JP2013122351A - Heater, and outdoor unit of refrigeration device with the same - Google Patents

Abstract

PROBLEM TO BE SOLVED: To make the shape of a heater for an outdoor unit of a refrigeration device into a shape for easy mounting.SOLUTION: The outdoor unit (10) includes: a casing (20) having four side surfaces (4); and an outdoor heat exchanger (30) disposed in the casing (20), having four heat exchanging surfaces (30a) each corresponding to each of the side surfaces (4) of the casing (20), and having an opening (3a) formed on the side. Folded parts (70) folded in a longitudinal direction is provided in a heater (75) formed in an oblong frame-like shape extending along the lower end of the heat exchanger (30) of the outdoor unit (10), and for preventing drain water of the outdoor heat exchanger (30) from freezing.

Description

    The present invention relates to a heater for preventing freezing of drain water and an outdoor unit of a refrigeration apparatus including the heater.

    Conventionally, in an outdoor unit of a refrigeration apparatus, a heater is provided to prevent freezing of drain water of an outdoor heat exchanger (see, for example, Patent Document 1 below). In Patent Document 1, a heater is provided on the outdoor unit base and below the outdoor heat exchanger. The heater is formed in an L-shaped frame shape along the shape of the L-shaped outdoor heat exchanger in plan view. With such a configuration, the drain water of the outdoor heat exchanger falls on the outdoor unit base, is heated by the heater, and is discharged outside through a drain hole formed in the outdoor unit base without freezing.

JP 2004-69220 A

    By the way, some of the outdoor heat exchangers have four heat exchange surfaces corresponding to the four side surfaces of the casing in order to increase the heat exchange area (hereinafter simply referred to as “four-side heat exchange”). is there. When such an outdoor heat exchanger is provided, the heater for preventing the drain water of the outdoor heat exchanger from being frozen is formed along the outdoor heat exchanger and has a rectangular frame shape. In such a heater having a shape along the four-surface heat exchange, for example, when the heater is attached for reasons such as retrofitting or maintenance, the four-surface heat exchange may be caught, and the installation work is complicated.

    This invention is made | formed in view of this point, The objective is to comprise the heater for the outdoor unit of a freezing apparatus in the form which is easy to attach.

    The first invention is a casing (20) having four side surfaces (4), and four heat exchange surfaces (inside the casing (20), corresponding to the side surfaces (4) of the casing (20)). A rectangular along the lower end portion of the outdoor heat exchanger (30) of the outdoor unit (10) of the refrigeration apparatus having an outdoor heat exchanger (30) having an opening (3a) on the side surface with 30a) Is a heater for preventing the drain water of the outdoor heat exchanger (30) from freezing, and has a folded portion (70) for folding back in the longitudinal direction.

    In 1st invention, it has four heat exchange surfaces (30a) of the outdoor unit (10) of a freezing apparatus, and it follows the lower end part of the outdoor heat exchanger (30) by which the opening (3a) was formed in the side surface. The heater (75) having a rectangular frame shape provided in the has a folded portion (70) for folding in the longitudinal direction. Therefore, the heater (75) is configured to be folded back in the longitudinal direction by folding the folded portion (70), and in the folded state, the heater (75) It is inserted inside the exchanger (30) and installed along the lower end.

    According to a second invention, in the first invention, the first heater section (76) and the second heater section (77) arranged in the longitudinal direction are provided, and the turn-up section (70) includes the first heater section (76). And wiring (78, 79) connecting the second heater section (77).

    In the second invention, the heater (75) includes the first heater portion (76) and the second heater portion (77) arranged in the longitudinal direction, and the folded portion (70) has two heater portions (76, 77). It is comprised by the wiring (78,79) which connects. That is, since the wiring (78, 79) can be bent, the heater (75) is folded back in the longitudinal direction by bending the wiring (78, 79).

    According to a third invention, in the second invention, each of the heater portions (76, 77) includes a main body portion (76a, 77a) extending along the bottom plate (22) of the casing (20), and the main body portion. (76a, 77a) each having an end (76b, 77b) formed so as to be bent upward and connected to the wiring (78, 79).

    In the third invention, each heater portion (76, 77) has an end portion (76b, 77b) to which the wiring (78, 79) to be the folded portion (70) is connected, and the bottom plate (22) of the casing (20). ) So as to be bent upward with respect to the main body portions (76a, 77a) extending along. Therefore, when the main body (76a, 77a) of each heater (76, 77) is attached to the bottom plate (22) of the casing (20) of the outdoor unit (10), the end to which the wiring (78, 79) is connected (76b, 77b) rises upward from the bottom plate (22). That is, since the wiring (78, 79) connecting the heater parts (76, 77) is not arranged on the bottom plate (22) of the casing (20) that receives the drain water, the drain water adheres to the wiring (78, 79). There is nothing.

    4th invention is the outdoor unit of the freezing apparatus provided with any 1st thru | or 3rd heater (75).

    In the fourth invention, the heater (75) is turned inward from the opening (3a) formed on the side surface of the outdoor heat exchanger (30) having four heat exchange surfaces (30a) in a state of being folded back in the longitudinal direction. The outdoor unit (10) is inserted and expanded inside the outdoor heat exchanger (30) and attached to the outdoor unit (10) along the lower end of the outdoor heat exchanger (30).

    5th invention is equipped with the compressor (5a, 5b) installed inside the said outdoor heat exchanger (30) in 4th invention.

    In 5th invention, a heater (75) is a compressor from the opening (3a) formed in the side surface of the outdoor heat exchanger (30) which has four heat exchange surfaces (30a) in the state folded in the longitudinal direction. (5a, 5b) is inserted into the outside of the outdoor heat exchanger (30) while avoiding contact with it, and the compressor (5a, 5b) is spread out so as to fit inside, and the lower end of the outdoor heat exchanger (30) It is attached to the outdoor unit (10) along the section.

    According to the first invention, the folded portion (70) is provided in the rectangular frame heater (75) so that it can be folded back in the longitudinal direction. Therefore, when the heater (75) is attached to the outdoor unit (10) of the refrigeration apparatus. Furthermore, it can be inserted into the outdoor heat exchanger (30) from the opening (3a) formed on the side surface of the outdoor heat exchanger (30) in a state of being folded back in the longitudinal direction. Therefore, even if the opening (3a) formed on the side surface of the outdoor heat exchanger (30) is narrow, the heater (75) can be connected to the outdoor heat exchanger (30) without being caught on the outdoor heat exchanger (30). Can be easily inserted inside. In addition, by inserting the folded back heater (75) after inserting it inside the outdoor heat exchanger (30), it is attached to the lower end of the outdoor heat exchanger (30) without being caught on the outdoor heat exchanger (30). The heater (75) can be easily attached along the line. That is, the heater for the outdoor unit of the refrigeration apparatus can be configured to be easily attached.

    In addition, according to the second invention, the heater (75) that can be folded back in the longitudinal direction can be configured with an easy configuration.

    Further, according to the third invention, the end portions (76b, 77b) to which the wirings (78, 79) to be the folded portions (70) of the heater portions (76, 77) are connected are connected to the casing (20). Since the main body (76a, 77a) extending along the bottom plate (22) is bent upward, each heater (75) is attached to the bottom plate (22) of the outdoor unit (10). The heater (75) can be configured so that drain water does not adhere to the wiring (78, 79) connecting the heater portions (76, 77).

    Further, according to the fourth invention, by using the heater (75) configured to be foldable in the longitudinal direction, the outdoor heat exchanger (30) having four heat exchange surfaces (30a) is not caught on the outdoor side. The heater (75) can be inserted into the heat exchanger (30), and the heater (75) can be attached to the outdoor unit (10).

    According to the fifth invention, the heater (75) is provided in the outdoor unit in which the compressor (5a, 5b) is installed inside the outdoor heat exchanger (30). When attaching the heater (75) to such an outdoor unit, the heater (75) may catch not only the outdoor heat exchanger (30) but also the compressor (5a, 5b) inside it. It becomes complicated. However, in the fifth aspect of the invention, such an outdoor unit is provided with the heater (75) that can be folded back in the longitudinal direction. Therefore, the compressor (5a, 5b) is inserted into the outdoor heat exchanger (30) through the opening (3a) formed on the side surface of the outdoor heat exchanger (30) with the heater (75) folded back. The heater (75) can be easily installed along the lower end of the outdoor heat exchanger (30) while easily avoiding contact with the heat exchanger.

FIG. 1 is a perspective view showing an external shape of an outdoor unit of an air-conditioning apparatus according to Embodiment 1 of the present invention. FIG. 2 is a first perspective view showing the internal structure of the outdoor unit shown in FIG. FIG. 3 is a second perspective view showing the internal structure of the outdoor unit shown in FIG. FIG. 4 is a perspective view mainly showing a bottom frame and a heater of the outdoor unit of FIG. 5 is a cross-sectional view taken along the line AA in FIG. FIG. 6 is a perspective view showing the configuration of the heater.

    Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings.

<Embodiment 1>
As shown in FIGS. 1-4, the outdoor unit (10) of this Embodiment 1 is used for the air conditioning apparatus which is a refrigeration apparatus, Although not shown, an indoor unit is connected and it is a vapor compression type. It constitutes the refrigeration cycle.

    The outdoor unit (10) is installed, for example, on the rooftop of a building, and includes a casing (20), an outdoor heat exchanger (30), an outdoor fan (40), and a compression mechanism (50).

    The casing (20) is formed in a rectangular shape in plan view, and includes four support columns (21), a bottom frame (22) constituting a bottom plate, a side panel (23), and a flat top plate (24). And. That is, the casing (20) has four side surfaces (4) formed between the top plate (24) and the bottom frame (22) (see FIG. 4).

    The four struts (21) are provided at the four corners, and the bottom frame (22) is fixed to the lower part. In addition, a foundation leg (27) is connected to the lower ends of the left and right support columns (21, 21) on the front side, and a foundation leg (27) is also connected to the lower ends of the left and right support columns (21) on the rear side. Each foundation leg (27) extends downward from the bottom frame (22). Thereby, each foundation leg (27) can be installed at the four corners of the flat top plate (24) of the other casing (20) or the upper end of the support column (21), and a plurality of outdoor units (10 ) Can be placed one above the other. In this state, a predetermined clearance is secured between the flat top plate (24) and the bottom frame (22).

    As shown in FIG. 1, the side panel (23) forms an upper side panel (23a) that forms four upper half parts of the casing (20) and a front surface in the lower half part of the casing (20). A front side panel (23b) that forms a half, and a lateral side panel (23c) that forms the left side surface in the lower half of the casing (20) and forms the front half. The side surface of the casing (20) includes a right half of the front surface in the lower half, a right lateral surface in the lower half, a back surface in the lower half, and a rear half of the left lateral surface in the lower half. The suction port (25) is formed in.

    The four upper side panels (23a) are attached to each support (21) so as to surround the outdoor fan (40). An upper space (2b) in which the two outdoor fans (40) are accommodated is formed inside the upper side panel (23a) (see FIGS. 2 and 3).

    Moreover, the said top plate (24) is fixed to the upper end of a support | pillar (21), and the two blower outlets (26) are formed. The two air outlets (26) are formed at positions corresponding to the two outdoor fans (40), respectively. Each air outlet (26) is formed in a rectangular shape in plan view, and is covered with a mesh-shaped grille (24a) formed in a rectangular shape. Specifically, the installation surface for installing the grille (24a) recessed below the upper end surface is formed on the top plate (24). Therefore, in a state where the grill (24a) is attached to the top plate (24), the grill (24a) and the screw to which the grill (24a) is attached do not protrude upward from the upper end surface of the top plate (24).

    As shown in FIGS. 2 to 4, the outdoor heat exchanger (30) is a fin-and-tube heat exchanger and is configured to exchange heat between outdoor air and the refrigerant. That is, the outdoor heat exchanger (30) is configured by a plurality of heat transfer tubes arranged vertically passing through plate-like fins. In the outdoor heat exchanger (30), the heat transfer tubes are bent at right angles at three locations along the four side surfaces (4) of the casing (20). That is, the outdoor heat exchanger (30) is provided in an upright state and has four heat exchange surfaces (30a) respectively corresponding to the four side surfaces (4) of the casing (20). (Refer to FIG. 4).

    Inside the outdoor heat exchanger (30), a machine room (8) in which devices such as a compression mechanism (50), an oil separator (51), and an accumulator (52) are installed is partitioned. The compression mechanism (50), the oil separator (51), and the accumulator (52) are attached to the bottom frame (22), and the compression mechanism (50) includes two compressors (5a, 5b). ).

    Of the four heat exchange surfaces (30a) of the outdoor heat exchanger (30), the two heat exchange surfaces (30a) sandwiching the column (21a) at the front left corner of the four columns (21) are respectively Openings (3a, 3a) are formed (see FIGS. 2 and 4). The two openings (3a, 3a) constitute a maintenance opening for the devices in the casing (20). Tube plates (31) used to fix the outdoor heat exchanger (30) to the casing (20) are provided at both ends of the outdoor heat exchanger (30) forming the opening (3a).

    As shown in FIG. 1, the casing (20) is provided with the front side panel (23b) and the lateral side panel (23c) corresponding to each opening (3a) of the outdoor heat exchanger (30). Yes. The front side panel (23b) and the lateral side panel (23c) constitute a lower side panel provided at the lower part of the casing (20). The front side panel (23b) and the lateral side panel (23c) are attached to the column (21a) so that the openings (3a, 3a) can be opened and closed.

    The front side of the casing (20) in which the opening (3a) of the outdoor heat exchanger (30) is provided is a service surface, and a portion from which the front side panel (23b) is removed is an open surface. The opening (3a) opened by removing the front side panel (23b) serves as a service opening for allowing the heater (75) to pass when the heater (75) described later is attached.

    The casing (20) is positioned between the lower space (2a) in which the outdoor heat exchanger (30) is accommodated and the upper space (2b) in which the outdoor fan (40) is accommodated. Stays (20a, 20b, 20c, 20d) extending in the direction are attached to the four surfaces.

    Two outdoor fans (40) are provided, and include a fan body (41), a fan motor (not shown), and a bell mouth (43), and are attached to the stays (20a, 20c).

    Furthermore, an electrical component unit (60) that houses electrical components for controlling the compression mechanism (50) and the like is attached to the casing (20). The electrical component unit (60) is disposed above the front surface of the outdoor heat exchanger (30) and in the vicinity of the upper end of the outdoor heat exchanger (30), and the bell of the upper side panel (23a) and the outdoor fan (40). It is provided between the mouse (43).

    A compressor cover that covers the compression mechanism (50) is attached to the bottom frame (22). The compressor cover is provided as a soundproof box for reducing noise caused by vibration of the compression mechanism (50).

    Further, a drainage passage (71) for draining the drain water of the outdoor heat exchanger (30) is formed in the bottom frame (22) (see FIG. 4). A plurality (five in this embodiment) of drainage passages (71) are formed below the outdoor heat exchanger (30) of the bottom frame (22).

    As shown in FIG. 5, each drainage passage (71) is formed by forming a concave groove in the bottom frame (22). The concave groove has a bottom portion (71a) extending along the outdoor heat exchanger (30) and inclined portions (71b) extending along the bottom portion (71a) on both sides of the bottom portion (71a). A plurality of drain holes (72) are formed in the bottom (71a) of each drain passage (71). Each drainage passage (71) has a plurality of installation bases (73) for installing the outdoor heat exchanger (30).

    Each installation base (73) is formed by forming a convex part on the drainage passage (71). The convex part is flat and has a base part (73a) on which the outdoor heat exchanger (30) is installed, and a side part formed in a tapered shape from the base part (73a) toward the drainage passageway (71). (73b). A plurality of drain holes (74) are formed in the base portion (73a) of each installation base (73).

    The outdoor heat exchanger (30) includes tube frames (31) provided at both ends in a state where the outdoor heat exchanger (30) is placed on the base part (73a) of each installation base (73), and a bottom frame (22). The casing (20) is fixed to the casing (20) by fastening with screws or the like.

    As shown in FIGS. 4 and 5, the outdoor unit (10) is provided with a heater (75) for heating the drain water received in the drainage passage (71) so as not to freeze. The heater (75) is formed in a rectangular frame shape along the lower ends of the four heat exchange surfaces (30a) of the outdoor heat exchanger (30).

    Specifically, as shown in FIG. 5, the heater (75) includes an inclined portion (71b) inside the drainage passage (71) and an inner portion of the tapered side portion (73b) of the installation base (73). It is provided in the position pinched | interposed by. Moreover, as shown in FIG. 6, the heater (75) has two heater parts, a first heater part (76) and a second heater part (77). That is, the heater (75) has a divided structure divided into two heater portions.

    A 1st heater part (76) is L-shaped so that the heat exchange surface (30a) which comprises the left side surface and back surface of the four heat exchange surfaces (30a) of an outdoor heat exchanger (30) may be met. Is formed. On the other hand, the second heater part (77) is along the heat exchange surface (30a) that constitutes the back surface, the right side surface, and the front surface of the four heat exchange surfaces (30a) of the outdoor heat exchanger (30). It is formed in a U shape.

    The first heater portion (76) has an L-shaped main body portion (76a) and an end portion (76b) bent upward from a plane extending from the main body portion (76a) continuously to the main body portion (76a). ). On the other hand, the second heater part (77) has a U-shaped main body part (77a) and an end part bent upward from a plane extending from the main body part (77a) to the main body part (77a). (77b). The first heater portion (76) and the second heater portion (77) are connected to each other at the one end portions (76b, 77b) by the crossover wiring (78), and the other end portion (76b, 77b). A lead wire (79) connected to the power connector (80) is connected to each.

    As described above, the heater (75) is formed in a rectangular frame shape by connecting the first heater portion (76) and the second heater portion (77) by the respective wires (78, 79). In addition, the heater (75) can be folded back in the longitudinal direction by connecting the first heater portion (76) and the second heater portion (77) with each wiring (78, 79) so that they are aligned in the longitudinal direction. Configured. That is, since each wiring (78,79) can be bent, each wiring (78,79) constitutes a folded portion (70), and the folded portion (70) is folded, so that the heater (75) itself is It is folded back into two in the longitudinal direction.

-Driving action-
When the outdoor unit (10) of the air conditioner is in operation, the compression mechanism (50) is operated, and the inside of the refrigerant circuit formed between the outdoor unit (10) and the indoor unit (not shown) A refrigerant circulates and a refrigeration cycle is performed. In addition, the outdoor fan (40) rotates in the casing (20) of the outdoor unit (10), and the suction port (25) formed in the lower half of the casing (20) allows the fan to enter the casing (20) from four directions. The sucked outdoor air passes through the outdoor heat exchanger (30). The outdoor air passing through the outdoor heat exchanger (30) exchanges heat with the refrigerant flowing in the outdoor heat exchanger (30), and the refrigerant is generated in the outdoor heat exchanger (30) that serves as an evaporator during heating operation. Heat is taken away from the refrigerant and cooled, and during the cooling operation, the outdoor heat exchanger (30) serving as a condenser takes heat from the refrigerant and is overheated. The outdoor air further passes through the outdoor fan (40) and turns upward, and is blown out from the outlet (26).

−Drain water discharge operation−
Further, when the air conditioner performs the heating operation, in the outdoor unit (10), the heater (75) is energized so that the drain water of the outdoor heat exchanger (30) is not frozen. The drain water of the outdoor heat exchanger (30) falls downward and is received by the drainage passage (71) formed in the bottom frame (22). A part of the drain water flows into the drainage passageway (71) through the drainage hole (74) of the installation base (73) where the outdoor heat exchanger (30) is installed. At this time, since the heater (75) is energized, the drain water in the drainage passage (71) is heated to prevent freezing. And the drain water in a drainage channel (71) is discharged | emitted outside the casing (20) through the drainage hole (72) formed in the drainage channel (71).

    In the present embodiment, the heater (75) is energized when performing the heating operation. However, in other operation modes, the heater (75) may be energized when the outside air temperature is equal to or lower than the predetermined temperature. It is also possible to energize it.

-Heater installation operation-
Hereinafter, an operation of attaching the heater (75) in the casing (20) without removing various components when the heater (75) is retrofitted or the heater (75) is maintained will be described.

    First, the front side panel (23b) that closes the opening (3a) of the casing (20) is removed. Next, the heater (75) is folded back into two in the longitudinal direction by bending the wires (78, 79), passed through the opening (3a) of the casing (20), and inserted inside the outdoor heat exchanger (30). To do. Thereafter, the two-folded heater (75) is spread inside the outdoor heat exchanger (30), and is arranged along the lower end of the outdoor heat exchanger (30). Then, the heater (75) is attached by an attachment plate (not shown).

-Effect of Embodiment 1-
According to the above embodiment, the folded portion (70) is provided in the rectangular frame heater (75) so that the heater can be folded back in the longitudinal direction. It can be inserted into the outdoor heat exchanger (30) from the opening (3a) formed in the side surface of the outdoor heat exchanger (30) in a folded state in the longitudinal direction. Therefore, even if the opening (3a) formed on the side surface of the outdoor heat exchanger (30) is narrow, the heater (75) can be connected to the outdoor heat exchanger (30) without being caught on the outdoor heat exchanger (30). Can be easily inserted inside. In addition, by inserting the folded back heater (75) after inserting it inside the outdoor heat exchanger (30), it is attached to the lower end of the outdoor heat exchanger (30) without being caught on the outdoor heat exchanger (30). The heater (75) can be easily attached along the line. That is, the heater for the outdoor unit of the refrigeration apparatus can be configured to be easily attached.

    According to the above embodiment, the heater (75) includes the first heater part (76) and the second heater part (77) arranged in the longitudinal direction, and the first heater part (76) and the second heater are provided. The wiring (78, 79) connecting the part (77) is configured to be the folded part (70). Therefore, the heater (75) that can be folded back in the longitudinal direction can be configured with an easy configuration.

    Further, according to the above embodiment, the end portions (76b, 77b) to which the wirings (78, 79) to be the folded portions (70) are connected in the heater portions (76, 77) are connected to the bottom of the casing (20). The main body (76a, 77a) provided along the frame (22) was bent upward. Therefore, when the heater (75) is attached to the bottom frame (22) of the outdoor unit (10), the heater prevents the drain water from adhering to the wiring (78,79) connecting each heater section (76,77). (75) can be configured.

    Moreover, according to the said embodiment, by using the heater (75) comprised so that folding in the longitudinal direction was possible, outdoor heat was not caught on the outdoor heat exchanger (30) which has four heat exchange surfaces (30a). The heater (75) can be inserted into the exchanger (30) and the heater (75) can be attached to the outdoor unit (10).

    By the way, in the outdoor unit (10) of the said embodiment, the compressor (5a, 5b) is installed inside the outdoor heat exchanger (30). When attaching the heater (75) to such an outdoor unit (10), the heater (75) may catch not only the outdoor heat exchanger (30) but also the compressor (5a, 5b) inside it. Work becomes more complicated. However, in the above embodiment, such an outdoor unit (10) is provided with the heater (75) that can be folded back in the longitudinal direction as described above. Therefore, the compressor (5a, 5b) is inserted into the outdoor heat exchanger (30) through the opening (3a) formed on the side surface of the outdoor heat exchanger (30) with the heater (75) folded back. The heater (75) can be easily installed along the lower end of the outdoor heat exchanger (30) while easily avoiding contact with the heat exchanger.

<< Other Embodiments >>
About the said embodiment, it is good also as the following structures.

    In the above embodiment, the heater (75) has the two heater portions (76, 77) connected by the wiring (78, 79) and is configured to be foldable in the longitudinal direction. It is good also as comprising so that it can fold in four.

    Moreover, arrangement | positioning etc. of the refrigerant circuit apparatus in the said embodiment are only examples, and can be changed suitably. For example, the compressor (5a, 5b) or the like may not be disposed inside the outdoor heat exchanger (30).

    In addition, the above embodiment is an essentially preferable illustration, Comprising: It does not intend restrict | limiting the range of this invention, its application thing, or its use.

    As described above, the present invention is useful for the heater for preventing the drain water from freezing and the outdoor unit of the refrigeration apparatus including the heater.

4 side
5a, 5b compressor
10 Outdoor unit
20 casing
22 Bottom frame (bottom plate)
30 Outdoor heat exchanger
30a Heat exchange surface
70 Folding part
75 heater
76 1st heater part
76a body
76b end
77 Second heater section
77a Body
77b end
78 Crossover wiring (wiring)
79 Lead wire (wiring)

Claims (5)

A casing (20) having four side surfaces (4), and four heat exchange surfaces (30a) provided in the casing (20) and corresponding to the side surfaces (4) of the casing (20). The outdoor unit (10) of the refrigeration apparatus having an outdoor heat exchanger (30) with an opening (3a) formed on the side surface is formed in a rectangular frame shape along the lower end of the outdoor heat exchanger (30). A heater for preventing the drain water of the outdoor heat exchanger (30) from freezing,
A heater having a folded portion (70) for folding in the longitudinal direction. In claim 1,
A first heater section (76) and a second heater section (77) arranged in the longitudinal direction;
The said folding | returning part (70) is comprised by the wiring (78,79) which connects the said 1st heater part (76) and 2nd heater part (77), The heater characterized by the above-mentioned. In claim 2,
Each said heater part (76,77) bends upward with respect to the main-body part (76a, 77a) extended along the bottom plate (22) of the said casing (20), and this main-body part (76a, 77a). The heater is characterized by having an end portion (76b, 77b) to which the wiring (78, 79) is connected.     The outdoor unit of the freezing apparatus provided with the heater (75) of any one of Claim 1 thru | or 3. In claim 4,
An outdoor unit of a refrigeration apparatus comprising a compressor (5a, 5b) installed inside the outdoor heat exchanger (30).