DE102006007757A1 - Thermal storage tank - Google Patents

Abstract

A heat storage tank 10 includes heat, a trunk valve 4 having an inflow side passage 41 and an outflow side passage 42 and fixed in an open portion 11 of the heat storage tank, a middle duct 5 communicating with the outflow side passage, and substantially vertical inside the tank and a mixing preventing plate 6, 60 for preventing mixing of inflowing cold water and stored hot water, wherein a through hole 63 penetrated through the middle pipe and a large number of flow holes 64 are formed in the mixing preventing plate and wherein the mixing preventing plate has a diameter D2, which is smaller than a diameter D1 of the open portion 11 of the tank.

Description

TECHNICAL PART:

These This invention relates to a heat storage tank with a vacuum heat storage layer for retention of heat and storing a fluid. More specifically, the present invention relates on a heat storage tank, which is mounted in an automobile and to restrain from Heat and Saving engine cooling water suitable is.

TECHNICAL BACKGROUND:

A Cooling System device to support a warm-up an internal combustion engine water-cooled type of automobiles proposed, which is a heat storage tank to the retention of heat and storing engine cooling water provides, which flows out of the engine in a cooling water circuit, the in the heat storage tank stored high-temperature cooling water initiates into the engine and thus supports the warming up of the engine. With in other words, this cooling system device stores excess heat, which from the engine during of the normal operation of the automobile is generated in the cooling water system built-up heat storage tank and warmed up the engine and the interior of a passenger compartment when starting the Automobile.

As As described above, the heat storage tank can excess heat of the Use the engine effectively and can reduce fuel consumption during the process Reduce the overall operation of the automobile.

Such a heat storage tank 10 generally contains an inner cylindrical tank 1 a stainless steel forming a heat storage tank main body, and an outer cylindrical tank 2 which is similarly made of stainless steel. There is a room 3 between the inner cylindrical tank 1 and the outer cylindrical tank 2 is maintained substantially in a vacuum state, the heat storage tank 10 a heat-insulating construction. The inner cylindrical tank 1 and the outer cylindrical tank 2 are by welding, etc. at an open section ( 11 ) attached. A hull valve 4 with an inflow side passage 41 and a discharge side passage 42 is fitted in this open section according to the prior art, as in FIG 5A is shown.

In the heat storage tank 10 According to the prior art, a part of cold water is taken out in short circuit circuits and, as such, passes out of the outflow side 42 even when trying to get hot water from the outflow side passage 42 by removing cold water from the inflow side passage 41 into the heat storage tank. As a result, it was difficult to effectively remove the collected hot water.

In order to prevent such a short circuit of the cold water, the heat storage tanks described in Japanese Unexamined Patent Publication Nos. 10-71840 and 2003-80929 have been developed. Such tanks are basically the heat storage tank 10 who in 5B is shown. In other words, are a middle line 5 passing through at an outflow side 42 a valve body 4 is connected and located vertically inside the heat storage tank 10 extends, and a Mischverhinderungsplatte 6 , above the fuselage valve 4 is arranged, and prevents mixing of the heat-collecting hot water and inflowing cold water, within the heat storage tank 10 arranged.

In the prior art heat storage tank described above, it was necessary to previously use the mixing prevention plate 6 in the inner cylinder tank 1 to weld and then the hull valve 4 and the middle line 5 to assemble on the heat storage tank. As a result, the productivity and the assembling capabilities of the heat storage tank significantly decrease.

EPIPHANY THE INVENTION

The The present invention has been made in view of the above Problems are completed and their job is to create a heat storage tank to provide the drainage efficiency of heat-collecting hot water while improving productivity and assembly capabilities a heat storage tank can improve.

A heat storage tank according to the invention includes a body valve 4 passing through an inflow side 41 and an outflow side passage 42 and in an open section 11 the heat storage tank 10 attached, a middle line 5 that passes with the discharge side 42 is communicatively connected and extends substantially vertically within the tank, and a mixing prevention plate 6 . 60 for preventing mixing of the inflowing fluid and the stored fluid, wherein a passage opening 63 through which the middle line 63 penetrates and a large number of Strömungsöffnun gene 64 for allowing the passage of the fluid in the mixing prevention plate 6 . 60 are formed, and the mixing prevention plate 6 is formed with a diameter D2 which is smaller than a diameter D1 of the open portion 11 is. The productivity of the tank can be improved because the tank and the mixing prevention tank 6 . 60 are formed independently of each other. Since the diameter D2 of the mixing prevention plate 6 . 60 is smaller than the diameter D1 of the tank, the mixing prevention plate can 6 . 60 simultaneously with the hull valve 4 from the open section 11 below the tank 10 be attached, and the assembling ability can be improved.

In the heat storage tank according to the invention, the mixing prevention plate 6 through a ring-like upper plate 62 and a cylindrical side plate 61 formed in a bottomed cylindrical shape. Accordingly, the inflowing fluid hits the upper plate 62 on, is then through a large number of flow openings 64 spreads and moves upwards inside the tank 10 , and the fluid (hot water) stored in the storage section T can efficiently flow through the middle conduit 5 be derived.

In the heat storage tank according to the invention, the middle line 5 , the hull valve 4 and the mixing prevention plate 6 . 60 molded in separate elements, and each component can be easily manufactured.

In the heat storage tank according to the invention, the hull valve 4 and the mixing prevention plate 6 integrally formed. In the heat storage tank according to the invention, the middle line 5 and the mixing prevention plate 6 . 60 integrally formed. In the heat storage tank according to the invention are further the hull valve 4 and the side plate 61 the mixing prevention plate integrally formed and the middle line 5 and the top plate 62 the mixing prevention plate are integrally formed. Since the components are thus integrated considering productivity and mounting factors, the number of components can be reduced.

The The present invention will become more apparent from the following description embodiments the same more apparent, if this in conjunction with the accompanying Drawings is considered.

SHORT DESCRIPTION THE DRAWINGS

1 FIG. 15 is a longitudinal cross-sectional view of a heat storage tank according to a first embodiment of the present invention. FIG.

2 FIG. 15 is a longitudinal cross-sectional view of a heat storage tank according to a second embodiment of the present invention. FIG.

3 FIG. 15 is a longitudinal cross-sectional view of a heat storage tank according to a third embodiment of the present invention. FIG.

4A and 4B show two modified examples of the third embodiment.

5A and 5B are views for explaining two heat storage tanks according to the prior art.

BEST WAY TO EXECUTE THE INVENTION:

Heat storage tanks according to embodiments of the invention will be explained below with reference to the drawings. 1 is a longitudinal cross-sectional view according to the first embodiment of the invention. The heat storage tank according to this embodiment is provided in an engine cooling water system of an automobile, collects excess heat of an engine, and is used for warming up the engine and the interior of a passenger compartment at the time of starting the automobile.

A heat storage tank 10 contains an inner cylindrical tank 1 made of a material having high corrosion resistance (such as SUS304 stainless steel) and an outer cylindrical tank 2 made of a material having a predetermined mechanical strength (such as SUS304 stainless steel). A room 3 between the inner cylindrical tank 1 and the outer cylindrical tank 2 is maintained substantially at vacuum to provide a heat-insulating structure. The interior of the heat storage tank 10 is a storage section T of the fluid. This tank 10 is mounted substantially vertically on the automobile in such a manner that its bottom faces up and its open portion 11 pointing down. As a result, the open section 11 the heat storage tank 10 positioned below the storage section T in the direction of gravity. The inner cylindrical tank 1 and the outer cylindrical tank 2 are attached to each other by welding or similar means in the environment 12 of the open section 1 attached.

A hull valve 4 made of a material having a small heat conductivity, such as a plastic (eg, Teflon, trademark), is at the open portion 11 the heat storage tank 10 fluid-tight by means such as screwing or connecting or gluing attached. An inflow side passage 41 through which engine cooling water flows, and an outflow side passage 42 through which engine cooling water (hot water) stored in the storage portion T flows out are inside the trunk valve 4 educated. Incidentally, the outflow side passage opens 42 into the tank at substantially the axial center position, whereas the inflow side passes 41 into the tank at a position which deviates from the axial center. These inflow and outflow passages 41 and 42 are respectively connected to inlet / outlet lines of the engine cooling water system, not shown.

In this embodiment, a mixing prevention plate 6 on an upper surface 4a of the hull valve 4 attached. The mixing prevention plate 6 has a bottomed cylindrical or cup-like shape, which serves as a ring-like top plate 62 with a through hole 63 for the implementation of a later appearing middle line 5 is formed, and is with a cylindrical side plate 61 integrally formed. The mixing prevention plate 6 is on the upper surface 4a of the hull valve 4 attached, with their open side facing down. A large number of flow openings 64 through which that enters the tank 10 entering engine cooling water, are in both the upper plate 62 as well as the side plate 61 drilled. In this case, the flow openings 64 not in the upper plate 62 be educated. Further, the mixing prevention plate 6 formed in a diameter (outer diameter) D2, which is smaller than the diameter D1 of the open portion 11 of the tank 10 is.

One of the ends of the middle pipe 5 for guiding the drainage of engine cooling water (hot water), which is inside the heat storage tank 10 is stored at the outflow side passage 42 of the hull valve 4 connected, passes through the passage opening 63 the mixing prevention board 6 and extends substantially vertically at the center of the tank 10 , The other end of the middle line 5 leads to the storage section T near the bottom surface of the tank.

In this embodiment, the hull valve 4 , the middle line 5 and the mixing prevention plate 6 formed in separate elements.

In the embodiment having the structure described above, the productivity of the tank becomes high because the tank 10 and the mixing prevention plate 6 are independent. Because the mixing prevention plate 6 is formed with an outer diameter D2, which is smaller than the diameter D1 of the open portion 11 of the tank 10 is, the mixing prevention plate can 6 light and at the same time with the hull valve 4 from the opening portion 11 can be used out, and the assembling ability can be drastically improved.

In the embodiment having the structure described above, engine cooling water flowing into the tank moves 10 through the inflow side passage 41 of the valve body 4 flows upwards, meets the mixing prevention plate 6 (upper plate 62 ), is characterized by a large number of flow openings 64 spreads, moves further up, enters the middle line 5 from the upper opening of the middle pipe 5 and is delivered as a downflow. A series of flows serially feeds hot water (engine cooling water), the heat of which is stored in the storage section T of the heat storage tank 10 is collected in the middle line 5 , Accordingly, in the tank 10 flowing engine cooling water (cold water) is not short-circuited and discharged, and it can be derived hot water efficiently. The mixing prevention plate 6 prevents even stirring and forced convection of the engine cooling water (hot water) inside the tank 10 through the outflow side passage 41 in the tank 10 blown (jet) jet, and prevents mixing of hot water and cold water inside the tank 10 ,

2 is a longitudinal cross-sectional view of a heat storage tank according to the second embodiment. The second embodiment differs from the first embodiment in the structure of the mixing prevention plate 6 , In other words, the mixing prevention plate is 6 according to the second embodiment in total by only one annular plate 60 educated. A passage opening 63 for the implementation of a middle line 5 is at the center of this ring-like plate 60 formed and a large number of flow openings 64 are around this passage opening 63 educated. The ring-like plate 60 is as the blend prevention plate 6 slightly above the upper surface 4a of the hull valve 4 arranged and on the middle line 5 attached. The outer diameter D2 of the ring-like plate 60 as the mixing prevention plate 6 is smaller than the diameter D1 of an open section 11 of the tank 10 , In this case, the plate can 60 and the middle line 5 be integrally formed with each other or separately from each other. The other constructions are the same and an explanation will be omitted.

In this second embodiment can they to that of the first embodiment same function and same effect can be obtained.

3 is a longitudinal cross-sectional view of a heat storage tank according to the third embodiment. In the first embodiment, the hull valve 4 , the middle line 5 and the mixing prevention plate 6 are formed as separate elements, but in the third embodiment are the body valve 4 and the mixing prevention plate 6 formed integrally by molding or casting, and only the middle line 5 is a separate component. The rest of the construction is similar to the first embodiment.

In addition to The operation and effect of the first embodiment is the third embodiment The result is that the number of components will be reduced can.

4A and 4B show two modified embodiments of the third embodiment. In the modified embodiment, which is in 4A is shown is the top plate 62 the ring-like mixing prevention plate 6 integral with the middle pipe 5 formed by molding or casting and the cylindrical side plate 61 the mixing prevention board 6 is with the hull valve 4 integrated by molding or molding.

In the in 4B The modified embodiment shown is the bottomed cylindrical mixing prevention plate 6 holding the top plate 62 and the side plate 61 contains, with the middle line 5 integrated by molding or molding and the hull valve 4 is the separate component.

In the third embodiment and the two modified embodiments, the mixing prevention plate is 6 formed with a diameter (outer diameter) D2, which is smaller than the diameter D1 of the open portion in the same manner as in the first embodiment 11 of the tank 10 is.

Even though the invention thus in detail based on specific embodiments same could have been described Professionals varied changes and make modifications to this without departing from the scope and to deviate from the idea of the appended claims.

Claims (6)

Thermal storage tank with a heat insulating structure, with a memory section (T) to the local Saving a fluid under retention his warmth is provided, comprising: a trunk valve with an inflow passage to the Causing the fluid to enter the heat storage tank to flow, and an outflow side passage for causing in the heat storage tank emit stored fluid, and which in an open section of the heat storage tanks below the storage section is fixed in the direction of gravity; a middle conduit communicating with the outflow side passage is connected and substantially vertically within the memory section extends; and a mixing prevention board inside the heat storage tank for preventing mixing of the inflowing fluid with the stored one Fluid is arranged; one from the middle line penetrating passage opening and a big one Number of flow openings to enable the passage of the incoming Fluids are formed in the mixing prevention plate, and the Mischverhinderungsplatte is formed with a diameter D2, the is smaller than a diameter D1 of the open portion. Thermal storage tank according to claim 1, wherein the mixing prevention plate in a bottomed cylindrical shape with a ring-like upper plate and a cylindrical side plate is formed. Thermal storage tank according to claim 1, wherein the middle line, the trunk valve and the mixing prevention plate are formed in separate elements. Thermal storage tank according to claim 2, wherein the body valve and the mixing prevention plate integral are shaped with each other. Thermal storage tank according to claim 1, wherein the center line and the mixing prevention plate integral are shaped with each other. Thermal storage tank according to claim 2, wherein the trunk valve and the side plate of the mixing prevention plate are integral with each other, and the middle line and the upper one Plate of mixing prevention plate are integral with each other.