JP4262556B2 - Refrigeration unit - Google Patents

Description

  The present invention relates to a refrigeration unit attached to a refrigerator or a freezer.

In a conventional refrigeration unit, a plate having a bent portion with a front end bent downward is attached to an upper portion of a condenser in a detachable manner. Further, the water receiving tray that accommodates the condenser and is placed on the unit base is fixed to the unit base by two screws spaced in the left and right directions in front of the condenser. Moreover, the head of this screw protrudes above the upper surface of the water tray. And while inserting the upper end part of a filter in the space comprised by the bending part and condenser of this board, insert the lower end part of this filter in the space between the head of each screw and a condenser. Thus, the filter is detachably held (see, for example, Patent Document 1).
Japanese Patent Laid-Open No. 3-148574 (pages 2 to 3 and FIG. 4)

  However, in such a refrigeration unit, since the upper part of the filter is an attachment method in which the filter is inserted into a space between the bent part parallel to the front surface of the condenser and the condenser, the upper end part of the filter is attached to the filter when attaching the filter. There is a problem that it is difficult to insert and that the upper end portion of the filter is caught by the bent portion when removing the filter, and is difficult to remove. Further, since the lower part of the filter is an attachment method that is inserted into the space between the screw head and the condenser, there is a problem that two screws must be attached to the unit base, and the assembly work is complicated. . Further, when the filter is attached without removing the two screws, the filter cannot be attached unless the filter frame of the filter is deformed, and there is a problem that the filter may be damaged.

  Therefore, the present invention has been made to solve the above-described problems, and a bracket member having an extending portion with a front end extending obliquely downward and outward is placed on the upper portion of the condenser, and the filter A locking projection is provided at the lower end, and an insertion hole into which the locking projection is inserted is provided on the unit base plate, so that the filter can be easily attached and detached without reducing the number of parts. It is an object of the present invention to provide a refrigeration unit that can improve the assembly workability.

In order to achieve the object, a refrigeration unit according to claim 1 includes a condenser, a filter detachably disposed on an air inlet side surface of the condenser, and a fan motor disposed on the leeward side of the condenser. And a unit base plate on which these are placed, a refrigeration unit comprising a bracket member having a flat plate portion placed on top of the condenser, the bracket member being integrated with the flat plate portion A cover portion that covers the air outlet side portion of the condenser, and the flat plate portion extends a predetermined length outward from the air inlet side surface of the condenser; and A second extension part extending a predetermined length from the outer edge of the first extension part in an obliquely outward direction on the unit base plate side, and the cover part has an opening on the back part. At the center of the opening. Motor is mounted, wherein the filter, the lower end and a gripping portion formed on the locking projection and the lower edge central portion protruding from the lower surface, the upper portion being formed in an upper edge center portion positioned The unit base plate is formed at a position facing the first extension part, and has an insertion hole into which the locking protrusion is inserted, and the second extension part has a left-right center. And a positioning groove into which the positioning protrusion is inserted. The filter has the gripping portion, and the upper end is formed by the first extending portion, the second extending portion, and the condenser. The locking projection is inserted into the insertion hole of the unit base plate while being inserted into the fixed portion to be formed, and the positioning projection is inserted into the positioning groove portion of the second extending portion and is detachably disposed. It is characterized by.

In the refrigeration unit according to claim 1 having such a feature, the second extending portion of the flat plate portion of the bracket member extends a predetermined length in the diagonally outward direction on the unit base plate side. Further, the filter has a locking protrusion formed at the lower end of the filter while the upper portion is inserted into the first extending portion, the second extending portion and the fixing portion formed by the condenser of the flat plate portion of the bracket member. Is removably attached by inserting it into the insertion hole of the unit base plate.

In the refrigeration unit according to the first aspect , the fan motor is attached to the cover member formed integrally with the flat plate portion of the bracket member. The bracket member is integrated with a flat plate portion and a cover portion to which a fan motor or the like is attached.

  In the refrigeration unit according to the first aspect, since the second extending portion of the flat plate portion of the bracket member extends a predetermined length in the diagonally outer direction on the unit base plate side, the upper portion of the filter is extended by the second portion. It can be inserted and removed by tilting it forward and diagonally along the part, making it easy to install and remove the filter, and eliminates the need to bend the filter frame when installing and removing the filter. The filter can be used for a long time without damaging the filter. Further, the filter has a locking protrusion formed at the lower end of the filter while the upper portion is inserted into the first extending portion, the second extending portion and the fixing portion formed by the condenser of the flat plate portion of the bracket member. Can be detachably attached by inserting them into the insertion holes of the unit base plate, the number of parts for holding the filter can be reduced, and the assembly workability of the refrigeration unit can be improved.

Further, in the refrigeration unit according to claim 1 , since the fan motor is attached to the cover member formed integrally with the flat plate portion of the bracket member, the number of parts attached around the condenser can be reduced, The assembly workability can be improved. Moreover, since the flat plate part and the cover part which attaches a fan motor etc. are integrated, the bracket member can use the space on a unit base plate efficiently, and can attain space saving.

2. The refrigeration unit according to claim 1, wherein the second extending portion has a positioning groove formed by being cut out in a front-rear direction from an outer edge at a predetermined position in the left-right direction, and the filter. Has a positioning rib portion projecting from the upper edge of the positioning groove portion, and the filter is inserted into the fixing portion while the positioning rib portion is fitted into the positioning groove portion. A configuration is preferred. Thereby, the positioning of the filter relative to the bracket member and the condenser can be easily performed by fitting the positioning rib portion into the positioning groove portion. Moreover, the structure where the groove part for positioning is formed in the approximate center position of the left-right width direction of a 2nd extension part is preferable. Thereby, the substantially center position of the left-right direction of the upper end edge part of a filter can be easily recognized by the positioning rib part.

  Hereinafter, a specific embodiment of the refrigeration unit according to the present invention will be described in detail with reference to the drawings.

First, a schematic configuration of the refrigeration unit according to the first embodiment will be described with reference to FIGS. 1 to 4.
FIG. 1 is a side view of an essential part showing a schematic configuration of a refrigeration unit according to the first embodiment. 2A and 2B are views showing a bracket member of the refrigeration unit according to the first embodiment, in which FIG. 2A is a plan view, FIG. 2B is a front view, and FIG. 2C is a side view. 3A and 3B are diagrams showing a schematic configuration of the filter of the refrigeration unit according to the first embodiment, wherein FIG. 3A is a front view and FIG. 3B is a side view. 4A and 4B are diagrams showing a schematic configuration of a unit base plate of the refrigeration unit according to the first embodiment, wherein FIG. 4A is a plan view and FIG. 4B is a front view.

As shown in FIG. 1, the refrigeration unit 1 is attached to the upper surface of the refrigerator body 2 with screws or the like. Moreover, this refrigerator main body 2 has comprised the box shape which has an opening part in the front, and the heat insulation door not shown is attached to the opening part so that opening and closing is possible. Further, an opening 3 is formed on the upper surface of the refrigerator body 2 and is closed by a unit base plate 4 constituted by a heat insulating panel, which will be described later, constituting the refrigeration unit 1.
The refrigeration unit 1 includes a condenser 5 disposed on the unit base plate 4, a fan motor 6 disposed on the leeward side of the condenser 5, and further on the unit base plate 4 on the leeward side of the fan motor 6. The compressor 7 is arranged at the front, and the filter 8 is arranged at the air inlet side of the front surface of the condenser 5. Further, the fan motor 6 is attached to a back surface portion of a bracket member 9 described later.

  A cooling unit 11 is disposed on the lower surface of the unit base plate 4. The cooling unit 11 includes a cooler 12 attached to the lower surface of the unit base plate 4. The lower surface of the cooler 12 is covered with a drain pan 14 to which a blower fan 13 is fixed. In addition, the bottom surface of the drain pan 14 is attached to the interior in a downwardly descending manner, and the drain port 15 is connected via a drain hose 16 to a drain pipe 17 embedded in the rear heat insulating wall of the refrigerator body 2.

And if the compressor 7 is drive | operated by the said structure, the high-temperature / high pressure gas refrigerant discharged from the compressor 7 will flow into the condenser 5, and it will thermally radiate and condense there. The refrigerant condensed in the condenser 5 is decompressed by the capillary tube 10 or the like and flows into the cooler 12, where it evaporates and exhibits a cooling action. Then, by rotating the blower fan 13, the air in the cabinet is sucked into the cooling unit 11, cooled by the cooler 12, and exhausted from the exhaust hole (not shown) behind the drain pan 14 into the cabinet. Cold air circulates in the refrigerator body 2. In addition, when the cooling unit 11 is driven, moisture in the refrigerator main body 2 is collected in the cooler 12 and is frosted on the cooler 12, resulting in a decrease in cooling efficiency. Therefore, in the cooling unit 11, a defrosting operation is performed at regular intervals. Through this defrosting operation, the frost that has formed on the cooler 12 is melted and drops onto the drain pan 14 as water droplets. The frost that has fallen on the drain pan 14 in this manner is discharged to the drain pipe 17 through the drain port 15 and the drain hose 16.
On the other hand, when the fan motor 6 is operated, air is sucked in from the condenser 5 side, the outside air flows through the filter 5 through the filter 8, and after the condenser 5 is air-cooled, the compressor is passed through the fan motor 6. 7, the compressor 7 is also air-cooled and exhausted to the rear part of the refrigerator body 2. Moreover, since dust, oil, etc. in the outside air sucked by the fan motor 6 adhere to the filter 8, clogging of the condenser 5 is prevented.

Next, the bracket member 9 to which the fan motor 6 is attached to the back surface will be described with reference to FIG.
As shown in FIG. 2, the bracket member 9 formed of a steel plate such as a stainless steel plate includes a flat plate portion 21 having a substantially rectangular shape in plan view placed on the upper surface portion of the condenser 5, and a rear end of the flat plate portion 21. A motor mounting part 22 extending from the edge in a direction substantially downward at a right angle substantially equal to the height dimension of the condenser, and a predetermined length extending from the lower end of the motor mounting part 22 in a rear direction at a substantially right angle Thus, a base plate attachment portion 23 in which through holes 23A for screwing are formed is formed at both left and right edge portions.

The horizontal width dimension of the flat plate portion 21 is formed substantially equal to the horizontal width dimension of the condenser 5. In addition, through holes 21 </ b> A for screwing are formed in the left and right edge portions of the flat plate portion 21 facing the condenser 5. Further, the width dimension in the front-rear direction of the flat plate portion 21 is formed to be larger than the width dimension in the front-rear direction of the condenser 5 so that the rear surface of the condenser 5 and the motor mounting portion 22 form a predetermined gap. Has been. Further, when the flat plate portion 21 is placed on the condenser 5 and screwed through the respective through holes 21A, the front end edge portion of the flat plate portion 21 extends from the front end edge portion of the condenser 5 to the front side direction. The filter 8 is extended by a dimension approximately equal to the thickness dimension of the filter 8 (functions as a first extension part).
Moreover, it functions as a filter support part 24 (second extension part) that extends at a predetermined angle (in the first embodiment, an angle of about 30 degrees with the vertical direction) from the front edge of the flat plate part 21 obliquely downward. ) Is formed. Further, a V-shaped cut portion 24A is formed at the center portion in the left-right direction of the filter support portion 24 as a mark for making the attachment position of the filter 8 easy to understand.

In addition, a substantially circular opening 22 </ b> A is opened at a substantially central portion of the motor mounting portion 22. The outer peripheral edge of the opening 22A is formed in a ring shape with a narrow width in the radial direction, and a support portion having a narrow width in a cross shape from the upper, lower, right, and left end edges of the ring is a motor mounting portion. 22 is extended to the peripheral edge. Accordingly, four large rectangular openings 22B are formed around the outside of the opening 22A. In addition, a pair of screw holes 22C for screwing the fan motor 6 is formed in the ring-shaped portion.
In addition, left and right end edges of the motor mounting portion 22 are formed with extending portions 26 extending in the front direction so as to reach the rear end portion of the condenser 5. Further, the front end edge portion of each extending portion 26 is configured to be slightly bent in a substantially right-angled inner direction so as to contact the left and right rear end edge portions of the condenser 5.

  A bell mouth 28 that covers substantially the entire front surface of the motor mounting portion 22 is attached to a substantially central portion in the front-rear direction of each extending portion 26 by spot welding or the like. The bell mouth 28 is formed in a box shape from a steel plate such as a stainless steel plate, and a circular opening 28A having a diameter that reaches substantially the upper and lower edges is formed in the substantially central portions of the front and rear surfaces. ing. Thereby, the efficiency of the air flow by the fan motor 6 can be improved.

  After the fan motor 6 is attached to the opening 22A of the motor attachment portion 22 of the bracket member 9 configured in this way via the screw holes 22C, the flat plate portion 21 is placed on the condenser 5 and each extension is extended. The front end surface portion of the portion 26 is brought into contact with the left and right rear end edges of the condenser 5 and screwed to the upper surface portion of the condenser 5 through each through hole 21A. Then, the bracket member 9 and the fan motor 6 are mounted on the unit base plate 4 by screwing the base plate mounting portion 23 of the bracket member 9 to the unit base plate 4 through the respective through holes 23A. Thereby, the rear side periphery of the condenser 5 is covered with the flat plate portion 21, the extending portions 26 and 26, and the unit base plate 4. When the fan motor 6 is operated, the outside air flowing into the condenser 5 flows into the duct portion formed by the flat plate portion 21, the extending portions 26 and 26, and the unit base plate 4, and the bell mouth 28. This flow passes through the opening 28 </ b> A and each opening 22 </ b> B of the motor mounting portion 22, and flows behind the fan motor 6. Here, the motor attachment part 22 and each extension part 26 comprise a cover part.

Next, the filter 8 will be described with reference to FIG.
As shown in FIG. 3, the rectangular filter 8 that substantially covers the entire front side of the condenser 5 includes a resin frame member 31 such as ABS and a rectangular mesh member 32 held by the frame member 31. It is configured. In addition, at the lower center position on the front side of the frame member 31, a grip portion 31A is formed so as to protrude a predetermined length in the front direction. Thereby, the attachment / detachment work of the filter 8 can be performed with the grip portion 31A. Further, a pair of locking projections 31B to be inserted into each insertion hole 46 (see FIG. 4) formed on the unit base plate 4 as will be described later are provided on the left and right ends of the lower end surface of the frame member 31. Protrusively formed.

Next, the unit base plate 4 will be described with reference to FIG.
As shown in FIG. 4, the surface of the unit base plate 4 is formed of wall plates 41 and 42 such as thin stainless steel plates and steel plates. The pair of wall plates 41 and 42 are opposed to each other while maintaining a constant interval by a block member (not shown) made of a foam material. The space between the wall plates 41 and 42 is filled with a heat insulating material by foaming. Further, four through holes 43 for screwing to the upper surface of the refrigerator main body 2 are formed in the four corners of the unit base plate 4.
Further, a pair of screw holes 44 for screwing the condenser 5 and a pair of screw holes 45 for fixing the base plate mounting portion 23 of the bracket member 9 are provided on the upper surface of the unit base plate 4. ing. Further, a pair of insertion holes 46 having a predetermined depth into which the respective locking projections 31B of the filter 8 are inserted are provided on the upper surface portion on the front side of the position where the condenser 5 is disposed.

Next, a method for attaching the filter 8 of the refrigeration unit 1 configured as described above will be described with reference to FIG.
5A and 5B are side views for explaining a method of attaching the filter 8 of the refrigeration unit 1 according to the first embodiment. FIG. 5A is a side view showing the upper insertion state of the filter 8 and FIG. FIG. 6C is a side view showing a state in which each locking projection 31B of the filter 8 is inserted into each insertion hole 46 of the unit base plate 4. FIG.
As shown in FIG. 5A, first, holding the grip portion 31A of the filter 8, in the space as a fixed portion formed by the filter support portion 24 of the bracket member 9 and the front upper end portion of the condenser 5, The upper edge of the filter 8 is inserted from below (in the direction of arrow 51). At this time, the filter support portion 24 is inclined at a predetermined angle (in the first embodiment, an angle of about 30 degrees) with respect to the front surface portion of the condenser 5, and therefore the filter 8 is supported by the filter. Along the lower surface of the portion 24, it can be easily inserted obliquely in the front direction.

Then, as shown in FIG. 5B, the upper edge of the filter 8 is pressed against the bracket member 9 so that the filter 8 is parallel to the front surface of the condenser 5 (in the direction of arrow 52). . That is, the upper end portion of the filter 8 is pressed against the bracket member 9 and is almost perpendicular to the unit base plate 4.
Subsequently, as shown in FIG. 5C, the filter 8 is lowered substantially vertically downward (in the direction of arrow 53), and each locking projection 31B of the filter 8 is inserted into each insertion hole 46 of the unit base plate 4. Plug in. As a result, the filter 8 is supported by the space formed by the filter support portion 24 of the bracket member 9 and the front upper end portion of the condenser 5 at the upper end edge, and the lower end portion is supported by each insertion hole 46 to condense. It is fixed to the front side of the vessel 5.

  On the other hand, when the filter 8 is removed from the refrigeration unit 1 for replacement or the like, the grip 8A of the filter 8 is held and lifted upward until the upper end of the filter 8 hits the bracket member 9 contrary to the above. Then, after each locking projection 31B is pulled out from each insertion hole 46 of the unit base plate 4, it can be easily removed by pulling it out to the front side.

Accordingly, the filter support portion 24 of the bracket member 9 extends obliquely downward and forward from the front end edge portion of the flat plate portion 21 at a predetermined angle, so that the upper end portion of the filter 8 is inclined along the filter support portion 24. The filter 8 can be inserted and removed by tilting in the front direction, the filter 8 can be easily attached and removed, and the frame member 31 of the filter 8 needs to be bent when the filter 8 is attached and removed. Thus, the filter 8 can be used for a long time without damaging the filter 8. Further, the locking protrusions 31 </ b> B formed at the lower end portion of the filter 8 are inserted while the upper end portion of the filter 8 is inserted into a space formed by the filter support portion 24 of the bracket member 9 and the front upper end portion of the condenser 5. Since the filter 8 can be detachably attached by inserting it into each insertion hole 46 of the unit base plate, the number of parts for holding the filter 8 can be reduced, and the assembly workability of the refrigeration unit 1 can be reduced. Can be improved.
Further, the fan motor 6 is attached to a motor attachment portion 22 extending from the rear end edge portion of the flat plate portion 21 of the bracket member 9 in a substantially perpendicular downward direction, and a condenser is provided by each extension portion 26, bell mouth 28, or the like. Since the duct portion can be formed on the back surface of the condenser 5, the number of parts attached around the condenser 5 can be reduced, the assembling workability can be improved, and the unit base plate 4 can be improved. Space can be used efficiently, and space saving can be achieved.

Next, the refrigeration unit according to the second embodiment will be described with reference to FIGS. The same reference numerals as those of the refrigeration unit 1 according to the first embodiment denote the same or corresponding parts as those of the refrigeration unit 1 according to the first embodiment.
The schematic configuration of the refrigeration unit according to the second embodiment is substantially the same as the configuration of the refrigeration unit 1 according to the first embodiment. However, the configurations of the filter and the bracket member of the refrigeration unit according to the second embodiment are different from the configurations of the filter 8 and the bracket member 9 of the refrigeration unit 1 according to the first embodiment as described later.
Here, FIG. 6 is a figure which shows schematic structure of the filter of the refrigerating unit based on 2nd Embodiment, (A) is a front view, (B) is a side view. 7A and 7B are views showing a bracket member of the refrigeration unit according to the second embodiment, in which FIG. 7A is a plan view, FIG. 7B is a front view, and FIG. 7C is a side view. FIG. 8 is a side view for explaining a method of attaching the filter of the refrigeration unit according to the second embodiment, (A) is a side view showing the upper insertion state of the filter, and (B) is a front view of the condenser 5. FIG. 4C is a side view showing a state of pressing, and FIG. 3C is a side view showing a state where each locking projection 31B of the filter is inserted into each insertion hole 46 of the unit base plate 4. FIG.

Here, schematic configurations of the filter 62 and the bracket member 63 of the refrigeration unit 61 (see FIG. 8) according to the second embodiment will be described with reference to FIGS. 6 and 7.
As shown in FIG. 6, the filter 62 of the refrigeration unit 61 according to the second embodiment has substantially the same configuration as that of the filter 8, but is substantially omitted in side view at the center position in the left-right direction of the upper edge of the frame member 31. A rectangular positioning rib portion 65 is erected substantially vertically with a predetermined protruding height dimension (in the second embodiment, about 1/2 of the protruding height dimension of the gripping portion 31A).

  Further, as shown in FIG. 7, the bracket member 63 of the refrigeration unit 61 according to the second embodiment has substantially the same configuration as that of the bracket member 9, but the V-shaped cutout portion 24A of the filter support portion 24 is provided. Instead, a positioning groove 66 into which the positioning rib portion 65 of the filter 62 is fitted from the front side is provided at the center position in the left-right direction of the filter support portion 24 from the front end edge of the flat plate portion 21 to the front end of the filter support portion 24. Notched to the edge. The front end edge of the positioning groove 66 is chamfered so that the positioning rib 65 can be easily fitted.

  After the fan motor 6 is attached to the opening 22A of the motor attachment portion 22 of the bracket member 63 configured in this way via the screw holes 22C, the flat plate portion 21 is placed on the condenser 5 and each extension is extended. The front end surface portion of the portion 26 is brought into contact with the left and right rear end edges of the condenser 5 and screwed to the upper surface portion of the condenser 5 through each through hole 21A. Then, the bracket member 63 and the fan motor 6 are mounted on the unit base plate 4 by screwing the base plate mounting portion 23 of the bracket member 63 to the unit base plate 4 through the respective through holes 23A. Thereby, the rear side periphery of the condenser 5 is covered with the flat plate portion 21 of the bracket member 63, the extending portions 26 and 26, and the unit base plate 4. When the fan motor 6 is operated, the outside air flowing into the condenser 5 flows into the duct portion formed by the flat plate portion 21, the extending portions 26 and 26, and the unit base plate 4, and the bell mouth 28. This flow passes through the opening 28 </ b> A and each opening 22 </ b> B of the motor mounting portion 22, and flows behind the fan motor 6. Here, the motor mounting portion 22 and each extending portion 26 of the bracket member 63 constitute a cover portion.

Next, a method for attaching the filter 62 of the refrigeration unit 61 configured as described above will be described with reference to FIG.
As shown in FIG. 8A, first, holding the grip portion 31A of the filter 62, the positioning rib portion 65 is fitted into the positioning groove portion 66 of the bracket member 63, and the upper edge of the filter 62 is attached to the bracket member. 63 is inserted from below into a space as a fixed portion formed by the filter support 24 and the front upper end of the condenser 5 (in the direction of arrow 71). At this time, the filter support 24 is inclined to the front side of the condenser 5 by a predetermined angle (in the second embodiment, an angle of about 30 degrees), and therefore the filter 62 is supported by the filter. Along the lower surface of the portion 24, it can be easily inserted obliquely in the front direction. Further, the positioning rib portion 65 is formed at the center position in the left-right direction of the upper edge of the filter 62, while the positioning groove portion 66 is formed at the center position in the left-right direction of the filter support portion 24. Positioning in the left-right direction with respect to the support portion 24 can be reliably performed, and positioning can be performed at the center position in the left-right direction of the front portion of the condenser 5 via the bracket member 63.

Then, as shown in FIG. 8B, the upper end edge of the filter 62 is pressed against the bracket member 63 so that the filter 62 is parallel to the front surface of the condenser 5 (in the direction of arrow 72). . That is, the filter 62 is in a state in which the positioning rib portion 65 is fitted in the positioning groove 66 of the filter support portion 24 and the upper end portion is pressed against the bracket member 63 and is substantially perpendicular to the unit base plate 4. To be.
Subsequently, as shown in FIG. 8C, the filter 62 is lowered in a substantially vertical downward direction (in the direction of arrow 73), and each locking projection 31 </ b> B of the filter 62 is inserted into each insertion hole 46 of the unit base plate 4. Plug in. As a result, the filter 62 has the upper end of the positioning rib 65 fitted in the positioning groove 66 of the filter support 24 and the upper edge of the filter 62 is the upper end on the front side of the filter support 24 of the bracket member 63 and the condenser 5. The locking projections 31 </ b> A at the lower end are supported by the insertion holes 46 and fixed to the front side of the condenser 5.

  On the other hand, when removing the filter 62 from the refrigeration unit 61 for replacement or the like, conversely to the above, hold the grip portion 31A of the filter 62 and lift it upward until the upper end of the filter 62 hits the bracket member 63. Then, after each locking projection 31B is pulled out from each insertion hole 46 of the unit base plate 4, it can be easily removed by pulling it out to the front side.

  Accordingly, since the filter support portion 24 of the bracket member 63 extends obliquely downward and forward from the front end edge of the flat plate portion 21 at a predetermined angle, the positioning rib portion 65 of the filter 62 is replaced with the positioning groove portion of the bracket member 63. The filter 62 can be inserted and removed by tilting the upper end portion of the filter 62 along the filter support portion 24 in the diagonally forward direction while being inserted into the filter 66. Removal work can be performed easily. Further, it is not necessary to bend the frame member 31 of the filter 62 when attaching or detaching the filter 62, so that the filter 62 can be used for a long time without damaging the filter 62. In addition, the filter 62 is configured so that the upper end of the positioning rib 65 is fitted in the positioning groove 66 of the filter support 24 and the filter support 24 of the bracket member 63 and the front upper end of the condenser 5. The filter 62 can be detachably attached by inserting the locking projections 31B formed at the lower end of the filter 62 into the insertion holes 46 of the unit base plate while being inserted into the space formed by Therefore, the number of parts for holding the filter 62 can be reduced, and the assembly workability of the refrigeration unit 61 can be improved.

Further, the filter 62 has the upper end of the positioning rib 65 fitted in the positioning groove 66 of the filter support 24 and the upper edge of the filter 62 and the front upper end of the condenser 5. The locking protrusions 31A at the lower end are supported by the insertion holes 46 and fixed to the front side of the condenser 5, so that the fixing strength of the filter 62 in the left-right direction can be improved. Can be planned.
Further, the fan motor 6 is attached to the motor attachment portion 22 extending from the rear end edge portion of the flat plate portion 21 of the bracket member 63 in a substantially perpendicular downward direction, and the condenser is provided by each extension portion 26, the bell mouth 28, or the like. Since the duct portion can be formed on the back surface of the condenser 5, the number of parts attached around the condenser 5 can be reduced, the assembling workability can be improved, and the unit base plate 4 can be improved. Space can be used efficiently, and space saving can be achieved.

The present invention is not limited to the first and second embodiments, and various improvements and modifications can be made without departing from the scope of the present invention.
For example, in the first embodiment and the second embodiment, each locking projection 31B standing on the lower end surface of each filter 8, 62 has a substantially cylindrical shape, but each locking projection 31B extends in the left-right direction. It is possible to stand up in the form of a long horizontally-viewed substantially rectangular shape and each insertion hole 46 may be a rectangular hole that is long in the left-right direction. Thereby, the mechanical strength of each latching protrusion 31B can be improved.

  Moreover, in the said 2nd Embodiment, although the groove part 66 for positioning was formed in the approximate center position of the left-right direction of the filter support part 24, you may form in the arbitrary positions of the left-right direction. Further, the positioning groove portions 66 are formed at two or more locations in the left-right direction of the filter support portion 24, and the positioning rib portions 65 are provided to project at locations facing the positioning groove portions 66 on the upper edge of the filter 62. It may be. Thereby, the further improvement of the fixing strength of the filter 62 in the left-right direction can be achieved.

It is a principal part side view which shows schematic structure of the freezing unit which concerns on 1st Embodiment. It is a figure which shows the bracket member of the refrigeration unit which concerns on 1st Embodiment, (A) is a top view, (B) is a front view, (C) is a side view. It is a figure which shows schematic structure of the filter of the refrigerating unit which concerns on 1st Embodiment, (A) is a front view, (B) is a side view. It is a figure which shows schematic structure of the unit baseplate of the freezing unit which concerns on 1st Embodiment, (A) is a top view, (B) is a front view. It is a side view explaining the attachment method of the filter of the refrigerating unit which concerns on 1st Embodiment, (A) is a side view which shows the upper part insertion state of a filter, (B) is the state which presses a filter against the front part of a condenser. The side view to show is a side view which shows the state which inserts each latching protrusion of a filter in each insertion hole of a unit baseplate. It is a figure which shows schematic structure of the filter of the refrigeration unit which concerns on 2nd Embodiment, (A) is a front view, (B) is a side view. It is a figure which shows the bracket member of the refrigeration unit which concerns on 2nd Embodiment, (A) is a top view, (B) is a front view, (C) is a side view. It is a side view explaining the attachment method of the filter of the refrigeration unit which concerns on 2nd Embodiment, (A) is a side view which shows the upper part insertion state of a filter, (B) is the state which presses a filter against the front part of a condenser. The side view to show is a side view which shows the state which inserts each latching protrusion of a filter in each insertion hole of a unit baseplate.

Explanation of symbols

  1, 61 .. Refrigeration unit, 2 .. Refrigerator body, 4 .. Unit base plate, 5 .. Condenser, 6 .. Fan motor, 8, 62 ... Filter, 9, 63 ... Bracket member, 21 · Flat plate portion, 22 ·· Motor mounting portion, 22A · · Opening portion, 23 · · Base plate mounting portion, 24 · · Filter support portion, 26 · · Extension portion, 28 · · Bell mouth, 31 · · Frame member , 31A ... Grasping part, 31B ... Locking protrusion, 46 ... Insert hole, 65 ... Positioning rib part, 66 ... Positioning groove part

Claims (1)

A refrigeration comprising a condenser, a filter detachably disposed on the air inlet side of the condenser, a fan motor disposed on the leeward side of the condenser, and a unit base plate on which these are mounted. In the unit
A bracket member having a flat plate portion placed on top of the condenser;
The bracket member is formed integrally with the flat plate portion, and has a cover portion that covers an air outlet side portion of the condenser,
The flat plate portion includes a first extending portion extending a predetermined length in an outward direction from an air inlet side surface of the condenser, and an oblique outer side on the unit base plate side from an outer end edge portion of the first extending portion. A second extending portion extending a predetermined length in the direction,
The cover part has an opening formed on the back surface part, and the fan motor is attached to a substantially central part of the opening part.
The filter has a locking projection protruding from the lower end surface at the lower end portion and a gripping portion formed at the lower end edge central portion, and has a positioning projection formed at the upper end edge central portion at the upper end portion ,
The unit base plate is formed at a position facing the first extension part, and has an insertion hole into which the locking protrusion is inserted,
The second extension part has a positioning groove part formed at the left and right center position into which the positioning protrusion is inserted,
The filter has the grip portion, and an upper end portion of the filter is inserted into a fixing portion formed by the first extension portion, the second extension portion, and a condenser, and the locking protrusion is different from the unit base plate. A refrigeration unit, wherein the refrigeration unit is inserted into the insertion hole, and the positioning protrusion is inserted into the positioning groove of the second extending portion and is detachable.

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