一种节能热水器制造技术

本实用新型专利技术公开了一种节能热水器，包括壳体，壳体内安装有电路主板、发热体、换热管和流水开关；换热管包括铜管和铝塑管，铝塑管两端分别连接左铝塑三通和右铝塑三通，铜管穿插于左铝塑三通、铝塑管和右铝塑三通内部，且铜管外壁与铝塑管、左铝塑三通、右铝塑三通内壁之间设有自来水流水夹层，铜管右端连接换热废水出口；铜管一端连接换热废水进口，铜管另一端连接换热废水出口。本实用新型专利技术节能且水温稳定，自来水吸收废水温度，纯铜换热管导热性能超快，让吸热更彻底，不用电即可提升自来水15摄氏度左右，铝塑换热管让温度不流失，节能更高效，水电分离合金发热体极速辅助加热，达到设定温度，精准恒温正负0.5度。

An energy saving water heater

The utility model discloses an energy-saving water heater, which comprises a shell body, in which a circuit main board, a heating body, a heat exchange tube and a water flow switch are installed; the heat exchange tube comprises a copper tube and an aluminum plastic tube, both ends of which are respectively connected with a left aluminum plastic tee and a right aluminum plastic tee, and the copper tube is inserted in the left aluminum plastic tee, an aluminum plastic tube and a right aluminum plastic tee, and the outer wall of the copper tube is connected with an aluminum plastic tube and a left aluminum plastic tee The inner wall of the right aluminum-plastic tee is provided with a running water interlayer, and the right end of the copper tube is connected with the outlet of heat exchange wastewater; one end of the copper tube is connected with the inlet of heat exchange wastewater, and the other end of the copper tube is connected with the outlet of heat exchange wastewater. The utility model has the advantages of energy saving and stable water temperature, the temperature of tap water absorbing waste water, the super fast heat conduction performance of pure copper heat exchange tube, more thorough heat absorption, the temperature of tap water can be increased by about 15 \u2103 without electricity, the aluminum plastic heat exchange tube keeps the temperature from loss, and the energy saving is more efficient, the water and electricity separation alloy heating body can be used for auxiliary heating at an extremely fast speed to reach the set temperature, and the accurate constant temperature is plus or minus 0.5 \u2103.

【技术实现步骤摘要】
一种节能热水器
本技术涉及热水器，尤其涉及一种节能热水器。
技术介绍
目前，市面上现有的热水器的热利用率不高，热量流失较多，热循环效率低，不节能。因此，研发一种节能热水器，成为本领域技术人员亟待解决的问题。
技术实现思路
本技术是为了解决上述不足，提供了一种节能热水器。本技术的上述目的通过以下的技术方案来实现：一种节能热水器，包括壳体，壳体内安装有电路主板、发热体、换热管和流水开关，所述发热体连接电路主板；壳体底部设有自来水冷水进口、自来水热水出口、换热废水进口和换热废水出口；所述换热管包括铜管和铝塑管，所述铝塑管两端分别连接左铝塑三通和右铝塑三通，铜管左端连接换热废水进口，并依次穿插于左铝塑三通、铝塑管和右铝塑三通内部，且铜管外壁与铝塑管、左铝塑三通、右铝塑三通内壁之间设有自来水流水夹层，铜管右端连接换热废水出口；所述铜管与左铝塑三通、右铝塑三通的外侧接口之间设有阻水密封圈；所述铜管一端连接换热废水进口，铜管另一端连接换热废水出口；所述自来水冷水进口通过不锈钢波纹管连接右铝塑三通的进水端口，左铝本文档来自技高网...

【技术保护点】
1.一种节能热水器，其特征在于：包括壳体，壳体内安装有电路主板、发热体、换热管和流水开关，所述发热体连接电路主板；壳体底部设有自来水冷水进口、自来水热水出口、换热废水进口和换热废水出口；/n所述换热管包括铜管和铝塑管，所述铝塑管两端分别连接左铝塑三通和右铝塑三通，铜管左端连接换热废水进口，并依次穿插于左铝塑三通、铝塑管和右铝塑三通内部，且铜管外壁与铝塑管、左铝塑三通、右铝塑三通内壁之间设有自来水流水夹层，铜管右端连接换热废水出口；所述铜管与左铝塑三通、右铝塑三通的外侧接口之间设有阻水密封圈；/n所述铜管一端连接换热废水进口，铜管另一端连接换热废水出口；/n所述自来水冷水进口通过不锈钢波纹管连接...

【技术特征摘要】
1.一种节能热水器，其特征在于：包括壳体，壳体内安装有电路主板、发热体、换热管和流水开关，所述发热体连接电路主板；壳体底部设有自来水冷水进口、自来水热水出口、换热废水进口和换热废水出口；
所述换热管包括铜管和铝塑管，所述铝塑管两端分别连接左铝塑三通和右铝塑三通，铜管左端连接换热废水进口，并依次穿插于左铝塑三通、铝塑管和右铝塑三通内部，且铜管外壁与铝塑管、左铝塑三通、右铝塑三通内壁之间设有自来水流水夹层，铜管右端连接换热废水出口；所述铜管与左铝塑三通、右铝塑三通的外侧接口之间设有阻水密封圈；
所述铜管一端连接换热废水进口，铜管另一端连接换热废水出口；
所述自来水冷水进口通过不锈钢波纹管...

【专利技术属性】
技术研发人员：杨允涛，
申请(专利权)人：杨允涛，
类型：新型
国别省市：安徽;34