JP2007263504A - Cogeneration system - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a cogeneration system wherein its planar installation area during construction is small, degree of freedom of installation is high, degree of freedom of selection for capacity of a heat recovery tank is high and client need is satisfied. <P>SOLUTION: In a cogeneration body 100, an engine 1, a generator 2, a heat exchanger 14, a controller 6, a radiator 15 are provided in a frame which has strong mechanical strength and they are stored in a casing consisting of a shell plate. In providing a hot water storing tank 24 and a heat exchanger 25 and the like in the frame having a strong mechanical strength and loading them on a hot water storing tank unit 200 in which they are stored in a casing consisting of a shell plate, frame positions of both of them are specified, both of them are integrally fixed and respective hot water pipes 21, 22 at the cogeneration body 100 side and the hot water storing tank unit 200 side are provided in a manner connectable from a same surface side of the shell plates. <P>COPYRIGHT: (C)2008,JPO&INPIT

Description

  The present invention relates to a structure of a cogeneration apparatus that performs power generation and hot water supply by heat recovery by the power generation.

  There exists invention of patent document 1 as a conventional cogeneration apparatus. In the cogeneration apparatus of Patent Document 1, the power generation side and the heat recovery side are provided and integrated in a single casing, and the flow destination of the three-way valve is switched according to the temperature of the cooling water of the internal combustion engine, and the temperature signal of the temperature sensor Detects the temperature signal of the cooling water and the temperature signal in the hot water tank, and controls the blower and circulation pump in the control unit to avoid inadvertently lowering the temperature of the cooling water and efficiently recover heat. The hot water at a stable temperature can be stored in the hot water tank.

Moreover, there exists invention of patent document 2 as a conventional cogeneration apparatus. That is, the power generation system and the heat recovery system are integrated, a control unit common to the power generation system and the heat recovery system is provided, a heat supply pipe is provided on the outer wall of the hot water tank, and engine cooling water is supplied to the heat supply pipe. It distributes and supplies heat to the hot water tank.
JP 2003-254160 A JP2003-254611

In the cogeneration apparatus of Patent Document 1, the power generation side and the heat recovery side are provided in a single box, and the cogeneration apparatus of Patent Document 2 is common to the power generation side and the heat recovery side. By providing and integrating the control unit, the power consumed in the cogeneration body is suppressed as much as possible to improve the power generation efficiency and the cost.
However, since the power generation side and the heat recovery side of the cogeneration device are provided in a single box, there is a problem that the volume occupied by the device increases and the installation location during construction is restricted. In addition, since the capacity of the heat recovery tank is constant and the application is limited, and the package of the cogeneration device is single, the manufacturing cost for downsizing must be increased.

  Therefore, the present invention has been made to solve such a problem, and the planar installation area at the time of construction is small, the degree of freedom of the installation is high, and the degree of freedom of selection of the capacity of the heat recovery tank is also high. The issue is to provide a cogeneration system that can meet the needs of the past.

A cogeneration apparatus according to claim 1 includes an engine, a generator, a heat exchanger, and a radiator disposed in a frame having strong mechanical strength, and a cogeneration main body formed by housing them in a casing, and a hot water storage tank. In a hot water storage tank unit that is placed in a frame with strong mechanical strength and accommodates them in a housing, the position of both frames is specified when the cogeneration body is loaded on the hot water storage tank unit. And while fixing between both frame members integrally, each of the hot water piping which connects the said cogeneration main body side and the said hot water storage tank unit side is arrange | positioned so that connection is possible from the same surface side.
The cogeneration body includes at least a first housing, a first frame housed in the first housing, and an engine, a generator, a heat exchanger, and a radiator disposed in the first frame. There is no limitation on the structure of the frame and the structure of the housing.
The hot water storage tank unit also includes at least a second casing, a second frame housed in the second housing, and a hot water storage tank disposed in the second frame. The structure of the casing and the frame is not questioned as long as the container is disposed in the frame having a high mechanical strength and is housed in the casing.
In addition, the position specifying means for positioning between the cogeneration main body and the hot water storage tank unit, the position of the frame body when the cogeneration main body is loaded on the hot water storage tank unit, and the two are integrated. What is necessary is just to fix with both bolts, etc. Specifying the position of both frames and fixing them together are not two means having the same function at the same time. What is necessary is just to have a function.
The connecting means for detachably connecting the lower side of the first frame body of the cogeneration body and the upper side of the second frame body of the hot water storage tank unit includes the first frame body of the cogeneration main body and the hot water storage. What is necessary is just to fix mechanically firmly with the said 2nd frame of a tank unit like a volt | bolt nut.
Furthermore, each connection of the hot water piping on the cogeneration main body side and the hot water storage tank unit side constitutes a cogeneration circulation circuit by using the cogeneration main body and the hot water storage tank unit, and the inside of the first housing and the What is necessary is just to be connected by piping between the inside of a 2nd housing. In addition, what is necessary is just to be able to work from the front outer plate (front panel) or the side outer plate (side panel) or a part of the outer plate working door, and is not limited to one outer plate, The thing which can open | release two outer plates may be used. From the viewpoint of workability, it is most preferable that the two outer plates can be opened.

  The position specifying means for positioning between the cogeneration main body and the hot water storage tank unit of the cogeneration apparatus according to claim 2 is performed using an anchor bolt fixing hole in the lower leg of the cogeneration main body. Originally, the anchor bolt fixing hole of the leg is the one for which the mechanical structure has been studied, so that if the frame of the hot water storage tank unit is formed firmly, stable installation becomes possible. Of course, the number of anchor bolt fixing holes does not matter.

The position specifying means for positioning between the cogeneration main body and the hot water storage tank unit of the cogeneration apparatus according to claim 3 has an upper surface of the casing of the hot water storage tank unit projecting upward, Is provided with a knock-out for fixing. Here, the upper surface of the casing of the hot water storage tank unit is convex upward, and the hot water piping and the loading position are fixed there by opening a knockout and connecting between the cogeneration body and the hot water storage tank unit. Since the structure is intended to prevent the rainwater from flowing into the hot water storage tank unit, the structure with the upper surface of the housing of the hot water storage tank unit projecting upward may be a structure that does not allow rainwater to flow in. It does not ask the number of steps.
Here, the knockout is formed in the middle of punching so that it can be easily punched into the target shape by applying external force. The structure is inconspicuous.

According to the cogeneration apparatus of claim 1, a cogeneration main body in which an engine, a generator, a heat exchanger, and a radiator are arranged in a frame having strong mechanical strength, and these are accommodated in a housing, and a hot water storage tank. The hot water storage tank unit, which is placed in a frame body with high mechanical strength and accommodated in the housing, specifies the position of both frame bodies when the cogeneration body is loaded on the hot water storage tank unit. And while fixing between both frame members integrally, each of the hot water piping which connects the said cogeneration main body side and the said hot water storage tank unit side is arrange | positioned so that connection is possible from the same surface side.
Therefore, since the cogeneration body and the hot water storage tank unit have a loading structure, the cogeneration body can be installed even in a limited planar installation space. Moreover, since the said cogeneration main body and the said hot water storage tank unit are manufactured separately and can be combined as needed, arbitrary volumes can be selected and it can respond to a user's needs. In addition, the cogeneration body and the hot water storage tank unit have a loading structure, and when the cogeneration main body is loaded on the hot water storage tank unit, both frame positions are specified and the two are fixed integrally. Therefore, a stable loading state is ensured.

  According to the cogeneration apparatus of claim 2, the position of the frame body provided on the cogeneration main body and the hot water storage tank unit is fixed using the anchor bolt fixing holes on the lower leg of the cogeneration main body. Therefore, in addition to the effect of the first aspect, the cogeneration body is attached using the stable position. If the frame structure of the hot water storage tank unit is robust, stable loading can be secured.

  According to the cogeneration apparatus of claim 3, the frame positions of both of the cogeneration main body and the hot water storage tank unit are specified by making the upper surface of the casing of the hot water storage tank unit convex upward and provided there. Since the connection is made using the knockout, in addition to the effect of the first aspect or the second aspect, the rainwater can be prevented from entering and the connection work can be easily performed.

Hereinafter, embodiments of the present invention will be described with reference to the drawings.
1 is an overall schematic structural diagram of the entire cogeneration apparatus according to Embodiment 1 of the present invention, FIG. 2 is a perspective view of the entire cogeneration apparatus according to Embodiment 1 of the present invention, and FIG. 3 is an embodiment of the present invention. 4 is an exploded perspective view of the cogeneration apparatus according to the first embodiment, FIG. 4 is a schematic structural diagram of the entire internal frame of the cogeneration apparatus according to the first embodiment of the present invention, and FIG. 5 is a cogeneration according to the first embodiment of the present invention. It is principal part sectional drawing which shows the connection state of an apparatus.

  1 to 3, an engine 1 is a gas engine that obtains rotational output by burning gas. The engine 1 is not limited to a gas engine when the present invention is implemented, and may be another engine. The generator 2 directly connected to the engine 1 is a generator that generates an alternating current, and its output passes through the converter 3 and the inverter 4 so as to match the power frequency and power voltage of the commercial power source and supply power to the load. It is a circuit to supply. The control panel 5 monitors the output from the inverter 4 to the load and the operation of each control circuit of the cogeneration apparatus. The converter 3, the inverter 4 and the control panel 5 constitute a control device 6 of the cogeneration device.

  The cooling water pump 12 is a pump that is operated together with a cogeneration operation signal. The exhaust heat exchanger 11 is a heat exchanger that outputs heat energy generated in the engine 1. The switching valve 13 is a mechanical flow control valve in which wax is enclosed and the volume of the wax changes depending on the temperature of the circulating cooling water, and the flow path is automatically selected and formed. The heat exchanger 14 is a heat exchanger for sending the heat in the cogeneration body 100 to the hot water storage tank unit 200, and the cooling water as the refrigerant of the exhaust heat exchanger 11 circulates on the primary side, and the secondary side Is connected to a circulation system that carries heat energy to the hot water storage tank unit 200. When the temperature of the heat exchanger 14 rises above a predetermined temperature, the radiator 15 radiates the heat to the atmosphere with the blower 16.

  As described above, the cogeneration main body 100 (hereinafter simply referred to as “main body 100”) includes the engine 1, the generator 2, the control device 6, the exhaust heat exchanger 11, the cooling water pump 12, the switching valve 13, and the heat. It is comprised by the exchanger 14, the heat radiator 15, the air blower 16, etc. In the present embodiment, the control device 6 has been described as being built in the main body 100. However, when the present invention is implemented, only the control device 6 may be controlled by another control panel. .

The circulation pump 23 of the hot water storage tank unit 200 (hereinafter simply referred to as “tank unit 200”) is a pump that circulates the heat energy exchanged by the heat exchanger 14 in the form of hot water (refrigerant). The hot water pipes 21 and 22 are circulation pipes that circulate the hot water heat-exchanged by the heat exchanger 14 by the circulation pump 23. The hot water storage tank 24 is a container for storing hot water heat-exchanged by the heat exchanger 14 circulated by the circulation pump 23. The heat exchanger 25 is a heat exchanger that heats water for hot water supply, and heat from the hot water storage tank 24 and heat energy exchanged by the heat exchanger 14 act as a heat source.
As described above, the tank unit 200 includes the circulation pump 23, the hot water storage tank 24, the heat exchanger 25, and the like. However, when the present invention is carried out, the circulation pump 23 can be arranged on the main body 100 side. The same applies to the heat exchanger 25.

The main body 100 and the tank unit 200 configured as described above operate as follows.
First, when an operation start signal is output from the control device 6, the engine 1 starts operation, the generator 2 directly connected to the engine 1 is rotated, and the generator 2 performs AC power generation. The AC output of the generator 2 is converted into the power frequency and voltage of the commercial power supply via the converter 3 and the inverter 4 to supply power to the load. At the same time, an operation signal is output to the cooling water pump 12 together with an operation start signal of the engine 1, and the cooling water pump 12 that cools the engine 1 is driven.

When the coolant temperature as the refrigerant heat recovered by the exhaust heat exchanger 11 of the engine 1 is low when the coolant temperature is low, such as when the engine 1 is driven, the switching valve 13 is the temperature of the coolant flowing through the flow line. Automatically selects the flow path of the pipe line, and circulates the cooling water in the bypass pipe line that returns from the switching valve 13 to the cooling water pump 12.
Thereafter, when the temperature of the cooling water rises, the volume of the wax contained therein changes depending on the temperature of the cooling water flowing through the flow pipe, and the cooling water from the heat exchanger 14 via the switching valve 13 is changed by the switching valve 13 in response thereto. A conduit returning to the pump 12 is formed.
When the temperature further rises, the switching valve 13 forms a high-temperature circulation line that returns to the cooling water pump 12 via the heat exchanger 14, the radiator 15, and the switching valve 13. At this time, an operation start signal is output from the control device 6 to the blower 16, and the heat of the radiator 15 is radiated to the atmosphere.

  The refrigerant (hot water) in the hot water storage tank 24 disposed in the tank unit 200 is circulated in the hot water pipe 21, the circulation pump 23, the heat exchanger 25, the hot water storage tank 24, the secondary side of the heat exchanger 14, and the hot water pipe 22. A conduit is formed. Thereby, the heat generated from the engine 1 is recovered by the exhaust heat exchanger 11 by the heat exchanger 14 in the main body 100, and the heat energy is supplied to the hot water storage tank 24 via the heat exchanger 25. Thereby, the exhaust heat generated in the engine 1 can be collected and stored in the hot water storage tank 24.

By opening the hot water supply valve 31 disposed in the hot water supply pipe 33, the hot water supplied from the water supply pipe 32 is exchanged with the hot water in the hot water storage tank 24 by the heat exchanger 25 of the tank unit 200, and then from the hot water supply port. Hot water is supplied as hot water.
After that, when the hot water supply valve 31 is not opened, heat is not exchanged by the heat exchanger 25. Therefore, the heat energy recovered by the exhaust heat exchanger 11 of the engine 1 raises the hot water temperature of the hot water storage tank 24 in the main body 100. As long as electric power is used, heat energy generated in the engine 1 is stored.

The cogeneration apparatus including the main body 100 and the tank unit 200 that operates in this manner has a frame structure as follows.
As shown in FIG. 4, the main body 100 is formed with a frame body inside a casing formed of an outer plate (panel). The frame body has quadrilateral frames 41 and 42 formed on the left and right when viewed from the front, and is connected between the quadrangular frame 41 and the quadrangular frame 42 by a frame plate 44 and a bottom frame plate 43 that require strength. It is increasing.

Similarly, in the tank unit 200, a frame body is formed inside the casing formed by the outer plate. The frame body is formed with quadrilateral frames 51 and 52 on the left and right when viewed from the front. The quadrilateral frame 51 and the quadrangular frame 52 are connected to each other by a strip 53, and each quadrilateral frame is a tank. The strength of the hot water storage tank 24 built in the unit 200 and the weight and vibration of the equipment built in the main body 100 is increased by the bracing bar 54 or the batting bar.
Here, the members constituting the frame are angle steel, I steel, groove steel, Z steel, H steel, lip groove steel, light groove steel, lip Z steel, light square steel, hat shape. One or more types of steel materials such as steel can be used.

The lower members of the rectangular frames 51, 52 of the tank unit 200 are screwed into the nuts welded to the lower members of the rectangular frames 51, 52 from below with the left and right legs 55 on the lower surface of the tank unit 200. It is attached by.
In addition, when fixing the leg 55 of the tank unit 200 shown in figure to the anchor bolt arrange | positioned on the concrete foundation, the front outer plate 20A is removed, and the lower member of the leg 55 and the square frames 51 and 52 is fastened with the anchor bolt. It will be. Although not shown in the drawings, the leg 55 can be made larger than the size of the tank unit 200 and exposed to facilitate tightening with an anchor bolt.

The upper members of the rectangular frames 51 and 52 of the tank unit 200 are attached to the lower members of the rectangular frames 41 and 42 of the main body 100 by screwing bolts 72 into nuts attached to the rectangular frame 51. Also in this connection, the outer plate of the tank unit 200 is processed so that the connection hole can be formed by the knockout 61 so that a predetermined through hole can be easily obtained by applying an external force to the outer plate of the tank unit 200. . The knockout 71 is a power supply wiring intake.
Therefore, the main body 100 and the tank unit 200 can be firmly loaded and mechanically integrated by tightening bolts and nuts. Also, the fastening bolt holes of the rectangular frames 51 and 52 and the rectangular frames 41 and 42 can be exposed outside the sizes of the main body 100 and the tank unit 200 to facilitate the fastening.

As shown in FIG. 1, only the hot water pipes 21 and 22 are mechanically connected and connected to the main body 100 and the tank unit 200.
Therefore, in the present embodiment, among the outer plates constituting the casing of the main body 100, the front outer plate 10A and the left outer plate 10B can be opened and closed, and among the outer plates constituting the casing of the tank unit 200, The front outer plate 20A and the left outer plate 20B are openable and closable.

Therefore, the front outer plate 10A and / or the left outer plate 10B of the main body 100 is opened, and the front outer plate 20A and / or the left outer plate 20B of the tank unit 200 is opened, and the space between the main body 100 and the tank unit 200 is increased. The hot water pipes 21 and 22 are connected to each other.
This connection may be made by using a flexible tube or by a straight joint. Or you may connect between both by setting to the length which has allowances in connection distances, such as a HIVP pipe, a polybutene pipe, and a crosslinked polyethylene pipe.

The main body 100 and the tank unit 200 thus configured can be assembled as follows, as shown in FIG.
First, when the horizontal installation of the tank unit 200 is determined, the legs 55 are fixed to the lower members of the rectangular frames 51 and 52 with nuts by anchor bolts on a concrete foundation (not shown). The legs 55 are placed on a foundation such as concrete. Next, the knockout 61 for passing the hot water pipes 21 and 22 provided on the outer plate on the upper surface of the tank unit 200, the knockout 63 for passing the electrical signal lead wires such as the circulation pump 23, and the rectangular frame of the main body 100 Since the lower members 41 and 42 and the upper members of the rectangular frames 51 and 52 of the tank unit 200 are tightened with bolts 72 and nuts 73, the portions corresponding to the bolt holes drilled in the lower members of the rectangular frames 41 and 42 are provided. A connection hole is formed by applying an external force to the knockout 64. A hot water supply pipe 33 for obtaining hot water from a heat exchanger 25 provided on the left outer plate 20B of the tank unit 200 and a water supply pipe 32 for supplying water are provided.

  In this state, the main body 100 is placed on the tank unit 200. At this time, between the main body 100 and the tank unit 200, when the main body 100 is loaded on the tank unit 200, the bulge (convex) of the upper surface of the tank unit 200 and the lower surface of the main body 100 are fitted, Positioning is in progress. Specifically, the surface provided with the knockout 61 for passing the hot water pipes 21 and 22 on the outer plate of the upper surface of the tank unit 200 and the lead-out wire for the electrical signal of the circulation pump 23, etc. Further, the upper member of the rectangular frame 51, 52 of the tank unit 200 is formed with a connection hole by a knockout 64, so that the bottom of the rectangular frame 41, 42 of the main body 100 is formed. The main body 100 is placed on the tank unit 200 by positioning one or two temporary fastening bolts 72 through the bolt holes of the member.

  Then, four bolts 72 are passed through the bolt holes of the lower members of the rectangular frames 41 and 42 of the main body 100, and the nuts 73 welded to the upper members of the rectangular frames 51 and 52 of the tank unit 200 are tightened and integrated. . And the hot water piping 21 and 22 which connects the tank unit 200 side and the main body 100 side is connected. At the same time, wiring such as lead wires for electrical signals of the circulation pump 23 and the like is performed.

Note that the frame of the main body 100 of the present embodiment, that is, the first frame of the present embodiment is formed with quadrangular frames 41 and 42 on the left and right when viewed from the front. In the embodiment, the bottom frame plate 43 and the frame plate 44 are connected. However, when the present invention is implemented, the structure of the frame body is not questioned.
Also, the frame of the tank unit 200, that is, the second frame of the present embodiment, also has rectangular frames 51 and 52 formed on the left and right when viewed from the front, and between the rectangular frame 51 and the rectangular frame 52, However, when the present invention is carried out, the tank unit 200 does not ask the structure of the frame body.

Moreover, although the housing | casing of the main body 100 of this Embodiment, ie, the 1st frame of this Embodiment, has demonstrated the front outer plate 10A and the left outer plate 10B, when implementing this invention , And at least five outer plates including a front surface, a front surface, a rear surface, and left and right surfaces, and a bottom surface as necessary.
The casing of the tank unit 200 of the present embodiment, that is, the second frame of the present embodiment also describes the front outer plate 20A and the left outer plate 20B. However, when the present invention is implemented, It is composed of at least five outer plates including a top surface, a front surface, a back surface, and left and right surfaces, and a bottom surface as necessary.

  A main body 100 in which at least the engine 1, the generator 2, the heat exchanger 14, the control device 6, and the radiator 15 are arranged in a frame having a high mechanical strength and are housed in a casing made of an outer plate; At least, the hot water storage tank 24 and the heat exchanger 25 are arranged in a frame body having a high mechanical strength, and a tank unit 200 is provided in which they are housed in a casing made of an outer plate. When the main body 100 is loaded on the tank unit 200, both frame positions are specified, the two are fixed together, and the hot water pipes 21 and 22 on the main body 100 side and the tank unit 200 side are removed. It arrange | positions so that connection is possible from the same surface side of a board.

  The cogeneration apparatus of the above embodiment includes a first housing, a first frame housed in the first housing, and an engine 1, a generator 2, a heat exchanger 14, and a radiator disposed in the first frame. 15, a tank unit 200 including a second casing, a second frame housed in the second housing, and a hot water storage tank 24 disposed in the second frame, and the main body 100 as a tank unit. Position specifying means for positioning between the two when mounted on 200, and the lower side of the first frame body of the main body 100 after the relative position between the main body 100 and the tank unit 200 is defined by the position specifying means. A connecting means for detachably connecting the upper side of the second frame body of the tank unit 200 is connected between the main body 100 side and the tank unit 200 side, and the main body 100 and the tank unit 200 are connected together. In the embodiment of the invention, the generator circuit is configured to have a pipe extending between one side inside the first housing and one side inside the second housing. is there.

Here, when the main body 100 of the above embodiment is mounted on the tank unit 200, the position specifying means for positioning between the two has the upper surface of the casing of the tank unit 200 protruding upward, and the hot water pipe 21, 22 and the main body 100 and the tank unit 200 are fixed by opening the knockout 61 and tightening the bolts, so that intrusion of rainwater can be prevented and connection work can be easily performed. That is, the upper surface of the casing of the tank unit 200 is projected upward, and the hot water pipes 21 and 22 and the main body 100 and the tank unit 200 are fixed by opening the knockouts 61, 62, and 63, and connecting the main body 100. The tank unit 200 is designed so that it does not enter the tank unit 200 even if rainwater permeates between the tank unit 200 and the tank unit 200. Any structure that does not flow in may be used.
Moreover, according to the cogeneration apparatus of the said embodiment, since it is the structure which makes the main body 100 and the tank unit 200 separate from each other, it combines and integrates, both can be conveyed separately and can be assembled at a construction site. . It can be easily transported even in a narrow transportation path.

  Then, after the relative position between the main body 100 and the tank unit 200 of the above embodiment is defined, the lower side of the first frame body of the main body 100 and the upper side of the second frame body of the tank unit 200 are detachable. The coupling means for coupling identifies the frame positions of both the main body 100 and the tank unit 200 of the cogeneration apparatus, makes the upper surface of the casing of the tank unit 200 convex upward, and there are hot water pipes 21 and 22 and the main body. After fixing the 100 and the tank unit 200 to the knockout, the bolt is passed through the bolt.

  Further, the main body 100 side and the tank unit 200 side of the above embodiment are connected, and the main body 100 and the tank unit 200 are used to form a cogeneration circuit, and one side inside the first housing of the main body 100 is formed. And the hot water pipes 21, 22, etc., extending between the tank unit 200 and one side inside the second casing of the tank unit 200, are the front skin 10 </ b> A or the left skin 10 </ b> B or a part of those skins. What is necessary is just to be able to work from the work door, and it is not limited to one surface of the outer plate, and it is most preferable that two surfaces of the outer plate can be opened.

Therefore, the frame positions of both the main body 100 and the tank unit 200 are specified by using anchor bolt fixing holes (not shown) that are connected when the main body 100 is originally moved independently. When this is done, the leg (not shown) of the lower part of the main body 100 is originally arranged at the most balanced position, so that the mounting stability is good, and it is not necessary to prepare a separate mounting means, and the working efficiency is good.
Further, since the position specifying means for positioning between the main body 100 and the tank unit 200 is performed using the anchor bolt fixing holes of the legs 55 below the main body 100, the anchor bolt fixing holes of the legs 55 are originally Since the mechanical structure has been studied, if the second frame body of the tank unit 200 is firmly formed, stable installation is possible. And as a position specifying means for positioning between the main body 100 and the tank unit 200, the upper surface of the second housing of the tank unit 200 is convex upward, and the main body 100 is fixed in a state where it is loaded on the tank unit 200. Since the position is formed by the knockout 61, the knockout 61 is opened and connected, and even if rainwater flows between the main body 100 and the tank unit 200, it does not enter the tank unit 200.

  Since the main body 100 and the tank unit 200 have a stacking structure, the cogeneration apparatus of the above embodiment can be installed even in a limited installation space. Moreover, since the main body 100 and the tank unit 200 are manufactured separately, an arbitrary volume can be selected and it can respond to a user's needs. In addition, since the main body 100 and the tank unit 200 have a loading structure, and when the main body 100 is loaded on the tank unit 200, the positions of both frame bodies are specified and the two are fixed integrally. A stable loading state is ensured.

  Furthermore, since the cogeneration apparatus of the above embodiment has a combined heat and power function as a single unit, when a large-capacity hot water storage tank 24 is required, the main body 100 is installed on a concrete foundation in the same manner as a general usage method. The hot water piping may be coupled to a large capacity tank unit 200 installed separately.

  In addition, since the conventional cogeneration apparatus is provided with a hot water storage tank 24 in a single casing, it has a dedicated package structure, and the capacity of the hot water storage tank 24 is also fixed. However, it is difficult to reduce the manufacturing cost by securing the quantity, but the cogeneration apparatus of the above embodiment is used in combination with the main body 100 and the tank unit 200, so that the degree of freedom of selection is increased and the manufacturing is performed. Cost can be reduced.

FIG. 1 is an overall schematic structural diagram of the entire cogeneration apparatus according to Embodiment 1 of the present invention. FIG. 2 is a perspective view of the entire cogeneration apparatus according to Embodiment 1 of the present invention. FIG. 3 is an exploded perspective view of the cogeneration apparatus according to Embodiment 1 of the present invention. FIG. 4 is a schematic structural diagram of the entire internal frame of the cogeneration apparatus according to Embodiment 1 of the present invention. FIG. 5 is a cross-sectional view of a main part showing a connection state of the cogeneration apparatus according to Embodiment 1 of the present invention.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 Engine 2 Generator 6 Control apparatus 14 Heat exchanger 15 Radiator 21, 22 Hot water piping 24 Hot water storage tank 25 Heat exchanger 10A Front outer plate (cogeneration main body)
10B Left skin (cogeneration body)
20A Front skin (for hot water storage tank unit)
20B Left skin (for hot water storage tank unit)
41, 42 square frame (cogeneration body)
43 Bottom frame (cogeneration body)
44 Frame board (cogeneration body)
51,52 square frame (for hot water storage tank unit)
53 Obi (for hot water storage tank unit)
54 Braid (for hot water storage tank unit)
100 Cogeneration body 200 Hot water storage tank unit

Claims (3)

A cogeneration body comprising a first housing, a first frame housed in the first housing, and an engine, a generator, a heat exchanger, and a radiator disposed in the first frame;
A hot water storage tank unit including a second housing, a second frame housed in the second housing, and a hot water storage tank disposed in the second frame body;
Position specifying means for positioning between the two when the cogeneration body is mounted on the hot water storage tank unit;
After the relative position between the cogeneration main body and the hot water storage tank unit is defined by the position specifying means, the lower side of the first frame body of the cogeneration main body and the upper side of the second frame body of the hot water storage tank unit. Connecting means for detachably connecting;
The cogeneration main body side and the hot water storage tank unit side are connected, and the cogeneration main body and the hot water storage tank unit are configured to form a cogeneration circulation circuit, and one side inside the first housing and the side A cogeneration apparatus comprising: a pipe extending between one side of the second casing.   The cogeneration apparatus according to claim 1, wherein the position specifying means for positioning between the cogeneration main body and the hot water storage tank unit is performed using an anchor bolt fixing hole in a lower leg of the cogeneration main body. .   The position specifying means for positioning between the cogeneration main body and the hot water storage tank unit has a housing upper surface of the hot water storage tank unit that protrudes upward, and is fixed in a state where the cogeneration main body is loaded on the hot water storage tank unit. The cogeneration apparatus according to claim 1 or 2, wherein the position to be formed is formed by knockout.

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