CN113028481A - 一种建筑用暖通节能设备 - Google Patents
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- 238000010438 heat treatment Methods 0.000 claims abstract description 61
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- F24D13/00—Electric heating systems
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F24—HEATING; RANGES; VENTILATING
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F24—HEATING; RANGES; VENTILATING
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- F24H3/00—Air heaters
- F24H3/02—Air heaters with forced circulation
- F24H3/04—Air heaters with forced circulation the air being in direct contact with the heating medium, e.g. electric heating element
- F24H3/0405—Air heaters with forced circulation the air being in direct contact with the heating medium, e.g. electric heating element using electric energy supply, e.g. the heating medium being a resistive element; Heating by direct contact, i.e. with resistive elements, electrodes and fins being bonded together without additional element in-between
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- F24H—FLUID HEATERS, e.g. WATER OR AIR HEATERS, HAVING HEAT-GENERATING MEANS, e.g. HEAT PUMPS, IN GENERAL
- F24H9/00—Details
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- F24H—FLUID HEATERS, e.g. WATER OR AIR HEATERS, HAVING HEAT-GENERATING MEANS, e.g. HEAT PUMPS, IN GENERAL
- F24H9/00—Details
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- F24H9/2064—Arrangement or mounting of control or safety devices for air heaters
- F24H9/2071—Arrangement or mounting of control or safety devices for air heaters using electrical energy supply
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- F24—HEATING; RANGES; VENTILATING
- F24S—SOLAR HEAT COLLECTORS; SOLAR HEAT SYSTEMS
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- H—ELECTRICITY
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- H—ELECTRICITY
- H02—GENERATION; CONVERSION OR DISTRIBUTION OF ELECTRIC POWER
- H02S—GENERATION OF ELECTRIC POWER BY CONVERSION OF INFRARED RADIATION, VISIBLE LIGHT OR ULTRAVIOLET LIGHT, e.g. USING PHOTOVOLTAIC [PV] MODULES
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- H—ELECTRICITY
- H02—GENERATION; CONVERSION OR DISTRIBUTION OF ELECTRIC POWER
- H02S—GENERATION OF ELECTRIC POWER BY CONVERSION OF INFRARED RADIATION, VISIBLE LIGHT OR ULTRAVIOLET LIGHT, e.g. USING PHOTOVOLTAIC [PV] MODULES
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- H05B3/00—Ohmic-resistance heating
- H05B3/20—Heating elements having extended surface area substantially in a two-dimensional plane, e.g. plate-heater
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Abstract
本发明公开了一种建筑用暖通节能设备,包括加热箱、太阳能电池板、蓄电池、电加热板和两个固定板,所述加热箱的一侧壁固定在建筑物墙体上,两个所述固定板对称分布设置在远离建筑物墙体的加热箱的侧壁上,两个固定板的相对端设置有角度调节机构,所述角度调节机构与太阳能电池板固定连接,角度调节机构上还设置有阳光传感器,所述电加热板固定在加热箱的内壁之间,加热箱的底端设置有进气口,加热箱的侧壁上设置有与建筑物墙体相通连接的出气口,所述出气口上设置有风量调节机构和温度传感器,所述进气口的位置设置有第一鼓风机,所述蓄电池固定设置在加热箱的顶端,本发明实现了对于太阳能电池板的保护作用,节约了能源,使用方便。
Description
技术领域
本发明涉及暖通设备技术领域,具体是一种建筑用暖通节能设备。
背景技术
暖通设备时建筑物的一个组成部分,包括:供暖、通风、空气调节三部分,是现代建筑物不可或缺的组成成分,是保证室内温度达到人们所需要求,通常用散热器和通风的措施向室内注入加热过后的空气,实现对于室内温度的提升。
现如今的建筑用暖通节能设备多不具备对太阳能电池板进行调角度的调节,当出现雨雪等恶劣天气时,不能很好的对太阳能电池板起到保护的作用,当室内温度升高到所需合适位置后,不能更好的实现节能减排,造成资源的持续浪费。
发明内容
本发明的目的在于提供一种建筑用暖通节能设备,以解决上述背景技术中的问题。
为实现上述目的,本发明提供如下技术方案:
一种建筑用暖通节能设备,包括加热箱、太阳能电池板、蓄电池、电加热板和两个固定板,所述加热箱的一侧壁固定在建筑物墙体上,两个所述固定板对称分布设置在远离建筑物墙体的加热箱的侧壁上,两个固定板的相对端设置有角度调节机构,所述角度调节机构与太阳能电池板固定连接,角度调节机构上还设置有阳光传感器,所述电加热板固定在加热箱的内壁之间,加热箱的底端设置有进气口,加热箱的侧壁上设置有与建筑物墙体相通连接的出气口,所述出气口上设置有风量调节机构和温度传感器,所述进气口的位置设置有第一鼓风机,所述蓄电池固定设置在加热箱的顶端。
在上述技术方案的基础上,本发明还提供以下可选技术方案:
在一种可选方案中:所述角度调节机构包括两个转动柱、保护框架、安装槽、第一伺服电机、单向螺纹杆、第一螺纹套筒、第一铰接杆和安装板,两个所述转动柱一端对称分布设置在保护框架的顶端和底端,两个转动柱的另一端分别与两个固定板相连接,所述安装槽设置在保护框架的侧壁上,所述第一伺服电机固定在方形安装槽的顶端内壁上,所述单向螺纹杆的一端与第一伺服电机的输出端固定连接,单向螺纹杆的另一端与方形安装槽底端内壁转动连接,所述第一螺纹套筒与单向螺纹杆相螺旋配合,第一螺纹套筒与方形安装槽的内壁滑动连接,所述第一铰接杆的一端与第一螺纹套筒铰接,第一铰接杆的另一端与安装板靠近底端位置铰接,所述安装板的顶端与固定框架铰接,太阳能电池板固定设置在安装板上,其中一个所述转动柱上设置有环形齿条,所述环形齿条上设置有相啮合连接的齿轮,所述靠近环形齿条的固定板上设置有旋转电机,所述旋转电机的输出端与齿轮固定连接,所述阳光传感器固定在保护框架上。
在一种可选方案中:所述风量调节机构包括两个挡板、两个第二螺纹套筒、两个第二铰接杆、两个第三铰接杆、安装箱、转动轴、第二伺服电机和双向螺纹杆,所述第二伺服电机固定在安装箱内,所述双向螺纹杆的一端与第二伺服电机的输出端固定连接,双向螺纹杆的另一端与安装箱的内壁转动连接,两个所述螺纹套筒分别与双向螺纹杆的两端相螺旋配合连接,两个所述第二铰接杆的一端分别与两个螺纹套筒铰接,两个第二铰接杆的另一端分别与第三铰接杆的侧壁铰接,所述安装箱固定在建筑物墙体上,两个所述第三铰接杆的一端与安装箱铰接,两个第三铰接杆的另一端与两个挡板靠近顶端位置铰接,两个所述挡板底端位置通过转动轴与出气口的底端侧壁转动连接。
在一种可选方案中:所述蓄电池与第一鼓风机、电加热板、阳光传感器、温度传感器、角度调节机构和风量调节机构均电性相连接。
在一种可选方案中:所述蓄电池的外侧设置有防护箱,所述防护箱固定在加热箱的侧壁上。
在一种可选方案中:所述进气口上设置有过滤网。
在一种可选方案中:所述加热箱的侧壁上还设置有保温层。
在一种可选方案中:所述电加热板的底端设置有导向板,所述导向板上设置有多个导向孔,多个所述导向孔内均设置有风扇。
相较于现有技术,本发明的有益效果如下:
本发明通过设置的阳光传感器感受一天当中位置太阳所在位置的变化,进而启动第一伺服电机带动单向螺纹杆旋转进而带动安装板上的太阳能电池板可以进行竖直方向的角度调节,同时启动旋转电机带动齿轮和环形齿条发生啮合运动,进而带动太阳能电池板的角度和方向进行改变,使太阳能电池板可以更好的接受阳光的最强光照,得到最多的能量转化,当出现雨雪等恶劣天气使,通过反向启动第一伺服电机使安装板上的太阳能电池板收入到保护框架内,实现对于太阳能电池板一定的保护,通过设置的温度传感器感知室内温度的变化,当达到预先设定的温度值后,减小对电加热板的通电电流和第一鼓风机的风速,同时启动第二伺服电机带动双向螺纹杆上的两个第二螺纹套筒相对运动,使两个第三铰接杆带动两个半圆挡板的平整面相互靠近,进一步达到减小风速的效果,进而可以实现自动化的节约能量的损耗,本发明实现了对于太阳能电池板的保护作用,节约了能源,使用方便。
附图说明
图1为本发明建筑用暖通节能设备的结构示意图。
图2为本发明中竖直角度调节机构的结构示意图。
图3为本发明中保护框架的结构示意图。
图4为本发明中风量调节机构的结构示意图。
图5为本发明中的实施例2的结构示意图。
附图标记注释:加热箱1、保温层2、进气口3、第一鼓风机4、防护箱5、太阳能电池板6、蓄电池7、电加热板8、出气口9、固定板10、转动柱11、保护框架12、方形安装槽13、第一伺服电机14、单向螺纹杆15、阳光传感器16、第一螺纹套筒17、第一铰接杆18、安装板19、环形齿条20、齿轮21、旋转电机22、第二鼓风机23、挡板24、导向板25、导向孔26、风扇27、风量调节机构28、第二螺纹套筒29、第二铰接杆30、第三铰接杆31、安装箱32、温度传感器33、转动轴34、第二伺服电机35、双向螺纹杆36、过滤网37。
具体实施方式
以下实施例会结合附图对本发明进行详述,在附图或说明中,相似或相同的部分使用相同的标号,并且在实际应用中,各部件的形状、厚度或高度可扩大或缩小。本发明所列举的各实施例仅用以说明本发明,并非用以限制本发明的范围。对本发明所作的任何显而易知的修饰或变更都不脱离本发明的精神与范围。
实施例1
请参阅图1~4,本发明实施例中,一种建筑用暖通节能设备,包括加热箱1、太阳能电池板6、蓄电池7、电加热板8和两个固定板10,所述加热箱1的一侧壁固定在建筑物墙体上,两个所述固定板10对称分布设置在远离建筑物墙体的加热箱1的侧壁上,两个固定板10的相对端设置有角度调节机构,所述角度调节机构与太阳能电池板6固定连接,角度调节机构上还设置有阳光传感器16,所述电加热板8固定在加热箱1的内壁之间,加热箱1的底端设置有进气口3,加热箱1的侧壁上设置有与建筑物墙体相通连接的出气口9,所述出气口9上设置有风量调节机构28和温度传感器33,所述进气口3的位置设置有第一鼓风机4,所述蓄电池7固定设置在加热箱1的顶端;
所述角度调节机构包括两个转动柱11、保护框架12、安装槽13、第一伺服电机14、单向螺纹杆15、第一螺纹套筒17、第一铰接杆18和安装板19,两个所述转动柱11一端对称分布设置在保护框架12的顶端和底端,两个转动柱11的另一端分别与两个固定板10相连接,所述安装槽13设置在保护框架12的侧壁上,所述第一伺服电机14固定在方形安装槽13的顶端内壁上,所述单向螺纹杆15的一端与第一伺服电机14的输出端固定连接,单向螺纹杆15的另一端与方形安装槽13底端内壁转动连接,所述第一螺纹套筒17与单向螺纹杆15相螺旋配合,第一螺纹套筒15与方形安装槽13的内壁滑动连接,所述第一铰接杆18的一端与第一螺纹套筒17铰接,第一铰接杆18的另一端与安装板19靠近底端位置铰接,所述安装板19的顶端与固定框架12铰接,太阳能电池板6固定设置在安装板19上,其中一个所述转动柱11上设置有环形齿条20,所述环形齿条20上设置有相啮合连接的齿轮21,所述靠近环形齿条20的固定板10上设置有旋转电机22,所述旋转电机22的输出端与齿轮21固定连接,所述阳光传感器16固定在保护框架12上,所述风量调节机构28包括两个挡板24、两个第二螺纹套筒29、两个第二铰接杆30、两个第三铰接杆31、安装箱32、转动轴34、第二伺服电机35和双向螺纹杆36,所述第二伺服电机35固定在安装箱32内,所述双向螺纹杆36的一端与第二伺服电机35的输出端固定连接,双向螺纹杆36的另一端与安装箱32的内壁转动连接,两个所述螺纹套筒29分别与双向螺纹杆36的两端相螺旋配合连接,两个所述第二铰接杆30的一端分别与两个螺纹套筒29铰接,两个第二铰接杆30的另一端分别与第三铰接杆31的侧壁铰接,所述安装箱32固定在建筑物墙体上,两个所述第三铰接杆31的一端与安装箱32铰接,两个第三铰接杆31的另一端与两个挡板24靠近顶端位置铰接,两个所述挡板24底端位置通过转动轴34与出气口9的底端侧壁转动连接,所述蓄电池7与第一鼓风机4、电加热板8、阳光传感器16、温度传感器33、角度调节机构和风量调节机构28均电性相连接,所述蓄电池7的外侧设置有防护箱5,所述防护箱5固定在加热箱1的侧壁上,减少外界环境对蓄电池7的影响,减少危险的发生,所述进气口3上设置有过滤网37,所述加热箱1的侧壁上还设置有保温层2,减少热量的散失,所述电加热板8的底端设置有导向板25,所述导向板25上设置有多个导向孔26,多个所述导向孔26内均设置有风扇27,可以使风向更加均匀吹向电加热丝8,使电加热丝8产生的热量可以更加均匀的吹向室内,本发明实现了对于太阳能电池板的保护作用,节约了能源,使用方便。
本发明的工作原理是:当使用本发明进行建筑物供暖时,太阳能电池板6将太阳能转化为电能储存在蓄电池7内,然后通过阳光感应器41感受太阳光的最强光照的角度,进而启动第一伺服电机14带动单向螺纹杆15上第一螺纹筒17发生螺旋配合运动,进而实现太阳能电池板6的竖直角度调节,同时启动旋转电机22带动齿轮21与环形齿条20发生啮合运动,实现太阳能电池板6水平角度的调节,进而使太阳能电池板6实现太阳能到光能的最大的转化效率,同时向电加热板8通电和启动第一鼓风机4,将电加热板8产生的热量向上吹入到加热箱的顶部,加热过后的热空气通过出气口9进入到室内,实现对于室内的供暖,通过设置的温度传感器41感知室内温度,当室内温度达到所设置的温度值后,自动降低第一鼓风机4的风速,减小向电加热丝8的电流,同时启动第二伺服电机带动双向螺纹杆36旋转,使得两个第二螺纹套筒29相互靠近,进而使两个第二铰接杆30分别推动两个第三铰接杆31旋转,使的两个挡板24相互靠近,减少加热箱内部的热量的散失,减少能量的损耗。
实施例2
请参阅图5,本实施例与实施例1不同之处在于,所述加热箱1靠近顶端的内侧壁上还设置有第二鼓风机23,所述第二鼓风机23与出气口9相对设置,加热后的空气经第一鼓风机4吹到加热箱1的顶部,然后通过设置的第二鼓风机23将加热后的空气直接从出风口9鼓吹进入到室内,使得加热后的空气可以直接进入到室内,进一步减少加热后空气的损耗,进一步达到节约能源的目的。
以上所述,仅为本公开的具体实施方式,但本公开的保护范围并不局限于此,任何熟悉本技术领域的技术人员在本公开揭露的技术范围内,可轻易想到变化或替换,都应涵盖在本公开的保护范围之内。因此,本公开的保护范围应以权利要求的保护范围为准。
Claims (8)
1.一种建筑用暖通节能设备,包括加热箱(1)、太阳能电池板(6)、蓄电池(7)、电加热板(8)和两个固定板(10),其特征在于,所述加热箱(1)的一侧壁固定在建筑物墙体上,两个所述固定板(10)对称分布设置在远离建筑物墙体的加热箱(1)的侧壁上,两个固定板(10)的相对端设置有角度调节机构,所述角度调节机构与太阳能电池板(6)固定连接,角度调节机构上还设置有阳光传感器(16),所述电加热板(8)固定在加热箱(1)的内壁之间,加热箱(1)的底端设置有进气口(3),加热箱(1)的侧壁上设置有与建筑物墙体相通连接的出气口(9),所述出气口(9)上设置有风量调节机构(28)和温度传感器(33),所述进气口(3)的位置设置有第一鼓风机(4),所述蓄电池(7)固定设置在加热箱(1)的顶端。
2.根据权利要求1所述的建筑用暖通节能设备,其特征在于,所述角度调节机构包括两个转动柱(11)、保护框架(12)、安装槽(13)、第一伺服电机(14)、单向螺纹杆(15)、第一螺纹套筒(17)、第一铰接杆(18)和安装板(19),两个所述转动柱(11)一端对称分布设置在保护框架(12)的顶端和底端,两个转动柱(11)的另一端分别与两个固定板(10)相连接,所述安装槽(13)设置在保护框架(12)的侧壁上,所述第一伺服电机(14)固定在方形安装槽(13)的顶端内壁上,所述单向螺纹杆(15)的一端与第一伺服电机(14)的输出端固定连接,单向螺纹杆(15)的另一端与方形安装槽(13)底端内壁转动连接,所述第一螺纹套筒(17)与单向螺纹杆(15)相螺旋配合,第一螺纹套筒(15)与方形安装槽(13)的内壁滑动连接,所述第一铰接杆(18)的一端与第一螺纹套筒(17)铰接,第一铰接杆(18)的另一端与安装板(19)靠近底端位置铰接,所述安装板(19)的顶端与固定框架(12)铰接,太阳能电池板(6)固定设置在安装板(19)上,其中一个所述转动柱(11)上设置有环形齿条(20),所述环形齿条(20)上设置有相啮合连接的齿轮(21),所述靠近环形齿条(20)的固定板(10)上设置有旋转电机(22),所述旋转电机(22)的输出端与齿轮(21)固定连接,所述阳光传感器(16)固定在保护框架(12)上。
3.根据权利要求1所述的建筑用暖通节能设备,其特征在于,所述风量调节机构(28)包括两个挡板(24)、两个第二螺纹套筒(29)、两个第二铰接杆(30)、两个第三铰接杆(31)、安装箱(32)、转动轴(34)、第二伺服电机(35)和双向螺纹杆(36),所述第二伺服电机(35)固定在安装箱(32)内,所述双向螺纹杆(36)的一端与第二伺服电机(35)的输出端固定连接,双向螺纹杆(36)的另一端与安装箱(32)的内壁转动连接,两个所述螺纹套筒(29)分别与双向螺纹杆(36)的两端相螺旋配合连接,两个所述第二铰接杆(30)的一端分别与两个螺纹套筒(29)铰接,两个第二铰接杆(30)的另一端分别与第三铰接杆(31)的侧壁铰接,所述安装箱(32)固定在建筑物墙体上,两个所述第三铰接杆(31)的一端与安装箱(32)铰接,两个第三铰接杆(31)的另一端与两个挡板(24)靠近顶端位置铰接,两个所述挡板(24)底端位置通过转动轴(34)与出气口(9)的底端侧壁转动连接。
4.根据权利要求1所述的建筑用暖通节能设备,其特征在于,所述蓄电池(7)与第一鼓风机(4)、电加热板(8)、阳光传感器(16)、温度传感器(33)、角度调节机构和风量调节机构(28)均电性相连接。
5.根据权利要求4所述的建筑用暖通节能设备,其特征在于,所述蓄电池(7)的外侧设置有防护箱(5),所述防护箱(5)固定在加热箱(1)的侧壁上。
6.根据权利要求1所述的建筑用暖通节能设备,其特征在于,所述进气口(3)上设置有过滤网(37)。
7.根据权利要求5所述的建筑用暖通节能设备,其特征在于,所述加热箱(1)的侧壁上还设置有保温层(2)。
8.根据权利要求1或4所述的建筑用暖通节能设备,其特征在于,所述电加热板(8)的底端设置有导向板(25),所述导向板(25)上设置有多个导向孔(26),多个所述导向孔(26)内均设置有风扇(27)。
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