TW201307769A - Heat collecting storage device - Google Patents

Abstract

A heat collecting storage device is configured with more than one heat storage barrels arranged alongside in a matrix form. Each heat storage barrel is filled with a phase change material inside, and a barrel cover is penetrated with an inlet and an outlet tubes. When the present invention is utilized, the inlet and outlet tubes are connected to a hot water tube or a condensing tube of equipments such as solar energy, heat pump, or condensing tube, so as to store the heat energy, waste heat, or freezing energy generated by the equipment into the heat storage barrel for backup use. Since the heat storage barrel utilizes the phase change material for storing heat, the heat storage effect is better. Furthermore, with a heat insulating function of the insulating layer, a better heat storage effect can be achieved consequently.

Description

集溫儲存裝置Temperature storage device

本發明涉及一種儲溫的設備，尤其涉及一種集溫儲存裝置。The invention relates to a device for storing temperature, in particular to a temperature storage device.

現有儲溫的方式是以水或者油作為容器內儲溫的構造，以水管接向熱源將入水引進容器內後，加溫容器內的水和油而將熱能儲存在容器內部。The existing method of storing temperature is to use water or oil as a structure for storing temperature in the container. After the water pipe is connected to the heat source to introduce the water into the container, the water and oil in the container are heated to store the heat inside the container.

但前述現有的儲溫裝置由於水或者油的儲溫容量小，因此儲溫的容量不足以供應大型設備，例如鍋爐、發電機等設備儲存熱量或者廢熱，仍存在使用不足之處需要改良來提升儲溫效果並改善鍋爐等設備的能源使用效率。However, the existing temperature storage device has a small storage capacity of water or oil, so the storage capacity is insufficient to supply large equipment, such as boilers, generators, etc., to store heat or waste heat, and there are still inadequacies that need to be improved to improve The temperature storage effect and the energy efficiency of equipment such as boilers are improved.

由於現有儲溫的方式是以水或者油作為容器內儲溫的構造，因此儲溫效果較差。為此，本發明在儲溫桶內設有相變材料，又在儲溫桶周圍包覆隔溫層避免散熱，可達到較佳的集溫儲存效果。Since the existing way of storing temperature is water or oil as a structure for storing temperature in the container, the temperature storage effect is poor. To this end, the present invention is provided with a phase change material in the temperature storage barrel, and a temperature barrier layer is wrapped around the temperature storage barrel to avoid heat dissipation, thereby achieving a better temperature storage effect.

為達到上述目的，本發明提供一種集溫儲存裝置，包括：一個以上以矩陣的方式併靠排列的儲溫桶，各儲溫桶設有一桶身，各桶身為豎直的方形桶體並在頂面的中間結合一桶蓋，在各桶蓋穿設一出管以及一入管，在各出管以及各入管的底端連接一循環管，各循環管的中間延伸至各桶身內的底部，又在各桶身內填充一相變材料，在各儲溫桶的出管頂端連接一出接管，該出接管的外端朝旁向外延伸，又在各儲溫桶的入管的頂端連接一入接管，該入接管的外端朝旁向外延伸；以及一隔溫層，為隔溫體並包覆在一個以上的儲溫桶的周圍以及上方，該出接管以及該入接管由該隔溫層周圍的頂部朝外穿出。In order to achieve the above object, the present invention provides a temperature storage device, comprising: one or more temperature storage barrels arranged in a matrix manner, each of the temperature storage barrels is provided with a barrel body, and each barrel body is a vertical square barrel body and A barrel cover is combined in the middle of the top surface, a discharge tube and an inlet tube are disposed in each of the barrel lids, and a circulation tube is connected to each of the outlet tubes and the bottom end of each inlet tube, and the middle of each circulation tube extends into each barrel body. At the bottom, a phase change material is filled in each barrel body, and a connecting tube is connected at the top end of the outlet tube of each temperature storage barrel, and the outer end of the outlet tube extends outward toward the side, and is at the top of the inlet tube of each temperature storage barrel. Connecting an inlet pipe, the outer end of the inlet pipe extends outwardly; and a temperature-insulating layer is a temperature-insulating body and is wrapped around and above one or more temperature storage barrels, and the outlet pipe and the inlet pipe are The top of the temperature barrier layer is pierced outward.

進一步，本發明在各儲溫桶上方與所述隔溫層頂部之間的空間設有一管路隔溫墊，該管路隔溫墊將各儲溫桶的出管以及出接管與各個儲溫桶的入管以及入接管隔開。Further, the present invention is provided with a pipeline insulation pad between the upper portion of each temperature storage bucket and the top of the temperature insulation layer, and the pipeline insulation pad connects the outlet pipe and the outlet pipe of each storage temperature bucket with each storage temperature. The inlet pipe of the barrel and the inlet pipe are separated.

較佳的，本發明所述相變材料為石臘。Preferably, the phase change material of the present invention is paraffin.

當本發明使用時，是將連接儲溫桶出、入管的出接管以及入接管與太陽能裝置、熱泵、鍋爐、發電機組、發動機或者燃料電池等設備的熱水管連接，使設備產生的熱能或者發動機產生的廢熱透過熱水流動在循環管的方式，將熱能或者廢熱儲存在桶身內的相變材料，當需要使用本發明儲存的熱能時，將本發明的出接管與入接管接向建築物暖氣的水管、游泳池的水管、鍋爐、發動機的水管或者太陽能熱水器的水管，以儲溫桶內儲存的熱能加熱建築物暖氣的水管、游泳池的水管或者太陽能熱水器的水管提供暖氣、熱水或者發電的作用，並且本發明儲溫不限於儲熱，亦可儲冷。When the invention is used, the connection between the temperature storage barrel, the outlet pipe of the inlet pipe, and the inlet pipe is connected with a hot water pipe of a solar device, a heat pump, a boiler, a generator set, an engine or a fuel cell to generate heat energy or an engine. The generated waste heat is stored in the circulation pipe through the hot water, and the heat energy or the waste heat is stored in the phase change material in the barrel body. When the heat energy stored by the present invention is required to be used, the outlet pipe and the inlet pipe of the present invention are connected to the building. Heating water pipes, swimming pool water pipes, boilers, engine water pipes or water pipes for solar water heaters, heating water in building heating pipes, water pipes in swimming pools or water pipes in solar water heaters to provide heating, hot water or power generation. The function and the temperature storage of the present invention are not limited to heat storage, and may also be stored in cold.

本發明的功效在於，由於相變材料產生相變化時能吸收或釋放大量熱能，因此本發明較現有用水或者油的儲溫裝置具有較大的儲溫容量，儲溫效果更為優良。並且由於本發明在儲溫桶周圍設有隔溫層避免與外界熱交換，因此輸入本發明的可穩定的儲冷或儲熱，可達到儲熱後釋出供大型設備利用或者儲冷後對熱源進行冷卻的功效，能改善鍋爐、發動機或太陽能裝置等設備的能源使用效率並減少廢熱的損失，並具有使用壽命長、免維護以及所有構造材料可循環使用的環保效果。The invention has the advantages that the phase change material can absorb or release a large amount of heat energy when the phase change occurs, so the present invention has a larger temperature storage capacity than the existing water or oil temperature storage device, and the temperature storage effect is more excellent. Moreover, since the invention is provided with a temperature-proof layer around the temperature storage barrel to avoid heat exchange with the outside, the stable cold storage or heat storage of the invention can be input, and the heat storage can be released for use by a large-scale equipment or after storage. The cooling effect of the heat source can improve the energy efficiency of the boiler, engine or solar installation equipment and reduce the loss of waste heat, and has the long-life, maintenance-free and environmentally friendly effects of all construction materials.

本發明提供一種集溫儲存裝置，如圖1、圖2所示的第一較佳實施例，包括：一儲溫桶10，設有一桶身11，該桶身11為豎直的方形桶體並在頂面的中間結合一桶蓋12，在桶蓋12垂直穿設一出管13以及一入管14，該出管13以及該入管14的底端位於該桶身11內，在出管13以及入管14的底端連接一循環管15，該循環管15的中間延伸至桶身11內的底部並且在兩側分別形成一豎直的直管部151以及一繞成螺旋狀的螺旋管部152，在桶身11內填充一相變材料16，以本較佳實施例該相變材料16為石臘，又在出管13的頂端連接一朝旁延伸的出接管17，並在入管14的頂端連接一朝旁延伸的入接管18。The present invention provides a temperature storage device, such as the first preferred embodiment shown in FIG. 1 and FIG. 2, comprising: a temperature storage barrel 10, and a barrel body 11 which is a vertical square barrel body. And a bucket cover 12 is coupled in the middle of the top surface, and a discharge pipe 13 and an inlet pipe 14 are vertically disposed in the bucket cover 12, and the outlet pipe 13 and the bottom end of the inlet pipe 14 are located in the barrel body 11 at the outlet pipe 13 And a circulation pipe 15 is connected to the bottom end of the inlet pipe 14. The middle of the circulation pipe 15 extends to the bottom of the barrel body 11 and forms a vertical straight pipe portion 151 and a spiral spiral pipe portion on both sides. 152, a phase change material 16 is filled in the barrel body 11. In the preferred embodiment, the phase change material 16 is a paraffin wax, and a tip end pipe 17 extending toward the side is connected to the top end of the outlet tube 13 and is in the inlet tube 14 The top end is connected to the inlet pipe 18 which extends sideways.

一隔溫構造20，包括一隔溫層21以及一管路隔溫墊22，其中隔溫層21為外側形狀為矩形的隔溫體並且包覆在儲溫桶10的周圍以及上方，該管路隔溫墊22為隔溫墊體並且設在儲溫桶10上方與隔溫層21頂部之間的空間，通過管路隔溫墊22將儲溫桶10的出管13、出接管17與入管14、入接管18隔開，該儲溫桶10的出接管17以及入接管18由隔溫層21周圍的頂部朝外穿出。A temperature-insulating structure 20 includes a temperature-insulating layer 21 and a pipeline insulation mat 22, wherein the temperature-insulating layer 21 is a temperature-isolated body having a rectangular outer shape and is wrapped around and above the temperature storage tank 10, the tube The road warming pad 22 is a temperature-insulating mat body and is disposed between the temperature storage tank 10 and the top of the temperature-insulating layer 21, and the outlet pipe 13 and the outlet pipe 17 of the temperature-storing bucket 10 are connected by the pipe insulation pad 22 The inlet pipe 14 and the inlet pipe 18 are spaced apart, and the outlet pipe 17 and the inlet pipe 18 of the temperature storage tank 10 are pierced outward from the top of the temperature-isolating layer 21.

本發明儲溫桶10的桶身11除了前述第一較佳實施例為豎直的方形桶體以外，亦可將桶身11設為圓形的豎直桶體，且循環管15除了兩側各為直管部151與螺旋管部152的構造以外，亦可為兩側皆為螺旋管或者兩側皆為直管的形態，如此循環管15以及桶身11的形狀改變本發明在此不加以限制。The barrel 11 of the temperature storage bucket 10 of the present invention may be a circular vertical barrel except that the first preferred embodiment is a vertical square barrel, and the circulation tube 15 is provided on both sides. Each of the straight tube portion 151 and the spiral tube portion 152 may be in the form of a spiral tube on both sides or a straight tube on both sides, so that the shape of the circulation tube 15 and the barrel 11 is changed. Limit it.

當本發明使用時可儲冷或者儲熱，如圖1、圖2所示的第一較佳實施例，是將儲溫桶10的出接管17以及入接管18與太陽能裝置、熱泵、鍋爐、發電機組、發動機或者燃料電池等設備的熱水管連接，使設備產生的熱能或者發動機產生的廢熱透過熱水流動在循環管15的方式，將熱能或者廢熱儲存在桶身11內的相變材料16，由於石臘等相變材料16遇熱會產生相變化吸收大量熱能，加上循環管15設有螺旋管部152增加接觸相變材料16的面積，因此本發明較現有用水或者油的儲溫裝置具有較大的儲溫容量以及儲溫的效率，儲溫效果更為優良，並且由於在儲溫桶10周圍設有隔溫層21避免內部與外界熱交換，又設有管路隔溫墊22避免出管13、出接管17與入管14、入接管18隔開進行熱交換，因此本發明可穩定的儲冷或者儲熱。When the invention is used for storing cold or heat storage, the first preferred embodiment shown in FIG. 1 and FIG. 2 is to connect the outlet pipe 17 of the temperature storage bucket 10 and the inlet pipe 18 with a solar device, a heat pump, a boiler, The hot water pipe of the generator set, the engine or the fuel cell is connected, so that the heat energy generated by the device or the waste heat generated by the engine flows through the hot water in the circulation pipe 15 , and the heat energy or waste heat is stored in the phase change material in the barrel 11 . Since the phase change material 16 such as paraffin wax generates phase change to absorb a large amount of heat energy, and the circulation pipe 15 is provided with the spiral pipe portion 152 to increase the area of the contact phase change material 16, the present invention is more than the existing water or oil storage temperature. The device has a large temperature storage capacity and a temperature storage efficiency, and the temperature storage effect is more excellent, and a heat insulation layer 21 is arranged around the temperature storage barrel 10 to avoid heat exchange between the interior and the outside, and a pipeline insulation mat is provided. 22, the outlet pipe 13 and the outlet pipe 17 are separated from the inlet pipe 14 and the inlet pipe 18 for heat exchange, so that the present invention can stably store cold or heat storage.

當需要使用本發明儲存的熱能時，將本發明的出接管17與入接管18接向建築物暖氣的水管、游泳池的水管、鍋爐、發動機的水管或者太陽能熱水器的水管，以儲溫桶10內儲存的熱能加熱建築物暖氣的水管、游泳池的水管或者太陽能熱水器的水管提供暖氣、熱水或者發電的作用，達到儲熱後釋出供大型設備利用的功效，能改善鍋爐、發動機或太陽能裝置等設備的能源使用效率並減少廢熱的損失，並具有使用壽命長、免維護以及所有構造材料可循環使用的環保功效。When it is required to use the stored thermal energy of the present invention, the outlet pipe 17 and the inlet pipe 18 of the present invention are connected to the water pipe of the building heating, the water pipe of the swimming pool, the water pipe of the boiler, the water pipe of the engine or the water pipe of the solar water heater to be stored in the temperature storage barrel 10 The heat stored in the building heats the water pipes of the building, the water pipes of the swimming pool or the water pipes of the solar water heater to provide heating, hot water or power generation, and to release the heat storage for the use of large equipment, which can improve the boiler, engine or solar installation. The energy efficiency of the equipment and the loss of waste heat, and the long-life, maintenance-free and environmentally friendly all-construction materials can be recycled.

本發明除前述第一較佳實施例，是設有一儲溫桶10，再於儲溫桶10的周圍設有隔溫構造20的形態以外，如圖3、圖4所示的本發明第二較佳實施例，亦可將兩個以上的所述儲溫桶10以矩陣的方式併靠排列，再於兩個以上的儲溫桶10周圍設有所述的隔溫構造20。In addition to the foregoing first preferred embodiment, the present invention is characterized in that a temperature storage tank 10 is provided, and a temperature isolation structure 20 is provided around the temperature storage tank 10, and the second invention of the present invention as shown in FIGS. 3 and 4. In a preferred embodiment, two or more of the temperature storage buckets 10 may be arranged in a matrix manner, and the temperature isolation structure 20 may be disposed around two or more temperature storage buckets 10.

本發明第二較佳實施例，如圖3、圖4所示，該集溫儲存裝置包括：八個以矩陣的方式併靠排列的儲溫桶10A，各儲溫桶10A設有一桶身11A，各桶身11A為豎直的方形桶體並在頂面的中間結合一桶蓋12A，在桶蓋12A垂直穿設一出管13A以及一入管14A，該出管13A以及該入管14A的底端位於桶身11A內，在各出管13A以及各入管14A的底端連接一循環管15A，各循環管15A的中間延伸至桶身11A內的底部並且在兩側分別形成一豎直的直管部151A以及一繞成螺旋狀的螺旋管部152A，在各桶身11A內填充一相變材料16A，以本較佳實施例該相變材料16A為石臘，在各儲溫桶10的出管13A的頂端連接一出接管17A，該出接管17A的外端朝旁向外延伸，又在各儲溫桶10A的入管14A的頂端連接一入接管18A，該入接管18A的外端朝旁向外延伸。According to a second preferred embodiment of the present invention, as shown in FIG. 3 and FIG. 4, the temperature storage device includes: eight temperature storage buckets 10A arranged in a matrix manner, and each temperature storage bucket 10A is provided with a barrel body 11A. Each of the barrels 11A is a vertical square barrel body and is combined with a barrel lid 12A in the middle of the top surface. A tube 13A and an inlet tube 14A are vertically disposed in the barrel lid 12A, and the outlet tube 13A and the bottom of the inlet tube 14A are disposed. The end is located in the barrel body 11A, and a circulation pipe 15A is connected to each of the outlet pipe 13A and the bottom end of each inlet pipe 14A. The middle of each circulation pipe 15A extends to the bottom of the barrel body 11A and forms a vertical straight line on both sides. The tube portion 151A and a spirally wound spiral tube portion 152A are filled with a phase change material 16A in each barrel 11A. In the preferred embodiment, the phase change material 16A is a paraffin wax in each of the temperature storage barrels 10 The top end of the outlet pipe 13A is connected to an outlet pipe 17A. The outer end of the outlet pipe 17A extends outwardly, and an inlet pipe 18A is connected to the top end of the inlet pipe 14A of each temperature storage tank 10A. The outer end of the inlet pipe 18A is Extend sideways.

一隔溫構造20A，包括一隔溫層21A以及一管路隔溫墊22A，其中隔溫層21A為外側形狀為矩形的隔溫體並且包覆在八個儲溫桶10A的周圍以及上方，該管路隔溫墊22A為隔溫墊體並且設在各個儲溫桶10A的上方與隔溫層21A頂部之間的空間，通過管路隔溫墊22A將各儲溫桶10A的出管13A以及出接管17A與各個儲溫桶10A的入管14A以及入接管18A隔開，該出接管17A以及入接管18A並由隔溫層21A周圍的頂部向外穿出。A temperature-insulating structure 20A includes a temperature-insulating layer 21A and a pipeline temperature-insulating mat 22A, wherein the temperature-insulating layer 21A is a temperature-isolated body having a rectangular outer shape and is wrapped around and above the eight temperature storage tanks 10A. The line insulation mat 22A is a temperature-insulating mat body and is disposed between the upper temperature storage tank 10A and the top of the temperature-insulating layer 21A, and the outlet tube 13A of each temperature storage tank 10A is passed through the line insulation pad 22A. The outlet pipe 17A is spaced apart from the inlet pipe 14A and the inlet pipe 18A of each of the temperature storage tanks 10A, and the outlet pipe 17A and the inlet pipe 18A are pierced outward from the top portion around the temperature insulation layer 21A.

本發明各儲溫桶10A的桶身11A除了前述第二較佳實施例為豎直的方形桶體以外，亦可將桶身11A設為圓形的豎直桶體，且循環管15A除了兩側各為直管部151A與螺旋管部152A的構造以外，亦可為兩側皆為螺旋管或者兩側皆為直管的形態，此外，設置在隔溫構造20A內的儲溫桶10A數量可為兩個以上以矩陣方式併靠排列的其他數量，如此改變本發明在此不加以限制。The barrel body 11A of each of the temperature storage buckets 10A of the present invention may be a circular vertical barrel body in addition to the above-described second preferred embodiment, which is a vertical square barrel body, and the circulation tube 15A is divided into two. The side of each of the straight tube portion 151A and the spiral tube portion 152A may be in the form of a spiral tube on both sides or a straight tube on both sides, and the number of the temperature storage barrels 10A disposed in the temperature isolation structure 20A There may be two or more other numbers arranged in a matrix and arranged, and thus the invention is not limited thereto.

當本發明在隔溫構造20A內設置的儲溫桶10A的數量越多，越能提升整體儲溫的容量。由於本發明第二較佳實施例儲溫的方式以及放出熱能的使用方式並所能達到的功效皆與第一較佳實施例中所述相同，故本發明在此不加以贅述。When the number of the temperature storage tanks 10A provided in the temperature-separating structure 20A of the present invention is increased, the capacity of the overall temperature storage can be improved. The method for storing the temperature in the second preferred embodiment of the present invention and the manner in which the thermal energy is released and the efficiencies can be achieved are the same as those described in the first preferred embodiment, and thus the present invention is not described herein.

10．．．儲溫桶10. . . Storage temperature bucket

11．．．桶身11. . . Barrel body

12．．．桶蓋12. . . Bucket cover

13．．．出管13. . . Outlet

14．．．入管14. . . Into the tube

15．．．循環管15. . . Circulation tube

151．．．直管部151. . . Straight pipe department

152．．．螺旋管部152. . . Spiral tube

16．．．相變材料16. . . Phase change material

17．．．出接管17. . . Take over

18．．．入接管18. . . Intake tube

20．．．隔溫構造20. . . Temperature isolation structure

21．．．隔溫層twenty one. . . Temperature barrier

22．．．管路隔溫墊twenty two. . . Pipe insulation mat

10A．．．儲溫桶10A. . . Storage temperature bucket

11A．．．桶身11A. . . Barrel body

12A．．．桶蓋12A. . . Bucket cover

13A．．．出管13A. . . Outlet

14A．．．入管14A. . . Into the tube

15A．．．循環管15A. . . Circulation tube

151A．．．直管部151A. . . Straight pipe department

152A．．．螺旋管部152A. . . Spiral tube

16A．．．相變材料16A. . . Phase change material

17A．．．出接管17A. . . Take over

18A．．．入接管18A. . . Intake tube

20A．．．隔溫構造20A. . . Temperature isolation structure

21A．．．隔溫層21A. . . Temperature barrier

22A．．．管路隔溫墊22A. . . Pipe insulation mat

圖1是本發明第一較佳實施例儲溫桶的立體圖。BRIEF DESCRIPTION OF THE DRAWINGS Figure 1 is a perspective view of a temperature storage bucket in accordance with a first preferred embodiment of the present invention.

圖2是本發明第一較佳實施例的立體圖。Figure 2 is a perspective view of a first preferred embodiment of the present invention.

圖3是本發明第二較佳實施例儲溫桶的立體圖。Figure 3 is a perspective view of a temperature storage bucket in accordance with a second preferred embodiment of the present invention.

圖4是本發明第二較佳實施例的立體圖。Figure 4 is a perspective view of a second preferred embodiment of the present invention.

10．．．儲溫桶10. . . Storage temperature bucket

11．．．桶身11. . . Barrel body

12．．．桶蓋12. . . Bucket cover

13．．．出管13. . . Outlet

14．．．入管14. . . Into the tube

15．．．循環管15. . . Circulation tube

151．．．直管部151. . . Straight pipe department

152．．．螺旋管部152. . . Spiral tube

16．．．相變材料16. . . Phase change material

17．．．出接管17. . . Take over

18．．．入接管18. . . Intake tube

Claims (4)

一種集溫儲存裝置，包括：一個以上以矩陣的方式併靠排列的儲溫桶，各儲溫桶設有一桶身，各桶身為豎直的方形桶體並在頂面的中間結合一桶蓋，在各桶蓋穿設一出管以及一入管，在各出管以及各入管的底端連接一循環管，各循環管的中間延伸至各桶身內的底部，又在各桶身內填充一相變材料，在各儲溫桶的出管頂端連接一出接管，該出接管的外端朝旁向外延伸，又在各儲溫桶的入管的頂端連接一入接管，該入接管的外端朝旁向外延伸；以及一隔溫層，為隔溫體並包覆在一個以上的儲溫桶的周圍以及上方，該出接管以及該入接管由該隔溫層周圍的頂部朝外穿出。A temperature storage device comprises: one or more temperature storage barrels arranged in a matrix manner, each of the temperature storage barrels is provided with a barrel body, each barrel body is a vertical square barrel body and a barrel is combined in the middle of the top surface a cover, a discharge tube and an inlet tube are disposed in each of the barrel lids, and a circulation tube is connected to each of the outlet tubes and the bottom end of each inlet tube, and the middle of each circulation tube extends to the bottom of each barrel body, and is also in each barrel body Filling a phase change material, connecting a connecting pipe at the top of the outlet pipe of each temperature storage barrel, the outer end of the outlet pipe extending outwardly, and connecting an inlet pipe at the top end of the inlet pipe of each temperature storage barrel, the inlet pipe The outer end extends outwardly; and a temperature barrier layer is a temperature-insulating body and is wrapped around and above the one or more temperature storage barrels, and the outlet tube and the inlet tube are formed by the top of the temperature-isolating layer Wear it out. 如申請專利範圍第1項所述之集溫儲存裝置，其中在各儲溫桶上方與所述隔溫層頂部之間的空間設有一管路隔溫墊，該管路隔溫墊將各儲溫桶的出管以及出接管與各儲溫桶的入管以及入接管隔開。The temperature storage device of claim 1, wherein a space between the upper temperature storage bucket and the top of the temperature insulation layer is provided with a pipeline insulation mat, and the pipeline insulation mat will store each The outlet pipe and the outlet pipe of the warm barrel are separated from the inlet pipe and the inlet pipe of each temperature storage barrel. 如申請專利範圍第1或2項所述之集溫儲存裝置，其中所述相變材料為石臘。The temperature storage device of claim 1 or 2, wherein the phase change material is paraffin. 如申請專利範圍第3項所述之集溫儲存裝置，其中所述各循環管在兩側分別形成一直管部以及一螺旋管部。The temperature storage device of claim 3, wherein each of the circulation tubes forms a straight tube portion and a spiral tube portion on both sides.