JP6525021B2 - Heat source unit of refrigeration system - Google Patents

Description

  The present invention relates to a heat source unit of a refrigeration system.

  Patent Document 1 discloses a heat source unit of a refrigeration system. In the heat source unit, devices such as a compressor and an electrical component box are disposed in the lower portion, and a heat exchanger and a fan are disposed in the upper portion. In this heat source unit, four heat exchanger modules consisting of two air heat exchangers arranged in a V-shape are arranged in a row in the longitudinal direction of the heat source unit. The air heat exchangers of each heat exchanger module are mounted on the drain pan. Further, in the heat source unit, one fan is disposed above the air heat exchanger in each heat exchanger module.

International Publication No. 2011/0013672

  In the heat source unit of Patent Document 1, the fan is supported by a heat exchanger module. For this reason, when removing the air heat exchanger of the heat exchanger module at the time of maintenance work, it is necessary to remove the fan from the heat source unit using a lifting device. In other words, in order to remove the air heat exchanger, it is necessary to prepare a lifting device.

  Moreover, in the heat source unit of patent document 1, the air heat exchanger of a heat exchanger module is mounted on a drain pan. For this reason, when removing an air heat exchanger, the operation | work which pulls up an air heat exchanger from a drain pan is needed.

  As described above, in the conventional heat source unit, the operation of removing the air heat exchanger is complicated, and the number of man-hours required for the maintenance operation is increased.

  This invention is made in view of this point, The objective is to simplify the removal operation | work of a heat exchanger, and to reduce the man-hour required for the maintenance operation | work of a heat-source unit.

  The first invention relates to a first air heat exchanger (71) and a second air heat exchanger (74), each of which exchanges heat with air, a fan (25), and the first air heat exchanger ( 71) A heat source unit of a refrigeration system comprising a casing (30) for accommodating the second air heat exchanger (74) and the fan (25). The first air heat exchanger (71) is formed in a U shape in plan view, and is configured to allow air to pass from the outer surface to the inner surface, and the second air heat exchanger (74 Is formed in the shape of a rectangular plate to allow air to pass in the thickness direction, and is inclined so that the inflow surface of air (79a) faces obliquely downward and the outflow surface of air (79b) The fan (25) is installed to be directed to the space inside the air heat exchanger (71), and the fan (25) is disposed above the first air heat exchanger (71) and the second air heat exchanger (74). A drain pan (80) disposed and supported by the casing (30) and disposed below the first air heat exchanger (71) and the second air heat exchanger (74); Support members (90a, 90b) extending upward from the bottom plate (81) of the drain pan (80) to support the air heat exchanger (74); Further comprising, said second air heat exchanger (74) is one in which the lower end is detachably coupled to the support member (90a, 90b).

  In the first invention, when the fan (25) is operated, air passes through the first air heat exchanger (71) and the second air heat exchanger (74). In the first air heat exchanger (71), air passes from the outer surface to the inner surface. In the second air heat exchanger (74), from the inflow surface (79a) on the opposite side to the first air heat exchanger (71), it proceeds from the inflow surface (79b) on the first air heat exchanger (71) side. Air passes through.

  In the first invention, the fan (25) disposed above the first air heat exchanger (71) and the second air heat exchanger (74) is supported by the casing (30). That is, the first air heat exchanger (71) and the second air heat exchanger (74) do not support the fan (25). Therefore, the second air heat exchanger (74) can be removed from the heat source unit (1) with the fan (25) attached to the casing (30).

  In the first aspect of the invention, the second air heat exchanger (74) is detachably connected at its lower end to a support member (90a, 90b) extending upward from the bottom plate (81) of the drain pan (80). Ru. There is a gap between the lower end of the second air heat exchanger (74) and the bottom plate (81) of the drain pan (80). For this reason, the operation | work which takes out a 2nd air heat exchanger (74) from a drain pan (80) becomes easy.

In the first aspect of the invention, in addition to the above configuration, a connecting member (95a, 95b) extending from the upper end of the first air heat exchanger (71) toward the second air heat exchanger (74). The upper end portion of the second air heat exchanger (74) is detachably connected to the connection member (95a, 95b).

In the first aspect of the invention, the second air heat exchanger (74) is inclined by the upper end portion thereof being connected to the first air heat exchanger (71) through the connecting members (95a, 95b). Will be held by

  In a second aspect based on the first aspect, the lower end of the second air heat exchanger (74) is located above the top of the drain pan (80).

  In the second invention, the entire second air heat exchanger (74) is located above the top of the drain pan (80). Therefore, the second air heat exchanger (74) can be removed from the heat source unit (1) without lifting the second air heat exchanger (74).

  According to a third aspect of the present invention, in the first or second aspect, the support members (90a, 90b) are formed in a plate shape facing the side surfaces of the second air heat exchanger (74) extending in the vertical direction. The second air heat exchanger (74) includes mounting portions (92a, 92b) connected by bolts (93a, 93b).

  Here, when removing the second air heat exchanger (74) from the heat source unit (1), bolts (93a, 93b) connecting the second air heat exchanger (74) to the support members (90a, 90b) After that, the second air heat exchanger (74) is moved to the inflow surface (79a) side. On the other hand, in the third invention, the attachment portions (92a, 92b) of the support members (90a, 90b) extend from the side surface (ie, the inflow surface (79a) side) of the second air heat exchanger (74) extending in the vertical direction. It is formed in a plate shape that faces the left and right sides when viewed. For this reason, even if the second air heat exchanger (74) is moved to remove the second air heat exchanger (74) from the heat source unit (1), the second air heat exchanger (74) It does not interfere with the mounting parts (92a, 92b) of 90a, 90b).

  In a fourth aspect based on the first or second aspect, the second air heat exchanger (74) comprises a heat exchanger main body (75) for heat exchange of the refrigerant with air, and the heat exchanger main body ( And a side plate member (76a, 76b) covering a side surface extending in the vertical direction of the upper and lower direction, and a lower side portion of the side plate member (76a, 76b) projecting downward from the heat exchanger main body (75). The protrusions (77a, 77b) are detachably connected to the support members (90a, 90b).

  In the fourth invention, the heat exchanger body (75) of the second air heat exchanger (74) is covered by the side plate members (76a, 76b) on the left and right sides as viewed from the inflow surface (79a) side. . And a 2nd air heat exchanger (74) is a heat source unit (1) by the lower side protrusion part (77a, 77b) of side-plate member (76a, 76b) being connected with a supporting member (90a, 90b) Attached to

In a fifth invention according to any one of the first to fourth inventions, the connecting members (95a, 95b) are plates facing the side surfaces of the second air heat exchanger (74) extending in the vertical direction. , And the second air heat exchanger (74) is provided with mounting portions (96a, 96b) connected by bolts (97a, 97b).

  Here, when removing the second air heat exchanger (74) from the heat source unit (1), bolts (97a, 97b) connecting the second air heat exchanger (74) to the connecting members (95a, 95b) After that, the second air heat exchanger (74) is moved to the inflow surface (79a) side. On the other hand, the attachment portions (96a, 96b) of the connecting members (95a, 95b) extend in the vertical direction of the second air heat exchanger (74) (i.e., right and left as viewed from the inflow surface (79a) side). It is formed in a plate shape facing the side surface). For this reason, even if the second air heat exchanger (74) is moved to remove the second air heat exchanger (74) from the heat source unit (1), the second air heat exchanger (74) Do not interfere with the mounting parts (96a, 96b) of 95a, 95b).

A sixth invention is according to any one of the first to fifth inventions, wherein the second air heat exchanger (74) heats the refrigerant with air and a heat exchanger main body (75); And a side plate member (76a, 76b) covering the side surfaces of the heat exchanger body (75) extending in the vertical direction, wherein the side plate member (76a, 76b) protrudes above the heat exchanger body (75). The upper projection (78a, 78b) which is a part is detachably connected to the connection member (95a, 95b).

In the sixth invention, the heat exchanger body (75) of the second air heat exchanger (74) is covered with the side plate members (76a, 76b) on the left and right sides as viewed from the inflow surface (79a) side. . The second air heat exchanger (74) is connected to the heat source unit (1) by connecting the upper protruding portions (78a, 78b) of the side plate members (76a, 76b) to the connecting members (95a, 95b). It is attached.

  In the present invention, the fan (25) disposed above the first air heat exchanger (71) and the second air heat exchanger (74) is supported by the casing (30). Therefore, without removing the fan (25) from the heat source unit (1) using the lifting device, the second air heat exchanger (74) can be kept with the fan (25) attached to the casing (30). Can be removed from the heat source unit (1). Further, in the present invention, the lower end portion of the second air heat exchanger (74) is connected to the support members (90a, 90b) extending upward from the bottom plate (81) of the drain pan (80). For this reason, the second air heat exchanger (74) floats from the bottom plate (81) of the drain pan (80), and the work of taking the second air heat exchanger (74) out of the drain pan (80) is facilitated. Therefore, according to the present embodiment, the removal operation of the second air heat exchanger (74) can be simplified, and the number of man-hours required for the maintenance operation of the heat source unit (1) can be reduced.

Further, in the present invention, the second air heat exchanger (74) can be held in the inclined posture by connecting with the first air heat exchanger (71) by the connecting members (95a, 95b).

  In the second aspect of the invention, the entire second air heat exchanger (74) is located above the top of the drain pan (80). Therefore, the second air heat exchanger (74) can be removed from the heat source unit (1) without being lifted, and the removal work of the second air heat exchanger (74) is facilitated.

  In the third aspect of the invention, the mounting portions (92a, 92b) of the support members (90a, 90b) are formed in a plate shape facing the side surface of the second air heat exchanger (74) extending in the vertical direction. Therefore, when removing the second air heat exchanger (74) from the heat source unit (1), the second air heat exchanger (74) and the mounting portions (92a, 92b) of the support members (90a, 90b) The second air heat exchanger (74) can be easily removed without interference.

In the fifth aspect of the invention, the mounting portions (96a, 96b) of the connecting members (95a, 95b) are formed in a plate shape facing the side surface of the second air heat exchanger (74) extending in the vertical direction. For this reason, when removing the second air heat exchanger (74) from the heat source unit (1), the second air heat exchanger (74) and the attachment portions (96a, 96b) of the connecting members (95a, 95b) The second air heat exchanger (74) can be easily removed without interference.

FIG. 1 is an overall perspective view showing the front side and the right side of a chiller device. FIG. 2 is an overall perspective view showing the front side and the left side of the chiller device. FIG. 3 is a front view of the chiller apparatus. FIG. 4 is a plan view of the chiller apparatus. FIG. 5 is a schematic cross-sectional view showing a VV cross section of FIG. FIG. 6 is a perspective view of the heat exchanger assembly. FIG. 7 is an exploded perspective view of the heat exchanger assembly. FIG. 8 is a front view of the heat exchanger assembly. FIG. 9 is a front view showing a plurality of chiller devices in an arrayed state.

  Embodiments of the present invention will be described in detail based on the drawings. Note that the embodiments and modifications described below are essentially preferred examples, and are not intended to limit the scope of the present invention, its applications, or its applications.

  The chiller apparatus (1) of this embodiment comprises the heat-source unit of the air conditioning apparatus which is a freezing apparatus. The chiller device (1) includes a refrigerant circuit that circulates a refrigerant to perform a refrigeration cycle, and is configured to cool or heat the heat transfer water by the refrigerant. The heat transfer water cooled or heated in the chiller device (1) is supplied to a fan coil unit (not shown) and used to cool or heat the indoor space.

    The detailed structure of the chiller device (1) will be described. In the following description, unless otherwise indicated, the directions representing “front”, “rear”, “right”, “left”, “upper”, and “lower” are the directions described in FIG. Means

  As shown in FIGS. 1 and 2, the chiller device (1) is formed in a shape that is long in the front-rear direction. This chiller device (1) is divided into four subunits (5A, 5B, 5C, 5D). In the chiller device (1), the first subunit (5A), the second subunit (5B), the third subunit (5C) and the fourth subunit (5D) are arranged from the front side of the chiller device (1) to the rear. It is arranged in a line in order toward the side. As will be described in detail later, each of the four subunits (5A to 5D) includes a compressor (11), an electric component box (15), a heat exchanger assembly (70), and a fan (25). Equipped with

<casing>
As shown in FIG. 1 and FIG. 2, the chiller device (1) includes a casing (30) that is long in the front-rear direction. The casing (30) comprises a lower casing (40) and an upper casing (50) disposed above the lower casing (40).

  The lower casing (40) is formed in a rectangular shape long in the front-rear direction. The lower casing (40) comprises one support rack (41) and a plurality of side panels (43). The support rack (41) is a frame formed in the shape of a long rectangular solid in the front-rear direction. The side panel (43) is provided on each of the front side, rear side, right side and left side of the support rack (41) so as to cover each side of the support rack (41). The internal space of the lower casing (40) forms a machine room (31A, 31B, 31C, 31D) of each sub unit (5A, 5B, 5C, 5D). The compressor (11) and the electrical component box (15) are disposed one by one in the machine room (31A to 31D) of each subunit (5A to 5D) (see FIG. 8).

  The upper casing (50) is formed in a box shape long in the front-rear direction. Further, as shown in FIG. 3, the upper casing (50) has a pentagonal shape in which the upper portion protrudes to the right when viewed from the front (front).

  The upper casing (50) comprises a fan housing (60), a support (53), and a shielding plate (54, 55, 56). Here, the fan accommodating portion (60) and the support portion (53) will be described. The shielding plates (54, 55, 56) will be described later.

  The upper casing (50) is provided with three columns (53). Each support column (53) is formed in a columnar shape extending upward from the left side of the lower casing (40). As shown in FIG. 2, one supporting column (53) is disposed near the front end, the center, and the rear end of the upper casing (50) in the front-rear direction.

  The fan housing portion (60) is formed in a flat rectangular parallelepiped shape and disposed at the top of the upper casing (50). As shown in FIG. 4, four circular air outlets (61) are formed in a line in the front-rear direction on the top plate of the fan housing portion (60). The fan (25) of each sub unit (5A-5D) is arrange | positioned at each blower outlet (61). That is, four fans (25) are housed in the fan housing portion (60). Each fan (25) comprises an impeller (26) and a fan motor (27) for driving the impeller (26).

  As shown in FIG. 3, the fan housing (60) has a right side plate (62) forming the right side surface thereof and a left side plate (64) forming the left side surface thereof for mounting the fan (25). It also serves as a member. Specifically, the right side plate (62) and the left side plate (64) are bent portions (63, 65) formed in a bowl shape when their lower end portions are viewed from the front. The bent portion (63) of the right side plate (62) is placed on a connecting member (95a, 95b) of a heat exchanger assembly (70) described later, and connected with the connecting member (95a, 95b) . The bent portions (65) of the left side plate (64) are placed on the three support portions (53) and connected with the upper ends of the support portions (53).

  The fan housing portion (60) is provided with the same number of fan support stays (28) as the fans (25). Each fan support stay (28) is disposed so as to bridge the bent portion (63) of the right side plate (62) and the bent portion (65) of the left side plate (64). The fan motor (27) of the corresponding fan (25) is attached to each fan support stay (28).

  Thus, in the fan housing (60), the four fans (25) are supported by the right side plate (62) and the left side wall (64) of the fan housing (60) through the fan support stays (28). Ru. Also, a fan housing (60) for housing the four fans (25) is supported by the support (53) and the heat exchanger assembly (70).

<Heat exchanger assembly>
The heat exchanger assembly (70) will be described with reference to FIGS.

  The heat exchanger assembly (70) comprises a first air heat exchanger (71), a second air heat exchanger (74) and a drain pan (80). The heat exchanger assembly (70) further comprises a box-like cover (85) attached to the drain pan (80), a pair of support members (90a, 90b), and a pair of connection members (95a, 95b). .

  The first air heat exchanger (71) and the second air heat exchanger (74) are so-called cross fin type fin and tube heat exchangers, and are configured to exchange heat with the air. Each of the first air heat exchanger (71) and the second air heat exchanger (74) comprises a heat exchanger body (72, 75) composed of fins and heat transfer tubes, and a heat exchanger body (72, 75) And a tube sheet (73a, 73b, 76a, 76b) attached thereto.

  The heat exchanger body (72) of the first air heat exchanger (71) is formed in a U-shape in plan view. Air passes from the outer surface to the inner surface of the heat exchanger body (72). The heat exchanger body (72) has one tube plate (73a, 73b) attached to one end in the left-right direction and the other end. Each tube plate (73a, 73b) is provided to cover the end of the heat exchanger body (72) over the entire length in the height direction of the heat exchanger body (72).

  In the second air heat exchanger (74), the heat exchanger main body (75) is formed in a flat plate shape (or a flat rectangular shape). Air passes through the heat exchanger body (75) in the thickness direction. The heat exchanger body (75) has one tube plate (76a, 76b) attached to one side and the other side in the left-right direction. Each tube plate (76a, 76b) is a member longer than the height of the heat exchanger body (75), and is provided so as to cover the entire vertically extending side surface of the heat exchanger body (75). Each tube plate (76a, 76b) is a side plate member that covers the side surface of the heat exchanger body (75). Further, portions of the tube plates (76a, 76b) that project lower than the heat exchanger body (75) constitute lower protrusions (77a, 77b), and the tube plates (76a, 76b) are smaller than the heat exchanger body (75). The upwardly protruding portion constitutes the upper protrusion (78a, 78b).

  The drain pan (80) is a shallow container-like member formed in a U-shape in plan view. The drain pan (80) has a base (82) disposed along the left side of the casing (30), an extension (83a) extending rightward from the front of the base (82), and a base (82). And an extension (83b) extending from the rear to the right.

  A box-like cover (85) is attached to the drain pan (80). The box-like cover (85) is a rectangular parallelepiped box-like member whose lower surface and right side surface are open. This box-like cover (85) covers from above the space surrounded by the drain pan (80) in three directions (ie, the space surrounded by the base (82) and the pair of extension parts (83a, 83b)) Attached to the drain pan (80).

Further, a pair of support members (90a, 90b) are attached to the drain pan (80). The support members (90a, 90b) are disposed at the right ends of the extending portions (83a, 83b) of the drain pan (80) and fixed to the bottom plate (81) of the drain pan (80). Each of the support members (90a, 90b) includes a first support plate portion (91a, 91b) and a second support plate portion (92a, 92b) formed in a plate shape in which each of the support members stands. In each support member (90a, 90b), the first support plate portion (91a, 91b) and the second support plate portion (92a, 92b) are arranged to be substantially orthogonal to each other.

  The support member (90a) provided in the front extension (83a) is installed with the first support plate (91a) facing left and the second support plate (92a) facing backward. In this support member (90a), the first support plate portion (91a) faces the tube plate (73a) of the first air heat exchanger (71), and the second support plate portion (92a) is the second air heat exchanger It faces the tube sheet (76a) of (74). On the other hand, the support member (90b) provided in the rear extension (83b) is installed with the first support plate (91b) facing left and the second support plate (92b) facing forward. Ru. In this support member (90b), the first support plate portion (91b) faces the tube plate (73b) of the first air heat exchanger (71), and the second support plate portion (92b) is the second air heat exchanger It faces the tube plate (76b) of (74). As shown in FIG. 8, the second support plate portion (92a, 92b) of each support member (90a, 90b) constitutes an attachment portion facing the side surface of the second air heat exchanger (74).

  The connecting members (95a, 95b) are members for connecting the upper end of the first air heat exchanger (71) and the upper end of the second air heat exchanger (74). The connecting members (95a, 95b) are formed in a tubular shape having a rectangular cross section. The connecting members (95a, 95b) are attached one by one to the tube plates (73a, 73b) of the first air heat exchanger (71). Each connecting member (95a, 95b) is connected at its base end to the upper end of the tube sheet (73a, 73b) by a bolt not shown in the figure, and has a posture in which it protrudes rightward from the tube sheet (73a, 73b).

  Each connecting member (95a, 95b) is formed with a plate-like mounting portion (96a, 96b) extending downward from the side surface along the long side. In the connecting member (95a) attached to the front tube plate (73a) of the first air heat exchanger (71), the mounting portion (96a) is directed backward. In the connecting member (95b) attached to the rear tube plate (73b) of the first air heat exchanger (71), the mounting portion (96b) is facing forward. As shown in FIG. 8, the attachment portions (96a, 96b) of the connection members (95a, 95b) face the side surfaces of the second air heat exchanger (74).

  As shown in FIG. 6, the first air heat exchanger (71) is placed on the drain pan (80) in a posture surrounding the front, rear and left of the box-like cover (85). In the first air heat exchanger (71), lower end portions of the respective tube sheets (73a, 73b) are fastened to the first support plate portions (91a, 91b) of the support members (90a, 90b) by bolts not shown. Ru.

  As shown in FIGS. 6 and 8, the second air heat exchanger (74) is attached to the support members (90a, 90b) and the connection members (95a, 95b). Specifically, in the second air heat exchanger (74), the lower projecting portions (77a, 77b) of the respective tube sheets (76a, 76b) face the lower projecting portions (77a, 77b), respectively. The second support plate portions (92a, 92b) 90a, 90b) are fastened by bolts (93a, 93b). Further, in the second air heat exchanger (74), the connecting members (95a, 95b) in which the upper protrusions (78a, 78b) of the tube plates (76a, 76b) face the upper protrusions (78a, 78b) And the mounting portions (96a, 96b) of the second embodiment and bolts (97a, 97b).

  The second air heat exchanger (74) has a lower end connected to a support member (90a, 90b) disposed close to the first air heat exchanger (71), while an upper end is connected to the first air heat It is connected to the tip end of a connecting member (95a, 95b) which protrudes to the right from the exchanger (71). As a result, in the second air heat exchanger (74), the air inflow surface (79a) faces obliquely downward and the air outflow surface (79b) faces the space inside the first air heat exchanger (71). Be held in posture. Also, as shown in FIG. 8, the lower end of the second air heat exchanger (74) (ie, the lower end of the tube plates (76a, 76b)) is the top of the drain pan (80) (ie, the drain pan (80)). It is located above the upper edge).

<Arrangement of heat exchanger assembly and shielding plate>
As shown in FIG. 5, one heat exchanger assembly (70) is provided for each of the subunits (5A to 5D). That is, the chiller device (1) is provided with four heat exchanger assemblies (70). Four heat exchanger assemblies (70) are accommodated in the upper casing (50), and arranged in a line in the front-rear direction of the upper casing (50) with the second air heat exchanger (74) facing rightward Be done.

  The upper casing (50) is provided with five shielding plates (54, 55, 56). As shown in FIG. 3, each shielding plate (54, 55, 56) is a substantially inverted trapezoidal plate-like member, and the first air heat exchanger (71) and the second air heat exchanger (74) Provided to close the gap between the As shown in FIG. 5, the first shielding plate (54) is disposed on the front surface of the upper casing (50), and the second shielding plate (55) is disposed on the rear surface of the upper casing (50). In addition, the middle shield plate (56) is provided between the first subunit (5A) and the second subunit (5B), between the second subunit (5B) and the third subunit (5C), and the third One piece is arranged between the subunit (5C) and the fourth subunit (5D).

Removal of the second air heat exchanger
An operation of removing the second air heat exchanger (74) from the chiller device (1) will be described.

  The upper casing (50) is provided with a panel member so as to cover the peripheral portion of the second air heat exchanger (74). In the removal operation of the second air heat exchanger (74), first, these panel members are removed to expose the entire second air heat exchanger (74). Next, the pipe connecting the refrigerant circuit and the joint connecting the second air heat exchanger (74) are separated. Subsequently, bolts (93a, 93b) for connecting the tube sheets (76a, 76b) and the support members (90a, 90b) and bolts (97a) for connecting the tube sheets (76a, 76b) and the connection members (95a, 95b) , 97b) and remove. Then, as shown in FIG. 9, the second air heat exchanger (74) is pulled out to the inflow surface (79a) side and removed from the chiller device (1).

  Thus, in the chiller device (1) of the present embodiment, the second air heat exchange is performed without removing the fan (25) and the fan housing portion (60) arranged above the heat exchanger assembly (70). The vessel (74) is removed from the chiller apparatus (1).

  As shown in FIG. 8, the second support plate portions (92a, 92b) of the support members (90a, 90b) to which the tube sheets (76a, 76b) of the second air heat exchanger (74) are connected and the connecting members ( The mounting portions (96a, 96b) of 95a, 95b) are formed in a plate shape substantially parallel to the tube sheets (76a, 76b) of the second air heat exchanger (74). Therefore, when the second air heat exchanger (74) is drawn to the inflow surface (79a) side, the tube sheets (76a, 76b) of the second air heat exchanger (74) are supported by the support members (90a, 90b). ) And does not interfere with the connecting members (95a, 95b).

  Further, the lower end of the tube sheet (76a, 76b) of the second air heat exchanger (74) is located above the upper edge of the drain pan (80). Therefore, when the second air heat exchanger (74) is drawn to the inflow surface (79a) side, the second air heat exchanger (74) does not interfere with the drain pan (80). In addition, the second air heat exchanger (74) can be moved to the inflow surface (79a) without lifting the second air heat exchanger (74).

  Here, in the air conditioning apparatus including a plurality of chiller devices (1) according to the present embodiment, as shown in FIG. 9, the plurality of chiller devices (1) are relatively narrow (approximately 5 cm at the narrowest portion) It is arranged in a line in the left-right direction. For this reason, when removing a 2nd air heat exchanger (74) from a chiller apparatus (1), it is necessary to work in the narrow space pinched | interposed into the adjacent chiller apparatus (1).

  On the other hand, in the chiller device (1) of the present embodiment, as described above, the second air heat exchanger (74) does not interfere with other members, and the inflow surface (79a) side (specifically, , Can be moved to the lower right in FIG. For this reason, it is possible to easily perform the operation of removing the second air heat exchanger (74) from the chiller device (1) in a narrow space sandwiched between the two chiller devices (1).

-Effect of the embodiment-
In the present embodiment, the fan (25) disposed above the heat exchanger assembly (70) is provided via the fan support stay (28) and the left side plate (64) of the fan housing (60). It is supported by the support | pillar part (53) which comprises an upper casing (50). Also, the fan (25) is provided with the first air heat exchanger (71) through the fan support stay (28), the right side plate (62) of the fan housing (60), and the connecting members (95a, 95b). Supported by the tube sheet (73a, 73b). Therefore, without removing the fan (25) from the heat source unit (1) using the lifting device, the second air heat exchanger (74) can be kept with the fan (25) attached to the casing (30). Can be removed from the heat source unit (1).

  Further, in the present embodiment, the lower end portion of the second air heat exchanger (74) is connected to the support members (90a, 90b) extending upward from the bottom plate (81) of the drain pan (80). For this reason, the second air heat exchanger (74) floats from the bottom plate (81) of the drain pan (80), and the work of taking the second air heat exchanger (74) out of the drain pan (80) is facilitated. Furthermore, in the present embodiment, the whole of the second air heat exchanger (74) is located above the upper edge of the drain pan (80), so the heat source unit (the second air heat exchanger (74) is not lifted. It can be removed from 1).

  Therefore, according to the present embodiment, the removal operation of the second air heat exchanger (74) can be simplified, and the number of man-hours required for the maintenance operation of the heat source unit (1) can be reduced.

  Further, the second air heat exchanger (74) of the present embodiment includes the tube plates (76a, 92b) at the second support plate portions (92a, 92b) of the support members (90a, 90b) facing the tube plates (76a, 76b). 76b) The lower projections (77a, 77b) are connected, and the mounting portions (96a, 96b) of the connecting members (95a, 95b) facing the tube sheets (76a, 76b) are located above the tube sheets (76a, 76b) The protrusions (78a, 78b) are connected. For this reason, when removing the second air heat exchanger (74) from the heat source unit (1), the second air heat exchanger (74) together with the support members (90a, 90b) and the connecting members (95a, 95b) The second air heat exchanger (74) can be easily removed without interference.

  Furthermore, the second air heat exchanger (74) of the present embodiment is entirely located above the upper edge of the drain pan (80). Therefore, when the second air heat exchanger (74) is removed from the heat source unit (1), the second air heat exchanger (74) can be moved without interference with the drain pan (80). (2) The work of removing the air heat exchanger (74) is facilitated.

  As described above, the present invention is useful for a heat source unit of a refrigeration system.

1 Chiller device (heat source unit)
25 fans
30 casing
71 1st air heat exchanger
74 second air heat exchanger
75 Heat Exchanger Body 2
76a, 76b tube sheet (side plate member)
77a, 77b lower protrusion
78a, 78b upper projection
79a inflow side (79a)
79b outflow face (79b)
80 drain pan
81 bottom plate
90a, 90b support members
92a, 92b second support plate portion (attachment portion)
93a, 93b bolt
95a, 95b Connection member
96a, 96b mounting part (mounting part)
97a, 97b bolt

Claims (6)

A first air heat exchanger (71) and a second air heat exchanger (74), which respectively exchange heat with the air, a fan (25), the first air heat exchanger (71) and the second What is claimed is: 1. A heat source unit of a refrigeration system comprising: an air heat exchanger (74) and a casing (30) accommodating the fan (25), wherein
The first air heat exchanger (71) is formed in a U shape in plan view, and is configured to allow air to pass from the outer side surface to the inner side surface,
The second air heat exchanger (74) is formed in a rectangular plate shape and configured to allow air to pass in the thickness direction, and is inclined so that the air inflow surface (79a) faces obliquely downward and the air The outlet surface (79b) of the air conditioner directed to the space inside the first air heat exchanger (71);
The fan (25) is disposed above the first air heat exchanger (71) and the second air heat exchanger (74) and supported by the casing (30).
A drain pan (80) disposed below the first air heat exchanger (71) and the second air heat exchanger (74);
A support member (90a, 90b) extending upward from the bottom plate (81) of the drain pan (80) to support the second air heat exchanger (74) ;
A connecting member (95a, 95b) extending from the upper end of the first air heat exchanger (71) to the second air heat exchanger (74) ;
The lower end portion of the second air heat exchanger (74) is detachably connected to the support member (90a, 90b), and the upper end portion is detachably connected to the connection member (95a, 95b) . A heat source unit characterized by In claim 1,
The lower end of said 2nd air heat exchanger (74) is located above the uppermost part of said drain pan (80), The heat-source unit characterized by the above-mentioned. In claim 1 or 2,
The support member (90a, 90b) is formed in a plate shape facing the side surface of the second air heat exchanger (74) extending in the vertical direction, and the second air heat exchanger (74) is a bolt (93a, 93b) A heat source unit characterized in that the mounting portion (92a, 92b) connected by In claim 1 or 2,
The second air heat exchanger (74) is
A heat exchanger main body (75) for heat exchange of refrigerant with air;
And side plate members (76a, 76b) covering side surfaces of the heat exchanger body (75) extending in the vertical direction,
Lower projecting portions (77a, 77b) which are portions of the side plate members (76a, 76b) which project downward from the heat exchanger body (75) are detachably attachable to the supporting members (90a, 90b) A heat source unit characterized by being connected. In any one of claims 1 to 4 ,
The connecting member (95a, 95b) is formed in a plate shape facing the side surface of the second air heat exchanger (74) extending in the vertical direction, and the second air heat exchanger (74) is a bolt (97a, 97b). A heat source unit characterized in that the mounting portion (96a, 96b) connected by In any one of claims 1 to 5 ,
The second air heat exchanger (74) is
A heat exchanger main body (75) for heat exchange of refrigerant with air;
And side plate members (76a, 76b) covering side surfaces of the heat exchanger body (75) extending in the vertical direction,
An upper projecting portion (78a, 78b), which is a portion of the side plate member (76a, 76b) that protrudes above the heat exchanger main body (75), is detachably connected to the connecting member (95a, 95b) A heat source unit characterized by having been.

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