TW202400900A - Tower fan and shell thereof - Google Patents
Tower fan and shell thereof Download PDFInfo
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- TW202400900A TW202400900A TW111123064A TW111123064A TW202400900A TW 202400900 A TW202400900 A TW 202400900A TW 111123064 A TW111123064 A TW 111123064A TW 111123064 A TW111123064 A TW 111123064A TW 202400900 A TW202400900 A TW 202400900A
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- XAGFODPZIPBFFR-UHFFFAOYSA-N aluminium Chemical compound [Al] XAGFODPZIPBFFR-UHFFFAOYSA-N 0.000 claims abstract description 16
- 229910052782 aluminium Inorganic materials 0.000 claims abstract description 16
- 238000001125 extrusion Methods 0.000 claims abstract description 14
- 230000000712 assembly Effects 0.000 claims description 17
- 238000000429 assembly Methods 0.000 claims description 17
- 238000004519 manufacturing process Methods 0.000 abstract description 8
- 230000007423 decrease Effects 0.000 abstract 1
- 238000010586 diagram Methods 0.000 description 11
- 238000004140 cleaning Methods 0.000 description 8
- 239000000428 dust Substances 0.000 description 6
- 230000000694 effects Effects 0.000 description 5
- 239000004744 fabric Substances 0.000 description 5
- 239000007787 solid Substances 0.000 description 5
- 239000002023 wood Substances 0.000 description 5
- 238000009825 accumulation Methods 0.000 description 2
- 239000013566 allergen Substances 0.000 description 2
- 238000001816 cooling Methods 0.000 description 2
- 238000000465 moulding Methods 0.000 description 2
- 238000009423 ventilation Methods 0.000 description 2
- 241000238876 Acari Species 0.000 description 1
- 208000027418 Wounds and injury Diseases 0.000 description 1
- 208000028004 allergic respiratory disease Diseases 0.000 description 1
- 230000003796 beauty Effects 0.000 description 1
- 230000000295 complement effect Effects 0.000 description 1
- 230000006378 damage Effects 0.000 description 1
- 238000005034 decoration Methods 0.000 description 1
- 230000005802 health problem Effects 0.000 description 1
- 208000014674 injury Diseases 0.000 description 1
- 239000000463 material Substances 0.000 description 1
- 238000000034 method Methods 0.000 description 1
- 201000004335 respiratory allergy Diseases 0.000 description 1
- 210000002345 respiratory system Anatomy 0.000 description 1
- 238000003860 storage Methods 0.000 description 1
Images
Classifications
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F04—POSITIVE - DISPLACEMENT MACHINES FOR LIQUIDS; PUMPS FOR LIQUIDS OR ELASTIC FLUIDS
- F04D—NON-POSITIVE-DISPLACEMENT PUMPS
- F04D29/00—Details, component parts, or accessories
- F04D29/40—Casings; Connections of working fluid
- F04D29/403—Casings; Connections of working fluid especially adapted for elastic fluid pumps
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F04—POSITIVE - DISPLACEMENT MACHINES FOR LIQUIDS; PUMPS FOR LIQUIDS OR ELASTIC FLUIDS
- F04D—NON-POSITIVE-DISPLACEMENT PUMPS
- F04D25/00—Pumping installations or systems
- F04D25/16—Combinations of two or more pumps ; Producing two or more separate gas flows
- F04D25/166—Combinations of two or more pumps ; Producing two or more separate gas flows using fans
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F04—POSITIVE - DISPLACEMENT MACHINES FOR LIQUIDS; PUMPS FOR LIQUIDS OR ELASTIC FLUIDS
- F04D—NON-POSITIVE-DISPLACEMENT PUMPS
- F04D25/00—Pumping installations or systems
- F04D25/02—Units comprising pumps and their driving means
- F04D25/08—Units comprising pumps and their driving means the working fluid being air, e.g. for ventilation
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F04—POSITIVE - DISPLACEMENT MACHINES FOR LIQUIDS; PUMPS FOR LIQUIDS OR ELASTIC FLUIDS
- F04D—NON-POSITIVE-DISPLACEMENT PUMPS
- F04D29/00—Details, component parts, or accessories
- F04D29/26—Rotors specially for elastic fluids
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F04—POSITIVE - DISPLACEMENT MACHINES FOR LIQUIDS; PUMPS FOR LIQUIDS OR ELASTIC FLUIDS
- F04D—NON-POSITIVE-DISPLACEMENT PUMPS
- F04D29/00—Details, component parts, or accessories
- F04D29/40—Casings; Connections of working fluid
- F04D29/42—Casings; Connections of working fluid for radial or helico-centrifugal pumps
- F04D29/4206—Casings; Connections of working fluid for radial or helico-centrifugal pumps especially adapted for elastic fluid pumps
- F04D29/4226—Fan casings
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F04—POSITIVE - DISPLACEMENT MACHINES FOR LIQUIDS; PUMPS FOR LIQUIDS OR ELASTIC FLUIDS
- F04D—NON-POSITIVE-DISPLACEMENT PUMPS
- F04D29/00—Details, component parts, or accessories
- F04D29/60—Mounting; Assembling; Disassembling
- F04D29/601—Mounting; Assembling; Disassembling specially adapted for elastic fluid pumps
-
- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F04—POSITIVE - DISPLACEMENT MACHINES FOR LIQUIDS; PUMPS FOR LIQUIDS OR ELASTIC FLUIDS
- F04D—NON-POSITIVE-DISPLACEMENT PUMPS
- F04D29/00—Details, component parts, or accessories
- F04D29/60—Mounting; Assembling; Disassembling
- F04D29/601—Mounting; Assembling; Disassembling specially adapted for elastic fluid pumps
- F04D29/602—Mounting in cavities
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F04—POSITIVE - DISPLACEMENT MACHINES FOR LIQUIDS; PUMPS FOR LIQUIDS OR ELASTIC FLUIDS
- F04D—NON-POSITIVE-DISPLACEMENT PUMPS
- F04D29/00—Details, component parts, or accessories
- F04D29/60—Mounting; Assembling; Disassembling
- F04D29/62—Mounting; Assembling; Disassembling of radial or helico-centrifugal pumps
- F04D29/624—Mounting; Assembling; Disassembling of radial or helico-centrifugal pumps especially adapted for elastic fluid pumps
- F04D29/626—Mounting or removal of fans
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F04—POSITIVE - DISPLACEMENT MACHINES FOR LIQUIDS; PUMPS FOR LIQUIDS OR ELASTIC FLUIDS
- F04D—NON-POSITIVE-DISPLACEMENT PUMPS
- F04D29/00—Details, component parts, or accessories
- F04D29/70—Suction grids; Strainers; Dust separation; Cleaning
- F04D29/701—Suction grids; Strainers; Dust separation; Cleaning especially adapted for elastic fluid pumps
- F04D29/703—Suction grids; Strainers; Dust separation; Cleaning especially adapted for elastic fluid pumps specially for fans, e.g. fan guards
Landscapes
- Engineering & Computer Science (AREA)
- Mechanical Engineering (AREA)
- General Engineering & Computer Science (AREA)
- Structures Of Non-Positive Displacement Pumps (AREA)
Abstract
Description
本創作係一種柱狀風扇及其外殼,尤指能便於拆裝清洗之柱狀風扇及其外殼。The invention relates to a cylindrical fan and its casing, especially a cylindrical fan and its casing that can be easily disassembled, assembled and cleaned.
在日常生活中,電扇為一般常見應用於室內對流及消暑之電器,而為了配合不同消費者的使用環境,現今市面上所能選擇的電扇種類繁多。In daily life, fans are commonly used electrical appliances for indoor convection and heat relief. In order to suit different consumers' usage environments, there are many types of fans available on the market today.
而現今市面上常見之柱狀風扇主要係包含一底座及一風扇本體,所述風扇本體係可樞轉地設置於所述底座上,所述風扇本體包含一柱狀之外殼、一驅動馬達及一渦扇,所述外殼係以塑膠模具成型,所述外殼的一側形成有多數入風孔,以及位於所述外殼相對該多數入風孔的另一側之出風孔,所述驅動馬達係設置於所述外殼內,所述渦扇係連接所述驅動馬達,並能受控於所述驅動馬達進行轉動,藉此帶動氣流自該多數入風孔進入外殼內,並自出風孔吹出。The common cylindrical fans on the market today mainly include a base and a fan body. The fan system is pivotably disposed on the base. The fan body includes a cylindrical casing, a drive motor and a fan body. A turbofan, the housing is formed by a plastic mold, a plurality of air inlets are formed on one side of the housing, and an air outlet is located on the other side of the housing relative to the plurality of air inlets, the drive motor The turbofan is installed in the casing, and the turbofan is connected to the driving motor and can be controlled by the driving motor to rotate, thereby driving the airflow into the casing from the plurality of air inlet holes and out of the air outlet holes. Blow out.
其中,由於所述柱狀風扇的的風扇本體係呈現柱狀的結構,不但能減少占用空間、且能提高收納便利性,且使用扇葉較小的圓筒型渦扇轉動時不易察覺扇葉在動,可提升空間的寧靜感。Among them, since the fan system of the columnar fan has a columnar structure, it can not only reduce the space occupied, but also improve the convenience of storage, and it is not easy to detect the fan blades when using a cylindrical turbofan with smaller fan blades. Moving can enhance the sense of tranquility in the space.
然而現今之柱狀風扇在長期使用下,氣流長時間通過之所述柱狀風扇的入風孔及所述出風孔處容易有灰塵堆積,不但容易影響所述柱狀風扇的輸出的風量,且所述灰塵堆積處容易有塵螨等過敏原孳生,而所述過敏原可能會隨著所述渦扇轉動時所產生的氣流流動,並自出風孔吹出到室內空間中,進而導致消費者在使用所述柱狀風扇時容易有呼吸道過敏或不適等健康安全問題,故必須定期進行清除所述外殼內部的灰塵。However, when today's cylindrical fans are used for a long time, dust is likely to accumulate at the air inlet holes and the air outlet holes of the cylindrical fans through which air flows for a long time, which not only easily affects the air volume output of the cylindrical fans, but also Moreover, dust mites and other allergens are likely to breed in the dust accumulation area, and the allergens may flow with the airflow generated when the turbofan rotates and be blown out from the air outlet into the indoor space, thereby causing consumption. People are prone to health and safety problems such as respiratory allergies or discomfort when using the cylindrical fan, so the dust inside the casing must be removed regularly.
但是由於所述柱狀風扇的外殼主要係由塑膠模具產生之二殼體相互拼組而成,且所述渦扇及所述驅動馬達等構件皆係藉由殼體內部的結構提供定位及支撐,若消費者要拆開所述外殼進行清潔時,會因為所述外殼的殼體內部結構較為複雜,而有難以拆卸及組裝之問題。However, the casing of the cylindrical fan is mainly composed of two casings produced by plastic molds assembled together, and the components such as the turbofan and the drive motor are positioned and supported by the structure inside the casing. , if consumers want to disassemble the casing for cleaning, it will be difficult to disassemble and assemble because the internal structure of the casing is relatively complex.
此外,如前述,現今之外殼為了要提供渦扇及驅動馬達之定位,會透過在殼體內部設置用以定位之結構,且所述定位結構皆係以塑膠模具成型,不但大幅提高風扇本體之外殼製造難度,且製造所需的投資成本亦非常昂貴。In addition, as mentioned above, in order to provide the positioning of the turbofan and the drive motor, today's casings will be provided with positioning structures inside the casing, and the positioning structures are all molded with plastic molds, which not only greatly improves the stability of the fan body The casing is difficult to manufacture, and the investment cost required for manufacturing is also very expensive.
本創作之主要目的在於提供一柱狀風扇及其外殼,希藉此改善現今之柱狀風扇有難以拆卸清洗之問題,以及外殼開模成本較為昂貴之問題。The main purpose of this invention is to provide a cylindrical fan and its casing, hoping to improve the problem that the current cylindrical fan is difficult to disassemble and clean, and the molding cost of the casing is relatively expensive.
為達成前揭目的,本創作之柱狀風扇之外殼具有一出風側,所述柱狀風扇之外殼包含: 一底板; 至少一出風結構,其係設置於所述底板的上方,所述出風結構包含分別以鋁擠型成形之一殼板模組、一入風板模組及一導風柱,所述殼板模組、所述入風板模組及所述導風柱係依序環繞排列圈圍形成一渦流空間,且所述殼板模組與所述導風柱之間形成面向所述出風側並連通所述渦流空間之一出風口,所述入風板模組係能拆組地設置於所述底板上,所述入風板模組上形成有多數入風孔;以及 一頂板,其係設置於所述出風結構的所述殼板模組及所述導風柱上方,所述入風板模組能與所述頂板相扣接,所述頂板上形成有至少一軸孔,所述軸孔係連通所述出風結構的渦流空間,所述軸孔的位置係位於所述渦流空間的中心處。 In order to achieve the purpose disclosed above, the casing of the cylindrical fan of this invention has an air outlet side. The casing of the cylindrical fan includes: a base plate; At least one air outlet structure is disposed above the bottom plate. The air outlet structure includes a shell plate module, an air inlet plate module and an air guide column each made of aluminum extrusion. The panel module, the air inlet panel module and the air guide column are arranged in order to form a vortex space, and the shell module and the air guide column form a space facing the air outlet. The side is connected to one of the air outlets of the vortex space, and the air inlet panel module is detachably disposed on the bottom plate, and a plurality of air inlet holes are formed on the air inlet panel module; and A top plate, which is arranged above the shell plate module and the air guide column of the air outlet structure. The air inlet plate module can be interlocked with the top plate. The top plate is formed with at least An axial hole is connected to the vortex space of the air outlet structure, and the position of the axial hole is located at the center of the vortex space.
其中,所述入風板模組包含採鋁擠型成形之複數入風板、一上定位板、一下定位板及多數限位件,每一入風板的二側分別形成有一限位槽,所述上定位板與所述下定位板係分別設置於該複數入風板的上下二端,所述入風模組藉由所述上定位板與所述下定位板能拆組地與該頂板及該底板相扣接,該多數限位件係分別穿過所述上定位板與所述下定位板並伸入對應之入風板的限位槽內。Wherein, the air inlet panel module includes a plurality of air inlet panels formed by aluminum extrusion, an upper positioning plate, a lower positioning plate and a plurality of limiting parts. A limiting groove is formed on both sides of each air inlet panel. The upper positioning plate and the lower positioning plate are respectively provided at the upper and lower ends of the plurality of air inlet plates, and the air inlet module can be disassembled with the upper positioning plate and the lower positioning plate. The top plate and the bottom plate are interlocked, and the plurality of limiting members pass through the upper positioning plate and the lower positioning plate respectively and extend into the limiting grooves of the corresponding air inlet plates.
其中,所述出風結構包含一出風板模組,所述出風板模組係位於所述柱狀風扇之外殼的出風側處,所述出風板模組包含至少一出風板及至少一擋片,所述出風板上形成多數出風孔,該多數出風孔係連通所述渦流空間,所述擋片係設置於所述出風板頂端,並能與所述頂板相扣接。Wherein, the air outlet structure includes an air outlet plate module. The air outlet plate module is located on the air outlet side of the casing of the cylindrical fan. The air outlet plate module includes at least one air outlet plate. and at least one baffle. A plurality of air outlets are formed on the air outlet plate. The plurality of air outlets are connected to the vortex space. The baffle is arranged on the top of the air outlet plate and can be connected with the top plate. Interlocking connection.
其中,所述柱狀風扇之外殼能進一步包含一蓋板,所述蓋板係蓋合於所述頂板上,並形成有對應所述頂板之軸孔的至少一開孔,所述蓋板底部固設有複數磁鐵並形成有複數扣合銷及至少一組合銷,所述蓋板的磁鐵能吸附於所述頂板上,所述頂板形成有複數扣合孔以及至少一組合孔,且所述入風板模組之上定位板形成有複數配合孔,所述上定位板的配合孔係對應所述頂板的扣合孔,該複數扣合銷係分別穿過該複數配合孔及該複數扣合孔,而所述出風板模組之擋片形成有至少一對位孔,所述擋片之對位孔係對應所述頂板之組合孔,所述組合銷係穿過所述頂板之組合孔及所述擋片之對位孔。Wherein, the casing of the cylindrical fan can further include a cover plate, the cover plate is closed on the top plate, and is formed with at least one opening corresponding to the axis hole of the top plate, and the bottom of the cover plate A plurality of magnets are fixed and formed with a plurality of fastening pins and at least one combination pin. The magnets of the cover plate can be adsorbed on the top plate. The top plate is formed with a plurality of fastening holes and at least one combination hole, and the A plurality of matching holes are formed on the upper positioning plate of the air inlet panel module. The matching holes of the upper positioning plate correspond to the fastening holes of the top plate. The plurality of fastening pins pass through the plurality of matching holes and the plurality of buckles respectively. The baffle of the air outlet panel module is formed with at least one pair of alignment holes. The alignment holes of the baffle correspond to the combination holes of the top plate. The combination pin passes through the top plate. The combination hole and the alignment hole of the baffle.
其中,所述底板形成有複數扣接孔,所述入風板模組之下定位板形成有複數扣接凸部,所述下定位板之扣接凸部能分別伸入所述底板之扣接孔中。Wherein, the bottom plate is formed with a plurality of buckling holes, and the positioning plate under the air inlet panel module is formed with a plurality of buckling protrusions. The buckling protrusions of the lower positioning plate can respectively extend into the buckles of the bottom plate. in the connection hole.
其中,所述底板形成有複數裝配孔,所述出風板底端凸伸形成複數裝配凸部,該複數裝配凸部係能扣入所述底板之該複數裝配孔中。Wherein, the bottom plate is formed with a plurality of assembly holes, and the bottom end of the air outlet plate protrudes to form a plurality of assembly protrusions, and the plurality of assembly protrusions can be buckled into the plurality of assembly holes of the bottom plate.
其中,所述殼板模組包含採鋁擠型成形之複數殼板以及多數定位件,每一殼板的二側分別形成有一定位槽,該多數定位件係分別穿過所述頂板與所述底板並鎖設對應之殼板的定位槽中。Wherein, the shell plate module includes a plurality of shell plates formed by aluminum extrusion and a plurality of positioning parts. A positioning groove is formed on both sides of each shell plate. The plurality of positioning parts pass through the top plate and the The bottom plate is locked into the positioning groove of the corresponding shell plate.
其中,所述柱狀風扇之外殼能包含二個所述出風結構,該二出風結構係相互鏡像對稱設置於所述底板上,且該二出風結構之殼板模組係相鄰設置,且該二出風結構之入風板模組係分別位於該二出風結構的相對二側。Wherein, the casing of the cylindrical fan can include two of the air outlet structures, the two air outlet structures are mirror symmetrically arranged on the bottom plate, and the shell plate modules of the two air outlet structures are arranged adjacent to each other. , and the air inlet panel modules of the two air outlet structures are respectively located on opposite sides of the two air outlet structures.
其中,所述柱狀風扇之外殼能包含四個所述出風結構、二導風板及二銜接板,該四個出風結構能分別定義為二前出風結構及二後出風結構,該二前出風結構係間隔且鏡像對稱設置於所述底板鄰近出風側處,該二後出風結構係相鄰且鏡像對稱設置於所述底板相對所述出風側之另一側處,該二後出風結構之出風口與該二前出風結構之間形成有一流通空間,該二導風板係分別設置於該二後出風結構之導風柱並朝所述出風側方向延伸,該二銜接板係分別設置於該二後出風結構之導風柱與該二前出風結構之殼板模組之間。Wherein, the casing of the cylindrical fan can include four of the air outlet structures, two air guide plates and two connecting plates. The four air outlet structures can be respectively defined as two front air outlet structures and two rear air outlet structures. The two front air outlet structures are spaced and mirror symmetrically arranged on the bottom plate adjacent to the air outlet side, and the two rear air outlet structures are adjacent and mirror symmetrically arranged on the other side of the bottom plate relative to the air outlet side. , a circulation space is formed between the air outlets of the two rear air outlet structures and the two front air outlet structures, and the two air guide plates are respectively installed on the air guide pillars of the two rear air outlet structures and face the air outlet side. Extending in the direction, the two connecting plates are respectively disposed between the air guide pillars of the two rear air outlet structures and the shell panel modules of the two front air outlet structures.
為達成前揭目的,本創作之柱狀風扇包含: 一基座; 一控制模組,其係設置於所述基座中; 一如前述之柱狀風扇之外殼,其係設置於所述基座上;以及 至少一風扇模組,其係設置於所述柱狀風扇之外殼內,所述風扇模組包含一驅動馬達及一扇葉組件,所述驅動馬達係設置於所述柱狀風扇之外殼的底板上並電性連接所述控制模組,所述扇葉組件包含連接所述驅動馬達之一渦輪扇葉、形成於所述渦輪扇葉端部之一軸桿以及設置於所述軸桿頂端之一軸套,所述軸桿係伸入所述頂板上對應之軸孔中,所述軸套係套設於所述軸桿頂端並設置於對應之軸孔內,所述驅動馬達能帶動所述軸桿,使該複數渦輪扇葉轉動。 To achieve the purpose of disclosure, the columnar fan of this creation includes: a base; A control module, which is arranged in the base; The casing of the cylindrical fan as mentioned above is arranged on the base; and At least one fan module is disposed in the casing of the cylindrical fan. The fan module includes a drive motor and a blade assembly. The drive motor is disposed on the bottom plate of the casing of the cylindrical fan. and is electrically connected to the control module. The blade assembly includes a turbine blade connected to the drive motor, a shaft formed at the end of the turbine blade, and a shaft provided at the top of the shaft. sleeve, the shaft rod extends into the corresponding shaft hole on the top plate, the shaft sleeve is sleeved on the top of the shaft rod and is arranged in the corresponding shaft hole, and the drive motor can drive the shaft rod to rotate the plurality of turbine blades.
其中,所述柱狀風扇之外殼能包含二個所述出風結構且所述柱狀風扇能包含二個所述風扇模組,該二出風結構係相互鏡像對稱設置於所述底板上,且該二出風結構之殼板模組係相鄰設置,且該二出風結構之入風板模組係分別位於該二出風結構的相對二側,該二風扇模組之驅動馬達及扇葉組件能分別設置於對應之出風結構的渦流空間中,且該二風扇模組之扇葉組件係相互鏡像設置,且該二驅動馬達的驅動方向相反。Wherein, the casing of the cylindrical fan can include two of the air outlet structures, and the cylindrical fan can include two of the fan modules. The two air outlet structures are mirror-symmetrically arranged on the bottom plate, And the shell plate modules of the two air outlet structures are arranged adjacently, and the air inlet panel modules of the two air outlet structures are respectively located on the opposite sides of the two air outlet structures. The drive motors of the two fan modules and The fan blade assemblies can be respectively disposed in the vortex space of the corresponding air outlet structure, and the fan blade assemblies of the two fan modules are arranged in mirror images of each other, and the driving directions of the two drive motors are opposite.
其中,所述柱狀風扇之外殼能包含四個所述出風結構、二導風板及二銜接板,且所述柱狀風扇能包含四個所述風扇模組,該四個出風結構能分別定義為二前出風結構及二後出風結構,該二前出風結構係間隔且鏡像對稱設置於所述底板鄰近出風側處,該二後出風結構係相鄰且鏡像對稱設置於所述底板相對所述出風側之另一側處,該二後出風結構之出風口與該二前出風結構之間形成有一流通空間,該二導風板係分別設置於該二後出風結構之導風柱並朝所述出風側方向延伸,該二銜接板係分別設置於該二後出風結構之導風柱與該二前出風結構之殼板模組之間。Wherein, the casing of the cylindrical fan can include four of the air outlet structures, two air guide plates and two connecting plates, and the cylindrical fan can include four of the fan modules. The four air outlet structures It can be defined as two front air outlet structures and two rear air outlet structures. The two front air outlet structures are spaced and mirror symmetrically arranged near the air outlet side of the bottom plate. The two rear air outlet structures are adjacent and mirror symmetrical. Disposed on the other side of the bottom plate relative to the air outlet side, a circulation space is formed between the air outlets of the two rear air outlet structures and the two front air outlet structures, and the two air guide plates are respectively provided on the The air guide pillars of the two rear air outlet structures extend toward the air outlet side. The two connecting plates are respectively provided on the air guide pillars of the two rear air outlet structures and the shell panel modules of the two front air outlet structures. between.
該四風扇模組能分別定義為二前風扇模組及二後風扇模組,該二前風扇模組之驅動馬達及扇葉組件能分別設置於對應之前出風結構的渦流空間中,且該二前風扇模組之扇葉組件係相互鏡像設置,且該二前風扇模組之驅動馬達的驅動方向相反,該二後風扇模組之驅動馬達及扇葉組件能分別設置於對應之後出風結構的渦流空間中,且該二後風扇模組之扇葉組件係相互鏡像設置,且該二後風扇模組之驅動馬達的驅動方向相反。The four fan modules can be respectively defined as two front fan modules and two rear fan modules. The drive motors and fan blade assemblies of the two front fan modules can be respectively installed in the vortex space corresponding to the front air outlet structure, and the The fan blade assemblies of the two front fan modules are arranged in mirror images of each other, and the driving directions of the driving motors of the two front fan modules are opposite. The driving motors and fan blade assemblies of the two rear fan modules can be respectively arranged at corresponding rear air outlets. In the vortex space of the structure, the fan blade assemblies of the two rear fan modules are arranged in mirror images of each other, and the driving directions of the drive motors of the two rear fan modules are opposite.
此外,所述出風結構能進一步包含有至少一第一裝飾片及至少一第二裝飾片,且所述殼板的外側能形成有至少一裝飾槽,所述第一裝飾片係設置於所述殼板之裝飾槽內;且所述導風柱的外側能形成有至少一裝配槽,所述第二裝飾片係設置於所述導風柱之裝配槽中,能藉此提高美觀效果。In addition, the air outlet structure can further include at least one first decorative piece and at least one second decorative piece, and at least one decorative groove can be formed on the outside of the shell plate, and the first decorative piece is disposed on the In the decorative groove of the shell plate; and at least one assembly groove can be formed on the outside of the air guide column, and the second decorative piece is arranged in the assembly groove of the air guide column, thereby improving the aesthetic effect.
本創作柱狀風扇能藉由操作所述控制模組以啟動並控制所述風扇模組之驅動馬達的轉速,而當所述風扇模組之驅動馬達運轉時,所述風扇模組之扇葉組件會在驅動馬達的帶動下旋轉,並將所述柱狀風扇之外殼外的氣流自所述入風板模組的入風孔處引入所述渦流空間中,使所述氣流能隨著所述扇葉組件的渦輪扇葉轉動方向流動,當氣流流動至所述導風柱的位置時,所述導風柱能將氣流朝出風口的方向導出,使氣流能自所述出風口處吹出,進而提供消費者室內通風及降溫消暑之效果。The cylindrical fan of this invention can start and control the speed of the drive motor of the fan module by operating the control module. When the drive motor of the fan module is running, the fan blades of the fan module The assembly will rotate driven by the drive motor, and introduce the airflow outside the casing of the cylindrical fan into the vortex space from the air inlet hole of the air inlet plate module, so that the airflow can follow the direction of the vortex space. The turbine blades of the fan blade assembly flow in the direction of rotation. When the airflow flows to the position of the air guide column, the air guide column can guide the airflow toward the air outlet, so that the airflow can be blown out from the air outlet. , thereby providing consumers with indoor ventilation and cooling effects.
其中,本創作柱狀風扇及其外殼能具備有下列優點: 1. 能便於拆卸及清洗:本創作柱狀風扇之外殼能藉由模組化之出風結構之結構設計,搭配以扣接方式扣設於底板及頂板上的入風板模組,藉此能提供消費者能在不需另外使用手工具的情況下,即可快速地將所述入風板模組拆卸下來清洗,能有效提高拆卸效率及便利性。 2. 能大幅降低製造難度及製造成本:本創作柱狀風扇之外殼係採用鋁擠形成型之殼板模組、入風板模組及導風柱之部件相互組接設置,透過以鋁擠型成形的方式能大幅降低製造難度及開模成本。 3. 能提高產品多樣性:如前述,本創作柱狀風扇之外殼係採用模組化的結構設計,使製造廠商能在無需另外開模製造的情況下,直接依據產品需求設定而設置有多組鏡像配合設置之出風結構,並搭配多組對應方向之風扇模組設置,以提供多種不同風量大小的產品供消費者選擇,使製造廠商無須承受大型風扇之大模具開模成本,即能有效提高產品的多樣性並供消費者選擇,以達到客製化的需求。 Among them, the cylindrical fan and its casing of this invention can have the following advantages: 1. Can be easily disassembled and cleaned: The casing of the cylindrical fan of this invention can be designed with a modular air outlet structure and matched with an air inlet panel module that is buckled on the bottom plate and top plate. It can provide consumers with the ability to quickly disassemble and clean the air inlet panel module without using additional hand tools, which can effectively improve disassembly efficiency and convenience. 2. It can significantly reduce the manufacturing difficulty and cost: the casing of the cylindrical fan of this invention is made of aluminum extruded shell plate module, air inlet plate module and air guide column components that are assembled with each other. The molding method can significantly reduce manufacturing difficulty and mold opening costs. 3. Can improve product diversity: As mentioned above, the casing of the cylindrical fan of this invention adopts a modular structural design, allowing manufacturers to directly set multiple settings according to product requirements without the need for additional mold manufacturing. A set of mirror-coordinated air outlet structures and multiple sets of fan modules in corresponding directions are provided to provide a variety of products with different air volume sizes for consumers to choose from, so that manufacturers do not need to bear the cost of large mold openings for large fans. Effectively increase product diversity and provide consumers with choices to meet customized needs.
請參閱圖1至圖12,為本創作柱狀風扇之外殼10a,10b,10c之數種較佳實施例,其具有一出風側,所述柱狀風扇之外殼10a,10b,10c包含一底板11、至少一出風結構12及一頂板13。Please refer to Figures 1 to 12, which are several preferred embodiments of the
如圖3至圖12所示,所述出風結構12係設置於所述底板11的上方,所述出風結構12包含分別以鋁擠型成形之一殼板模組121、一入風板模組122及一導風柱123,所述殼板模組121、所述入風板模組122及所述導風柱123係依序環繞排列圈圍形成一渦流空間124,且所述殼板模組121與所述導風柱123之間形成面向所述出風側並連通所述渦流空間124之一出風口125,所述入風板模組122係能拆組地設置於所述底板11上,所述入風板模組122上形成有多數入風孔1221。As shown in FIGS. 3 to 12 , the
如圖2、圖5、圖7所示,所述頂板13係設置於所述出風結構12的所述殼板模組121及所述導風柱123上方,所述入風板模組122能與所述頂板13相扣接,所述頂板13上形成有至少一軸孔131,所述軸孔131係連通所述出風結構12的渦流空間124,所述軸孔131的位置係位於所述渦流空間124的中心處。As shown in Figures 2, 5, and 7, the
其中,如圖2至圖6所示,所述入風板模組122包含採鋁擠型成形之複數入風板1222、一上定位板1223、一下定位板1224及多數限位件1225,每一入風板1222的二側分別形成有一限位槽1226,所述上定位板1223與所述下定位板1224係分別設置於該複數入風板1222的上下二端,所述入風模組122藉由所述上定位板1223與所述下定位板1224能拆組地與該頂板13及該底板14相扣接,該多數限位件1225係分別穿過所述上定位板1223與所述下定位板1224並伸入對應之入風板1222的限位槽1226內。As shown in FIGS. 2 to 6 , the air
其中,如圖3至圖6所示,所述出風結構12包含一出風板模組126,所述出風板模組126係位於所述柱狀風扇之外殼10a,10b,10c的出風側處,所述出風板模組126包含至少一出風板1261及至少一擋片1262,所述出風板1261上形成多數出風孔1263,該多數出風孔1263係連通所述渦流空間124,所述擋片1262係設置於所述出風板1261頂端,並能與所述頂板13相扣接。As shown in Figures 3 to 6, the
其中,如圖1、圖2、圖5所示,所述柱狀風扇之外殼10a,10b,10c能進一步包含一蓋板14,所述蓋板14係蓋合於所述頂板13上,並形成有對應所述頂板13之軸孔131的至少一開孔141,所述蓋板14底部固設有複數磁鐵142並形成有複數扣合銷143及至少一組合銷144,所述蓋板14的磁鐵142能吸附於所述頂板13上,所述頂板13形成有複數扣合孔132以及至少一組合孔133,且所述入風板模組122之上定位板1223形成有複數配合孔1227,所述上定位板1223的配合孔1227係對應所述頂板13的扣合孔132,該複數扣合銷143係分別穿過該複數配合孔1227及該複數扣合孔132,而所述出風板模組126之擋片1262形成有至少一對位孔1264,所述擋片1262之對位孔1264係對應所述頂板13之組合孔133,所述組合銷144係穿過所述頂板13之組合孔133及所述擋片1262之對位孔1264。Among them, as shown in Figures 1, 2, and 5, the
其中,如圖3、圖4、圖6所示,所述底板11形成有複數扣接孔111,所述入風板模組122之下定位板1224形成有複數扣接凸部1228,所述下定位板1224之扣接凸部1228能分別伸入所述底板11之扣接孔111中。Among them, as shown in Figures 3, 4, and 6, the
其中,如圖3、圖4、圖6所示,所述底板11形成有複數裝配孔112,所述出風板1261底端凸伸形成複數裝配凸部1265,該複數裝配凸部1265係能扣入所述底板11之該複數裝配孔112中。Among them, as shown in Figures 3, 4, and 6, the
其中,如圖2、圖3所示,所述殼板模組121包含採鋁擠型成形之複數殼板1211以及多數定位件1212,每一殼板1211的二側分別形成有一定位槽1213,該多數定位件1212係分別穿過所述頂板13與所述底板11並鎖設對應之殼板1211的定位槽1213中。Among them, as shown in Figures 2 and 3, the
其中,如圖1、圖8至圖12所示,本創作柱狀風扇之外殼10a,10b,10c能依據需求設定所述出風結構12的數量。Among them, as shown in Figures 1, 8 to 12, the
如圖1、圖8所示,於本創作柱狀風扇之外殼10a的第一種較佳實施例中,所述柱狀風扇之外殼10a包含一個所述出風結構12。As shown in Figures 1 and 8, in the first preferred embodiment of the
而如圖9、圖10所示,於本創作柱狀風扇之外殼10b的第二種較佳實施例中,所述柱狀風扇之外殼10b能包含二個所述出風結構12,該二出風結構12係相互鏡像對稱設置於所述底板11上,且該二出風結構12之殼板模組121係相鄰設置,且該二出風結構12之入風板模組122係分別位於該二出風結構12的相對二側。As shown in Figures 9 and 10, in the second preferred embodiment of the
而如圖11、圖12所示,於本創作柱狀風扇之外殼10c的第三種較佳實施例中,所述柱狀風扇之外殼10c能包含四個所述出風結構12、二導風板15及二銜接板16,該四個出風結構12能分別定義為二前出風結構12a及二後出風結構12b,該二前出風結構12a係間隔且鏡像對稱設置於所述底板11鄰近出風側處,該二後出風結構12b係相鄰且鏡像對稱設置於所述底板11相對所述出風側之另一側處,該二後出風結構12b之出風口125與該二前出風結構12a之間形成有一流通空間17,該二導風板15係分別設置於該二後出風結構12b之導風柱123並朝所述出風側方向延伸,該二銜接板16係分別設置於該二後出風結構12b之導風柱123與該二前出風結構12a之殼板模組121之間。As shown in Figures 11 and 12, in the third preferred embodiment of the
另請參閱圖13至圖23,為本創作柱狀風扇之數種較佳實施例,其包含一基座20、一控制模組30、一如前述之柱狀風扇之外殼10a,10b,10c以及至少一風扇模組40。Please also refer to Figures 13 to 23, which are several preferred embodiments of the cylindrical fan of the present invention, which include a
如圖15所示,所述控制模組30係設置於所述基座20中。As shown in FIG. 15 , the
如圖13至圖23所示,所述柱狀風扇之外殼10a,10b,10c係設置於所述基座20上。As shown in FIGS. 13 to 23 , the
如圖13至圖23所示,所述風扇模組40係設置於所述柱狀風扇之外殼10a,10b,10c內,所述風扇模組40包含一驅動馬達41及一扇葉組件42,所述驅動馬達41係設置於所述柱狀風扇之外殼10a,10b,10c的底板11上並電性連接所述控制模組30,所述扇葉組件42包含連接所述驅動馬達41之一渦輪扇葉421、形成於所述渦輪扇葉421端部之一軸桿422以及設置於所述軸桿422頂端之一軸套423,所述軸桿422係伸入所述頂板13上對應之軸孔131中,所述軸套423係套設於所述軸桿422頂端並設置於對應之軸孔131內,所述驅動馬達41能帶動所述軸桿422,使該複數渦輪扇葉421轉動。As shown in Figures 13 to 23, the
其中,如圖13、圖19至圖23所示,本創作柱狀風扇亦能依據消費者的使用需求進一步設定所述柱狀風扇之外殼10a,10b,10c的出風結構12的數量以及所述風扇模組40的數量,以下分別針對各實施例進行說明。Among them, as shown in Figures 13, 19 to 23, the cylindrical fan of the present invention can also further set the number of
如圖13、圖19所示,於本創作柱狀風扇的第一種較佳實施例中,所述柱狀風扇之外殼10a包含一個所述出風結構12,所述柱狀風扇包含一個所述風扇模組40,所述風扇模組40係設置於所述柱狀風扇之外殼10a的出風結構12,並位於所述出風結構12的渦流空間124中。As shown in Figures 13 and 19, in the first preferred embodiment of the cylindrical fan of the present invention, the
如圖20、圖21所示,於本創作柱狀風扇之第二種較佳實施例中,所述柱狀風扇之外殼10b能包含二個所述出風結構12且所述柱狀風扇能包含二個所述風扇模組40,該二出風結構12係相互鏡像對稱設置於所述底板11上,且該二出風結構12之殼板模組121係相鄰設置,且該二出風結構12之入風板模組122係分別位於該二出風結構12的相對二側,該二風扇模組40之驅動馬達41及扇葉組件42能分別設置於對應之出風結構12的渦流空間124中,且該二風扇模組40之扇葉組件42係相互鏡像設置,且該二驅動馬達41的驅動方向相反。As shown in Figures 20 and 21, in the second preferred embodiment of the cylindrical fan of the present invention, the
如圖22、圖23所示,於本創作柱狀風扇之第三種較佳實施例中,所述柱狀風扇之外殼10c能包含四個所述出風結構12、二導風板15及二銜接板16,且所述柱狀風扇能包含四個所述風扇模組40,該四個出風結構12能分別定義為二前出風結構12a及二後出風結構12b。As shown in Figures 22 and 23, in the third preferred embodiment of the cylindrical fan of the present invention, the
其中,如圖23所示,該二前出風結構12a係間隔且鏡像對稱設置於所述底板11鄰近出風側處,該二後出風結構12b係相鄰且鏡像對稱設置於所述底板11相對所述出風側之另一側處,該二後出風結構12b之出風口125與該二前出風結構12a之間形成有一流通空間17,該二導風板15係分別設置於該二後出風結構12b之導風柱123並朝所述出風側方向延伸,該二銜接板16係分別設置於該二後出風結構12b之導風柱123與該二前出風結構12a之殼板模組121之間。Among them, as shown in Figure 23, the two front
如圖23所示,該四風扇模組40能分別定義為二前風扇模組40a及二後風扇模組40b,該二前風扇模組40a之驅動馬達41及扇葉組件42能分別設置於對應之前出風結構12a的渦流空間124中,且該二前風扇模組40a之扇葉組件42係相互鏡像設置,且該二前風扇模組40a之驅動馬達41的驅動方向相反,該二後風扇模組40b之驅動馬達41及扇葉組件42能分別設置於對應之後出風結構12b的渦流空間124中,且該二後風扇模組40b之扇葉組件42係相互鏡像設置,且該二後風扇模組40b之驅動馬達41的驅動方向相反。As shown in Figure 23, the four
其中,如圖13、圖19至圖23所示,消費者能透過操作所述控制模組30以操作控制所述風扇模組40之驅動馬達41的轉速,並使所述驅動馬達41依據消費者設定的轉速而帶動所述軸桿422,使所述渦輪扇葉421轉動,此時,所述渦輪扇葉421會將所述柱狀風扇之外殼10a,10b,10c外部的氣流自所述入風板模組122的入風孔1221處引入所述渦流空間124中,使所述氣流能隨著所述扇葉組件42的渦輪扇葉421轉動方向流動,當氣流流動至所述導風柱123的位置時,所述導風柱123能將氣流朝出風口125的方向導出,使氣流能自所述出風口125處吹出,進而提供消費者室內通風及降溫消暑之效果。Among them, as shown in Figures 13, 19 to 23, consumers can operate the
其中,如圖13、圖19所示,以本創作柱狀風扇之第一種較佳實施例為例,所述柱狀風扇之風扇模組40能帶動外部的氣流自所述柱狀風扇之外殼10a的入風板模組122的入風孔1221進入所述渦流空間124,並在所述扇葉組件42的帶動下環繞所述渦輪扇葉421流動。Among them, as shown in Figures 13 and 19, taking the first preferred embodiment of the cylindrical fan of the present invention as an example, the
如圖19所示,當所述氣流在渦流扇葉的帶動下流經所述導風柱123時,所述導風柱123能將所述氣流導引至所述出風結構12之出風口125處,使氣流能通過所述出風口125並自所述出風側處吹出。As shown in Figure 19, when the air flow is driven by the vortex fan blades and flows through the
另如圖20、圖21所示,進一步以本創作柱狀風扇之第二種較佳實施例為例,該二風扇模組40能分別帶動外部的氣流自對應之出風結構12的入風板模組122的入風孔1221進入對應之渦流空間124,並使氣流能分別隨著該二風扇模組40之渦輪扇葉421轉動方向在對應之渦流空間124中流動。As shown in Figures 20 and 21, further taking the second preferred embodiment of the cylindrical fan of the present invention as an example, the two
而如圖21所示,當氣流在渦流扇葉的帶動下流經所述導風柱123時,所述導風柱123能將氣流導引至所述出風結構12之出風口125處,使氣流能通過所述出風口125並自所述出風側處吹出。As shown in Figure 21, when the airflow flows through the
另如圖22、圖23所示,進一步以本創作柱狀風扇之第三種較佳實施例為例,該二前風扇模組40a能分別帶動外部的氣流自對應之前出風結構12a的入風板模組122的入風孔1221進入對應之渦流空間124,且同時該二後風扇模組40b能分別帶動外部的氣流自對應之後出風結構12b的入風板模組122的入風孔1221進入對應之渦流空間124,並使氣流能分別隨著對應之渦輪扇葉421轉動方向在對應之渦流空間124中流動。As shown in Figures 22 and 23, further taking the third preferred embodiment of the cylindrical fan of the present invention as an example, the two
如圖23所示,當氣流在渦流扇葉的帶動下流經所述導風柱123時,所述導風柱123能將氣流導引至所述出風結構12之出風口125處,此時,自該二前出風結構12a的出風口125處吹出的氣流能直接自出風側吹出,而自該二後出風結構12b的出風口125處吹出的氣流則會在該二導風板15的導引下,先進入所述流通空間17,最後自所述出風側吹出。As shown in Figure 23, when the airflow flows through the
如前述,本創作柱狀風扇能藉由鏡向設置模組化的出風結構12,並同時搭配不同的風扇模組40能依需求設定成左旋出風或右旋出風的態樣,或是利用複數個左旋出風與右旋出風的風扇模組40相互搭配而能吹出二倍或四倍風量,藉此不但不需重複開模,無須承受大型風扇之大模具開模成本,且能透過多樣化的搭配,能有效提高產品的多樣性,進一步達到客製化的需求。As mentioned above, the cylindrical fan of the present invention can be configured with a modular
其中,如圖19所示,所述導風柱123除了能提供氣流導引功能外,所述導風柱123亦能配合所述殼板模組121提供所述住狀風扇較佳之結構強度。As shown in FIG. 19 , in addition to providing an airflow guiding function, the
另外,如圖14、圖16、圖17所示,當所述柱狀風扇在使用一段時間後,若有灰塵堆積於所述入風板模組122之入風孔1221及所述出風板模組126的出風孔1263時,消費者能透過拆下所述入風板模組122及所述出風板模組126以進行清洗的動作。In addition, as shown in Figures 14, 16, and 17, after the cylindrical fan is used for a period of time, if dust accumulates in the
其中,如圖14、圖16所示,以本創作柱狀風扇之第一種較佳實施例為例,當消費者要拆下所述入風板模組122及所述出風板模組126時,消費者能取下所述蓋板14,並使所述蓋板14的扣合銷143脫離所述頂板13的扣合孔132及所述入風板模組122的上定位板1223之配合孔1227,並同時使所述組合銷144脫離所述頂板13的組合孔133及所述擋片1262之對位孔1264,故消費者即可在不需要取用手工具及拆卸所述頂板13的情況下,使所述入風板模組122及所述出風板模組126脫離所述頂板13。Among them, as shown in Figures 14 and 16, taking the first preferred embodiment of the cylindrical fan of the present invention as an example, when the consumer wants to remove the air
如圖16、圖17所示,當消費者要取下所述入風板模組122時,消費者僅需提起所述入風板模組122,即能使所述入風板模組122之下定位板1224的扣接凸部1228脫離所述底板11的扣接孔111,並完全取下所述入風板模組122以便於進行所述入風板模組122的清洗動作。As shown in Figures 16 and 17, when the consumer wants to remove the air
如圖16、圖17所示,當消費者要取下所述出風板模組126時,消費者能提起所述出風板模組126,並使所述出風板模組126的裝配凸部1265脫離所述底板11的裝配孔112,即可完全取下所述出風板模組126以進行清洗的動作。As shown in Figures 16 and 17, when the consumer wants to remove the
如圖16、圖17所示,當消費者將所述入風板模組122及所述出風板模組126清洗完畢後,消費者能直接將所述入風板模組122之下定位板1224的扣接凸部1228伸入所述底板11的扣接孔111中,並使所述入風板模組122之上定位板1223的配合孔1227與所述頂板13的扣合孔132相對位。As shown in Figures 16 and 17, after the consumer has finished cleaning the air
接著,如圖16、圖17所示,消費者能再將所述出風板模組126之裝配凸部1265扣入所述底板11之裝配孔112中,並使所述出風板模組126之擋片1262的對位孔1264與所述頂板13的組合孔133相對位。Then, as shown in FIGS. 16 and 17 , the consumer can buckle the mounting
最後,如圖14所示,消費者能直接將所述蓋板14磁吸蓋合於所述頂板13上,使所述蓋板14的扣合銷143穿過對應之配合孔1227與扣合孔132,同時使所述蓋板14的組合銷144穿過對應之組合孔133與對位孔1264,即可完成所述柱狀風扇的清潔動作,進而能避免灰塵堆積而影響消費者的呼吸道健康問題。Finally, as shown in FIG. 14 , consumers can directly magnetically close the
此外,如圖18、圖19所示,所述出風結構12能進一步包含有至少一第一裝飾片127及至少一第二裝飾片128,且所述殼板1211的外側能形成有至少一裝飾槽1214,所述第一裝飾片127係設置於所述殼板1211之裝飾槽1214內;且所述導風柱123的外側能形成有至少一裝配槽1231,所述第二裝飾片128係設置於所述導風柱123之裝配槽1231中,能藉此提高美觀效果。In addition, as shown in Figures 18 and 19, the
再者,如圖18、圖19所示,所述第一裝飾片127及所述第二裝飾片128能進一步採用實木材質製成,藉此能使實木材質之所述第一裝飾片127及所述第二裝飾片128與鋁質的所述殼板1211及所述導風柱123之間相互襯托,使本創作柱狀風扇的外觀不會單調乏味,而能呈現出層次感,進而能提高質感及美觀之效果。Furthermore, as shown in Figures 18 and 19, the first
另如圖16所示,所述蓋板14能藉由以磁吸的方式吸附於所述頂板13,並搭配所述扣合銷143穿過所述頂板13之扣合孔132及所述入風板模組122的上定位板1223上的配合孔1227,同時搭配所述組合銷144穿過所述頂板13之組合孔133及所述出風板模組126的擋片1262之對位孔1264,藉此能快速且有效地固定所述入風板模組122及所述出風板模組126。As shown in FIG. 16 , the
且消費者能直接透過取下該蓋板14,使所述扣合銷143及所述組合銷144分別脫離所述頂板13、所述入風板模組122及所述出風板模組126,並藉此能快速地解除所述蓋板14對所述入風板模組122及所述出風板模組126的固定,使消費者能在無需取用手工具的情況下快速地卸下所述入風板模組122及所述出風板模組126以進行清洗,故能有效提高拆卸便利性。And consumers can directly remove the
所述蓋板14亦能採用實木材質製作,藉此能有效提高本創作柱狀風扇的質感及美觀效果,此外,如圖24所示,所述蓋板14能於所述開孔141處貼附一飾布145,所述飾布145能在所述蓋板14蓋合於該頂板13上時遮蔽所述軸套423,透過實木材質之所述蓋板14與所述飾布145的材質搭配,能進一步增加質感及美觀感。The
另外,如圖13、圖19所示,所述出風板模組126的出風板1261能防止消費者的肢體伸入所述渦流空間124,以避免有操作時受傷的風險。In addition, as shown in FIGS. 13 and 19 , the
綜上所述,本創作柱狀風扇能藉由所述柱狀風扇之外殼10a,10b,10c的模組化結構設計,並能透過以鋁擠型方式成形製造,不但能有效降低製造難度及成本,同時能提供消費者能在無需使用手工具的情況下迅速地拆下所述入風板模組122以進行清洗的動作,能有效提高拆卸效率及便利性,此外,模組化的出風結構12能透過鏡向設置並搭配風扇模組40,以拼組成能提供二倍以上風量之大型風扇,藉此能在不需額外開模製造的情況下製作出多樣化的產品,能有效提高產品多樣性及客製化需求。To sum up, the cylindrical fan of the present invention can be manufactured through the modular structure design of the
10a,10b,10c:柱狀風扇之外殼
11:底板
111:扣接孔
112:裝配孔
12:出風結構
12a:前出風結構
12b:後出風結構
121:殼板模組
1211:殼板
1212:定位件
1213:定位槽
1214:裝飾槽
122:入風板模組
1221:入風孔
1222:入風板
1223:上定位板
1224:下定位板
1225:限位件
1226:限位槽
1227:配合孔
1228:扣接凸部
123:導風柱
1231:裝配槽
124:渦流空間
125:出風口
126:出風板模組
1261:出風板
1262:擋片
1263:出風孔
1264:對位孔
1265:裝配凸部
127:第一裝飾片
128:第二裝飾片
13:頂板
131:軸孔
132:扣合孔
133:組合孔
14:蓋板
141:開孔
142:磁鐵
143:扣合銷
144:組合銷
145:飾布
15:導風板
16:銜接板
17:流通空間
20:基座
30:控制模組
40:風扇模組
40a:前風扇模組
40b:後風扇模組
41:驅動馬達
42:扇葉組件
421:渦輪扇葉
422:軸桿
423:軸套
10a, 10b, 10c: Column fan casing
11: Bottom plate
111:Buckle hole
112: Assembly hole
12:
圖1:為本創作柱狀風扇之外殼之第一種較佳實施例之立體外觀示意圖。 圖2:為本創作柱狀風扇之外殼之第一種較佳實施例之出風結構、頂板與蓋板之局部側視剖面示意圖。 圖3:為本創作柱狀風扇之外殼之第一種較佳實施例之出風結構及底板之局部側視剖面示意圖。 圖4:為本創作柱狀風扇之外殼之第一種較佳實施例的出風結構與底板之立體分解示意圖。 圖5:為本創作柱狀風扇之外殼之第一種較佳實施例之入風板模組、出風板模組、頂板與蓋板之立體分解示意圖。 圖6:為本創作柱狀風扇之外殼之第一種較佳實施例之入風板模組、出風板模組與底板之立體分解示意圖。 圖7:為本創作柱狀風扇之外殼之第一種較佳實施例之殼板模組、導風柱與頂板之立體分解示意圖。 圖8:為本創作柱狀風扇之外殼之第一種較佳實施例之俯視剖面示意圖。 圖9:為本創作柱狀風扇之外殼之第二種較佳實施例之立體外觀示意圖。 圖10:為本創作柱狀風扇之外殼之第二種較佳實施例之俯視剖面示意圖。 圖11:為本創作柱狀風扇之外殼之第三種較佳實施例之立體外觀示意圖。 圖12:為本創作柱狀風扇之外殼之第三種較佳實施例之俯視剖面示意圖。 圖13:為本創作柱狀風扇之第一種較佳實施例之立體外觀示意圖。 圖14:為本創作柱狀風扇之第一種較佳實施例之出風結構、頂板與蓋板之局部側視剖面示意圖。 圖15:為本創作柱狀風扇之第一種較佳實施例之基座、柱狀風扇之外殼之局部側視剖面示意圖。 圖16:為本創作柱狀風扇之第一種較佳實施例之入風板模組、出風板模組、與蓋板之立體分解示意圖。 圖17:為本創作柱狀風扇之第一種較佳實施例之入風板模組及出風板模組之立體分解示意圖。 圖18:為本創作柱狀風扇之第一種較佳實施例之頂板、殼板模組、導風柱及扇葉組件之立體分解示意圖。 圖19:為本創作柱狀風扇之第一種較佳實施例之氣流流動方向示意圖。 圖20:為本創作柱狀風扇之第二種較佳實施例之立體外觀示意圖。 圖21:為本創作柱狀風扇之第二種較佳實施例之氣流流動方向示意圖。 圖22:為本創作柱狀風扇之第三種較佳實施例之立體外觀示意圖。 圖23:為本創作柱狀風扇之第三種較佳實施例之氣流流動方向示意圖。 圖24:為本創作柱狀風扇之蓋板設置飾布之示意圖。 Figure 1 is a schematic three-dimensional view of the first preferred embodiment of the cylindrical fan casing of this invention. Figure 2 is a partial side cross-sectional view of the air outlet structure, top plate and cover plate of the first preferred embodiment of the cylindrical fan casing of this invention. Figure 3 is a partial side cross-sectional view of the air outlet structure and bottom plate of the first preferred embodiment of the cylindrical fan casing of the present invention. Figure 4: is a three-dimensional exploded schematic diagram of the air outlet structure and base plate of the first preferred embodiment of the cylindrical fan casing of this invention. Figure 5: is a three-dimensional exploded schematic diagram of the air inlet plate module, the air outlet plate module, the top plate and the cover plate of the first preferred embodiment of the cylindrical fan casing of this invention. Figure 6: is a three-dimensional exploded schematic diagram of the air inlet plate module, the air outlet plate module and the base plate of the first preferred embodiment of the cylindrical fan casing of this invention. Figure 7 is a three-dimensional exploded schematic diagram of the shell module, air guide column and top plate of the first preferred embodiment of the cylindrical fan casing of this invention. Figure 8 is a schematic top cross-sectional view of the first preferred embodiment of the cylindrical fan casing of the present invention. Figure 9 is a schematic three-dimensional view of the second preferred embodiment of the cylindrical fan casing of the present invention. Figure 10 is a schematic top cross-sectional view of the second preferred embodiment of the cylindrical fan casing of the present invention. Figure 11 is a schematic three-dimensional view of the third preferred embodiment of the cylindrical fan casing of this invention. Figure 12 is a schematic top cross-sectional view of the third preferred embodiment of the cylindrical fan casing of the present invention. Figure 13: is a schematic three-dimensional view of the first preferred embodiment of the cylindrical fan of this invention. Figure 14 is a partial side cross-sectional view of the air outlet structure, top plate and cover plate of the first preferred embodiment of the cylindrical fan of this invention. Figure 15 is a partial side cross-sectional view of the base and the casing of the cylindrical fan according to the first preferred embodiment of the present invention. Figure 16: is a three-dimensional exploded schematic diagram of the air inlet plate module, the air outlet plate module, and the cover plate of the first preferred embodiment of the cylindrical fan of this invention. Figure 17 is a three-dimensional exploded schematic diagram of the air inlet plate module and the air outlet plate module of the first preferred embodiment of the cylindrical fan of this invention. Figure 18 is a three-dimensional exploded schematic diagram of the top plate, shell module, air guide column and fan blade assembly of the first preferred embodiment of the cylindrical fan of this invention. Figure 19: A schematic diagram of the air flow direction of the first preferred embodiment of the cylindrical fan of this invention. Figure 20: is a schematic three-dimensional view of the second preferred embodiment of the cylindrical fan of this invention. Figure 21 is a schematic diagram of the airflow direction of the second preferred embodiment of the cylindrical fan of this invention. Figure 22 is a schematic three-dimensional view of the third preferred embodiment of the cylindrical fan of this invention. Figure 23: A schematic diagram of the air flow direction of the third preferred embodiment of the cylindrical fan of this invention. Figure 24: A schematic diagram of the decorative fabric installed on the cover of the cylindrical fan of this invention.
10a:柱狀風扇之外殼 10a: Shell of cylindrical fan
122:入風板模組 122:Air inlet panel module
1221:入風孔 1221: Air inlet
1222:入風板 1222:Air inlet panel
126:出風板模組 126:Air outlet module
1261:出風板 1261: Air outlet panel
14:蓋板 14:Cover
141:開孔 141:Opening
20:基座 20: base
30:控制模組 30:Control module
423:軸套 423: Shaft sleeve
Claims (15)
Priority Applications (3)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
TW111123064A TWI827102B (en) | 2022-06-21 | 2022-06-21 | Column fan and its casing |
US18/046,349 US20230407880A1 (en) | 2022-06-21 | 2022-10-13 | Tower fan and shell thereof |
CN202310392364.8A CN117267173A (en) | 2022-06-21 | 2023-04-13 | Columnar fan and shell thereof |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
TW111123064A TWI827102B (en) | 2022-06-21 | 2022-06-21 | Column fan and its casing |
Publications (2)
Publication Number | Publication Date |
---|---|
TWI827102B TWI827102B (en) | 2023-12-21 |
TW202400900A true TW202400900A (en) | 2024-01-01 |
Family
ID=89169568
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
TW111123064A TWI827102B (en) | 2022-06-21 | 2022-06-21 | Column fan and its casing |
Country Status (3)
Country | Link |
---|---|
US (1) | US20230407880A1 (en) |
CN (1) | CN117267173A (en) |
TW (1) | TWI827102B (en) |
Family Cites Families (6)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN107829982B (en) * | 2017-12-06 | 2024-06-11 | 珠海格力电器股份有限公司 | Shell net body assembly and tower fan |
JP6637583B2 (en) * | 2018-12-21 | 2020-01-29 | アイリスオーヤマ株式会社 | Blower |
TWM588176U (en) * | 2019-09-16 | 2019-12-21 | 議晟國際企業股份有限公司 | Multifunctional fan |
CN215058317U (en) * | 2021-04-19 | 2021-12-07 | 浙江弩牌电器有限公司 | Fan with cooling device |
CN216589183U (en) * | 2021-11-19 | 2022-05-24 | 三门县中盈科技股份有限公司 | Waterproof elevator crossflow fan |
TWM634478U (en) * | 2022-06-21 | 2022-11-21 | 林竹鑫 | Cylindrical fan and casing thereof |
-
2022
- 2022-06-21 TW TW111123064A patent/TWI827102B/en active
- 2022-10-13 US US18/046,349 patent/US20230407880A1/en active Pending
-
2023
- 2023-04-13 CN CN202310392364.8A patent/CN117267173A/en active Pending
Also Published As
Publication number | Publication date |
---|---|
US20230407880A1 (en) | 2023-12-21 |
TWI827102B (en) | 2023-12-21 |
CN117267173A (en) | 2023-12-22 |
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