CN201000187Y - Ultra-thin energy conserving - Google Patents

Abstract

The utility model relates to an ultra-thin type energy-saving shower, which consists of a casing, a hot water pipe arranged in the casing, a water inlet pipe mutually connected with the side surface of the head end of the hot water pipe, and a water outlet pipe mutually connected with the side surface of the tail end of the hot water pipe. The utility model is characterized in that an electrical heating element is arranged in the hot water pipe, one end of the electrical heating element is led out form one end of the hot water pipe and connected with the live wire of a power, the other end of the electrical heating element led out form the other end of the hot water pipe and connected with the zero wire of the power; an insulating layer is wrapped on the outer surface of the electrical heating element, a hollow interlayer is formed between the inner wall of the hot water pipe and the insulating layer on the outer surface of the electrical heating element; a ground wire connecting pole is arranged on the outer surface of the hot water pipe. Because the hot water pipe is U-shaped, and arranged on the same plane, the thickness is thin, the hot water pipe is particularly suitable for arranging against the wall; and because water is heated in the hollow interlayer, a small amount of water flows through the hollow interlayer once, the heating rate is fast, at the same time the water flow is very fast, therefore, the loss heat is less, thereby the electric energy is saved, and about 15 percent thermal efficiency is provided.

Description

Ultrathin energy-saving showering device

Technical field

The utility model relates to a kind of ultrathin energy-saving showering device.

Background technology

Existing shower mostly is made up of casing, electrothermal tube, water inlet pipe, outlet pipe etc.Electrothermal tube is fixed on the casing the inside, is full of water in the casing that seals during use, and electrothermal tube is surrounded by water, and its heat of sending is absorbed by water water temperature is raise, and then, emits for shower usefulness from outlet pipe.This shower is because the water of heating is more, and firing rate is slow, and the heat leakage of casing is also many, thereby the waste electric energy.

The purpose of this utility model is the defective that exists at existing shower, and a kind of ultrathin energy-saving showering device is provided, and firing rate is fast, and heat leakage is little, saves electric energy.

Ultrathin energy-saving showering device described in the utility model, the water inlet pipe that comprises housing, is located at hot-water line in the housing, is connected and communicates, the outlet pipe that is connected and communicates with the side of hot-water line end with the side of hot-water line head end, it is characterized in that: in hot-water line, be provided with heating, one end of heating is drawn with the live wire of power supply from an end of hot-water line and is connected, and the other end of heating is drawn with the zero line of power supply from the other end of hot-water line and is connected; The outside of heating is surrounded by insulating barrier, forms hollow interlayer between the insulating barrier of the inwall of hot-water line and the outside of heating; Be provided with the ground wire joint pin in the outside of hot-water line.

Described ultrathin energy-saving showering device, its hot-water line is three copper pipes that are " U " shape, arrange at grade, the side of the head end of the side of the end of first copper pipe and second copper pipe is by tube connector UNICOM, the side of the head end of the side of the end of second copper pipe and the 3rd copper pipe is by tube connector UNICOM, water inlet pipe is connected with the side of first copper tube end and communicates, and outlet pipe is connected with the side of the 3rd copper pipe end and communicates; Be respectively equipped with heating in first copper pipe, second copper pipe and the 3rd copper pipe.

Described ultrathin energy-saving showering device is connected with heat accumulating block in the fixed outside of hot-water line.Heat accumulating block is set reduces heat leakage.

Described ultrathin energy-saving showering device is provided with temperature sensor mounted sleeve pipe on hot-water line.So that mounting temperature sensor is connected with controller, when not using controller, sleeve pipe can be stopped up.

Described ultrathin energy-saving showering device is connected with the temperature test support in the fixed outside of hot-water line.So that detected temperatures.

This energy-conservation shower is when work, one end of heating is drawn with the live wire of power supply from an end of hot-water line and is connected, the other end of heating is drawn with the zero line of power supply from the other end of hot-water line and is connected, and the ground wire joint pin that is located at the outside of hot-water line is connected with ground wire; Cold water enters from water inlet pipe in the hollow interlayer between the insulating barrier of outside of the inwall of hot-water line and heating, is being heated in the process of flowing forward, and hot water is after outlet pipe flows out for shower uses.There is not water during work in the shell.In order to make outflow water reach certain temperature, can control from two aspects: the one, the thickness of control hollow interlayer, hollow interlayer is thick more, and the water yield is big more, and the coolant-temperature gage of outflow is low more; Otherwise water temperature is high more.The thickness of interlayer is more satisfactory at 11-15mm.The 2nd, the power of control heating, power is big more, and the coolant-temperature gage of outflow is high more; Otherwise water temperature is low more.

The utility model has the advantages that: because hot-water line is " U " shape, and arrange at grade, so thin thickness is particularly suitable for installing by wall; Because water is heated in hollow interlayer, and the water of once flowing through is less, so firing rate is fast, current are very fast simultaneously again, and therefore, that scatters and disappears is hot less, thereby saves electric energy, and the thermal efficiency about 15% is provided.

Description of drawings

Fig. 1 is a structural representation of the present utility model.

Fig. 2 is the right view of Fig. 1.

The specific embodiment

Referring to Fig. 1 and Fig. 2, this routine hot-water line 2 is two copper pipes that are " U " shape, arranged superposed, be located in the housing 1, the side of the head end of the side of the end of first copper pipe and second copper pipe is by tube connector 9 UNICOMs, the side of the head end of the side of the end of second copper pipe and the 3rd copper pipe is by tube connector 10 UNICOMs, and water inlet pipe 3 is connected with the side of first copper pipe head end and communicates, and outlet pipe 4 is connected with the side of the 3rd copper pipe end and communicates; Be respectively equipped with the heating made from nickel-chromium resistance wire 5 in first copper pipe, second copper pipe and the 3rd copper pipe, one end of three heatings is drawn the back parallel connection from an end of three copper pipes respectively and is connected with the live wire of power supply, and the other end of three heatings is drawn the back parallel connection from the other end of three copper pipes respectively and is connected with the zero line of power supply; The ground wire joint pin 8 that is located at the outside of hot-water line is connected with ground wire.Heat accumulating block 11 is fixed on the outside of hot-water line 2; Again sleeve pipe 12 is located on the hot-water line 2, sleeve pipe can not be blocked during mounting temperature sensor; Then, the outside that temperature test support 13 is fixed on hot-water line 2 gets final product.

Claims (5)

1, ultrathin energy-saving showering device, comprise housing (1), be located at hot-water line (2) in the housing, be connected with the side of hot-water line head end and the water inlet pipe (3) that communicates, the outlet pipe (4) that is connected and communicates with the side of hot-water line end, it is characterized in that: in hot-water line (2), be provided with heating (5), one end of heating is drawn with the live wire of power supply from an end of hot-water line and is connected, and the other end of heating is drawn with the zero line of power supply from the other end of hot-water line and is connected; The outside of heating is surrounded by insulating barrier (6), forms hollow interlayer (7) between the insulating barrier of the inwall of hot-water line and the outside of heating; Be provided with ground wire joint pin (8) in the outside of hot-water line (2).

2, ultrathin energy-saving showering device according to claim 1, it is characterized in that: hot-water line (2) is three copper pipes that are " U " shape, arrange at grade, the side of the head end of the side of the end of first copper pipe and second copper pipe is by tube connector (9) UNICOM, the side of the head end of the side of the end of second copper pipe and the 3rd copper pipe is by tube connector (10) UNICOM, water inlet pipe (3) is connected with the side of first copper tube end and communicates, and outlet pipe (4) is connected with the side of the 3rd copper pipe end and communicates; Be respectively equipped with heating (5) in first copper pipe, second copper pipe and the 3rd copper pipe.

3, ultrathin energy-saving showering device according to claim 1 and 2 is characterized in that: the fixed outside at hot-water line (2) is connected with heat accumulating block (11).

4, ultrathin energy-saving showering device according to claim 1 and 2 is characterized in that: be provided with temperature sensor mounted sleeve pipe (12) on hot-water line (2).

5, ultrathin energy-saving showering device according to claim 1 and 2 is characterized in that: the fixed outside at hot-water line (2) is connected with temperature test support (13).

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