater unit.

On the other hand, the fan device 2 has a cooling pipe 11 for cooling the fan motor M. This cooling pipe 11 is installed so as to communicate between the inside of the fan motor M and the fan scroll 6, and takes out a part of the airflow flowing through the fan scroll 6.
This air is introduced into the fan motor M as motor cooling air to cool the motor M.

Depending on outside air conditions, this air flow may contain water droplets, etc.
It is undesirable to enter the motor through the

For this reason, conventionally, the side of the cooling pipe 11 connected to the fan scroll 6, that is, the side of the cooling pipe 1
The air intake side of the fan scroll 6 is connected to a cooling box 15 provided near the discharge port 10 of the fan scroll 6, as shown in FIG. Cooling box 15
is communicated with the fan scroll 6 through a port 16 opened near the bottom wall 6b of the fan scroll 6, and is connected to the air intake side end 11a of the cooling pipe 11.
is attached so as to be located near the top wall 6a of the fan scroll 6. In this way, even if water droplets or the like try to enter the cooling pipe 11 from the fan scroll 6 on the airflow, they will twist and turn as shown by the arrow in FIG. Air and water droplets are separated inside the
Only air will be led to the motor M through the cooling pipe 11.

(Problem to be Solved by the Invention) Recently, the cooling pipe 11 has been constructed of a bellows hose that can be expanded and contracted so that the length or the mounting position can be changed according to the shape of the vehicle body. (See Publication No. 57-28650).

Since this cooling pipe 11 has elasticity, if it is simply left in a connected state, it will dangle undesirably. Therefore, as shown in FIG. 4, a clamp member 12 is used for fixing.

The clamp member 12 is made of a material that is relatively easily deformed by human hands, such as wire, in order to improve the convenience of assembly work and reduce costs. The clamp member 12 also connects the fan motor M to the fan scroll 6.
They are jointly tightened by bolts 13 that are fixed to.
In other words, as is clear from FIG. 3, a through hole 6a for inserting the motor is provided on the lower surface of the fan scroll 6, so the motor M is inserted through this through hole 6a, and the motor M is projected outside. The through hole 6a is covered with a bracket B, and this bracket B
A bolt 13 is inserted through the clamp member 12 and fixed to the fan scroll 6 together with the clamp member 12.

However, if such a clamp member 12 is attached while being bent and formed by hand, the cooling pipe 11 itself will be deformed due to the force applied, and the passage within the cooling pipe will be deformed, creating ventilation resistance and reducing the amount of cooling air. Or, the air may collide and produce abnormal noises.

The present invention was made in order to solve the problems associated with the above-mentioned conventional technology, and provides a motor cooling pipe fixing structure that can be fixed extremely easily without deforming the pipe that cools the fan motor. The purpose is to

The present invention for achieving the above object provides a fixing structure for a motor cooling pipe having an expandable bellows-like shape, which communicates with the inside of a fan scroll and a fan motor and introduces a part of the air flowing through the fan scroll into the fan motor as motor cooling air. The fixing structure includes a pair of fixing pieces provided along a piping path of the motor cooling pipe so as to be opposed to each other at a predetermined distance from each other, and the fixing pieces are provided on the inner surfaces of the fixing pieces with:
This motor cooling pipe fixing structure is characterized in that a bellows-like uneven portion is formed with a pitch different from the pitch of the bellows portion of the motor cooling pipe, a part of which is fitted onto the inner surface.

(Function) In this way, even if the motor cooling pipe is expandable and retractable, the bellows-shaped motor cooling pipe can be easily attached without being deformed by simply pushing the bellows portion between the fixed pieces.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, an embodiment of the present invention will be described with

FIG. 1 is a perspective view showing an embodiment of the present invention, and the same members as those shown in FIGS. 3 and 4 are given the same reference numerals.

In a fan device 2 of an intake unit 1 in an automobile air conditioner, a fan motor M (strictly speaking, inside the motor casing) and a fan scroll 6 are communicated through a cooling pipe 11. This cooling pipe 11 introduces a part of the air flow flowing through the fan scroll 6 due to the rotation of the fan motor M into the motor casing, and is constituted by a bellows portion 11a that is extendable and retractable over the entire length except for both ends. ing.

In this embodiment, the cooling pipe 11 is fixed by a pair of fixing pieces that integrally protrude from the outer circumferential surface of the fan scroll 6 and are disposed opposite each other along the piping route of the cooling pipe 11 at a predetermined interval. I try to do it by 20. In other words, this fixing piece 20 has an outer diameter d of the protrusion T in the bellows portion 11a.
It has a height h (FIG. 1) and a spacing t (FIG. 2) of a certain degree, and a bellows-like uneven portion 21 is formed on the inner surface. The uneven portions 21 may be formed only on the inner surfaces of the pair of fixing pieces 20.

The pitch P ₁ of this uneven portion 21 is equal to the pitch of the bellows portion 11a in a free state as shown in FIG.
_P2 , and when the bellows part 11a is pushed between the fixed pieces 20, the free state of the bellows part 11a is compressed to some extent within the fixed piece 20, and the space between the fixed pieces 20 is tightly closed. This ensures that it does not slip or fall out. Also, by doing this, the fixed piece 2
When the cooling pipe is inserted between 0 and 0, the fixing piece 20
The pitch of the bellows portion 11a existing inside the fixing piece 20 becomes denser, and the bellows portion 11a existing inside this fixing piece 20 becomes denser.
The so-called rigidity increases, and when you push it in with your fingers,
This bellows portion 11a is not easily deformed and can be easily pushed in. More preferably, since the backs of a large number of bellows are pushed during pushing, the force is dispersed and the cooling pipe 11 is pushed in with its cross section kept circular.

In addition, since the clamp member 12 is held over a wider range than the conventional clamp member 12, the cooling pipe 11
It is possible to securely hold the parts, so that they can be installed without wobbling, and the ease of assembly is significantly improved.

Moreover, since the fixing piece 20 is integrally molded with the fan scroll 6, there is no need to tighten it together when tightening the bolts as in the past, and if the fan scroll 6 is molded from synthetic resin, it is possible to It is also advantageous in terms of cost.

In the above-mentioned embodiment, the pitch P ₁ of the bellows-like uneven portion 21 of the fixed piece 20 is made smaller than the pitch P ₂ of the bellows portion 11a, but if the rigidity of the cooling pipe 11 is high, Both fixing pieces 2
The pitch P ₁ of the bellows-like uneven portion 21 of 0 is the bellows part 1.
The pitch may be larger than the pitch _P2 of 1a. In this way, the cooling pipe 11 can be pulled and stretched between the two fixing pieces 20, and when released, it can be brought into a state of engagement with the concavo-convex portion 21.
The ease of attaching the cooling pipe 11 is further improved. However, if the pitch P ₁ of the bellows-like uneven portion 21 of the fixing piece 20 is made equal to the pitch P ₂ of the bellows portion 11a, the bellows portion 11a can be easily
This is not preferable because there is a risk that the material may come off from the concavo-convex portion 21.

(Effects of the invention) As described above, according to the invention, a pair of fixing pieces are provided in the piping route of the motor cooling pipe so as to be opposed to each other at a predetermined interval along the route. The inside surface has a bellows-like uneven part into which a part of the motor cooling pipe is fitted, so the cooling pipe can be easily and quickly attached to the fan scroll without deforming. Since the passage does not deform, no abnormal noise is generated, and the structure is advantageous in terms of cost and strength.

Furthermore, if the pitch of this bellows-shaped uneven portion is made different from the pitch of the bellows portion of the motor cooling pipe, for example, when the pitch of the uneven portion is made smaller, the bellows portion is compressed and the rigidity is increased.
The cooling pipe can be pushed in without being deformed, and the cooling pipe is prevented from deforming by dispersing the pushing force.If the pitch of the uneven part is made larger than the bellows part, the cooling pipe can be inserted between the fixed pieces in an extended state. , the ease of attaching the cooling pipe is improved, and in any case, the workability of assembling the motor cooling pipe is significantly improved.

[Brief explanation of the drawing]

FIG. 1 is a perspective view showing an embodiment of the present invention, FIG. 2 is an enlarged sectional view of the main part of FIG. 1, FIG. 3 is a longitudinal sectional view of a conventional intake unit, and FIG.
The figure is a perspective view of the intake unit viewed from the bottom. 6... Juan scroll, 7... Juan, 11
... Motor cooling pipe, 11a ... Bellows part, 2
0... Fixed piece, 21... Uneven part, M... Fan motor, P ₁ , P ₂ ... Pitch.

Claims (1)

[Claims for Utility Model Registration] A telescopic system that communicates the inside of the fan scroll 6 with the fan motor M, and introduces a part of the airflow flowing through the inside of the fan scroll 6 into the fan motor M as motor cooling air. In the bellows-shaped fixing structure of the motor cooling pipe 11, a pair of fixing pieces 20 are provided in the piping route of the motor cooling pipe 11 so as to be opposed to each other at a predetermined interval along the route. On the side,
A motor cooling pipe characterized in that a bellows-shaped uneven portion 21 is formed at a pitch _P1 different from the pitch _P2 of the bellows portion 11a of the motor cooling pipe 11 which is partially fitted on the inner surface thereof. Fixed structure.