JP2014062677A - Heat pump type heat source machine - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a heat pump type heat source machine in which a plurality of heat pump type heat sources can be easily connected to each other and further to provide a heat pump type heat source machine in which the number of working steps and the number of component parts are reduced to enable a facility cost to be reduced.SOLUTION: A heat pump type heat source machine 11 includes: a compressor 13; an evaporating heat exchanger 12; expansion means 15; and a hot water heating heat exchanger 14 within an outer case 19, these units are connected by a refrigerant pipe 16, there are provided a pair of going and returning hot water connection ports 30A, 30B connected to the hot water heating heat exchanger 14, the outer case 19 is provided with at least a pair of hot water connectors 30A, 30B to which a hot water circulation pipe 4 is connected from outside and each of the pair of hot water connectors 30A, 30B is provided with a plurality of connection ports 31a to 35a, 31b to 35b, respectively.

Description

  The present invention relates to a heat pump heat source machine, and more particularly, to a heat pump heat source machine configured so that a plurality of heat pump heat source machines can be easily connected to each other.

  Conventionally, large-capacity hot water supply systems used for various large and medium-sized buildings such as commercial facilities, hotels and general hospitals have been put into practical use. This type of high-capacity hot water supply system requires a high-capacity heat source unit that can handle this hot water load with a margin even when hot water is used simultaneously from many hot water supply locations. .

  In order to construct a hot water supply system having a large capacity as described above, for example, a plurality of heat pump heat source machines are connected in parallel, and these heat pump heat source machines are operated in combination to supply hot water with a large capacity. It may be possible to configure. Such a pipe connection structure for connecting a plurality of heat pump heat source machines to each other is disclosed in various patent documents.

  For example, in the pipe connection structure of Patent Document 1, a plurality of heat pump heat source machines are arranged in a straight line in the horizontal direction or the vertical direction, and a low temperature pipe and a high temperature pipe (a pair of hot water) of each heat pump heat source machine. Are connected to an outward circulation pipe and a return circulation pipe extending from the hot water storage unit side through a plurality of piping modules. Each of the plurality of piping modules includes a pipe body having a branch portion formed in a predetermined shape (for example, a T shape), and a plurality of joints attached to each end of the pipe body. The piping connection structure is configured by connecting a plurality of piping modules to each other.

JP 2012-127486 A

  By the way, in the conventional heat pump type heat source machine, a pair of hot water connection tools for connecting a hot water circulation pipe extending from the outside is provided on one side surface of the rectangular parallelepiped outer case, and this pair of hot water connection tools. Each has a connection port protruding in one direction. Therefore, in order to mutually connect a plurality of heat pump heat source machines, it is necessary to employ a plurality of piping modules having special shapes according to the arrangement pattern of the heat pump heat source machines, as in Patent Document 1.

  However, in order to construct a pipe connection structure by attaching a plurality of piping modules to a plurality of heat pump heat source machines as described above, it is necessary to assemble each piping module from a plurality of pipe members at the construction site. In addition, the construction man-hours increase, which is troublesome, and the number of parts increases, resulting in increased equipment costs.

  An object of the present invention is to provide a heat pump type heat source machine that can easily connect a plurality of heat pump type heat source machines to each other, and a heat pump type heat source that can reduce equipment costs by reducing the number of construction steps and the number of parts. Providing a machine, etc.

  The heat pump heat source apparatus according to claim 1 is a heat pump heat source apparatus comprising a compressor, an evaporative heat exchanger, an expansion means, and a hot water heating heat exchanger in an outer case, and connecting these with a refrigerant pipe. A hot water / water connection tool having a pair of a forward side and a return side connected to the heat exchanger for hot water / water heating connected to the case, wherein at least one pair of hot water / water connection tools is connected to an external hot water circulation pipe. Each of the pair of hot and cold water connecting devices is provided with a plurality of connection ports protruding in directions orthogonal to each other.

  A heat pump heat source apparatus according to a second aspect is characterized in that, in the first aspect of the invention, the plurality of connection ports of the hot and cold water connector are configured to protrude in five directions orthogonal to each other.

  The heat pump heat source apparatus according to claim 3 is the invention according to claim 1 or 2, wherein the exterior case is configured in a rectangular parallelepiped shape, and the pair of hot and cold water connection devices are provided on the rear side of the exterior case on the outside air intake side. It is characterized by being provided.

  According to the first aspect of the present invention, the outer case is a hot water connecting tool having a pair of a return side and a return side connected to a hot water heating heat exchanger, and an external hot water circulation pipe is connected thereto. At least one pair of hot and cold water connecting devices is provided, and each of the pair of hot and cold water connecting devices includes a plurality of connection ports protruding in directions orthogonal to each other. It is possible to connect the pipe to the heat pump and to easily connect the heat pump type heat source machine.

  In addition, when connecting a plurality of heat pump heat source machines in parallel to each other, the heat pump type heat source machines are arranged on the same plane with the side surfaces of the outer case provided with a pair of hot water connectors. By arranging them so that they are arranged in a straight line or so that the side surfaces are opposed to each other, a heat pump type heat source device that is adjacent via an existing straight pipe without using a special branch-shaped pipe module Therefore, compared with the case where a piping module is required, the number of construction steps and the number of parts can be reduced, so that the equipment cost can be reduced.

  According to the second aspect of the present invention, since the plurality of connection ports of the hot and cold water connection device are configured to protrude in five directions orthogonal to each other, the arrangement positions of the plurality of heat pump heat source devices and the connection positions thereof are connected to each other. Depending on the arrangement position of the piping to be performed, it is possible to appropriately select from five connection ports, and the degree of freedom of the arrangement position of the plurality of heat pump heat source machines and the arrangement position of the connection pipe is improved.

  According to the invention of claim 3, the exterior case is configured in a rectangular parallelepiped shape, and the pair of hot and cold water connecting devices are provided on the rear side of the exterior case on the outside air intake side. By arranging each of the connecting tools so as to face each other, it is possible to shorten the connecting pipe connecting the adjacent heat pump heat source machines as much as possible. Moreover, piping space can be easily ensured by utilizing effectively the back space of a heat pump type heat source machine.

1 is a schematic configuration diagram of a hot water supply system including a plurality of heat pump heat source devices according to Embodiment 1. FIG. It is a perspective view of an exterior case and a pair of hot and cold water connector. It is a perspective view of a plurality of heat pump type heat source machines arranged in the left-right direction and connected to each other. It is a perspective view of a plurality of heat pump type heat source machines which are arranged in the up-and-down direction concerning Example 2, and were mutually connected. It is a perspective view of a plurality of heat pump type heat source machines in which rear side surfaces according to Example 3 are arranged to face each other and connected to each other. FIG. 9 is a perspective view of a plurality of heat pump heat source devices arranged in a matrix of 2 rows and 2 columns and connected to each other according to a fourth embodiment.

  Hereinafter, modes for carrying out the present invention will be described based on examples.

A present Example is an example in case the heat pump type heat source apparatus 11 of this invention is integrated in the hot-water supply system 1 used for various buildings.
As shown in FIG. 1, a hot water supply system 1 includes a hot water storage tank unit 2 capable of storing a large volume of hot water, a heat source unit 3 capable of heating hot water circulated from the hot water storage tank unit 2, and a hot water storage tank unit. A hot water circulation pipe 4 for circulating hot water between the heat source unit 2 and the heat source unit 3 is provided.

First, the outline of the hot water storage tank unit 2 will be briefly described.
As shown in FIG. 1, the hot water storage tank unit 2 includes a large capacity hot water storage tank 5, a water supply pipe 6, a hot water supply pipe 7, a mixing valve 8, an outer case 9, and the like. The hot water storage tank 5 stores high-temperature hot water heated by the heat source unit 3 and is made of a stainless steel plate having excellent corrosion resistance. In this embodiment, one large-capacity hot water storage tank 5 is installed. However, the number is not limited to one, and a plurality of hot water storage tanks may be installed according to the required hot water storage amount.

  A water supply pipe 6 connected to a water source is connected to the lower end of the hot water storage tank 5, and a hot water discharge pipe 7 connected to a hot water tap is connected to the upper end of the hot water storage tank 5. A mixing valve 8 is installed in the middle of the hot water supply pipe 7, and a branch pipe 6 a branched from the middle of the water supply pipe 6 is connected to the mixing valve 8. At the time of hot water supply, hot hot water in the hot water storage tank 5 can be discharged into the hot water supply pipe 7, and mixed hot water in which water and hot hot water are mixed can be discharged through the mixing valve 8.

Next, the heat source unit 3 will be described.
As shown in FIG. 1, the heat source unit 3 is configured by connecting a plurality of heat pump heat source units 11 in parallel. The arrangement of the plurality of heat pump heat source devices 11 and the pipe connection structure that connects these heat pump heat source devices 11 to each other will be described later. In addition, since each heat pump type heat source machine 11 has the fundamentally same structure, below, the one heat pump type heat source machine 11 is demonstrated.

  As shown in FIG. 1, the heat pump heat source unit 11 includes an outdoor heat absorption heat exchanger 12 as an evaporating heat exchanger, a compressor 13, a hot water heating heat exchanger 14 as a condenser, It has an expansion valve 15 that rapidly expands the refrigerant to lower the temperature and pressure. These devices are connected via a refrigerant pipe 16 to form a heat pump circuit, and the refrigerant contained in the refrigerant pipe 16 is circulated to perform heating operation. I do.

  The heat pump heat source unit 11 is further connected to an evaporator blower fan 17 driven by a blower motor 17a and a main control unit (not shown) on the hot water storage tank unit 2 side and controls the heat pump heat source unit 11. A unit 18 and an exterior case 19 for storing them are provided.

  The outside air heat absorption heat exchanger 12 includes an evaporator passage portion 12a included in the refrigerant pipe 16, and the evaporator passage portion 12a includes a plurality of fins. In the outside air heat absorption heat exchanger 12, Heat is exchanged between the refrigerant flowing through the evaporator passage portion 12a and the outside air, and the refrigerant absorbs heat from the outside air and vaporizes.

  The hot water heating heat exchanger 14 has an internal passage 14a and a heat exchanger passage portion 14b which are part of the refrigerant pipe 16, and the internal passage 14a is formed of, for example, a copper pipe. In the hot water heating heat exchanger 14, heat is exchanged between the refrigerant flowing in the internal passage 14 a and hot water supplied to the heat exchanger passage portion 14 b from the return side circulation pipe 21 of the circulation pipe 4. When heated, the refrigerant is cooled and liquefied.

  The compressor 13 is a known hermetic compressor that adiabatically compresses a refrigerant in a gas phase state to increase the temperature. The expansion valve 15 adiabatically expands the liquid refrigerant and lowers the temperature. The expansion valve 15 is a control valve having a variable throttle amount. Instead of the expansion valve 15, an expansion valve with a constant throttle amount may be employed.

Next, the hot water circulation pipe 4 will be described.
As shown in FIG. 1, the hot water circulation pipe 4 is a passage through which hot water stored in the hot water storage tank 5 circulates, and has an outward circulation pipe 21 and a return circulation pipe 22. . In the outgoing side circulation pipe 21, the upstream end of the outgoing side case pipe 23 a in the hot water storage tank unit 2 is connected to the lower end of the hot water storage tank 5, and the downstream end of the outgoing side case pipe 23 a is connected to the hot water storage tank unit 2. Is connected to the upstream end of the forward case outer pipe 24a through the connection port 9a of the outer case 9.

  The downstream end of the outward case outer pipe 24a is connected to a hot water connector 30A on the outward side of the outer case 19 arranged closest to the hot water storage tank unit 2 on the heat source unit 3 side. The hot water / water connector 30A on the outgoing side of each adjacent exterior case 19 is connected to each heat pump heat source machine 11 via a plurality of outgoing side heat source machine crossing pipes 25a extending in a transverse shape (vertically cut).

  In each exterior case 19, a forward heat exchanger pipe 26 a extends from each forward hot water connector 30 </ b> A, and the downstream ends of the multiple forward heat exchanger pipes 26 a are connected to the corresponding heat pump heat source devices 11. The hot water heating heat exchanger 14 is connected to the upstream end of the heat exchanger passage 14b.

  In the return side circulation pipe 22, the return side heat exchanger pipe 26 b extends from the downstream end of the heat exchanger passage portion 14 b of the hot water heating heat exchanger 14 of each heat pump heat source device 11, and the plurality of return side heats. The downstream end of the exchanger pipe 26b is connected to each return-side hot water / water connection tool 30B. The return side hot water connector 30B of each adjacent exterior case 19 is connected to each heat pump type heat source unit 11 via a plurality of return side heat source unit crossing pipes 25b extending in a transverse shape (vertically cut).

  The upstream end of the return-side case outer pipe 24b is connected to the hot water / water connector 30B on the outward side of the outer case 19 arranged closest to the hot water storage tank unit 2 on the heat source unit 3 side. The downstream end of the return side case outer pipe 24b is connected to the upstream end of the return side case inner pipe 23b via the connection port 9b of the exterior case 9 on the hot water storage tank unit 2 side, and the downstream end of the return side case inner pipe 23b is The hot water storage tank 5 is connected to the upper end portion.

  Thus, the heated refrigerant compressed to a high pressure by the compressor 13 of the heat pump heat source apparatus 11 is sent to the hot water heating heat exchanger 14 and driven from the lower end of the hot water storage tank 5 by driving the liquid feed pump 20. Heat exchange with warm water (reserved water) or water that has flowed into the heat exchanger passage 14b via the return-side circulation pipe 21 heats the warm water or water, and heated hot water (for example, 80 to 90 ° C.) returns. Hot water is stored in the hot water storage tank 5 by repeating the heating operation via the heat pump heat source device 11 through the side circulation pipe 22 and stored in the hot water storage tank 5 of the hot water storage tank unit 2.

Next, a pair of hot and cold water connection devices 30A and 30B will be described.
As shown in FIGS. 1 to 3, the outer case 19 is configured in a rectangular parallelepiped box shape made of a thin steel plate, and includes a pair of left and right side plates 31 and 32, a front side plate 33, a rear side plate 34, and a top plate. 35 and a bottom plate 36, and a hot water / water connector 30A, 30B having a pair of an outward side and a return side connected to the hot water heating heat exchanger 14 on the rear side plate 34 of the exterior case 19, A pair of hot and cold water connection devices 30A and 30B to which a pipe 4 for circulating hot water from the outside can be connected are provided.

  The front plate 33 is formed with an air discharge port for discharging air from the exterior case 19, and the rear plate 34 is formed with an outside air intake port for taking outside air into the exterior case 19. When driven, the outside air is taken in from the outside air intake port of the rear side plate 34, and heat is exchanged with the refrigerant in the outside air heat absorption heat exchanger 12 to become low-temperature air, and is discharged outside from the air outlet port of the front side plate 33. .

  As shown in FIG. 1, the outgoing hot water connector 30 </ b> A is connected to the upstream end of the outgoing heat exchanger pipe 26 a in the exterior case 19, and the return hot water connector 30 </ b> B is returned to the interior of the exterior case 19. It is connected to the downstream end of the side heat exchanger pipe 26b. The pair of hot and cold water connection devices 30A and 30B are hot water and water connection devices having the same configuration. In the following description, it is assumed that the direction indicated by the arrow A in FIG. 2 is left, the direction indicated by the arrow B is right, the direction indicated by the arrow C is forward, and the direction indicated by the arrow D is backward.

  As shown in FIGS. 2 and 3, the hot and cold water connector 30 </ b> A is connected to the forward heat exchanger pipe 26 a and extends from the rear plate 34 to the rear in the orthogonal direction, and protrudes from the main body connection pipe 30 a. A plurality of connection ports 31a to 35a are provided. The hot and cold water connector 30B includes a main body connection pipe 30b connected to the return side heat exchanger pipe 26b and extending rearward in the orthogonal direction from the rear side plate 34, and a plurality of connection ports 31b to 35b protruding from the main body connection pipe 30b. ing.

  The plurality of connection ports 31a to 35a are configured to protrude in five directions orthogonal to each other, and their internal passages are communicated with each other via the internal passages of the main body connection pipe 30a. Similarly, the plurality of connection ports 31b to 35b are configured to protrude in five directions orthogonal to each other, and their internal passages are communicated with each other via the inside of the main body connection pipe 30b.

  That is, the plurality of connection ports 31 a to 35 a include a first connection port 31 a extending rearward orthogonal to the rear plate 34, a second connection port 32 a extending leftward in the horizontal direction parallel to the rear plate 34, and the rear plate 34. A third connection port 33a extending to the right in the parallel horizontal direction, a fourth connection port 34a extending in the vertical direction parallel to the rear plate 34, and a fifth connection port 35a extending in the vertical direction parallel to the rear plate 34. It has.

  Similarly, the plurality of connection ports 31 b to 35 b include a first connection port 31 b extending rearward orthogonal to the rear plate 34, a second connection port 32 b extending leftward in the horizontal direction parallel to the rear plate 34, and the rear plate 34. A third connection port 33b extending rightward in the horizontal direction parallel to the rear plate 34, a fourth connection port 34b extending upward in the vertical direction parallel to the rear plate 34, and a fifth connection port extending downward in the vertical direction parallel to the rear plate 34. 35b.

  In addition, all the some connection ports 31a-35a of the hot-water connector 30A are comprised by the same length and pipe | tube size. The same applies to the plurality of connection ports 31b to 35b of the hot-water connector 30B. Thus, it becomes advantageous in manufacture by making all the connection ports into the same size. Further, in the pair of hot and cold water connectors 30A and 30B, it is desirable that the length from the rear side plate 34 to the tips of the connection ports 31a and 31b is set as short as possible within a range in which pipe connection is possible.

  The pair of hot and cold water connection devices 30A and 30B are for connecting a pipe portion outside the heat pump heat source device 11 and a pipe portion inside the heat pump heat source device 11, and each of the hot water and water connection devices 30A and 30B is water. A stopper (not shown) is provided. The plurality of connection ports 31a to 35a of the hot water connector 30A and the plurality of connection ports 31b to 35b of the hot water connector 30B have a structure of a union joint or a quick detachable joint. Note that the connection port to which the pipe is not connected is closed with a blind cover or a plug (water stopcock) for closing the flow paths inside the various pipes.

  Outward-side case outer piping 24a and return-side case outer piping 24b connecting between the hot water storage tank unit 2 and the heat source unit 3, and the outgoing-side hot water connection ports 30A of the adjacent exterior cases 19 and the return-side hot water. The forward-side heat source machine crossing piping 25a and the return-side heat source machine crossing piping 25b that connect the connection ports 30B are so-called flexible made of a flexible stainless steel tubular member having a bellows-like surface. It consists of a pipe and is adjusted to an appropriate length according to the installation location. Easily removable joints corresponding to the shape of the connection port are provided at both ends of these flexible tubes.

Next, the arrangement of a plurality of heat pump heat source devices 11 and a pipe connection structure that connects these heat pump heat source devices 11 to each other will be described.
As shown in FIG. 3, in the heat source unit 3, a plurality of (for example, three) heat pump heat source units 11 have the same side surfaces provided with a pair of hot water connection devices 30 </ b> A and 30 </ b> B of the outer case 19. It is arranged in a horizontal direction so as to be linearly arranged on a plane, and the downstream end of the forward case outer pipe 24a and the upstream end of the return case outer pipe 24b of the hot water circulation pipe 4 are arranged closest to the hot water storage tank unit 2 side. The outer case 19 is connected to the connection ports 32a and 32b of the pair of hot and cold water connectors 30A and 30B in the rear plate 34, respectively. The upstream end of the return case outer pipe 24b is connected to the connection port 33b of the hot water connector 30B of the outer case 19 disposed on the opposite side of the hot water storage tank unit 2 in place of the connection port 32b. Also good.

  In the pipe connection structure for connecting the plurality of heat pump heat source devices 11 to each other, the connection ports 33a and 33b of the pair of hot and cold water connection devices 30A and 30B go forward between the exterior cases 19 adjacent to each other in the left-right direction. The structure is connected to the connection ports 32a and 32b of the pair of adjacent hot and cold water connectors 30A and 30B via the side heat source machine crossing pipe 25a and the return side heat source machine crossing pipe 25b, respectively.

  Although not particularly shown in FIG. 3, each of the connection ports 31a, 31b, 34a, 34b, 35a, and 35b to which the outgoing side heat source machine crossing pipe 25a and the return side heat source machine crossing pipe 25b are not connected is provided in each outer case 19. It is closed with a blind cover or a plug for closing the flow paths inside the forward-side heat exchanger pipe 26a and the return-side heat exchanger pipe 26b.

Next, the operation and effect of the heat pump heat source apparatus 11 of the present invention will be described.
In order to construct the heat source unit 3 of the hot water supply system 1 used in various buildings such as commercial facilities, hotels and general hospitals, the number of heat pump heat source units 11 installed is calculated according to the desired hot water supply capacity, and this calculation is performed. A plurality of heat pump heat source machines 11 based on the results are carried into the installation location and, for example, arranged linearly in the left-right direction (horizontal direction) as shown in FIG.

  Next, a pair of exterior cases 19 arranged closest to the hot water tank unit 2 are connected to the ends of the outward case outer pipe 24a and the return case outer pipe 24b of the hot water circulation pipe 4 extending from the hot water tank unit 2 side. Are connected to the connection ports 32a and 32b of the hot and cold water connectors 30A and 30B, respectively.

  Next, in order to connect a plurality of heat pump heat source devices 11 to each other, a pair of hot water connections of the outer case 19 adjacent to the connection ports 33a, 33b of the pair of hot water connectors 30A, 30B of the outer case 19 The connection ports 32a and 32b of the tools 30A and 30B are sequentially connected via the forward side heat source unit crossing piping 25a and the return side heat source unit crossing piping 25b.

  In the heat pump heat source device 11 at the end opposite to the hot water storage tank unit 2 side, the connection ports 33a and 33b of the pair of hot water connection tools 30A and 30B are respectively closed by blind covers or plugs. Further, similarly, the hot water connection ports 31a, 31b, 34a, 34b, 35a, and 35b that are not used are each closed with a blind cover or a plug, and a plurality of heat pump heat source devices 11 are connected to each other.

  In this manner, the external case 19 is a hot water connection tool 30A, 30B having a pair of a forward side and a return side connected to the hot water heating heat exchanger 14, and a pipe 4 for circulating hot water from the outside is connected thereto. At least one pair of hot and cold water connection devices 30A and 30B is provided, and each of the pair of hot water and water connection devices 30A and 30B includes a plurality of connection ports 31a to 35a and 31b to 35b protruding in directions orthogonal to each other. Therefore, piping connection in a plurality of directions is possible with respect to one side surface of the outer case 19, the connecting operation of the heat pump heat source apparatus 11 can be easily performed, and the plurality of heat pump heat source apparatuses 11 can be connected in the horizontal direction. A large-capacity hot water supply system 1 that is linearly arranged in the (horizontal direction) and connected in parallel can be constructed.

  When connecting a plurality of heat pump heat source machines 11 to each other in parallel, the side surfaces of the plurality of heat pump heat source machines 11 provided with the pair of hot water connectors 30A and 30B of the outer case 19 are provided. By arranging them so that they are arranged in a straight line on the same plane, the heat pump heat source apparatus 11 adjacent to each other can be connected to each other via an existing straight pipe without using a special branched pipe module. Since it can connect, therefore, compared with the case where a piping module is required, since a construction man-hour and a number of parts can be reduced, installation cost can be reduced.

  Furthermore, since the plurality of connection ports 31a to 35a and 31b to 35b of the hot and cold water connection devices 30A and 30B are configured to protrude in five directions orthogonal to each other, the arrangement positions of the plurality of heat pump heat source machines 11 and those Can be selected as appropriate from the five connection ports 31a to 35a and 31b to 35b in accordance with the arrangement position of the connection pipes that mutually connect, and the arrangement position of the plurality of heat pump heat source machines 11 and the arrangement positions of the connection pipes are free. The degree is improved.

  In addition, the outer case 19 is configured in a rectangular parallelepiped shape, and the pair of hot and cold water connectors 30A and 30B are provided on the rear side plate 34 in which the outside air intake port for taking in the outside air of the outer case 19 is formed. Piping space can be easily secured by effectively utilizing the space behind the heat source unit 11.

  Next, a description will be given of a second embodiment in which the arrangement structure of the plurality of heat pump heat source devices 11 and the pipe connection structure associated therewith are partially changed. In the first embodiment, the plurality of heat pump heat source devices 11 are arranged in the left-right direction. In the second embodiment, the plurality of heat pump heat source devices 11 are arranged in the vertical direction.

  As shown in FIG. 4, in the heat source unit 3 </ b> A, a plurality of (for example, three) heat pump heat source units 11 have the same side surface where the pair of hot water connection devices 30 </ b> A and 30 </ b> B of the outer case 19 are provided. The hot water storage tank unit is arranged in the vertical direction (vertical direction) so as to be linearly arranged on a plane, and the downstream end of the outward case outer pipe 24a and the upstream end of the return case outer pipe 24b of the hot water circulation pipe 4 are the most. Connected to the connection ports 34a and 34b of the pair of hot and cold water connectors 30A and 30B of the outer case 19 close to the second side, respectively. The upstream end of the return side case outer pipe 24b is connected to the connection port 35b of the hot water connector 30B of the exterior case 19 disposed on the side opposite to the hot water tank unit 2 instead of the connection port 34b. Also good.

  The pipe connection structure for connecting a plurality of heat pump heat source machines 11 to each other is such that the connection ports 35a and 35b of the pair of hot water connection tools 30A and 30B cross between the outgoing heat source machines between the adjacent exterior cases 19. This structure is connected to the connection ports 34a and 34b of a pair of hot and cold water connection tools 30A and 30B adjacent in the vertical direction via a pipe 25a and a return side heat source machine crossing pipe 25b.

  Although not shown in FIG. 4, the connection ports 31 a, 31 b, 32 a, 32 b, 33 a, and 33 b to which no pipe is connected are respectively connected to the forward side heat exchanger pipe 26 a and the return side heat exchange in each outer case 19. Each of the pipes 26b is closed with a blind cover or a plug for closing the flow path inside the pipe 26b. Further, in the heat pump heat source machine 11 at the end opposite to the hot water storage tank unit 2 side, the connection ports 35a and 35b of the pair of hot water connection tools 30A and 30B are similarly closed by blind covers or plugs, respectively. .

  As described above, according to the structure of the second embodiment, a high-capacity hot water supply system 1 in which a plurality of heat pump heat source devices 11 are arranged in the vertical direction (vertical direction) and connected in parallel can be constructed. Other configurations, operations, and effects are the same as those in the first embodiment, and thus description thereof is omitted.

  Next, a description will be given of a third embodiment in which the arrangement structure of the plurality of heat pump heat source devices 11 and the pipe connection structure associated therewith are partially changed. In Example 3, the plurality of heat pump heat source units 11 are arranged such that their rear side surfaces (rear side plates 34) are opposed to each other.

  As shown in FIG. 5, in the heat source unit 3 </ b> B, a plurality of (for example, two) heat pump heat source units 11 are connected to the rear side plates 34 provided with a pair of hot water connectors 30 </ b> A and 30 </ b> B of the outer case 19. Are arranged so as to face each other, and the downstream end of the outward case outer pipe 24a of the hot water circulation pipe 4 is connected to the connection port 33a of the hot water connector 30A of one outer case 19, and the hot water circulation pipe 4 The upstream end of the return-side case outer pipe 24b is connected to the connection port 32b of the hot-water connector 30B of the other exterior case 19, respectively.

  In the pipe connection structure for connecting a plurality of heat pump heat source machines 11 to each other, between the facing cases 19 adjacent to each other, the connection ports 31a of the hot water connection tool 30A are connected via the outgoing heat source machine crossing pipe 25a. The connection ports 31b of the hot-water connector 30B are connected via the return-side heat source unit crossing piping 25b.

  Although not particularly shown in FIG. 5, each connection port to which no pipe is connected is used to block the flow paths inside the forward side heat exchanger pipe 26 a and the return side heat exchanger pipe 26 b in each outer case 19. Each is closed with a blind lid or plug. Further, since the forward-side heat source machine crossing pipe 25a and the return-side heat source machine crossing pipe 25b are composed of flexible flexible pipes, a certain degree of bending is allowable as shown in FIG.

  As described above, according to the structure of the third embodiment, the plurality of heat pump heat source units 11 are arranged such that the side surfaces of the exterior case 19 on which the pair of hot water connectors 30A and 30B are provided face each other. By disposing them, it is possible to easily connect the adjacent heat pump type heat source devices 11 to each other through the existing straight pipe without using a special branch-shaped pipe module. Compared with the case where a module is required, the construction man-hours and the number of parts can be reduced, so that the equipment cost can be reduced.

  Further, the heat source unit 3B is connected to the first case (upstream side) heat pump type heat source unit 11 with the outward case outer pipe 24a and the second case (downstream side) heat pump type heat source with the return side case outer pipe 24b. Since it is configured to be connected to the machine 11, the pipe resistance of the heat source machine unit 3B can be made uniform.

  Further, two heat pump heat source machines 11 are arranged so that the connectors of the outer case 19 are opposed to each other, thereby connecting pipes that connect adjacent heat pump heat source machines 11 (crossing the forward heat source machine) The pipe 25a and the return side heat source machine crossing pipe 25b) can be shortened as much as possible. Other configurations, operations, and effects are the same as those in the first embodiment, and thus description thereof is omitted.

  Next, a description will be given of a fourth embodiment in which the arrangement structure of the plurality of heat pump heat source devices 11 and the pipe connection structure associated therewith are partially changed. In Example 4, the plurality of heat pump heat source devices 11 are arranged in a square shape.

  As shown in FIG. 6, in the heat source unit 3 </ b> C, a plurality of (for example, four) heat pump heat source units 11 are arranged in a matrix of 2 rows and 2 columns (square shape). Two heat pump heat source machines 11 adjacent in the front-rear direction are arranged such that the rear side plates 34 face each other. The downstream end of the outward case outer pipe 24a of the hot water circulation pipe 4 is connected to the connection port 32a of one hot water connection tool 30A of the outer case 19 closest to the hot water storage tank unit 2 side. The upstream end of the return side case outer pipe 24b is connected to the connection port 33b of the other hot water / water connection tool 30B in the outer case 19 closest to the hot water storage tank unit 2 side.

  In the pipe connection structure for connecting the plurality of heat pump heat source machines 11, the connection port 32a of the hot and cold water connection tool 30A is provided between the outer case 19 adjacent in the left-right direction via the forward heat source machine crossing pipe 25a. Connected to the connection port 33a of the adjacent hot water connector 30A, the connection port 32b of the hot water connector 30B is connected to the connection port 33b of the adjacent hot water connector 30B via the return side heat source machine crossing pipe 25b, and a hot water storage tank Between the outer case 19 facing in the front-rear direction opposite to the outer case 19 on the unit 2 side, the connection ports 31a, 31b of the pair of hot water connectors 30A, 30B are connected to the outgoing heat source machine crossing pipe 25a. And the return side heat source machine crossing pipe 25b.

  Although not particularly shown in FIG. 6, the connection port to which no pipe is connected is used to block the flow path inside the forward side heat exchanger pipe 26 a and the return side heat exchanger pipe 26 b in each outer case 19. Closed with a blind lid or plug. Further, since the forward side heat source machine crossing pipe 25a and the return side heat source machine crossing pipe 25b are constituted by flexible flexible pipes, a certain degree of bending is allowable as shown in FIG.

  As described above, according to the structure of the fourth embodiment, the plurality of heat pump heat source machines 11 are straight on the same plane with the side surfaces provided with the pair of hot water connectors 30A and 30B of the outer case 19 on the same plane. The heat pump heat source apparatus 11 adjacent to each other through an existing straight pipe without using a special branch-shaped pipe module, by arranging so as to be lined up side by side or facing each other. Can be easily connected to each other. Therefore, compared with the case where a piping module is required, the number of construction steps and the number of parts can be reduced, so that the equipment cost can be reduced.

  Further, the heat source unit 3C is connected to the first case (the most upstream side) heat pump heat source unit 11 with the outward case outer pipe 24a and the fourth case (the most downstream side) heat pump with the return side outer pipe 24b. Since it comprises so that it may connect with the type | formula heat source machine 11, the piping resistance of 3 C of heat source machine units can be equalized.

  Furthermore, by arranging a plurality of heat pump heat source devices 11 so that the connectors of the outer case 19 face each other, connection pipes connecting adjacent heat pump heat source devices 11 (crossing the forward heat source devices) The pipe 25a and the return side heat source machine crossing pipe 25b) can be shortened as much as possible. Other configurations, operations, and effects are the same as those in the first embodiment, and thus description thereof is omitted.

Next, a mode in which the above embodiment is partially changed will be described.
[1] The structure of the connection ports 31a to 35a and 31b to 35b of the pair of hot and cold water connectors 30A and 30B of the first to fourth embodiments has been described by taking a union joint or a quick detachable joint as an example. It is not necessary to limit to the structure, and various joint structures can be applied as long as the piping portion in the outer case 19 and the piping portion outside the outer case 19 can be connected. Similarly, the forward side case outer pipe 24a and the return side case outer pipe 24b, the forward side heat source machine crossing pipe 25a and the return side heat source machine crossing pipe 25b are not necessarily limited to flexible pipes, and various pipe members are used. Is applicable.

[2] The pair of hot and cold water connectors 30A, 30B of the first to fourth embodiments is provided on the rear side plate 34 of the outer case 19, but it is not necessary to limit to this structure. Any structure may be used provided that it is provided on any one of the side surfaces of the pair of left and right side plates 31, 32, the top plate 35, and the bottom plate 36.

[3] The number and arrangement of the heat pump heat source devices 11 of the first to fourth embodiments are merely an example, and the heat pump heat source device 11 depends on the hot water supply capacity required for the hot water supply system 1. The number and arrangement of these can be changed as appropriate.

[4] In addition, those skilled in the art can implement the present invention by adding various modifications without departing from the spirit of the present invention, and the present invention includes such modifications. It is.

4 Pipe for hot water circulation 11 Heat pump type heat source machine 12 Heat exchanger for absorbing outside air heat (evaporation heat exchanger)
13 Compressor 14 Heat exchanger for hot water heating 15 Expansion valve (expansion means)
16 Refrigerant piping 19 Outer case 30A Outbound hot water / water connection tool 30B Returned hot water / water connection equipment 31a-35a Multiple forward connection ports 31b-35b Multiple return connection ports

Claims (3)

In a heat pump heat source machine comprising a compressor, an evaporative heat exchanger, an expansion means, and a hot water heating heat exchanger in the outer case, and connecting them with a refrigerant pipe,
A hot / cold water connecting tool for connecting a return side and a return side connected to the heat exchanger for hot water heating to the outer case, and at least one pair of hot water connections to which an external hot water circulation pipe is connected Tools are provided,
Each of the pair of hot and cold water connection devices is provided with a plurality of connection ports protruding in directions orthogonal to each other.   The heat pump heat source device according to claim 1, wherein the plurality of connection ports of the hot and cold water connection tool are configured to protrude in five directions orthogonal to each other. The outer case is configured in a rectangular parallelepiped shape,
The heat pump heat source apparatus according to claim 1 or 2, wherein the pair of hot and cold water connection devices are provided on a rear side surface of the exterior case on the outside air intake side.