JP5367793B2 - Fan motor mounting structure - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a fan motor mounting structure which can efficiently reduce abnormal noise such as chatter vibration and chatter sound occurring in operating a fan motor. <P>SOLUTION: The fan motor 40 for cooling a condenser 30 is mounted on a shroud 42, wherein the shroud 42 includes an upper end piece 44 extending forward at least from an upper edge, and side pieces 46, 46 extending toward both sides of the shroud 42. The shroud 42 mounted with the fan motor 40 is integrally fixed to the condenser 30 in such a state that the upper end piece 44 is brought into contact with an upper end part 30a from above the condenser 30 to cover it and that the side end pieces 46, 46 are brought into contact with side end parts 34, 34. The shroud 42 mounted with the fan motor 40 and the condenser 30 are fixed to a base 18 in a state of being integrally fixed. <P>COPYRIGHT: (C)2012,JPO&amp;INPIT

Description

  The present invention relates to an attachment structure for attaching a fan motor for air-cooling a condenser to a base.

  As shown in FIG. 7, the ice making machine 10 divides the interior of a substantially box-shaped housing 11 into upper and lower parts, defines an ice storage chamber 14 above, and a refrigeration mechanism 17 below the ice storage chamber 14. The machine room 16 to be installed is defined. An ice making mechanism 15 is arranged above the ice storage chamber 14, and the ice cubes I manufactured by the ice making mechanism 15 are stored in the ice storage chamber 14. The refrigeration mechanism 17 circulates and supplies a refrigerant to an evaporation pipe (not shown) constituting the ice making mechanism 15, and is disposed on a base 18 that is laid and fixed at the bottom of the machine room 16. . Specifically, the condenser 30 is disposed on the front side of the machine room 16 (the front side of the ice making machine main body), the fan motor 40 is disposed at the back, and the compressor CM is disposed at the farthest side. Has been. A front panel 11 a is formed in the right front portion of the machine room 16 to form a number of slits 19 penetrating in the front-rear direction so that the machine room 16 can be opened. Further, a number of slits 19 penetrating in the left-right direction are formed in the side panel 11b that forms the right side of the machine room 16. Then, by driving the fan motor 40, the condenser 30 and the compressor CM are air-cooled by the external air sucked into the machine chamber 16 through the front slit 19, and the air after heat exchange is passed through the right slit 19. It is designed to blow out to the outside.

  In the ice making machine 10 having such a configuration, the fan motor 40 is disposed in the machine room 16 where the refrigeration mechanisms 17 are dense due to a high operating rate and high failure frequency, and space saving. In view of the above, it is desired that it can be easily removed. Therefore, the fan motor 40 is attached to a bracket, and the bracket is fixed to the base (for example, see Patent Document 1).

  The bracket to which the fan motor according to Patent Document 1 is mounted includes two opposing leg portions, and a mounting flange extending outward is bent at the lower end of each leg portion. The bracket is fixed by inserting one mounting flange into a holder provided on the base and attaching the other mounting flange to the base with a screw member. Further, the mounting flange is inclined so that the tip end portion is raised by a predetermined angle, and the bracket is attached to the base using a so-called spring effect. For this reason, the apparent rigidity of the bracket to which the fan motor is attached is improved, so that occurrence of abnormal noise such as chatter vibration and chatter noise during use is reduced.

Japanese Patent Laid-Open No. 11-191941

  However, in the fan motor mounting structure using the bracket according to Patent Document 1, only the lower end of the leg part that is a source of abnormal noise such as chatter vibration and chatter noise is fixed to the base. Therefore, a problem is pointed out that the occurrence of abnormal noise such as chatter vibration and chatter noise near the fan motor cannot be sufficiently reduced.

  That is, the present invention has been proposed in view of the above-described problems inherent in the above-described conventional technology, and is suitable for solving this problem, and it is an abnormality such as chatter vibration or chatter noise that occurs during operation of the fan motor. An object is to provide a fan motor mounting structure capable of reducing noise.

In order to overcome the above-mentioned problems and achieve the intended object, the fan motor mounting structure according to the invention described in claim 1 comprises:
A fan motor mounting structure for fixing a fan motor for air-cooling a condenser to a base,
A shroud mounted on the condenser with the fan motor attached, with the front face abutting on the back side of the condenser;
An engagement portion that is provided at the lower end of the rear portion of the shroud and projects rearward as an engagement piece, and is engaged with the engagement portion provided on the base from the front side so as to be detachably engaged;
The condenser is fixed to a base with the engaging portion engaged with the engaged portion.
According to the first aspect of the present invention, the fan motor is attached to the shroud, and the shroud is fixed to the base in a fixed state in contact with the shroud so as to cover the condenser. Therefore, the apparent rigidity of the shroud can be improved, and abnormal sounds such as chatter vibration and chatter noise generated during operation of the fan motor can be effectively suppressed and reduced.

  According to the fan motor mounting structure according to the present invention, it is possible to effectively reduce abnormal noise such as chatter vibration and chatter noise generated during operation of the fan motor.

It is a disassembled perspective view which shows the refrigerator component arrange | positioned in the machine room in the ice making machine which employ | adopted the fan motor attachment structure which concerns on a present Example. It is a top view which shows the attachment position of a condenser, a fan motor, a compressor, etc. on a base. It is a front view which shows the condenser, fan motor, compressor, etc. which are shown in FIG. It is a sectional side view explaining a mode that a shroud is attached and fixed to a condenser. It is a sectional side view explaining a mode that the condenser and shroud fixed integrally are attached and fixed to a base. It is a top view explaining a mode that the condenser and shroud fixed integrally are attached and fixed to a base. It is a perspective view which opens the machine room and shows the ice making machine which employ | adopted the fan motor mounting structure currently implemented conventionally.

  Next, a preferred embodiment of the fan motor mounting structure according to the present invention will be described below with reference to the accompanying drawings. For convenience of explanation, the front side of the drawing in FIG. 3 is the front side of the ice making machine, the left side of the drawing is the left side, and the right direction is the right side. Further, the ice making machine in which the fan motor mounting structure of the embodiment is implemented basically has the same configuration as that shown in FIG. 7, and therefore detailed description of the ice making machine is omitted.

  FIG. 1 is an exploded perspective view showing a refrigeration mechanism 17 disposed in a machine room 16 of an ice making machine 10 that employs a fan motor mounting structure according to an embodiment. FIG. 2 is a plan view showing mounting positions of the condenser 30, the fan motor 40, the compressor CM, and the like on the base. FIG. 3 is a front view showing the refrigeration mechanism 17. The basic configuration in the machine room 16 is the same as that in the conventional machine room 16 shown in FIG. 7, and as shown in FIGS. 1 and 2, a rectangular base 18 is laid and fixed at the bottom thereof. Various refrigerator components such as a condenser 30, a fan motor 40, a compressor CM and an electrical box CB constituting the refrigeration mechanism 17 are mounted and fixed on the base 18.

  The condenser 30 is attached and fixed to the front right side of the machine room 16 where heat exchange with the external air sucked from the slit 19 formed in the front panel 11a is easy. The condenser 30 includes a pair of legs 32 and 32 that are bent at substantially right angles toward the outside at the lower ends on both the left and right sides. Condenser fixing holes 32 a and 32 a for attaching the condenser 30 to the base 18 are provided at required positions of the leg portions 32 and 32. Further, side end portions 34, 34 that extend outward and have a flat rear surface are formed at the rear end edges of the left and right sides of the condenser 30 over the entire height of the condenser 30.

  In order to fix the shroud 42 to the condenser 30 integrally, there are shroud fixing screw holes 34a, 34a with inner threads cut in the front and rear of the side end portions 34, 34 in the approximate center in the height direction. It is provided along the direction. Further, as shown in FIG. 3, positioning holes serving as positioning means for attaching the shroud 42 to the condenser 30 are located at positions spaced above and below the respective shroud fixing screw holes 34 a in the respective side end portions 34. Portions 35 and 35 are provided, respectively. The positioning hole portion 35 is a portion with which a positioning claw portion 48 described later is engaged, and is formed so as to allow the positioning portion 48b of the positioning claw portion 48 to be inserted.

  The fan motor 40 for air-cooling the condenser 30 is disposed on the back side of the condenser 30 while being attached to the shroud 42 (see FIGS. 1 and 2). The shroud 42 is a member made of synthetic resin or the like, and is a member for fixing the fan motor 40 at a position where the condenser 30 can be efficiently cooled. The shroud 42 surrounds the condenser 30 and cools air from the fan motor 40. It is also a member for efficiently using. The shroud 42 has an upper end piece 44 extending forward from an upper end edge of the cylindrical main body 41 set to an internal dimension capable of surrounding the fan motor 40, and the shroud 42 over the entire height of the shroud 42. Side end pieces 46, 46 extending from the left and right side edges toward the outside and having a flat front surface (see FIG. 1). The upper end piece 44 has substantially the same width as the upper end portion 30a of the condenser 30, and is configured to be able to cover the entire upper end portion 30a while abutting from above (FIG. 2). reference). Further, the side end pieces 46 and 46 are configured to be able to come into surface contact with the side end portions 34 and 34 of the condenser 30 from the rear side (see FIG. 4). Furthermore, an engagement piece (engagement portion) 49 protruding rearward is provided at the rear lower end of the center of the cylindrical main body 41 in the shroud 42. In addition, the rear end part of the engagement piece 49 is provided with a recessed part 49a that is recessed toward the front at a substantially central part (see FIG. 6).

  The side end pieces 46, 46 are respectively provided with shroud fixing holes 46a, 46a penetrating back and forth at positions corresponding to the shroud fixing screw holes 34a, 34a of the condenser 30. Further, the side end pieces 46 are provided with positioning claws 48 and 48 that serve as positioning means when the shroud 42 is attached to the condenser 30 at positions corresponding to the positioning holes 35 and 35 of the condenser 30. (See FIG. 1 and FIG. 3).

  As shown in FIG. 4, the positioning claw portion 48 includes an extending portion 48a extending forward from the side end piece 46 by the thickness of the side end portion 34, and a lower portion from the front end of the extending portion 48a. It is comprised from the positioning part 48b which protrudes. That is, the positioning claw portion 48 is L-shaped upside down when viewed from the side.

  Each side end piece 46 is provided with a mounting portion 50 for attaching components of the refrigeration mechanism 17 such as the dryer 51 and the charge port 52. In the case of the present embodiment, a dryer 51 for removing moisture from the refrigerant is provided on the rear surface of the left side end piece 46 at the mounting portion 50 provided on the rear surface of the right side end piece 46 of the shroud 42. A charge port 52 for charging the refrigerant into the refrigeration mechanism 17 from the outside is attached to the attachment portion 50 (see FIG. 2). The mounting portion 50 is integrally formed with a synthetic resin shroud 42 and can be elastically deformed due to its material, and any of the mounting portions 50 can be mounted by detachably fitting components. Yes.

  The shroud 42 having such a structure is integrally attached and fixed so as to cover the condenser 30 from behind. Specifically, the condenser 30 and the shroud 42 are mounted and fixed by fixing the positioning hole 35 and the positioning claw 48, the shroud fixing screw hole 34a, the shroud fixing hole 46a, and the shroud fixing screw hole 34a. Achieved with screws 26. By this fixing, the upper end portion 30a of the condenser 30 comes into contact with the upper end piece 44 of the shroud 42 from above, and both side end portions 34, 34 of the condenser 30 are in contact with the shroud 42 from the rear side. The side end pieces 46 and 46 come into contact with each other and come into surface contact (see FIGS. 2 and 3). That is, the positioning claw portion 48 inserted from the rear into the positioning hole portion 35 engages with the lower edge portion of the positioning hole portion 35, and the side end portion 34 and the side end piece 46 are in contact with each other to communicate with each other. The shroud fixing screw 26 inserted through the shroud fixing hole 46a is screwed into the shroud fixing screw hole 34a with respect to both the holes 34a, 46a.

  The said base 18 is a substantially rectangular member which bent the edge part of the metal plate of required thickness. As shown in FIG. 1, the base 18 has condenser fixing screw holes 22 and 22 for fixing and fixing the condenser 30 on the right side of the front portion of the machine room 16, and mounting claws for mounting a shroud 42. (Engaged portion) 24 is provided. Here, the condenser fixing screw holes 22, 22 are provided corresponding to the positions of the condenser fixing holes 32 a, 32 a of both the leg portions 32, 32 when the condenser 30 is attached and fixed to the base 18. The condenser fixing screw holes 22, 22 are internally threaded.

  The mounting claw portion 24 is provided by cutting and raising a required portion of the base 18. The mounting claw portion 24 is formed in an L-shape with the tip directed to the front when viewed from the side. The condenser 30 and the shroud 42 that are integrally fixed (hereinafter simply referred to as integration) are mounted on the base 18. When it is attached to the shroud 42, it engages with the engaging piece 49 of the shroud 42. Specifically, the mounting claw portion 24 includes a pressing portion 24a extending upward from the base 18 by the thickness of the engaging portion of the engaging piece 49, and a tip portion protruding forward from the upper end of the pressing portion 24a. 24b. Here, the distal end of the distal end portion 24b is bent in a state of being inclined upward by a required angle. The width of the pressing portion 24a is set substantially equal to the width of the recessed portion 49a.

  The integrated condenser 30 and shroud 42 are: (1) the condenser fixing screw hole 22, the condenser fixing hole 32a, and the condenser fixing screw 28 screwed into the condenser fixing screw hole 22. 2) The mounting claw portion 24 and the engagement piece 49 are attached and fixed to the base 18. Here, (1) the condenser fixing screw hole 22, the condenser fixing hole 32a, and the condenser fixing screw 28 are means for fixing the condenser 30 and the condenser 30 in the shroud 42 to the base 18. In other words, the condenser 30 is placed on the base 18 so that the condenser 30 communicates with the condenser fixing holes 32a, 32a of the both legs 32, 32 and the condenser fixing screw holes 22, 22. The condenser fixing screw 28 is screwed into the condenser fixing screw hole 22 from above the leg portion 32 to be fixed to the base 18. (2) The mounting claw portion 24 and the engagement piece 49 are means for fixing the shroud 42 in the integrated condenser 30 and shroud 42 to the base 18. That is, the shroud 42 is fixed to the base 18 by engaging the engagement piece 49 with the attachment claw portion 24 from the front.

(Operation of Example)
Next, the operation of the fan motor mounting structure of the embodiment configured as described above will be described. It is assumed that the condenser 30, the shroud 42, and the base 18 are not attached and fixed.

  First, as shown in FIG. 4, in order to position the shroud 42 with respect to the condenser 30, the positioning portions 48 b in the four positioning claws 48 are moved from the rear side of the side end portion 34 to the front side through the positioning hole portions 35. To pass through. At this time, since the positioning portion 48b is formed so as to protrude downward, the side end pieces 46 and 46 contact the side end portions 34 and 34 at a position slightly higher than the position where the side end pieces 46 and 46 are fixedly attached to the condenser 30. (See FIG. 4 (a)). If the shroud 42 is lowered from this state, the lower surface of the extended portion 48a of each positioning claw portion 48 comes into contact with the lower edge portion of the positioning hole portion 35 and is positioned in the vertical direction. 34 is engaged in positioning in the front-rear direction. Further, the upper end piece 44 of the shroud 42 comes into contact with the upper end portion 30a of the condenser 30 (see FIG. 4B).

  In this state, since the shroud fixing screw hole 34a of the condenser 30 and the shroud fixing hole 46a of the shroud 42 are in a communicating relationship, if the shroud fixing screw 26 is screwed into the fixing screw hole 34a from the rear, The shroud 42 (fan motor 40) is integrated so as to cover the condenser 30 from behind. At this time, the upper end piece 44 of the shroud 42 comes into contact with substantially the entire upper end portion 30a of the condenser 30 from above, and substantially the entire side end pieces 46, 46 are in surface contact with the side end portions 34, 34 from the rear. Abutted and fixed. Therefore, the fixing between the condenser 30 and the shroud 42 is very strong. In addition, since the condenser 30 is basically a highly rigid member, the shroud 42 integrated with the condenser 30 is also improved in the apparent rigidity so that abnormal sounds such as chatter vibration and chatter noise caused by the operation of the fan motor 40 are generated. It can be effectively reduced. In FIG. 4, the fan motor 40 is omitted.

  Next, the case where the integrated condenser 30 and shroud 42 are attached and fixed to the base 18 will be described. As shown in FIGS. 5 (a) and 6, the engaging piece 49 of the shroud 42 is provided. It is moved from the front so as to engage with the attachment claw portion 24. When the engagement piece 49 is engaged with the attachment claw portion 24 in this manner, the attachment claw portion 24 finally enters the recessed portion 49a and comes into contact with the front end of the pressing portion 24a. Here, since the tip end of the tip end portion 24b is inclined upward by a required angle, the engagement of the engagement piece 49 with the attachment claw portion 24 is smoothly performed.

  Further, since the distance between the upper surface of the base 18 and the lower surface of the distal end portion 24b is set substantially equal to the thickness of the engaging portion of the engaging piece 49, the engaging piece 49 is attached to the mounting claw portion. The upward displacement of the shroud 42 engaged with 24 is preferably suppressed (see FIG. 5A). Furthermore, since the width of the pressing portion 24a and the width of the recessed portion 49a are set to be substantially equal, the displacement of the shroud 42 in the left-right direction is preferably prevented (see FIG. 6). Then, by engaging the engagement piece 49 with the attachment claw portion 24, the positions of the condenser fixing screw holes 22, 22 and the positions of the condenser fixing holes 32a, 32a coincide.

  In this state, the condenser fixing screw 28 communicated with each condenser fixing hole 32a from above is screwed into the condenser fixing screw hole 22 to thereby integrate the condenser 30 and the shroud 42 (fan motor 40). Is fixed to the base 18. Then, a dryer 51 and a charge port 52 are attached to each attachment portion 50 in the shroud 42 correspondingly. 5 and 6, the fan motor 40 is omitted.

The upper end piece 44 of the shroud 42 is in contact with the upper end portion 30a of the condenser 30 so as to cover the upper end portion 30a from above, and the side end pieces 46, 46 of the shroud 42 are located behind the opposite side end portions 34, 34 of the condenser 30. The condenser 30 and the shroud 42 fixed in contact with each other have a high degree of stability because there are many fixed portions and are dispersed, and can greatly reduce chatter vibration and abnormal chatter noise. There is an effect.
Further, since the side end portions 34, 34 whose rear surfaces are flat and the side end pieces 46, 46 whose front surfaces are flat contact each other in a surface contact state, the condenser 30 and the shroud 42 are fixed. There is an effect that can be very strong. Further, the distance between the upper surface of the base 18 and the lower surface of the tip 24b is set to be approximately equal to the thickness of the engaging portion of the engaging piece 49,
Furthermore, since the width of the pressing portion 24a and the width of the recessed portion 49a are set to be substantially equal, the upward direction and the left / right direction of the shroud 42 in which the engaging piece 49 is engaged with the mounting claw portion 24 are set. The shift is preferably suppressed. By preventing this shift, the integrated condenser 30 and shroud 42 and the base 18 can be easily fixed.
Furthermore, the lower surface of the extended portion 48a of the positioning claw portion 48 in the previous period contacts the lower edge portion of the positioning hole portion 35 and is positioned in the vertical direction, and the positioning portion 48b is engaged with the side end portion 34. Since positioning in the front-rear direction is performed, the condenser 30 and the shroud 42 can be easily fixed.

  Further, by providing the shroud 42 with the attachment portion 50 for attaching various refrigerator components, the following effects are exhibited. That is, (a) the number of parts related to the fixture for fixing the refrigerator components can be omitted. (B) Since the entire refrigeration mechanism 17 contributes to the improvement of the rigidity of the shroud 42, chatter vibration and chatter noise of the shroud 42 are provided. (C) Since mounting of the refrigerator component parts to the mounting portion 50 is performed by fitting or the like, the refrigerator component parts can be easily attached and detached.

(Example of change)
The present application is not limited to the configuration of the above-described embodiment, and other structures can be appropriately employed.
(1) In the embodiment, the side end portions 34, 34 and the side end pieces 46, 46 have planar surfaces facing each other. Any shape can be adopted as long as it has a corresponding shape in which surface contact is achieved when the end pieces 46 and 46 come into contact with each other.
(2) In the embodiment, both the leg portions 32, 32 of the condenser 30 are fixed by the condenser fixing screws 28, 28. However, the attachment of either of the leg portions 32, 32 to the base 18 is performed. For example, you may make it implement by engagement like the attachment nail | claw part 24 and the engagement piece 49. FIG. In this case, the integrated condenser 30 and shroud 42 can be easily attached to and detached from the base 18.
(3) In the embodiment, only one engagement piece 49 of the shroud 42 protrudes rearward at the substantially central lower end portion, but a plurality of engagement pieces 49 are provided, for example, spaced apart from the left and right sides of the lower end portion of the shroud 42. Also good. In this case, the ease of mounting the integrated condenser 30 and shroud 42 to the base 18 is not impaired, and the fixing property to the base 18 is enhanced, and chatter vibration and chatter noise generated during operation of the fan motor are further improved. The abnormal noise such as can be reduced efficiently.
(4) In the embodiment, four positioning claws 48 are provided in total, but the number thereof may be changed as appropriate.
(5) In the embodiment, an inner screw is cut into the shroud fixing screw hole 34a, and the shroud fixing screw 26 inserted into the shroud fixing hole 46a of the shroud 42 is screwed into the fixing screw hole 34a. , Or the shroud fixing screw hole 34a and the shroud fixing hole 46a are both simply through holes, and a bolt or the like is inserted from either the front of the condenser 30 or the rear of the shroud 42, The other side may be fastened with a nut or the like.
(6) In the embodiment, an inner screw is cut in the condenser fixing screw hole 22, and the condenser fixing screw 28 is screwed into the condenser fixing screw hole 32a through the condenser fixing hole 32a. You may fix using a fastening means.

18 base, 24 engaged part (mounting claw part), 30 condenser, 40 fan motor,
42 shroud, 49 engagement part (engagement piece)

Claims (1)

The fan motor mounting structure for fixing the fan motor (40) for cooling the condenser (30) to the base (18),
The fan motor (40) is attached, and a shroud (42) disposed on the condenser (30) with the front surface in contact with the rear side of the condenser (30),
A member provided at the lower end of the rear portion of the shroud (42) and protruding rearward as an engagement piece, and inserted into the engaged portion (24) provided on the base (18) from the front side so as to be detachably engaged. With joint (49),
Fan motor mounting structure, wherein the condenser (30) is fixed to a base (18) in a state where the engaging portion (49) is engaged with the engaged portion (24). .

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