JP5195268B2 - Hot water storage tank unit - Google Patents

Description

  The present invention relates to a hot water storage tank unit having a hot water storage tank for storing high-temperature hot water boiled by a heat source.

  In a hot water storage tank unit having a hot water storage tank for storing high-temperature hot water, various heat insulating materials such as glass wool heat insulating material, foamed heat insulating material, and vacuum heat insulating material are used as heat insulating materials for the hot water storage tank in order to improve heat retaining performance.

  Further, in order to confirm the amount of hot water stored in the hot water storage tank, a plurality of temperature thermistors are provided in the height direction of the hot water storage tank, and the remaining hot water amount in the hot water storage tank is detected based on the temperature detected by the temperature thermistor.

In the conventional hot water storage tank with the above configuration, considering the maintainability of the temperature thermistor for detecting the amount of hot water, a heat insulating part covering the temperature thermistor is attached with a removable lid, or the hot water storage tank is a vacuum heat insulating material. In addition to covering only the temperature thermistor parts placed above and below with foam insulation, cut the thermal insulation of the part with a cutter knife etc. so that you can inspect and remove the temperature thermistor, The temperature thermistor can be maintained by cutting off a part of the heat insulating material (see, for example, Patent Document 1).
JP 2007-183052 A

  However, in the configuration in which the foamed heat insulating material is cut with a cutter knife or the like during the maintenance as in the conventional configuration, a tool such as a cutter knife must be used, and in particular, the temperature thermistor must be replaced. However, if the mounting state is simply confirmed, the temperature thermistor may be damaged by a tool such as a cutter knife, which makes it impossible to reuse the temperature thermistor.

  In addition, in a configuration where a removable lid for another part is attached, damage to the temperature thermistor due to tools during maintenance can be prevented, but the number of parts at the time of assembly increases, reducing the manufacturing cost. It would be expensive.

  The present invention solves the above-described conventional problems, and an object thereof is to provide a hot water storage tank unit that improves the maintainability of the thermistor provided in the hot water storage tank.

  In order to solve the above-mentioned conventional problems, a hot water storage tank unit of the present invention includes a hot water storage tank for storing high-temperature hot water, a plurality of remaining hot water temperature detecting means arranged in the height direction of the hot water storage tank, and remaining hot water temperature detection. With the foam insulation that covers the means, the maintenance part is provided in the foam insulation at the position facing the remaining hot water temperature output means, and the periphery of the maintenance part is thinned, so that the operator does not use a tool, By applying an external force to the maintenance part, the maintenance part can be separated from the foamed heat insulating material, so that the maintainability can be improved without increasing the number of parts.

  The present invention can provide a hot water storage tank unit that improves the maintainability of the thermistor provided in the hot water storage tank.

  A hot water storage tank unit according to a first aspect of the present invention includes a hot water storage tank for storing high temperature hot water, a plurality of remaining hot water temperature detecting means arranged in a height direction of the hot water storage tank, and a foam heat insulating material covering the remaining hot water temperature detecting means. By providing a maintenance section on the foam insulation at a position facing the remaining hot water temperature output means, and reducing the thickness of the area around the maintenance section, the operator can apply external force to the maintenance section without using a tool. Since the maintenance part can be separated from the foam heat insulating material, the maintainability can be improved without increasing the number of parts.

  The hot water storage tank unit of the second invention is a part of the thin foam insulation material, particularly in the first invention, and after the maintenance section is separated from the foam insulation material, the maintenance section can be fitted into the foam insulation material. By being configured, it is possible to attach the foam heat insulating material without impairing the heat retaining performance by fitting even after maintenance.

  The hot water storage tank unit according to the third aspect of the present invention, in particular, in the first or second aspect of the invention, stores the remaining hot water temperature detecting means in the space portion by providing the space portion at a position facing the hot water storage tank of the maintenance portion. Therefore, in order to improve the heat retaining performance, the maintenance section can be pushed in so that the maintenance section and the hot water storage tank are brought into contact with each other.

  In the hot water storage tank unit of the fourth invention, in particular in the first to third inventions, by providing a concave shape and / or a convex shape on the surface of the maintenance portion, an operator can easily apply an external force to the maintenance portion. It can be pulled out with a concave shape and / or a convex shape.

  The hot water storage tank unit of the fifth aspect of the invention is particularly the first to fourth aspects of the invention, by providing the guide part describing the method of removing the maintenance part on the surface of the maintenance part or the foam insulation around the maintenance part, It is possible to easily determine the work contents without looking at the manual or the like at the work site.

  In the hot water storage tank unit of the sixth invention, in particular in the first to fifth inventions, the maintenance section is provided with a charging port for charging the material at the time of molding the foam heat insulating material. Since it can be easily turned, the thinned portion for removal can be more stably thinned, and the maintenance portion can be removed more easily.

  Hereinafter, embodiments of the present invention will be described with reference to the drawings. Note that the present invention is not limited to the embodiments.

(Embodiment 1)
FIG. 1 shows an exploded configuration diagram of a hot water storage tank unit according to an embodiment of the present invention. However, although it originally has piping for supplying high-temperature hot water from the hot water storage tank to the hot water supply terminal, details of the piping and functional parts are not shown in order to make the explanation of the present invention easier to understand.

  In FIG. 1, a hot water storage tank 1 for storing high temperature hot water and a plurality of temperature thermistors 3 as remaining hot water temperature detecting means provided for measuring the temperature of hot water stored in the hot water storage tank 1 are provided. The temperatures detected by the plurality of temperature thermistors 3 are transmitted to control means (not shown) provided in the hot water storage tank unit via the electric wires 3. And the temperature of the hot water stored in the hot water storage tank 1 is detected by making the temperature thermistor 3 contact the surface of the hot water storage tank 1, and the amount of remaining hot water is measured.

  Further, the hot water storage tank 1 is entirely covered with a heat insulating material 4 in order to improve the heat insulation performance of the hot water stored therein. And the heat insulating material 4 has the front heat insulating material 41 which has covered the front side which is a maintenance surface of a hot water storage tank, and is comprised from a foam heat insulating material. A plurality of temperature thermistors 3 are provided between the front heat insulating material 41 and the hot water storage tank 1.

  The heat insulating material 4 includes an upper surface heat insulating material 42 and a lower surface heat insulating material 43 that cover the upper and lower curved surface portions of the hot water storage tank 1, and covers the curved surface portion of the hot water storage tank 1. Therefore, it is necessary to dispose a heat insulating material along the surface, so that a foam heat insulating material is adopted for ease of processing. Furthermore, the heat insulating material 4 has a body heat insulating material 44 covering the periphery of the body of the hot water storage tank 1, and a vacuum heat insulating material with high heat insulating performance is employed. By adopting vacuum heat insulating material, the width direction of the hot water storage tank unit is suppressed and the size is reduced.

  As described above, in the present embodiment, the foam heat insulating material and the vacuum heat insulating material are used in combination, but the present invention is not limited to this. For example, glass wool heat insulating material is used instead of the vacuum heat insulating material. There is no problem.

  Various pipings and functional parts (not shown) are disposed outside the hot water storage tank 1 covered with the heat insulating material 4 and are particularly easy to maintain. It is installed.

  Further, the casing of the hot water storage tank unit includes a top plate 5 constituting the top, a right side plate 6 constituting the right side, a left side plate 7 constituting the left side, a front plate 8 constituting the front side, and a rear side. The rear plate 9 and the bottom plate 10 constituting the bottom portion.

  Next, the configuration of the front heat insulating material 41 will be described. FIG. 2 is a perspective view of the front heat insulating material 41, and FIG. 3 is a diagram showing an arrangement position of a maintenance unit provided on the front heat insulating material 41. As shown in FIGS. 2 and 3, the maintenance unit 11 is provided at a position facing the temperature thermistor 2 and integrally molded with the front heat insulating material 41. In the present embodiment, one maintenance unit 11 is provided for one temperature thermistor, but one maintenance unit is provided for two temperature thermistors, or one maintenance unit for three temperature thermistors. May be provided.

  FIG. 4 is an enlarged view of part A. As shown in FIG. 4, in the present embodiment, when the maintenance unit 11 is separated from the front heat insulating material 41, a concave shape 16 is provided so that an operator can easily pull the maintenance unit 11, and further, a maintenance having a thin portion around the maintenance unit 11. In order to easily form the portion 11, a material inlet 15 for the foam heat insulating material is provided. Moreover, the guide part 17 which has posted the work content to an operator is provided.

  FIG. 5 is a cross-sectional view taken along the line BB, and FIG. As shown in FIG. 5, the thin portion 12 is provided over the entire circumference of the maintenance portion 11 by forming a groove shape from both the front surface and the back surface of the hot water storage tank side. In other words, the thickness of the thin wall portion 12 is configured to be thinner than the thickness of the other heat insulating material other than the heat insulating material forming the maintenance portion 11, and the worker can easily pull the maintenance portion 11 at the work site. As shown in FIG. 6, the maintenance unit 11 can be taken out from the front heat insulating material 41.

  In addition, although the thickness dimension of the thin portion 12 is not specified, for example, the maintenance portion 11 can be pulled by hand without using a tool by setting the thickness so that two to three foamed particles are included, The maintenance part 11 can be easily broken at the thin part 12 and can be removed by simply pushing it in.

  And after removing the maintenance part 11 from the front heat insulating material 41 and performing the maintenance of the temperature thermistor 3 as shown in FIG. 6, the maintenance part 11 is pushed into the back of the place where it was originally attached, and maintenance is performed. The periphery of the widest portion of the portion 11 is fitted into the gap without any gap by elastically deforming the periphery of the narrowest portion of the takeout port 21 formed in the foam heat insulating material 11 by removing the maintenance portion 11. It is configured to be possible.

  Further, the shape of the groove shape formed from the front surface and the back surface is not limited, but as shown in FIG. 5, the groove on the front surface (maintenance side) and the groove on the back surface (hot water storage tank side) are provided offset. Thus, when the width Ho on the front side of the maintenance section 11 and the width Hu on the back side are compared, a groove shape is formed such that Ho> Hu. As a result, as shown in FIG. 6, the relationship between the narrowest portion Ht of the take-out port 21 formed in the foam heat insulating material 11 and the widest portion Hm of the maintenance unit 11 is Hm ≧ Ht. As a result, they are elastically deformed to each other and can be fitted with no gap as shown in FIG. That is, heat dissipation can be suppressed by eliminating the gap.

  Moreover, as shown in FIG. 6, a space 22 is provided on the hot water storage tank side of the maintenance unit 11. For this reason, after the maintenance of the temperature thermistor 3, the temperature thermistor 3 is accommodated in the space 22 when the maintenance part 11 is pushed in and fitted into the takeout port 21. Therefore, an excessive load is not applied to the temperature thermistor 3 even after maintenance.

  Here, since the thin portion 12 is provided in the present embodiment, it is difficult to fill the periphery thereof, and there is a possibility that the maintenance portion 11 surrounded by the thin portion 12 is not sufficiently filled with the material. is there. Therefore, the temperature thermistor maintenance unit 11 is provided with a material input port 15 for supplying the material of the foamed heat insulating material. Thereby, since the material easily reaches the thin-walled portion 12 including the maintenance portion 11, it is possible to prevent a defect such as insufficient filling.

  The material inlet 15 is provided in each of the maintenance units 11 provided for each temperature thermistor, and the material inlet for forming the front heat insulating material 41 other than the maintenance unit 11 is provided in a place other than the maintenance unit 11. It has been. By providing a plurality of material inlets in this manner, even if the thin portion 12 is present, all of the material can be filled, so that a very stable front heat insulating material 41 can be made.

  Further, a concave shape 16 for taking out is provided on the surface (maintenance side) of the maintenance unit 11. In the embodiment of the present invention, the temperature thermistor maintenance part 11 pushed in to be removed at the time of maintenance is in a state of being fixed to the foam molded heat insulating material by the fitting part 12. Therefore, the maintenance part 11 can be easily pulled out and removed by grasping the concave shape 16 for removal without an operator using a tool or the like.

  Although the concave shape is provided in the present embodiment, there is no problem as long as it is a shape that can be easily grasped by an operator, even if it is a convex shape or an uneven shape. Furthermore, the shape of the maintenance unit 11 is not limited, and may be configured in any shape and region as long as the temperature thermistor 3 can be maintained when the maintenance unit 11 is removed.

  Furthermore, according to the embodiment of the present invention, a marking that is a guide part indicates that the tool can be removed by pushing it into the surface (maintenance surface) of the maintenance unit 11 or the surface of the front heat insulating material 41 (maintenance surface) around it. Displayed and explained by the unit 17.

  If the operator misunderstands the work contents as before, there is a possibility that the tool may be cut with a tool such as a cutter knife. Therefore, in order to avoid such a situation, by providing a guide unit, the worker who performs maintenance can easily determine the work contents without looking at the manual or the like.

  As described above, the hot water storage tank unit of the present invention is provided with the maintenance unit 11 that can be easily removed from the heat insulating material on the maintenance side so that the maintenance of the temperature thermistor 3 can be easily performed. The temperature thermistor 3 can be maintained without being used, and the temperature thermistor 3 is not accidentally damaged.

  In the hot water storage tank unit according to the present invention, various heat sources such as a heat pump cycle and an electric heater can be used as a heat source for boiling hot water in the hot water storage tank to a high temperature.

The block diagram of the hot water storage tank unit in Embodiment 1 of this invention The perspective view of the front heat insulating material in Embodiment 1 Installation diagram of the maintenance unit in the first embodiment Enlarged view of part A in the first embodiment BB sectional view in the first embodiment BB cross-sectional view in the first embodiment BB cross-sectional view in the first embodiment

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 Hot water storage tank 2 Electric wire 3 Temperature sensor 4 Heat insulating material 5 Top plate 6 Right side plate 7 Left side plate 8 Front plate 9 Rear plate 10 Bottom plate 11 Maintenance part 12 Thin part 15 Material inlet 16 Concave shape 17 Guide part 21 Outlet 22 Space part 41 Front heat insulating material 42 Upper heat insulating material 43 Lower heat insulating material 44 Body heat insulating material

Claims (6)

A hot water storage tank for storing high-temperature hot water, a remaining hot water temperature detecting means provided in a plurality in the height direction of the hot water storage tank, and a foamed heat insulating material covering the residual hot water temperature detecting means; A hot water storage tank unit characterized in that a maintenance part is provided in the foamed heat insulating material at a position opposite to the maintenance part, and the periphery of the maintenance part is thinned. The thinned foam heat insulating material is configured such that, after the maintenance portion is separated from the foam heat insulating material, the maintenance portion can be fitted into the foam heat insulating material. Hot water storage tank unit. The hot water storage tank unit according to claim 1 or 2, wherein a space portion is provided at a position of the maintenance unit facing the hot water storage tank. The hot water storage tank unit according to any one of claims 1 to 3, wherein a concave shape and / or a convex shape is provided on a surface of the maintenance section. The hot water storage tank according to any one of claims 1 to 4, wherein a guide part describing a method for removing the maintenance part is provided on a surface of the maintenance part or a foamed heat insulating material around the maintenance part. unit. The hot water storage tank unit according to any one of claims 1 to 5, wherein the maintenance section is provided with a charging port through which a material is charged when foamed heat insulating material is molded.