TW201634886A - Improved structure of heater - Google Patents

Abstract

An improved structure of heater comprises a tube body, a heating pipe, a water input pipe, a water output pipe, a water storage area and a heating area. The tube body is internally configured with the heating area and the water storage area. The heating pipe is guided from the tube body to the heating area. The water input pipe guides a water source from the outside of the tube body to the water storage area inside the tube body. The water output pipe guides the heated water in the tube body from the water output pipe to the outside of the tube body. The heating pipe is guided into the heating area. Above the heating area, there are a hot flow guiding pipe guided to the outside of the tube body and a cold flow guiding pipe guided from the water storage area to the heating area. The structure is characterized in that: the heating area is formed by being blocked by a heat insulation space which at least has one partition, and the heating area and the water storage area are separated by a predetermined distance so as to form a space serving as the heat insulation space. As a result, the heat insulation space can be used to block heat energy from dissipating to the water storage area, so that heat energy of the heating area can be kept and stored without dissipation thereby achieving the purpose of surely thermally insulating the heating area and the water storage area.

Description

加熱器之結構改良 Structural improvement of the heater

本發明係有關於一種加熱器之結構改良，更詳而言之，尤指以一隔熱空間有效阻隔熱能的傳遞，以隔熱空間阻隔熱能散出至儲水區，同時儲水區冷水的低溫不會傳遞至加熱區，加熱區熱能蓄存不流失，達到確實隔熱加熱區與儲水區的作用，秉除習知只以一金屬板作為隔熱的結構的加熱器之結構改良。 The invention relates to a structural improvement of a heater, in more detail, in particular, the transmission of an effective heat-insulating energy in a heat-insulating space, the heat-insulating space resists heat dissipation to the water storage area, and the cold water of the water storage area The low temperature is not transmitted to the heating zone, and the heat energy storage in the heating zone is not lost, so as to achieve the function of the heat-insulating heating zone and the water storage zone, and the structural improvement of the heater which is only known as a heat-insulating structure by a metal plate is improved.

按，先行所知，傳統加熱器，如第一圖所示，主要係包含有一筒體10、加熱管11、入水管12及出水管13，筒體10底部有入水管12及出水管13導入，加熱管11也由底部設置，作加熱筒體10內部的水，筒體10內部有一圓型隔板14，圓型隔板14內有加熱管11及入水管12，圓型隔板14上方有一內頂板15，入水管12向上穿過內頂板15而出，入水管12將水導入圓型隔板14之外周，內頂板15有一流通口16。 According to the prior art, the conventional heater, as shown in the first figure, mainly comprises a cylinder 10, a heating pipe 11, a water inlet pipe 12 and an outlet pipe 13, and a water inlet pipe 12 and an outlet pipe 13 are introduced at the bottom of the cylinder body 10. The heating tube 11 is also disposed at the bottom for heating the water inside the cylinder 10. The cylinder 10 has a circular partition 14 inside, and the circular partition 14 has a heating tube 11 and an inlet pipe 12, above the circular partition 14. There is an inner top plate 15, the inlet pipe 12 is upwardly passed through the inner top plate 15, and the inlet pipe 12 guides water into the outer periphery of the circular partition 14, which has a flow port 16.

當水由入水管12導入圓型隔板14之外周時，漸漸溢滿於加熱管11，加熱管11對圓型隔板14內的水提升溫度(圓型隔板14內為加熱區110)，加熱的水上升至內頂板15上方，經流通口16溢入出水管13內，並由出水管13流出已加熱之水，如此不斷地導入水於圓型隔板14之外周，加熱圓型隔板14內的水，由出水管13流出已加熱之水。 When water is introduced into the outer periphery of the circular partition 14 from the inlet pipe 12, it gradually overflows the heating pipe 11, and the heating pipe 11 raises the temperature of the water in the circular partition 14 (the heating zone 110 in the circular separator 14) The heated water rises above the inner top plate 15, overflows into the outlet pipe 13 through the flow port 16, and flows out the heated water from the outlet pipe 13, so that water is continuously introduced into the outer periphery of the circular partition 14 to heat the circular partition. The water in the plate 14 flows out of the heated water from the outlet pipe 13.

由於加熱非全面筒體10，只加熱圓型隔板14內的水，可以快速的加熱少部份水，供使用者使用，避免全面筒體10加熱，浪費能源，免除耗時等待熱水之缺失。 Since the non-full cylinder 10 is heated and only the water in the circular baffle 14 is heated, a small amount of water can be quickly heated for the user to avoid heating the entire cylinder 10, wasting energy, and avoiding waiting for hot water. Missing.

傳統加熱器雖然將加熱區集中於圓型隔板14內的水，但是該圓型隔板14只是單一金屬製板，圓型隔板14內的水經加熱後，仍然透過圓型隔板14傳遞熱至圓型隔板14外的水，同時圓型隔板14外未加熱的水，也降溫圓型隔板14，使加熱管11耗費更多能源，是其主要缺失。 Although the conventional heater concentrates the heating zone on the water in the circular baffle 14, the circular baffle 14 is only a single metal plate, and the water in the circular baffle 14 is still passed through the circular baffle 14 after being heated. The heat is transferred to the water outside the circular separator 14, while the unheated water outside the circular separator 14 also cools the circular separator 14, so that the heating tube 11 consumes more energy, which is a major defect.

如第二圖所示，傳統第二種加熱器，主要係包含有一筒體20、加熱管21、入水管22及出水管23，筒體20內有一隔板24，內為加熱區240，加熱區240有加熱管21導入，加熱區240上方有出水管23導出筒體20外，入水管22由筒體20導入加熱區240外，隔板24有一流通口25。 As shown in the second figure, the conventional second heater mainly comprises a cylinder 20, a heating pipe 21, an inlet pipe 22 and an outlet pipe 23. The cylinder 20 has a partition 24 therein, which is a heating zone 240 and is heated. The zone 240 has a heating pipe 21 introduced therein. Above the heating zone 240, an outlet pipe 23 is led out of the casing 20. The inlet pipe 22 is introduced from the casing 20 into the heating zone 240. The partition 24 has a flow port 25.

當水由入水管22導入筒體20內，經隔板24之流通口25入加熱區240，加熱管21對加熱區240內的水提升溫度，加熱的水上升溢入出水管23內，並由出水管23流出已加熱之水，如此不斷地導入水於筒體20內，加熱管21對加熱區240內的水提升溫度，由出水管23流出已加熱之水。 When the water is introduced into the cylinder 20 from the water inlet pipe 22, the flow port 25 of the partition plate 24 is introduced into the heating zone 240, and the heating pipe 21 raises the temperature of the water in the heating zone 240, and the heated water rises into the water outlet pipe 23, and is The outlet pipe 23 flows out of the heated water, so that water is continuously introduced into the cylinder 20, and the heating pipe 21 raises the temperature of the water in the heating zone 240, and the heated water flows out of the outlet pipe 23.

傳統第二種加熱器雖然將熱集中加熱區240內的水，但是該隔板24只是單一金屬製板，隔板24內的水經加熱後，仍然透過隔板24傳遞熱至隔板24外的水，同時隔板24外未加熱的水，也降溫隔板24，使加熱管21耗費更多能源，是其主要缺失。 Although the conventional second type heater heats the water in the heating zone 240, the partition 24 is only a single metal plate, and the water in the partition 24 is heated to pass through the partition 24 to transfer heat to the partition 24. The water, while the unheated water outside the partition 24, also cools the partition 24, making the heating tube 21 consume more energy, which is a major deficiency.

因此，無論是第一種加熱器或是第二種加熱器都是以 金屬製板作為隔板14(24)加熱區，無法真正蓄存熱之保存，而是將熱能傳遞至冷水區，散失熱能，使加熱管耗費更多能源。 Therefore, whether it is the first heater or the second heater As the heating zone of the partition 14 (24), the metal plate can not really store the heat, but transfer the heat energy to the cold water zone, which dissipates the heat energy and makes the heating pipe consume more energy.

傳統加熱器耗費能源，主要是加熱區之隔板無法發揮蓄存熱之作用，隔絕能源散失，是加熱器普遍的通病。 The traditional heater consumes energy, mainly because the partition of the heating zone can not play the role of storing heat, and the isolation energy is lost, which is a common common problem of the heater.

有鑑於此，本案發明人乃基於上述弊端，仍積極努力開發、研究改良，並不斷試驗組裝，累積經驗，而終於有一足以解決上述弊端之發明產生。 In view of this, the inventor of the present invention is still actively working on development, research and improvement, and constantly experimenting with assembly and accumulating experience, and finally has an invention capable of solving the above drawbacks.

緣是，本發明一種加熱器之結構改良，其係包含有：一筒體，可以儲存水源，有進水及出水於筒體，筒體內有一加熱區及一儲水區；一加熱管，由筒體導入於加熱區；一入水管，由筒體外將水源導入筒體內之儲水區；一出水管，將筒體內已加溫之水，由出水管導出於筒體外；一加熱區，加熱區有加熱管導入，加熱區上方有一熱流導管導出筒體外，一冷流導管由儲水區導入加熱區內；其特徵在於：該加熱區由一隔熱空間所阻隔而成，隔熱空間至少具有一隔板，加熱區與儲水區兩區之間有一預定距離形成一空間，即為隔熱空間；據此，以該隔熱空間阻隔熱能散出至儲水區，將加熱區熱能蓄存不流失，達到確實隔熱加熱區與儲水區之目的。 The invention relates to a structural improvement of a heater according to the present invention, which comprises: a cylinder, which can store water source, has water inlet and outlet water in the cylinder body, a heating zone and a water storage zone in the cylinder body; The cylinder is introduced into the heating zone; a water inlet pipe is used to introduce the water source into the water storage area of the cylinder body; a water outlet pipe is used to heat the water in the cylinder body, and the water is discharged from the outlet pipe to the outside of the cylinder; The heating pipe is introduced into the zone, and a heat flow conduit is arranged outside the heating zone to the outside of the cylinder, and a cold flow conduit is introduced into the heating zone from the water storage zone; the heating zone is formed by an insulation space, and the heat insulation space is at least The utility model has a partition, a predetermined distance between the heating zone and the water storage zone forms a space, that is, an insulation space; accordingly, the heat insulation energy of the heat insulation space can be dissipated to the water storage zone, and the heat energy of the heating zone is stored. There is no loss, and the purpose of the insulated heating zone and the water storage zone is achieved.

本發明一種加熱器之結構改良，其主要目的係提供隔熱空間阻隔熱能散出至儲水區，將加熱區熱能蓄存不流失，確實隔熱加熱區與儲水區。 The invention relates to a structural improvement of a heater, and the main purpose thereof is to provide an insulation space resistance heat dissipation energy to be discharged to a water storage area, and to store heat energy in the heating zone without loss, and to insulate the heating zone and the water storage zone.

本發明一種加熱器之結構改良，其另一目的係提供可以快速的加熱少部份水，供使用者使用，避免全面筒體加熱，浪費能源，免除耗時等待熱水之缺失。 The utility model relates to a structural improvement of a heater. Another object of the invention is to provide a quick heating of a small amount of water for use by a user, avoiding heating of the entire cylinder, wasting energy, and avoiding the time-consuming waiting for the absence of hot water.

〔習知〕 [study]

10‧‧‧筒體 10‧‧‧Cylinder

11‧‧‧加熱管 11‧‧‧heat pipe

12‧‧‧入水管 12‧‧‧Water inlet

13‧‧‧出水管 13‧‧‧Outlet

14‧‧‧圓型隔板 14‧‧‧ Round partition

15‧‧‧內頂板 15‧‧‧ inner roof

16‧‧‧流通口 16‧‧‧ Circulation

110‧‧‧加熱區 110‧‧‧heating area

20‧‧‧筒體 20‧‧‧Cylinder

21‧‧‧加熱管 21‧‧‧heat pipe

22‧‧‧入水管 22‧‧‧Water inlet

23‧‧‧出水管 23‧‧‧Outlet

24‧‧‧隔板 24‧‧ ‧ partition

240‧‧‧加熱區 240‧‧‧heating area

25‧‧‧流通口 25‧‧‧ circulation

〔本發明〕 〔this invention〕

30‧‧‧筒體 30‧‧‧Cylinder

31‧‧‧加熱管 31‧‧‧heat pipe

32‧‧‧入水管 32‧‧‧Water inlet

33‧‧‧出水管 33‧‧‧Outlet

34‧‧‧儲水區 34‧‧‧Water storage area

35‧‧‧加熱區 35‧‧‧heating area

36‧‧‧隔熱空間 36‧‧‧Insulation space

361‧‧‧隔板 361‧‧ ‧ partition

37‧‧‧冷流導管 37‧‧‧Cold flow conduit

38‧‧‧熱流導管 38‧‧‧heat flow conduit

第一圖係習知第一種加熱器之剖面示意圖。 The first figure is a schematic cross-sectional view of a first type of heater.

第二圖係習知第二種加熱器之剖面示意圖。 The second figure is a schematic cross-sectional view of a conventional second heater.

第三圖係本發明之剖面示意圖。 The third figure is a schematic cross-sectional view of the present invention.

本發明一種加熱器之結構改良，第一實施例如第三圖所示，其係包含有一筒體30、加熱管31、一入水管32、一出水管33、一儲水區34及一加熱區35，筒體30可以儲存水源，筒體30內劃分為一加熱區35及一儲水區34，加熱管31由筒體30導入於加熱區35，入水管32由筒體30外將水源導入筒體30內之儲水區34，出水管33將筒體30內已加溫之水，由出水管33導出於筒體30外，加熱區35有加熱管31導入，加熱區35上方有熱流導管38至出水管33導出筒體30外，入水管32由筒體30導入加熱區35內，該加熱區35由一隔熱空間36所阻隔而成，隔熱空間36至少具有一隔板361，加熱區35與儲水區34兩區之間有一預定距離形成一空間，即為隔熱空間36，隔熱空間36內可為空氣層，或者該隔熱空間36內為真空層，或者該該隔熱空間36內置入隔熱材質，該隔熱空間36有一冷流導管37，使儲水區34之水導入加熱區35，隔熱空間36上有一熱流導管38，熱流導管 38有一長度至出水管33附近，使熱水上升由出水管33出熱水。 The structure of the heater of the present invention is improved. The first embodiment includes a cylinder 30, a heating pipe 31, a water inlet pipe 32, an outlet pipe 33, a water storage area 34 and a heating zone. 35. The cylinder 30 can store a water source. The cylinder 30 is divided into a heating zone 35 and a water storage zone 34. The heating pipe 31 is introduced into the heating zone 35 by the cylinder 30, and the water inlet pipe 32 is introduced from the outside of the cylinder 30. The water storage area 34 in the cylinder 30, the water outlet pipe 33, the heated water in the cylinder 30 is led out of the cylinder 30 by the outlet pipe 33, the heating zone 35 is introduced by the heating pipe 31, and the heat flow is above the heating zone 35. The conduit 38 to the outlet pipe 33 are led out of the cylinder 30, and the inlet pipe 32 is introduced into the heating zone 35 by the cylinder 30. The heating zone 35 is formed by a heat insulating space 36. The heat insulating space 36 has at least one partition 361. a predetermined distance between the heating zone 35 and the two zones of the water storage zone 34 forms a space, that is, the heat insulating space 36, the heat insulating space 36 may be an air layer, or the heat insulating space 36 is a vacuum layer, or The heat insulating space 36 is built with an insulating material, and the heat insulating space 36 has a cold flow conduit 37 for introducing water into the water storage area 34. 35, a heat insulation space 36 of the catheter 38, the catheter heat 38 has a length to the vicinity of the outlet pipe 33, so that the hot water rises and the hot water is discharged from the outlet pipe 33.

藉由上述之結構結構改良，本發明一種加熱器之結構改良，水源由入水管32導入筒體30內，進入筒體30的儲水區34，在由儲水區34經流通管流入加熱區35，加熱管31對加熱區35內的水提升溫度，依據熱上流原理，加熱的水經熱流道管38上升溢出，經出水管33流出已加熱之水，如此不斷地導入水於筒體30內，加熱管31對加熱區35內的水提升溫度，由出水管33流出已加熱之水。 According to the structural structure improvement described above, the structure of the heater of the present invention is improved, and the water source is introduced into the cylinder 30 from the water inlet pipe 32, enters the water storage area 34 of the cylinder 30, and flows into the heating zone through the circulation pipe through the water storage zone 34. 35. The heating pipe 31 raises the temperature of the water in the heating zone 35. According to the hot upper flow principle, the heated water rises and overflows through the hot runner pipe 38, and the heated water flows out through the outlet pipe 33, so that the water is continuously introduced into the cylinder 30. Inside, the heating pipe 31 raises the temperature of the water in the heating zone 35, and the heated water flows out of the water outlet pipe 33.

由於該隔熱空間36係一空間，可以有效阻隔熱能的傳遞，以該隔熱空間36阻隔熱能散出至儲水區34，同時該儲水區34冷水的低溫不會傳遞至加熱區35，加熱區35熱能蓄存不流失，達到確實隔熱加熱區35與儲水區34的作用，秉除習知只以一金屬板作為隔熱的結構。 Since the heat insulating space 36 is a space, the heat insulation can be effectively blocked, and the heat insulating space 36 can block the heat dissipation to the water storage area 34, and the low temperature of the cold water of the water storage area 34 is not transmitted to the heating area 35. The heat energy of the heating zone 35 is not lost, and the function of the heat insulating zone 35 and the water storage zone 34 is achieved, and it is conventional to use only one metal plate as the heat insulating structure.

惟上述僅為本發明之較佳實施例而已，並非用來限定本發明實施之範圍，即凡依本發明申請專利範圍所做的均等變化與修飾，皆為本發明專利範圍所涵蓋。 The above are only the preferred embodiments of the present invention, and are not intended to limit the scope of the present invention, that is, the equivalent variations and modifications made by the scope of the present invention are covered by the scope of the present invention.

綜上所述，本發明一種加熱器之結構改良，其新穎性、實用性及進步性乃毋庸置疑，完全符合專利之要件，爰依法提請。 In summary, the structure of the heater of the present invention is improved, and its novelty, practicability and advancement are unquestionable, and fully meet the requirements of the patent, and are drawn according to law.

30‧‧‧筒體 30‧‧‧Cylinder

31‧‧‧加熱管 31‧‧‧heat pipe

32‧‧‧入水管 32‧‧‧Water inlet

33‧‧‧出水管 33‧‧‧Outlet

34‧‧‧儲水區 34‧‧‧Water storage area

35‧‧‧加熱區 35‧‧‧heating area

36‧‧‧隔熱空間 36‧‧‧Insulation space

361‧‧‧隔板 361‧‧ ‧ partition

37‧‧‧冷流導管 37‧‧‧Cold flow conduit

38‧‧‧熱流導管 38‧‧‧heat flow conduit

Claims (5)

一種加熱器之結構改良，其係包含有：一筒體，可以儲存水源，有進水及出水於筒體，筒體內有一加熱區及一儲水區；一加熱管，由筒體導入於加熱區；一入水管，由筒體外將水源導入筒體內之儲水區；一出水管，將筒體內已加溫之水，由出水管導出於筒體外；一加熱區，加熱區有加熱管導入，加熱區上方有一熱流導管導出筒體外，一冷流導管由儲水區導入加熱區內；其特徵在於：該加熱區由一隔熱空間所阻隔而成，隔熱空間至少具有一隔板，加熱區與儲水區兩區之間有一預定距離形成一空間，即為隔熱空間；據此，以該隔熱空間阻隔熱能散出至儲水區，將加熱區熱能蓄存不流失，達到確實隔熱加熱區與儲水區之目的。 The utility model relates to a structural improvement of a heater, which comprises: a cylinder body capable of storing a water source, having water inlet and outlet water in the cylinder body, a heating zone and a water storage zone in the cylinder body; and a heating pipe introduced into the heating body by the cylinder body Zone; a water inlet pipe, the water source is introduced into the water storage area of the cylinder body from the outside of the cylinder; a water outlet pipe is used to heat the water in the cylinder body, and is discharged from the outlet pipe to the outside of the cylinder; a heating zone, a heating zone is introduced into the heating zone Above the heating zone, a heat flow conduit is led out of the cylinder body, and a cold flow conduit is introduced into the heating zone from the water storage zone; the heating zone is formed by an insulation space, and the heat insulation space has at least one partition. A predetermined distance between the heating zone and the water storage zone forms a space, which is an insulation space; accordingly, the heat insulation energy of the heat insulation space can be dissipated to the water storage zone, and the heat energy of the heating zone is not lost. It is indeed the purpose of insulating the heating zone and the water storage zone. 如請求項1所述之加熱器之結構改良，其中該隔熱空間上至少有一熱流導管，熱流導管有一長度至出水管附近。 The structure of the heater of claim 1, wherein the heat insulating space has at least one heat flow conduit having a length to the vicinity of the water outlet pipe. 如請求項1所述之加熱器之結構改良，其中該隔熱空間內為空氣層。 The structure of the heater according to claim 1 is improved, wherein the heat insulating space is an air layer. 如請求項1所述之加熱器之結構改良，其中該隔熱空間內為真空層。 The structure of the heater of claim 1 is improved, wherein the insulated space is a vacuum layer. 如請求項1所述之加熱器之結構改良，其中該隔熱空間內置入隔熱材質。 The structure of the heater according to claim 1 is improved, wherein the heat insulating space is built with an insulating material.