JP2005321118A - Ice thermal storage device - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide an ice thermal storage device with tubes prevented from being broken by absorbing force applied thereto during ice formation while reliably maintaining water tightness. <P>SOLUTION: The ice thermal storage device comprises an ice thermal storage tank 12 having heat insulating property, main tubes 34, 72 for circulating antifreezing fluid into the ice thermal storage tank 12, and main pipes 62, 70 connected to the main tubes 34, 72 and having heat exchange pipes 68. Herein, flexible pipes 42 having flexibility are provided for connecting the main tubes 34, 72 to fixed tubes 22, 74 located outside the ice thermal storage tank 12. The flexible pipes 42 are bellows-shaped for connecting the main tubes 34, 72 to the fixed tubes 22, 74 with almost the same diameters. <P>COPYRIGHT: (C)2006,JPO&NCIPI

Description

  The present invention relates to an ice heat storage device that operates a cooling device by using nighttime electric power, converts water into ice, accumulates cooling energy due to the latent heat, and can use the ice as a cooling source.

  Conventionally, a so-called ice heat storage device is provided with, for example, a rectangular ice heat storage tank that opens upward, and near the upper end opening of the ice heat storage tank, along the inside of a pair of sides parallel to each other, A return-side main pipe is provided. One end of the supply side main pipe and the return side main pipe is closed, and the other end is inserted outside through the side surface of the ice heat storage tank. The supply-side main pipe is connected to the fixed supply-use fixed pipe and connected to the antifreeze liquid outlet of the heat exchanger that cools the antifreeze liquid, and the return-side main pipe is connected to the antifreeze liquid inlet of the heat exchanger. .

The supply side main pipe is provided with connecting through holes at predetermined intervals, and the supply side main pipe is connected to the through holes. A plurality of thin heat exchange pipes are integrally connected to the supply side main pipe, and the tip of the heat exchange pipe passes through the ice heat storage tank and is connected to the return side main pipe. The return side main pipe is further inserted into a connection through hole provided in the return side main pipe.
JP 2000-97455 A JP 2001-241704 A

  In the case of the above-described conventional technique, a large force is applied to the main pipe through the main pipe connected to the heat exchange pipe due to expansion and temperature change due to icing in the ice heat storage tank. In particular, when the liquid surface or ice swells upward due to expansion due to icing, a large stress is generated at the joint between the main pipe and the fixed pipe, and there is a risk of breakage or liquid leakage. For this reason, the connection structure between the main pipe and the fixed pipe is difficult.

  The present invention has been made in view of the above-mentioned problems of the prior art, and reliably maintains water tightness, absorbs the force applied during icing, etc. An object of the present invention is to provide an ice heat storage device that can prevent the damage of the part.

  The present invention includes an ice heat storage tank having heat insulation properties, a main pipe for circulating antifreeze liquid to the ice heat storage tank, a main pipe connected to the main pipe and having a heat exchange pipe, and the main pipe connected to the ice heat storage tank. This is an ice heat storage device provided with a flexible connecting pipe member connected to a fixed pipe located outside.

  The connecting pipe member is a flexible pipe formed in a bellows shape that connects the main pipe and the fixed pipe with substantially the same diameter. The flexible tube is made of, for example, synthetic rubber, and has a reinforcing cord and a reinforcing ring embedded therein.

  The present invention also provides an ice heat storage tank having heat insulation, a main pipe for circulating antifreeze liquid to the ice heat storage tank, a main pipe connected to the main pipe and having a heat exchange pipe, and a fixed pipe to which the main pipe is connected. An ice heat storage device having a fixed pipe and connecting the main pipe and the main pipe with a flexible connecting pipe member.

  The connecting pipe member may be a hose member in which the main pipe and the main pipe are connected via a coupling member.

  The ice heat storage device of the present invention can connect pipes with an appropriate degree of freedom, absorbs the influence of expansion and contraction of the pipe itself due to expansion and temperature change due to icing, and reliably prevents breakage and leakage. It is an ice heat storage device that can effectively perform heat exchange.

  Hereinafter, embodiments of the present invention will be described with reference to the drawings. 1 to 3 show a first embodiment of the present invention, and an ice heat storage device 10 of this embodiment is provided with an ice heat storage tank 12 that is formed in a square tube shape and opens upward. The ice heat storage tank 12 has a heat insulating structure.

  One side surface 12a of the ice heat storage tank 12 has a cylindrical main pipe that is inserted in the vicinity of the opening of the ice heat storage tank 12 in the vicinity of the corner with the other side surface 12b adjacent at right angles. A mounting port 14 is formed to protrude outward. A flange portion 16 provided with a bolt through hole is provided at the tip of the main pipe attachment port 14 so as to protrude from the outer peripheral surface. A hollow case 18 is attached to the distal end side of the main pipe attachment port 14. A flange portion 20 provided with a bolt through hole is also provided at an end portion of the case 18, and the flange portion 16 of the main pipe attachment port 14 is communicated with the through hole so that the bolt is inserted and fixed with a nut. Yes. A fixed pipe 22 communicating with the main pipe 34 is fixedly connected to the end face 18 a located on the opposite side of the case 18 from the collar portion 20.

  A cylindrical main pipe holding port 26 is formed on the side surface 12c located substantially parallel to the side surface 12a of the ice heat storage tank 12 so as to protrude outward at a position facing the main pipe mounting port 14 of the side surface 12a. At the tip of the main pipe holding port 26, a collar portion 28 provided with a bolt hole is provided so as to protrude from the outer peripheral surface. A cover plate 30 is attached to the front end side of the main pipe holding port 26. The cover plate 30 is also provided with a through hole for bolts, and the collar portion 28 of the main pipe holding port 26 and the through holes are communicated with each other and the bolt is inserted and fixed with a nut. On the inner side surface 30 a of the cover plate 30, a protrusion 32 that is fitted to an end portion of a main pipe 34 to be described later is integrally provided.

  A main pipe 34 is attached to the main pipe attachment port 14 and the main pipe holding port 26 of the ice heat storage tank 12. One end 34 a of the main pipe 34 is inserted into the main pipe attachment port 14, and is connected to a flexible pipe 42 that is a connecting pipe member through a ring member 36, flange members 37 and 38, and a spacer member 40. The flexible pipe 42 is made of synthetic rubber or metal formed in a bellows shape, and has a cylindrical main body 42a and flange portions 42b provided at both ends of the main body 42a. In the case of synthetic rubber, a reinforcing cord and a reinforcing ring are embedded inside the main body 42a. The main body 42a is alternately provided with a bulging portion and a constricted portion that bulge outward in a bellows shape. One flange portion 42b is formed with a screw through hole, and is connected to the main pipe 34 by a screw member. The flange portion 42 b of the flexible pipe 42 opposite to the main pipe 34 is located near the end surface 18 a of the case 18, and is connected to the fixed pipe 22 by a screw member via the spacer member 43.

  The other end 34 b of the main pipe 34 is closed by attaching a closing member 44 via a flange member 41. The closing member 44 is formed with a recess in which the tip of the protrusion 32 of the cover plate 30 is fitted on the surface of the ice heat storage tank 12 on the side surface 12 c side. The tip of the protrusion 32 is fitted into the recess, and the other end 34b of the main pipe 34 is fixed with a slight degree of freedom.

  Further, the main pipe 34 is locked to a holding piece 46 provided on the inner surface of the ice heat storage tank 12 in order to prevent the main pipe 34 from falling in the ice heat storage tank 12. The holding piece 46 is attached to the inside of the side surface 12 b of the ice heat storage tank 12 positioned in parallel to the main pipe 34, and the lower end is curved in a semicircular shape along the lower half of the main pipe 34. The holding pieces 46 are provided at three locations near both ends 34a and 34b and near the center of the main pipe 34.

  A main pipe 62 (to be described later) is inserted along the longitudinal direction of the main pipe 34 on the side of the main pipe 34 opposite to the side surface 12 b of the ice heat storage tank 12, that is, the inside of the ice heat storage tank 12. A plurality of through holes 48 are formed at predetermined intervals. The diameter of the through holes 48 is slightly larger than the diameter of the main pipe 62, and the interval between the through holes 48 is also slightly larger than the diameter of the main pipe 62. A mounting groove for an O-ring is formed around the inner peripheral surface of the through-hole 48, and an O-ring 50, which is a seal material, is fitted into the mounting groove.

  Further, a guide plate 52, which is a long member, is attached to the main pipe 34 on the side opposite to the side surface 12 b of the ice heat storage tank 12, that is, the portion provided with the through hole 48. The guide plate 52 includes an attachment surface 54 that faces the insertion direction of the through hole 48 of the main pipe 34, a holding surface 56 that is bent from the lower end portion of the attachment surface 54 to the attachment surface 54, and an attachment surface 54. A holding surface 58 is provided that is bent from the upper end portion thereof at a substantially right angle with respect to the mounting surface 54, and has a U-shaped cross section. The attachment surface 54 is provided with an insertion port 60 that communicates with the through hole 48 of the main pipe 34.

  The main pipe 62 is inserted into and communicated with the through hole 48 of the main pipe 34 through the insertion port 60 of the guide plate 52. The main pipe 62 is made of synthetic resin, and has a diameter that allows the O-ring 50 to move and be in close contact with water when inserted through the through hole 48 of the main pipe 34. In the vicinity of the end 62a of the main pipe 62 that is inserted into the main pipe 34 and released, a pair of retaining through holes 64 that are opposed to each other in the insertion direction of the main pipe 34 are provided. After the main pipe 62 is inserted into the through hole 48 of the main pipe 34, the pin member 66 for preventing the drop is inserted inside the main pipe 62 to prevent the through hole 64 from falling off.

  The main pipe 62 is provided with a thin heat exchange pipe 68 that hangs downward at a substantially right angle with respect to the main pipe 62 at equal intervals along the longitudinal direction in a portion facing the lower side in use. Yes. The heat exchange pipe 68 is folded back in the vicinity of the bottom 12e of the ice heat storage tank 12 and is continuous with a portion facing the lower side of the adjacent main pipe 70 having the same shape. Here, the end portion 70 a on the main pipe 34 side of the main pipe 70 is not inserted into the through hole 48 of the main pipe 34, and the vicinity of the attachment surface 54 of the guide plate 52 attached to the main pipe 34 with the tip portion closed. And is placed on the holding surface 56 so as not to fall.

  The released end portion 70 b on the opposite side of the main pipe 70 is connected to and connected to a main pipe 72 provided in the vicinity of the side surface 12 d parallel to the side surface 12 b of the ice heat storage tank 12. The main pipe 72 has the same shape as the main pipe 34, and is attached to the side surfaces 12 a and 12 c of the ice heat storage tank 12 in the direction opposite to the main pipe 34. That is, the main pipe attachment port 14 is formed in the vicinity of the corner of the side surface 12 c, and the case 18 is attached to the outside of the main pipe attachment port 14. A supply or return fixed pipe 74 communicating with the main pipe 72 is connected to the end face 18 a of the case 18. The side surface 12 a is provided with a main pipe holding port 26, a cover plate 30 is attached to the outside of the main pipe hold port 26, and the end surface of the main pipe 72 is fitted to the inner side surface 30 a of the cover plate 30. The protrusion 32 is provided integrally.

  One end of the main pipe 72 is inserted into the main pipe attachment port 14 and connected to the flexible pipe 42 via the ring member 36, the flange members 37 and 38, and the spacer member 40. The end of the flexible pipe 42 is connected to the fixed pipe 74 through a spacer member 43 by a screw member. Further, the other end portion of the main pipe 72 is closed by attaching a closing member 44 via a flange member 41.

  A through-hole through which the main pipe 70 is inserted along the longitudinal direction of the main pipe 72 is formed on the side face of the main pipe 72 opposite to the side face 12 d of the ice heat storage tank 12, that is, on the inner side of the ice heat storage tank 12. A plurality of 78 are formed at predetermined intervals. An O-ring 50 that is a sealing material is provided around the inner peripheral surface of the through-hole 78.

  A guide plate 80 having the same shape as the guide plate 52 is attached to the main pipe 72 on the side opposite to the side surface 12 d of the ice heat storage tank 12, that is, the portion provided with the through hole 78. The guide plate 80 is provided with a mounting surface 82 and holding surfaces 84 and 86 in a U shape, and the mounting surface 82 is provided with an insertion port 88 communicating with the through hole 78 of the main pipe 72.

  The end portion 70 b of the main pipe 70 is inserted into and communicated with the through hole 78 of the main pipe 72 through the insertion port 88 of the guide plate 80. A small hole 90 is formed in the vicinity of the end 70b of the main pipe 70, and a pin member 66 is inserted through the small hole 90 to prevent it from falling off.

  The main pipe 70 is provided with a thin heat exchange pipe 68 at a portion facing the lower side in use. Further, the end 62b of the main pipe 62 adjacent to the main pipe 70 is not inserted into the through-hole 78 of the main pipe 72, the front end is closed, and is positioned in the vicinity of the mounting surface 82 of the guide plate 80. It is placed on the surface 84 and locked so as not to fall.

  Next, the usage method of the ice heat storage apparatus 10 of this embodiment is demonstrated. For example, when the fixed pipes 22 and 74 are connected to an antifreeze outlet of a heat exchanger (not shown) through a supply pipe (not shown), the main pipe 34 and the main pipe 62 connected to the main pipe 34 are made of antifreeze liquid. On the supply side. At this time, the main pipe 72 and the main pipe 70 connected thereto become the return side of the antifreeze liquid, and the fixed pipe 74 is connected to an antifreeze liquid inlet of a heat exchanger (not shown). When a plurality of ice heat storage devices 10 are connected, flexible pipes 42 are provided at both ends 34a and 34b of the main pipe 34 and drawn out of the ice heat storage tank 12, and the other ice heat storage devices 10 adjacent to each other are connected. Connected to the main pipe 34. And the flexible pipe 42 is provided also in the both ends of the main piping 72, it is drawn out of the ice thermal storage tank 12, and is connected to the main piping 72 of the other adjacent ice thermal storage apparatus 10. FIG.

  Next, in a state where the main pipes 34 and 72 and the fixed pipes 22 and 74 are connected, the ice heat storage tank 12 is filled with water, and the antifreeze liquid set to about −several degrees Celsius by the heat exchanger is supplied to the fixed pipe 22 and the main pipes. It passes through the pipe 34 and the main pipe 62 and flows into the heat exchange pipe 68. The antifreeze flowing through the heat exchange pipe 68 passes through the main pipe 70, the main pipe 72, and the fixed pipe 74, returns to the antifreeze liquid inlet of the heat exchanger, and is cooled again to a predetermined temperature. By circulating the antifreeze liquid in this way, the water in the ice heat storage tank 12 is frozen. When the ice in the ice heat storage tank 12 is used as a cold heat source, similarly, the antifreeze liquid is circulated, heat is absorbed by the antifreeze liquid by a heat exchanger (not shown), and the heat exchange pipe is circulated to circulate in the ice heat storage tank 12. Cool the antifreeze with ice and send it again to the heat exchanger.

  According to the ice heat storage device 10 of this embodiment, the main pipes 34 and 72 are connected to the fixed fixed pipes 22 and 74 through the flexible pipe 42 with a certain degree of freedom. Even if a force is applied to 34 and 72 due to expansion and temperature change due to icing, the main pipes 34 and 72 can move with respect to the fixed pipes 22 and 74, so that stress is applied to the connecting portions. Therefore, breakage and leakage can be prevented. Since the main pipes 34 and 72 are locked to the ice heat storage tank 12 by the holding pieces 46, the main pipes 34 and 72 can be moved somewhat and can be prevented from falling. The main pipes 34 and 72 are connected to the main pipes 62 and 70 by a simple structure in which the main pipes 62 and 70 are simply inserted into the through holes 48 and 78 having the O-ring 50. Even if the main pipe 62, 70, etc. expands or contracts due to changes, or when force is applied in the direction of rising due to icing, it is movable and no stress is applied, so it is safe and reliably maintains water tightness. can do. The connection between the main pipes 34 and 72 and the main pipes 62 and 70 has a simple structure and can be assembled in a short time.

  In addition, since the pin member 66 is inserted into the through holes 64 and 90 of the main pipes 62 and 70 inside the main pipes 34 and 72, it can be prevented from falling off. Ends 62b and 70a of the main pipes 62 and 70 that are not connected to the main pipes 48 and 78 are locked to the holding surfaces 56 and 84 of the guide plates 52 and 80, can move to some extent, and fall. There is nothing.

  Next, a second embodiment of the present invention will be described with reference to FIG. Here, the same members as those in the above embodiment are denoted by the same reference numerals, and the description thereof is omitted. The ice heat storage device 92 of this embodiment is provided with a main pipe 94 in the vicinity of the opening inside the ice heat storage tank 12. The main pipe 94 is provided with a thin heat exchange pipe 96 that hangs downward at a substantially right angle with respect to the main pipe 94 in a portion facing downward in the use state. At both ends of the main pipe 94, a pipe member 100 extending upward is provided via a connecting member 98 formed in an L shape, and the pipe member 100 penetrates the upper surface 12f of the ice heat storage tank 12 and is outside. Has been drawn to. A flexible hose member 102 made of rubber or the like is connected to an end located outside the tube member 100 via a coupling member 101, and the tip of the hose member 102 is connected to a fixed pipe 104 via a coupling member 103. It is connected. The fixed pipe 104 is connected to a heat exchanger (not shown) and is fixed to a holding member (not shown).

  The ice heat storage device 92 of this embodiment is the same usage method as the above embodiment and has the same effect. Furthermore, even if the main pipe 94 or the like expands or contracts due to a temperature change in the ice heat storage tank 12 or a force is applied in the upward direction due to icing, the main pipe 94 is connected to the fixed pipe 104 by the hose member 102. It is safe because it is not easily stressed by being easily movable through the Since the pipe member 100 is connected upward from both ends of the main pipe 94, a space is not taken in the lateral direction, and the main pipe 94 is set to have a substantially full length in the ice heat storage tank 12, and a large number The heat exchange pipe 96 can be provided, and heat can be exchanged efficiently. The hose member 102 and the connecting member 98 can be general-purpose products, can be attached and detached with a dedicated jig, and maintenance is easy.

  In addition to the method of connecting the main pipe 94 and the fixed pipe 104 by the hose member 102, the ice heat storage device 92 of this embodiment is provided by connecting a plurality of resin pipe members as shown in FIG. Also good. In this case, both ends of the main pipe 94 are connected to a first pipe member 106 extending upward via a connecting member 98 formed in an L shape, and an L end is connected to the upper end of the first pipe member 106. A second pipe member 110 extending in the horizontal direction is connected through a connecting member 108 formed in a letter shape. The distal end of the second pipe member 110 is connected to the fixed pipe 104. According to the ice heat storage device 92 shown in FIG. 5, the main pipe 94 and the fixed pipe 104 are elastically connected by the resin-made first pipe member 106 and the second pipe member 108, and have a slight flexibility. It absorbs various stresses and external forces during ice making, and liquid leakage due to breakage can be eliminated.

  In addition, the ice heat storage device of this invention is not limited to the said embodiment, The pipe member for a connection should just be flexible, The material and form can be changed suitably.

It is a partial fracture top view of the ice heat storage device of a first embodiment of this invention. It is a longitudinal cross-sectional view of the ice thermal storage apparatus of this embodiment. It is a partial expanded longitudinal cross-sectional view of the ice heat storage apparatus of this embodiment. It is a partial expanded longitudinal cross-sectional view of the ice heat storage apparatus of 2nd embodiment of this invention. It is a partial expanded longitudinal cross-sectional view which shows the modification of the ice heat storage apparatus of this embodiment.

Explanation of symbols

DESCRIPTION OF SYMBOLS 10 Ice thermal storage apparatus 12 Ice thermal storage tank 14 Main piping attachment port 22,74 Fixed piping 26 Main piping holding port 34,72 Main piping 42 Flexible pipe 46 Holding piece 48,78 Through-hole 50 O-ring 52,80 Guide plates 56,84 Holding surface 62, 70 Main pipe 66 Pin member 68 Heat exchange pipe

Claims (4)

  An ice heat storage tank having heat insulation properties, a main pipe for circulating antifreeze liquid to the ice heat storage tank, a main pipe connected to the main pipe and having a heat exchange pipe, and the main pipe located outside the ice heat storage tank An ice heat storage device provided with a flexible connecting pipe member that is connected to a fixed pipe.   2. The ice heat storage device according to claim 1, wherein the connecting pipe member is a bellows-like flexible pipe that connects the main pipe and the fixed pipe with substantially the same diameter.   An ice heat storage tank having heat insulation properties, a main pipe for circulating antifreeze liquid to the ice heat storage tank, a main pipe connected to the main pipe and having a heat exchange pipe, and a fixed fixed pipe to which the main pipe is connected An ice heat storage device characterized in that the main pipe and the main pipe are connected by a flexible connecting pipe member. 4. The ice heat storage device according to claim 3, wherein the connecting pipe member is a hose member in which the main pipe and the main pipe are connected via a coupling member.

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