JP7038861B2 - Tank unit - Google Patents

Description

The present invention relates to a tank unit provided with a heat insulating cover that insulates a hot water storage tank of a water heater.

The hot water storage tank of the water heater is provided with a heat insulating cover on the upper part of the container so that the temperature of the stored hot water does not drop (see, for example, Patent Document 1). The heat insulating cover of Patent Document 1 has a lid member fitted in an opening provided in the upper part of the foamed heat insulating material in order to allow the pipe connected to the upper end of the hot water storage tank to escape from the upper part.

Japanese Unexamined Patent Publication No. 2017-9216

By the way, in an indoor unit of a water heater having a hot water storage tank, a plurality of pipes are arranged around the hot water storage tank, and these pipes are connected to a hot water storage tank, a heat source unit, a hot water supply destination, or the like. The conventional heat insulating cover is formed so as not to come into contact with the pipe as much as possible so as to avoid the pipe arranged around the hot water storage tank. Therefore, when connecting the pipes arranged around the hot water storage tank to the hot water storage tank or the like, the serviceman or the like must perform the connection work while supporting the pipes.

The present invention has been made to solve the above-mentioned problems, and provides a tank unit that improves work efficiency by facilitating the connection work of pipes arranged around a hot water storage tank. The purpose is to do.

The tank unit according to the present invention includes a hot water storage tank of a water heater mounted on a box body, a plurality of pipes arranged around the hot water storage tank, and a heat insulating cover covering the upper part of the hot water storage tank. The heat insulating cover has an upper surface portion that covers the upper surface of the hot water storage tank, and a tubular side surface portion that is integrally formed with the upper surface portion and covers the upper surface of the side surface of the hot water storage tank. Is provided with a plurality of pipe support portions for individually supporting each of the plurality of the pipes, and the plurality of the pipe support portions are, respectively, a mounting portion on which the pipe is mounted and a mounting portion described above. A wall portion extending from an end portion of the pipe along the extending direction of the pipe and having a side surface support portion with which the side surface of the pipe contacts. It has an upper end portion arranged so as to be provided, and a pipe-side engaging portion connected to the lower end portion of the upper end portion and arranged so as to be in contact with the above-mentioned mounting portion, and has at least one of the plurality of the pipes. One has two upper end portions, and the two upper end portions are connected by the pipe-side engaging portion .

According to the present invention, a plurality of pipe support portions for individually supporting a plurality of pipes arranged around the hot water storage tank are formed on the side surface portion of the heat insulating cover, and the pipe support portions are the mounting portion and the side surface support portion. Since it has and, it is possible to stably support the piping arranged around the hot water storage tank. Therefore, it is possible to facilitate the connection work of the pipes arranged around the hot water storage tank and improve the work efficiency.

It is a perspective view which illustrates the appearance of the indoor unit of the water heater which concerns on embodiment of this invention. It is a perspective view which illustrates the tank unit contained in the casing of the indoor unit of FIG. 1 and the peripheral structure thereof. It is a schematic diagram which illustrates the circuit structure of the indoor unit of the water heater of FIG. It is a perspective view which shows the heat insulation cover of FIG. It is a perspective view which looked at the heat insulating cover of FIG. 4 from another direction. It is a perspective view which looked at the heat insulating cover of FIG. 4 from the other direction. It is a top view of the heat insulation cover of FIG. It is explanatory drawing which shows the procedure of assembling the heat insulating cover and each pipe to the hot water storage tank of FIG. It is explanatory drawing which shows the state of arranging each pipe in the heat insulation cover fitted in the hot water storage tank of FIG.

Embodiment.
FIG. 1 is a perspective view illustrating the appearance of the indoor unit of the water heater according to the embodiment of the present invention. FIG. 2 is a perspective view illustrating the tank unit included in the casing of the indoor unit of FIG. 1 and its peripheral configuration. FIG. 3 is a schematic diagram illustrating the circuit configuration of the indoor unit of the water heater of FIG. The overall configuration of the indoor unit of the water heater in the present embodiment will be described with reference to FIGS. 1 to 3. In FIGS. 1 and 2, the x-axis positive direction is the forward direction, the x-axis negative direction is the backward direction, the y-axis positive direction is the left direction, the y-axis negative direction is the left direction, and the z-axis positive direction is the upward direction. , The negative direction of the z-axis is the downward direction. The same applies to the following figures. Further, when explaining the contents common to each member, the reference numerals may be omitted for convenience.

As shown in FIG. 1, the indoor unit 100 of the water heater has a rectangular parallelepiped casing 5 forming an outer shell, and a plurality of casings 5 on the upper wall portion 5a are arranged around the hot water storage tank 40. A plurality of through holes 5h through which the upper end of the pipe penetrates are formed. The casing 5 is formed of sheet metal and covers the sides and the top of the hot water storage tank 40.

As shown in FIG. 2, the indoor unit 100 has a tank unit 50 and a circuit unit 60 in the casing 5. The tank unit 50 has a hot water storage tank 40 of a water heater, a plurality of pipes arranged around the hot water storage tank 40, and a heat insulating cover 10 that covers the upper part of the hot water storage tank 40. Of the side surfaces of the hot water storage tank 40, the portion not covered by the heat insulating cover 10 is covered with another side cover having heat insulating properties.

1 to 3 illustrate the pipe 1a, the pipe 1b, the pipe 2a, the pipe 2b, the pipe 3a, and the pipe 3b as a plurality of pipes arranged around the hot water storage tank 40. The pipe 1a and the pipe 1b are included in the brine pipe 1 constituting the brine circuit 80. The pipe 2a and the pipe 2b are included in the heat medium pipe 2 constituting the heat medium circuit 90. The pipe 3a is connected to a hot water supply destination such as a shower in the bathroom. The pipe 3b is connected to a water supply source such as a water supply. That is, the hot water in the hot water storage tank 40 is carried to the supply destination through the pipe 3a, and the water is supplied from the supply source into the hot water storage tank 40 through the pipe 3b. The upper ends of the pipe 1a, the pipe 1b, the pipe 2a, the pipe 2b, the pipe 3a, and the pipe 3b are covered with the casing 5 as shown in FIG. Protruding to.

The upper end of the pipe 1a is connected to the geothermal heat exchanger (not shown), and the lower end is connected to the evaporator 74 in the box body 60a. The upper end of the pipe 1b is connected to the geothermal heat exchanger, and the lower end is connected to the pump 81 in the box body 60a. In the pipe 2a, the upper end of the main pipe 2m is connected to a load device (not shown). One of the lower ends of the pipe 2a is connected to the side surface of the hot water storage tank 40 at the connection portion 2x, and the other of the lower ends is connected to the condenser 72 in the box body 60a. One of the lower ends of the pipe 2a is connected to the side surface of the hot water storage tank 40 via a connecting means such as an L-shaped quick fastener.

The upper end of the pipe 2b is connected to the load device. One of the lower ends of the pipe 2b is connected to the side surface of the hot water storage tank 40 at the connection portion 2y, and the other of the lower ends is connected to the pump 91 in the box body 60a. One of the lower ends of the pipe 2b is connected to the side surface of the hot water storage tank 40 via a connecting means such as an L-shaped quick fastener. The upper end of the pipe 3a is connected to the supply destination, and the lower end is connected to the side surface of the hot water storage tank 40 at the connection portion 3x. The upper end of the pipe 3b is connected to the supply source, and the lower end is connected to the side surface of the hot water storage tank 40 at the connection portion 3y.

As shown in FIG. 3, the circuit unit 60 has a box body 60a forming an outer shell, and has a heat source unit 70, a pump 81, and a pump 91 inside the box body 60a. The heat source unit 70 includes a refrigerant circuit 75 in which a compressor 71, a condenser 72, a decompression device 73, and an evaporator 74 are connected by a refrigerant pipe 7 and a refrigerant circulates.

The compressor 71 is driven by, for example, an inverter to compress the refrigerant. The condenser 72 is composed of, for example, a fin-and-tube heat exchanger, and causes heat exchange between the refrigerant flowing through the refrigerant circuit 75 and the heat medium flowing through the heat medium circuit 90. The pressure reducing device 73 includes, for example, an electronic expansion valve, and reduces the pressure of the refrigerant to expand it. The evaporator 74 comprises, for example, a fin-and-tube heat exchanger, and heats is exchanged between the refrigerant flowing through the refrigerant circuit 75 and the brine flowing through the brine circuit 80.

In the present embodiment, the brine circuit 80 is a circuit in which the pump 81, the evaporator 74, and the geothermal heat exchanger are connected to each other via the brine pipe 1, and the brine circulates. That is, in the brine circuit 80, the brine that has been pushed out by the pump 81 and passed through the evaporator 74 flows into the geothermal heat exchanger through the pipe 1a, and the brine that has passed through the geothermal heat exchanger flows into the pump 81. do.

In the present embodiment, in the heat medium circuit 90, the pump 91, the condenser 72, the hot water storage tank 40, and the load device are connected via the heat medium pipe 2, and water or a heat medium which is an antifreeze liquid circulates. It is a circuit to do. As the load device, floor heating or wall heating is assumed. In the heat medium circuit 90, the heat medium extruded by the pump 91 and passed through the condenser 72 branches to the load device side and the hot water storage tank 40 side at the branch portion 2s of the pipe 2a.

The heat medium that has flowed into the load device side from the branch portion 2s flows into the load device from the main pipe 2m of the pipe 2a, and the heat medium that has passed through the load device flows into the pump 91 via the merging portion 2j of the pipe 2b. The pipe 2a has a branch pipe 2n that branches from the main pipe 2m at the diversion portion 2f, and a pressure sensor 28 is provided at the tip of the branch pipe 2n.

The heat medium that has flowed from the branch portion 2s to the hot water storage tank 40 side passes through the internal pipe 2z via the connection portion 2x, flows into the pipe 2b via the connection portion 2y, and flows into the pump 91 via the confluence portion 2j. The white arrows shown in FIG. 3 indicate the flow of the heat medium in the heat medium circuit 90.

The heat insulating cover 10 has an upper surface portion 20 that covers the upper surface of the hot water storage tank 40, and a cylindrical side surface portion 30 that is integrally formed with the upper surface portion 20 and covers the upper surface of the side surface of the hot water storage tank 40. The upper surface portion 20 closes the opening on the upper side of the side surface portion 30. The side of the heat insulating cover 10 facing the hot water storage tank 40 has a shape in which the upper part of the hot water storage tank 40 fits. That is, the shape of the lower side of the heat insulating cover 10 is formed to match the shape of the upper part of the hot water storage tank 40. A foaming agent can be used as the material of the heat insulating cover 10. A plurality of pipe support portions 31 to 36 are formed on the side surface portion 30 to individually support a plurality of pipes arranged around the hot water storage tank 40. The width of the pipe support portion is slightly larger than the pipe diameter of the pipe so that the pipe to be mounted can be accommodated.

FIG. 4 is a perspective view showing the heat insulating cover of FIG. FIG. 5 is a perspective view of the heat insulating cover of FIG. 4 as viewed from another direction. FIG. 6 is a perspective view of the heat insulating cover of FIG. 4 as viewed from another direction. FIG. 7 is a plan view of the heat insulating cover of FIG. FIG. 8 is an explanatory diagram showing a procedure for assembling the heat insulating cover and each pipe to the hot water storage tank of FIG. FIG. 9 is an explanatory diagram showing how each pipe is arranged on the heat insulating cover fitted in the hot water storage tank of FIG. In order to avoid complication of the drawings, detailed reference numerals for the pipes arranged around the hot water storage tank 40 are given only in FIGS. 8 and 9. The shape of the heat insulating cover will be specifically described with reference to FIGS. 4 to 9.

A plurality of pipe support portions 31 to 36 that individually support each of the pipes 1a, 1b, 2a, 2b, 3a, and 3b are formed on the side surface portion 30. The pipe support portion 31 is a portion that supports the pipe 1a, and has a shape that matches the bending of the upper part of the pipe 1a so as to be along the upper part of the pipe 1a. The pipe support portion 32 is a portion that supports the pipe 1b, and has a shape that matches the bending of the upper part of the pipe 1b so as to be along the upper part of the pipe 1b. The pipe support portion 33 is a portion that supports the pipe 2a, and has a shape that matches the bending of the upper part of the pipe 2a so as to be along the upper part of the pipe 2a. The pipe support portion 34 is a portion that supports the pipe 2b, and has a shape that matches the bending of the upper part of the pipe 2b so as to be along the upper part of the pipe 2b. The pipe support portion 35 is a portion that supports the pipe 3a, and has a shape that matches the bending of the upper part of the pipe 3a so as to be along the upper part of the pipe 3a. The pipe support portion 36 is a portion that supports the pipe 3b, and has a shape that matches the bending of the upper part of the pipe 3b so as to be along the upper part of the pipe 3b.

As shown in FIG. 4, the pipe support portion 33 has a mounting portion 33a on which the pipe 2a is mounted, and a side surface support portion 33b adjacent to the mounting portion 33a and in contact with the side surface of the pipe 2a. ing. The side surface support portion 33b is a wall portion extending from an end portion of the mounting portion 33a along the extending direction of the pipe 2a. That is, the side surface support portion 33b is a wall portion extending upward from the mounting portion 33a, and the angle formed with the mounting portion 33a is about 90 degrees. The side surface support portion 33b is formed so that the side surface of the main pipe 2m in the pipe 2a and the side surface of the branch pipe 2n are in contact with each other.

The mounting portion 33a is continuously formed with the upper surface portion 20 and is continuously formed with the back support portion 33hx with which the back surface of the branch pipe 2n of the pipe 2a contacts and the lower end of the back support portion 33hx, and the branch of the pipe 2a is formed. It has a support side engaging portion 33k on which the pipe 2n is placed. The support side engaging portion 33k is a portion that supports the downward load of the pipe 2a. Further, the mounting portion 33a is continuously formed with the lower end of the support side engaging portion 33k, and has a lower support portion 33n that supports the back surface of the pipe 2a. Further, the mounting portion 33a has a back support portion 33hy with which the back surface of the main pipe 2m of the pipe 2a comes into contact.

Here, the back surface of the pipe 2a is the surface on the side where the pipe 2a faces the mounting portion 33a, and the side surface of the pipe 2a is the surface on the side where the pipe 2a faces the side surface support portion 33b. The same applies to the back surfaces and side surfaces of the pipes 1a, 1b, 2b, 3a, and 3b.

As shown in FIG. 7, in the pipe support portion 33, a U-shaped groove portion 33g in a plan view is formed by a part of the back support portion 33hy, a part of the side surface support portion 33b, and the lower support portion 34n. ing. By doing so, since the lower portion of the diversion portion 2f in the main pipe 2m is fitted into the groove portion 33g, the pipe 2a can be supported more stably. In FIG. 7, the support direction, which is the direction in which the overall load of the pipe is applied to each pipe support portion, is indicated by a white arrow.

The pipe support portion 34 has a mounting portion 34a on which the pipe 2b is mounted, and a side surface support portion 34b adjacent to the mounting portion 34a and in contact with the side surface of the pipe 2b. The mounting portion 34a is continuously formed with the upper surface portion 20 and is continuously formed with the back support portion 34h in which the back surface of the pipe 2b contacts and the lower end of the back surface support portion 34h to apply a downward load to the pipe 2b. It has a support side engaging portion 34k and a support side engaging portion 34k. Further, the mounting portion 34a is continuously formed with the lower end of the support side engaging portion 34k, and has a lower support portion 34n that supports the back surface of the pipe 2b. The side surface support portion 34b is a wall portion extending from an end portion of the mounting portion 34a along the extending direction of the pipe 2b. That is, the side surface support portion 34b is a wall portion extending upward from the mounting portion 34a, and the angle formed with the mounting portion 34a is about 90 degrees.

As shown in FIG. 5, the pipe support portion 35 has a mounting portion 35a on which the pipe 3a is mounted, and a side surface support portion 35b adjacent to the mounting portion 35a and in contact with the side surface of the pipe 3a. ing. The mounting portion 35a is continuously formed with the upper surface portion 20 and is continuously formed with the back support portion 35h with which the back surface of the pipe 3a contacts and the lower end of the back support portion 35h to apply a downward load to the pipe 3a. It has a support side engaging portion 35k and a support side engaging portion 35k. Further, the mounting portion 35a is continuously formed with the lower end of the support side engaging portion 35k, and has a lower support portion 35n that supports the back surface of the pipe 3a. The side surface support portion 35b is a wall portion extending from an end portion of the mounting portion 35a along the extending direction of the pipe 3a. That is, the side surface support portion 35b is a wall portion extending upward from the mounting portion 35a, and the angle formed with the mounting portion 35a is about 90 degrees.

The pipe support portion 36 has a mounting portion 36a on which the pipe 3b is mounted, and a side surface support portion 36b adjacent to the mounting portion 36a and in contact with the side surface of the pipe 3b. The mounting portion 36a is continuously formed with the upper surface portion 20 and is continuously formed with the back support portion 36h in which the back surface of the pipe 3b contacts and the lower end of the back support portion 36h to apply a downward load to the pipe 3b. It has a support side engaging portion 36k and a support side engaging portion 36k. Further, the mounting portion 36a is continuously formed with the lower end of the support side engaging portion 36k, and has a lower support portion 36n that supports the back surface of the pipe 3b. The side surface support portion 36b is a wall portion extending from an end portion of the mounting portion 36a along the extending direction of the pipe 3b. That is, the side surface support portion 36b is a wall portion extending upward from the mounting portion 36a, and the angle formed with the mounting portion 36a is about 90 degrees.

As shown in FIG. 6, the pipe support portion 31 has a mounting portion 31a on which the pipe 1a is mounted, and a side surface support portion 31b adjacent to the mounting portion 31a and in contact with the side surface of the pipe 1a. ing. The mounting portion 31a is continuously formed with the upper surface portion 20 and is continuously formed with the back support portion 31h in contact with the back surface of the pipe 1a and the lower end of the back support portion 31h to apply a downward load to the pipe 1a. It has a support side engaging portion 31k and a support side engaging portion 31k. Further, the mounting portion 31a is continuously formed with the lower end of the support side engaging portion 31k, and has a lower support portion 31n that supports the back surface of the pipe 1a. The side surface support portion 31b is a wall portion extending from an end portion of the mounting portion 31a along the extending direction of the pipe 1a. That is, the side surface support portion 31b is a wall portion extending upward from the mounting portion 31a, and the angle formed with the mounting portion 31a is about 90 degrees.

The pipe support portion 32 has a mounting portion 32a on which the pipe 1b is mounted, and a side surface support portion 32b adjacent to the mounting portion 32a and in contact with the side surface of the pipe 1b. The mounting portion 32a is continuously formed with the upper surface portion 20 and is continuously formed with the back support portion 32h in which the back surface of the pipe 1b contacts and the lower end of the back surface support portion 32h to apply a downward load to the pipe 1b. It has a support side engaging portion 32k and a support side engaging portion 32k. Further, the mounting portion 32a is continuously formed with the lower end of the support side engaging portion 32k, and has a lower support portion 32n that supports the back surface of the pipe 1b. The side surface support portion 32b is a wall portion extending from an end portion of the mounting portion 32a along the extending direction of the pipe 1b. That is, the side surface support portion 32b is a wall portion extending upward from the mounting portion 32a, and the angle formed with the mounting portion 32a is about 90 degrees.

As shown in FIGS. 8 and 9, the pipe 1a, the pipe 1b, the pipe 2a, the pipe 2b, the pipe 3a, and the pipe 3b are engaged on the pipe side connected to the upper end portion 4a and the lower end portion of the upper end portion 4a, respectively. It has a part 4b and. The pipe-side engaging portion 4b of each pipe is mounted on the support-side engaging portion of the mounting portion, respectively.

More specifically, the upper end portion 4a of the pipe 1a is arranged so that the side surface is in contact with the side surface support portion 31b, and the pipe side engaging portion 4b of the pipe 1a is arranged so as to be in contact with the mounting portion 31a. .. The upper end portion 4a of the pipe 1b is arranged so that the side surface thereof contacts the side surface support portion 32b, and the pipe side engaging portion 4b of the pipe 1b is arranged so as to contact the mounting portion 32a.

The pipe 2a has an upper end portion 4a in each of the main pipe 2m and the branch pipe 2n. Each of the two upper end portions 4a is arranged so that the side surface is in contact with the side surface support portion 33b, and is connected by the piping side engaging portion 4b. The pipe-side engaging portion 4b is arranged so as to come into contact with the mounting portion 33a.

The upper end portion 4a of the pipe 2b is arranged so that the side surface thereof contacts the side surface support portion 34b, and the pipe side engaging portion 4b of the pipe 2b is arranged so as to contact the mounting portion 34a. The upper end portion 4a of the pipe 3a is arranged so that the side surface thereof contacts the side surface support portion 35b, and the pipe side engaging portion 4b of the pipe 3a is arranged so as to contact the mounting portion 35a. The upper end portion 4a of the pipe 3b is arranged so that the side surface thereof contacts the side surface support portion 36b, and the pipe side engaging portion 4b of the pipe 3b is arranged so as to contact the mounting portion 36a.

Here, with reference to FIGS. 8 and 9, a procedure for attaching the heat insulating cover 10 and each pipe to the hot water storage tank 40 will be described.

First, as shown in FIG. 8, the heat insulating cover 10 is arranged on the upper part of the hot water storage tank 40, and as shown by the arrow (1), the heat insulating cover 10 is fitted on the upper part of the hot water storage tank 40, as shown in FIG. Make it in a good state.

Then, as shown in FIG. 9, each pipe is arranged in the upper part or the vicinity of the corresponding pipe support portion. Then, as shown by the arrow (2), each pipe is brought into contact with each pipe support portion to be supported. Actually, each pipe is placed on the pipe support portion of the heat insulating cover 10 one by one. At that time, the lower end of the pipe placed on the pipe support portion is connected to the hot water storage tank 40 or the like.

That is, after the pipe 1a is supported by the pipe support portion 31, the lower end is connected to the evaporator 74 and the upper end is connected to the geothermal heat exchanger. After the pipe 1b is supported by the pipe support portion 32, the lower end is connected to the pump 81 and the upper end is connected to the geothermal heat exchanger. After the pipe 2a is supported by the pipe support portion 33, one of the lower ends is connected to the side surface of the hot water storage tank 40 at the connection portion 2x, and the other of the lower ends is connected to the condenser 72. Further, in the pipe 2a, the upper end of the main pipe 2m is connected to the load device.

After the pipe 2b is supported by the pipe support portion 34, one of the lower ends is connected to the side surface of the hot water storage tank 40 at the connection portion 2y, and the other of the lower ends is connected to the pump 91. Further, the upper end of the pipe 2b is connected to the load device. After the pipe 3a is supported by the pipe support portion 35, the lower end is connected to the side surface of the hot water storage tank 40 at the connection portion 3x, and the upper end is connected to the supply destination. After the pipe 3b is supported by the pipe support portion 36, the lower end is connected to the side surface of the hot water storage tank 40 at the connection portion 3y, and the upper end is connected to the supply source.

As described above, in the heat insulating cover 10 of the present embodiment, a plurality of pipe support portions 31 to 36 that individually support the plurality of pipes are formed on the side surface portions 30. Since each of the plurality of pipe support portions 31 to 36 has a mounting portion and a side surface support portion, each pipe arranged around the hot water storage tank 40 can be stably supported. Therefore, it is possible to facilitate the connection work of the pipes arranged around the hot water storage tank 40 and improve the work efficiency. That is, conventionally, the pipe is fixed around the heat insulating cover by using a binding member such as a binding band to perform the connecting work, but the heat insulating cover 10 of the present embodiment has a plurality of pipe support portions. , Each pipe can be stably supported without using a binding member. The heat insulating cover 10 is less likely to come off in the upward direction due to the weight of the pipes mounted on the mounting portions 31a to 36a.

Further, the mounting portions of the plurality of pipe support portions 31 to 36 are formed continuously with the upper surface portion 20, respectively, and the back support portion with which the back surface of each pipe contacts and the support side engaging portion on which each pipe is mounted. And have. Therefore, since the back surface of each pipe can be supported from two directions, each pipe can be supported more stably in combination with the action of the support side engaging portion.

In addition, the mounting portions of the plurality of pipe support portions 31 to 36 are continuously formed with the lower ends of the support side engaging portions, and have a lower support portion that supports the back surface of each pipe. Therefore, by supporting the back surface of each pipe at three points, each pipe can be supported more stably. However, some of the plurality of pipe support portions 31 to 36 may not have a lower support portion, and all the mounting portions of the plurality of pipe support portions 31 to 36 have a lower support portion. You don't have to.

The heat insulating cover 10 is formed with at least one pipe support portion at each of the side surface portions 30 facing each other. The heat insulating cover 10 in the present embodiment is arranged so that the pipe support portions 31 and 32 and the pipe support portions 35 and 36 face each other. Further, the pipe support portion 33 is arranged so as to face the pipe support portions 35 and 36. By doing so, the heat insulating cover 10 can be sandwiched by the pipes, so that the heat insulating cover 10 can be stably supported.

The heat insulating cover 10 has a support direction of at least one pipe support portion and a support direction of the other at least one pipe support portion when the direction in which the entire pipe load is applied to the pipe support portion is defined as the support direction. , Are configured to intersect each other. In the heat insulating cover 10 of the present embodiment, for example, the support directions of the pipe support portions 31 and 32 and the support directions of the pipe support portions 35 and 36 intersect with each other. Further, the support direction in the pipe support portion 33 intersects with the support direction in the pipe support portions 31 and 32, and also intersects with the support direction in the pipe support portions 35 and 36. In addition, the support direction in the pipe support portion 34 intersects with the support direction in the pipe support portions 31 and 32, and also intersects with the support direction in the pipe support portions 35 and 36.

In this way, by forming a plurality of pipe support portions so that various support directions are combined and arranging the plurality of pipe support portions in a well-balanced manner, rotation of the heat insulating cover 10 in the circumferential direction is suppressed, and the heat insulating cover 10 is arranged. Can be supported more stably. That is, the fixing strength of the heat insulating cover 10 can be increased by arranging the pipes in the pipe support portions so that the support directions of one pipe support portion and the support directions of the other pipe support portions intersect each other. can. The heat insulating cover 10 in the present embodiment is formed so that the support direction in each pipe support portion is directed toward the central portion of the heat insulating cover 10.

In the heat insulating cover 10, two or more pipe support portions of the plurality of pipe support portions 31 to 36 are adjacent to each other and are formed in parallel. In the heat insulating cover 10 of the present embodiment, the pipe support portion 31 and the pipe support portion 32 are formed adjacent to each other in parallel, and the pipe support portion 35 and the pipe support portion 36 are formed adjacent to each other in parallel. By doing so, many pipes can be stably arranged around the hot water storage tank 40. However, in the present embodiment, an example in which two pipe support portions are formed adjacent to each other in parallel is illustrated, but the present invention is not limited to this, and the heat insulating cover 10 is formed in parallel with three or more. It may have a pipe support portion.

The plurality of pipes of the tank unit 50 are connected to the upper end portion 4a arranged so that the side surface is in contact with the side surface support portion and the lower end portion of the upper end portion 4a, respectively, and are arranged so as to be in contact with the mounting portion. It has a side engaging portion 4b and. That is, each of the plurality of pipes of the tank unit 50 has a bent upper portion, and each pipe support portion is dug according to the bent shape. Therefore, each pipe is stably supported by each pipe support portion.

Further, the plurality of pipe support portions 31 to 36 of the heat insulating cover 10 each have a shape that matches the bending shape of the upper end portion 4a and the pipe side engaging portion 4b of each pipe. The bent shapes of the plurality of pipes arranged around the hot water storage tank 40 are different from each other. Therefore, since the correspondence between each pipe and each pipe support portion can be grasped at a glance, it is possible to easily distinguish which pipe is arranged in which pipe support portion. That is, when assembling the tank unit 50, each pipe can be easily arranged at the correct position by comparing the upper part of the pipe with the shape of the pipe support portion formed on the heat insulating cover 10.

Further, the pipe 2a has two upper end portions 4a, and these two upper end portions 4a are connected by a pipe side engaging portion 4b. Therefore, in the state where the pipe 2a is placed on the pipe support portion 33, the upper end portion 4a of the main pipe 2m is supported by the back support portion 33hy, the lower support portion 33n, and the side surface support portion 33b, and the upper end portion 4a of the branch pipe 2n is supported. Is supported by the back surface support portion 33hx and the side surface support portion 33b. In addition, in the pipe 2a, the pipe-side engaging portion 4b engages with the support-side engaging portion 33k. Therefore, the pipe 2a can be stably supported by the pipe support portion 33. In the above embodiment, only the pipe 2a is exemplified as the pipe having the two upper end portions 4a, but the tank unit 50 is not limited to this, and the tank unit 50 has a plurality of pipes having the two upper end portions 4a. May be good.

Further, in the tank unit 50, the lower end of at least one of the plurality of pipes is connected to the side surface of the hot water storage tank 40. In the present embodiment, one of the lower ends of the pipe 2a and one of the lower ends of the pipe 2b are connected to the side surface of the hot water storage tank 40. The pipe 2a and the pipe 2b extend upward along the side surface of the hot water storage tank 40, and the upper portion is supported by the pipe support portion. Therefore, unlike the heat insulating cover of Patent Document 1, it is not necessary to provide a large opening in the central portion through which a plurality of pipes can pass together. That is, since it is not necessary to separately create the heat insulating cover for the foamed heat insulating material and the lid member, the heat insulating cover can be easily formed by adopting the configuration of the present embodiment.

The above embodiments are suitable specific examples of the heat insulating cover and the tank unit, and the technical scope of the present invention is not limited to these embodiments. For example, in the above embodiment, an example in which six pipes are arranged around the hot water storage tank 40 is shown, but the present invention is not limited to this. In the tank unit 50, the number of pipes arranged around the hot water storage tank 40 may be 2 or more and 5 or less, or 7 or more. In addition, the shape of the pipe support portion is not limited to the shape illustrated in each figure, and can be appropriately changed according to the upper shape of each pipe. However, the pipe support portion is configured to have a mounting portion and a side surface support portion.

Further, FIG. 1 shows an example in which one of the lower ends of the pipe 2b is directly connected to the side surface of the hot water storage tank 40, but the present invention is not limited to this, and one of the lower ends of the pipe 2b is provided separately. It may be connected to the side surface of the hot water storage tank 40 via a heat exchanger such as a refrigerant circuit. Similarly, one of the lower ends of the pipe 2a may be connected to the side surface of the hot water storage tank 40 via a heat exchanger such as a separately provided refrigerant circuit. As the heat medium for circulating the brine circuit 80, a heat medium other than brine such as water may be adopted.

1 Brine pipe, 1a, 1b, 2a, 2b, 3a, 3b pipe, 2 Heat medium pipe, 2f diversion part, 2j condensing part, 2m main pipe, 2n branch pipe, 2s branch part, 2x, 2y, 3x, 3y connection part , 2z internal piping, 4a upper end, 4b piping side engagement, 5 casing, 5a upper wall, 5h through hole, 7 refrigerant piping, 10 insulation cover, 20 top surface, 28 pressure sensor, 30 side surface, 31 ~ 36 Piping support part, 31a to 36a mounting part, 31b to 36b side support part, 31h, 32h, 33hx, 33hy, 34h to 36h back support part, 31k to 36k support side engaging part, 31n to 36n lower support part, 33g groove, 40 hot water storage tank, 50 tank unit, 60 circuit, 60a box, 70 heat source, 71 compressor, 72 condenser, 73 decompressor, 74 evaporator, 75 refrigerant circuit, 80 brine circuit, 81, 91 Pump, 90 heat medium circuit, 100 indoor unit.

Claims (8)

The hot water storage tank of the water heater placed on the box and
With a plurality of pipes arranged around the hot water storage tank,
A heat insulating cover that covers the upper part of the hot water storage tank is provided.
The heat insulating cover is
An upper surface portion that covers the upper surface of the hot water storage tank and
It has a cylindrical side surface portion that is integrally formed with the upper surface portion and covers the upper part of the side surface of the hot water storage tank.
On the side surface,
A plurality of pipe support portions for individually supporting each of the plurality of the pipes are provided.
Each of the plurality of pipe supports
The mounting part on which the piping is mounted and
It has a wall portion extending from an end portion of the above-mentioned mounting portion along the extending direction of the pipe, and a side support portion with which the side surface of the pipe is in contact.
Each of the plurality of said pipes
An upper end portion whose side surface is arranged so as to be in contact with the side surface support portion,
It has a pipe-side engaging portion that is connected to the lower end of the upper end portion and is arranged so as to be in contact with the above-mentioned mounting portion.
At least one of the plurality of said pipes has two said said upper ends.
A tank unit in which the two upper end portions are connected by the piping side engaging portion. The tank unit according to claim 1, wherein each of the plurality of pipe support portions has a shape that matches the bending shape of the upper end portion of each pipe and the pipe-side engaging portion. The tank unit according to claim 1 or 2 , wherein at least one of the plurality of pipes has a lower end connected to a side surface of the hot water storage tank. The previously described portions of the plurality of pipe support portions are, respectively.
A back support portion that is continuously formed with the upper surface portion and is in contact with the back surface of the pipe,
The tank unit according to any one of claims 1 to 3 , further comprising a support-side engaging portion that is continuously formed with the lower end of the back support portion and supports a load downward of the pipe. At least one of the above-mentioned piping support portions has the above-mentioned pre-existing portion.
The tank unit according to claim 4 , wherein the tank unit is formed continuously with the lower end of the support side engaging portion and has a lower support portion that supports the back surface of the pipe. The tank unit according to any one of claims 1 to 5 , wherein at least one of the pipe support portions is formed at each of the side surface portions facing each other. When the direction in which the entire load of the pipe is applied to the pipe support portion is defined as the support direction.
The tank unit according to any one of claims 1 to 6 , wherein the support direction of at least one of the pipe support portions and the support direction of the other at least one of the pipe support portions intersect with each other. .. The tank unit according to any one of claims 1 to 7 , wherein two or more of the pipe support portions are adjacent to each other and formed in parallel.

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