CN109405037A - 一种节能环保的双排风道取暖器 - Google Patents
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Abstract
本发明涉及一种节能环保的双排风道取暖器,包括底板、外壳,外壳内一端设有电机和扇叶,外壳上部设有控制装置,外壳内另一端设有发热组件,外壳后端开设有进风口,外壳前端设有出风口,发热组件包括风量引流装置,风量引流装置两侧设有两组电热管,每组电热管由若干竖排设置的电热管组成,相邻两电热管之间形成导风通道;本发明在现有技术上增加了风量引流装置,使风道中间截面积减小,使风在两侧压缩,风速变大,充分带走电热管表面的热量,电热管排布在风量引流装置两侧,使风道内的风与电热管充分接触,有效解决空间加热热效问题,并提高热效,使电热管表面的温度平均,同样体积的取暖器获得更大的风速,加速空间对流,提高空间加热的效率。
Description
技术领域
本发明涉及取暖器技术领域,尤其涉及一种节能环保的双排风道取暖器。
背景技术
目前现有的轴流电热取暖器,多采用直接吹发热体,强制对流,给空间加热。但是由于风叶结构限制,风叶中间没有风,风叶转动时受离心力的影响,风叶中间为负压,所以导致中间没有风或风向相反,取暖器电热管表面吹过的风不均匀,导致有些电热管位置温度高有些位置温度低,取暖效果差,热效低。
发明内容
本发明的目的在于提供一种节能环保的双排风道取暖器,能有效解决空间加热热效问题,并提高热效,使电热管表面的温度更平均,同样体积的取暖器获得更大的风速,加速空间对流,提高空间加热的效率。
为了解决上述技术问题,本发明通过下述技术方案得以解决:
一种节能环保的双排风道取暖器,包括底板,所述底板上设有外壳,所述外壳内一端设有电机和扇叶,所述外壳上部设有控制装置,所述外壳内另一端设有与扇叶配合使用的发热组件,所述外壳后端对应于所述扇叶开设有进风口,所述外壳前端对应于所述发热组件设有出风口,所述发热组件包括设于中部设有风量引流装置,所述风量引流装置两侧设有两组电热管,每组电热管由若干竖排设置的电热管组成,相邻两电热管之间形成导风通道。
优选的,所述风量引流装置与出风口之间留有出风空间,风量引流装置包括两块上端与外壳顶端连接下端与底板连接的竖向挡板,两块竖向挡板对应于所述送风组件的一端倾斜的设有竖向导板,两竖向导板一端分别与两块竖向挡板连接,另一端相互连接形成三角形。
优选的,所述外壳与电热管之间设有隔热板,所述隔热板倾向于所述外壳的两端设有隔热倾折板,所述隔热板、隔热倾折板与风量引流装置的竖向挡板和竖向导板形成喇叭状进风口和喇叭状出风口。
优选的,所述两组电热管均包括至少三列电热管,三列电热管之间以及两侧电热管分别与外壳和风量引流装置之间设有六条导风通道,六条导风通道的热风混合后最终送到圆形出风口,所述电热管下方均布有四个用于保证电热管垂直度和平行度的电热管固定抱攀。
优选的,从两组电热管形成的导风通道到出风口的面积逐渐变小,出风口设有呈圆形收口结构的导风罩,所述导风罩内设有导风片,所述导风罩外缘导风片百叶连接固定片,所述导风片百叶连接固定片上设有用于装卸风管的上下百叶把手装置。
优选的,所述电热管的截面呈“一”字形或是从进风口到出风口逐渐向风量引流装置弯折的弧形结构。
优选的,所述出风口与所述电热管之间设有出风网片,所述出风网片由若干根纵横交错连接的连接杆连接成若干出风孔,所述底板内靠近出风网片上设有与所述控制装置电连接的温控探头。
优选的,所述底板开设有与所述进风口配合使用的进风网。
本发明有益效果:本发明包括底板,所述底板上设有外壳,所述外壳内一端设有电机和扇叶,所述外壳上部设有控制装置,所述外壳内另一端设有与扇叶配合使用的发热组件,所述外壳后端对应于所述扇叶开设有进风口,所述外壳前端对应于所述发热组件设有出风口,所述发热组件包括设于中部设有风量引流装置,所述风量引流装置两侧设有两组电热管,每组电热管由若干竖排设置的电热管组成,相邻两电热管之间形成导风通道;本发明在现有技术上增加了风量引流装置,使风道中间截面积减小,使风在两侧压缩,风速变大,充分带走电热管表面的热量,电热管排布在风量引流装置两侧,使风道内的风与电热管充分接触,这样能有效解决空间加热热效问题,并提高热效,使电热管表面的温度更平均,同样体积的取暖器获得更大的风速,加速空间对流,提高空间加热的效率。
附图说明
图1是本发明的结构示意图。
图2为本发明隐藏外壳和隔热板的结构示意图。
图3为本发明隐藏外壳的结构示意图。
图4为本发明隐藏外壳另一角度的结构示意图。
图5为本发明的剖视图。
图6为本发明中导风片的结构示意图。
附图标记
1——底板 2——外壳 3——电机
4——扇叶 5——出风口 6——风量引流装置
7——电热管 8——导风通道 9——竖向挡板
10——竖向导板 11——出风网片 12——出风孔
13——隔热板 14——隔热侧折板 15——导风罩
16——导风片 17——导风片百叶连接固定片
18——上下百叶把手装置 161——地面限位凸块
19——温度探头 20——进风网 21——电热管固定抱攀。
具体实施方式
下面结合附图与实施例对本发明作进一步详细描述。
如图1至图5所示,一种节能环保的双排风道取暖器,包括底板1,所述底板1上设有外壳2,所述外壳2内一端设有电机3和扇叶4,所述外壳上部设有控制装置,外壳2内另一端设有与扇叶4配合使用的发热组件,所述外壳2后端对应于所述扇叶4开设有进风口,所述外壳2前端对应于所述发热组件设有出风口5,所述发热组件包括设于中部设有风量引流装置6,所述风量引流装置6两侧设有两组电热管7,每组电热管7由若干并列设置的电热管7组成,相邻两电热管7之间形成导风通道8;本发明在现有技术上增加了风量引流装置6,使风道中间截面积减小,使风在两侧压缩,风速变大,充分带走电热管7表面的热量,电热管7排布在风量引流装置6两侧,所述风量引流装置6两侧的分别排布有优选的三根电热管7,可根据不同功率的电热管7配套相应的风速,能使电热管7与风速进行点对点的配比;从而使风道内的风与电热管7充分接触,这样能有效解决空间加热热效问题,并提高热效,使电热管7表面的温度更平均,同样体积的取暖器获得更大的风速,加速空间对流,提高空间加热的效率。
如图2至图5所示,本实施例中,所述风量引流装置6与出风口5之间留有出风空间,风量引流装置6包括两块上端与外壳2顶端连接下端与底板1连接的竖向挡板9,两块竖向挡板9对应于所述送风组件的一端倾斜的设有竖向导板10,两竖向导板10一端分别与两块竖向挡板9连接,另一端相互连接形成三角形,所述三角形的竖向导板10正对于扇叶4,这样三角形的竖向导板10和竖向挡板9可将扇叶4吹出的风导向风量引流装置6两侧的电热管7,风道内的风与电热管7充分接触,使风在两侧压缩,风速变大,充分带走电热管7表面的热量,提高空间加热的效率。
如图2至图5所示,本实施例中,所述外壳2与电热管7之间设有隔热板13,所述隔热板13倾向于所述外壳2的两端设有隔热倾折板14,所述隔热板13、隔热倾折板14与风量引流装置6的竖向挡板9和竖向导板10形成喇叭状进风口和喇叭状出风口,喇叭状进风口和喇叭状出风口可使进风量和出风量增大。
如图2至图5所示,本实施例中,所述两组电热管7均包括至少三列电热管7,三列电热管7之间以及两侧电热管7分别与外壳2和风量引流装置6之间设有六条导风通道8,六条导风通道8的热风混合后最终送到圆形出风口5,使用时,电机3带动扇叶4将风吹到风量引流装置6两侧的六条导风通道8内,经出风口5将热风压缩后吹出,使同样体积的取暖器获得更大的风速,加速空间对流,提高空间加热的效率,所述电热管7下方均布有四个用于保证电热管7垂直度和平行度的电热管固定抱攀21,通过电热管固定抱攀21可限制电热管7的垂直度和平行度,来进一步使风腔内出风均匀,减少出风阻力。
如图2至图5所示,本实施例中,从两组电热管7形成的导风通道8到出风口5的面积逐渐变小,出风口5设有呈圆形收口结构的导风罩15,出风口5的收口导风罩15,又可使风变相回返,进行二次加热,使出风口5的风多次均匀吹出,起到多次加热的效果,所述导风罩15内设有导风片16,所述导风罩15最下端的导风片16设有地面限位凸块161,通过导风片16和地面限位凸块161固定导风片16不能朝下摆动,使热风从出风口5直接吹出,可防止热风吹到地面,能有效防止地热,符合取暖器安规标准;所述导风罩15外缘导风片百叶连接固定片17,所述导风片百叶连接固定片17上设有用于装卸风管的上下百叶把手装置18,上下百叶把手装置18可方便在导风罩15上加装延长的风管。
如图2至图5所示,本实施例中,所述电热管7的截面呈“一”字形或是从进风口到出风口5逐渐向风量引流装置6弯折的弧形结构,本发明将现有的横排式的电热管7改成直排式,让风直流,可大面积的减少风阻。
如图3所示,本实施例中,所述出风口5与所述电热管7之间设有出风网片11,所述出风网片11由若干根纵横交错连接的连接杆连接成若干出风孔12,所述出风孔12可以为四边形、圆形等,只要能使压缩后的热风快速均匀吹出即可,所述底板1内靠近出风网片上设有与所述控制装置电连接的温控探头19,该温控探头19在受外界温度的影响下,也能精准的探测进风口和出风口的温度,并将温度通过控制装置显示。
如图4所示,本实施例中,所述底板1开设有与所述进风口配合使用的进风,所述进风网20辅助风从底板1进入扇叶4后方。
以上内容仅为本发明的较佳实施例,对于本领域的普通技术人员,依据本发明的思想,在具体实施方式及应用范围上均会有改变之处,本说明书内容不应理解为对本发明的限制。
Claims (8)
1.一种节能环保的双排风道取暖器,包括底板,所述底板上设有外壳,所述外壳内一端设有电机和扇叶,所述外壳上部设有控制装置,其特征在于:所述外壳内另一端设有与扇叶配合使用的发热组件,所述外壳后端对应于所述扇叶开设有进风口,所述外壳前端对应于所述发热组件设有出风口,所述发热组件包括设于中部设有风量引流装置,所述风量引流装置两侧设有两组用于降低风阻的电热管,每组电热管由若干竖排设置的电热管组成,相邻两电热管之间形成导风通道。
2.根据权利要求1所述的一种节能环保的双排风道取暖器,其特征在于:所述风量引流装置与出风口之间留有出风空间,风量引流装置包括两块上端与外壳顶端连接下端与底板连接的竖向挡板,两块竖向挡板对应于所述送风组件的一端倾斜的设有竖向导板,两竖向导板一端分别与两块竖向挡板连接,另一端相互连接形成三角形。
3.根据权利要求2所述的一种节能环保的双排风道取暖器,其特征在于:所述外壳与电热管之间设有隔热板,所述隔热板倾向于所述外壳的两端设有隔热倾折板,所述隔热板、隔热倾折板与风量引流装置的竖向挡板和竖向导板形成喇叭状进风口和喇叭状出风口。
4.根据权利要求1所述的一种节能环保的双排风道取暖器,其特征在于:所述两组电热管均包括至少三列电热管,三列电热管之间以及两侧电热管分别与外壳和风量引流装置之间设有六条导风通道,六条导风通道的热风混合后最终送到圆形出风口,所述电热管下方均布有四个用于保证电热管垂直度和平行度的电热管固定抱攀。
5.根据权利要求1所述的一种节能环保的双排风道取暖器,其特征在于:从两组电热管形成的导风通道到出风口的面积逐渐变小,出风口设有呈圆形收口结构的导风罩,所述导风罩内设有导风片,所述导风罩外缘导风片百叶连接固定片,所述导风片百叶连接固定片上设有用于装卸风管的上下百叶把手装置。
6.根据权利要求1所述的一种节能环保的双排风道取暖器,其特征在于:所述电热管的截面呈“一”字形或是从进风口到出风口逐渐向风量引流装置弯折的弧形结构。
7.根据权利要求1或3所述的一种节能环保的双排风道取暖器,其特征在于:所述出风口与所述电热管之间设有出风网片,所述出风网片由若干根纵横交错连接的连接杆连接成若干出风孔,所述底板内靠近出风网片上设有与所述控制装置电连接的温控探头。
8.根据权利要求1所述的一种节能环保的双排风道取暖器,其特征在于:所述底板开设有与所述进风口配合使用的进风网。
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