Background technology
The water storage liner of storage-type electric water heater is after permanent use, and the foreign matter carrying in water can form dirt slowly in the bottom of water storage liner deposition, need to clean in time, otherwise will grow bacterium, and polluted water, affects health.
Traditional storage-type electric water heater mainly comprises housing and with the water storage liner of water inlet pipe and outlet pipe, described water storage liner is arranged in housing, described water storage liner has water inlet pipe, outlet pipe and sewage draining exit, wherein, sewage outfalls setting is in the bottom of water storage liner, when cleaning water storage liner, opening the valve of sewage draining exit can get rid of the water in water storage liner clean, and the mode of taking away by this current is discharged the dirt that is deposited on water storage liner bottom, or further open inlet valve, water is flowed into from water inlet pipe, from sewage draining exit, flow out again, by the bottom of water storage liner being carried out to current for a long time, rinse, to reach the object of removing dirt in water storage liner, obviously, these two kinds of methods, a kind of dirty removal capacities is poor, the another kind of scrubbing time is longer, efficiency is low, and waste water resource.
Utility model content
Main purpose of the present utility model, for a kind of storage-type electric water heater is provided, is intended to improve dirty removal capacities and the scrubbing efficiency of storage-type electric water heater.
To achieve these goals, the utility model proposes a kind of storage-type electric water heater, this storage-type electric water heater comprise housing, with the water storage liner of water inlet pipe, outlet pipe and sewage draining exit, be arranged on described hull outside or be arranged on housing and water storage liner between gas compressing apparatus, and the gas that described gas compressing apparatus is blown out is delivered at least one gas-guide pipeline in described water storage liner, wherein, described water storage liner is arranged in described housing, described sewage outfalls setting is in the bottom of described water storage liner, and valve port switching device is installed.
Preferably, the position of the corresponding described sewage draining exit of described hull outside is provided with the water pipe head being communicated with described sewage draining exit, and described water pipe head is threaded with described sewage draining exit; Described valve port switching device is arranged on the inside, one end of described water pipe head, the other end inside of described water pipe head is provided with the laying passage extending for described gas-guide pipeline, and, one end of described laying passage is communicated with described sewage draining exit, and the other end of described laying passage runs through the sidewall of described water pipe head.
Preferably, the gas outlet of described gas-guide pipeline is arranged in the cavity of described water storage liner, and this gas outlet is towards the bottom of described water storage liner cavity.
Preferably, described sewage draining exit, outlet pipe and water inlet pipe are arranged successively along left side to the right side of described water storage liner, and the gas outlet of described gas-guide pipeline is positioned at the right side of described water inlet pipe.
Preferably, the gas outlet of described gas-guide pipeline is towards the left side of described water storage liner.
Preferably, described gas-guide pipeline comprises the pipe branch that pipeline body and a plurality of and described pipeline body are communicated with respectively, and the air inlet of described pipeline body is communicated with the outlet side of described gas compressing apparatus, is respectively equipped with described gas outlet described in each on pipe branch.
Preferably, described gas-guide pipeline is located at the bottom of described water storage liner cavity.
Preferably, described gas-guide pipeline is provided with check valve.
Preferably, described gas compressing apparatus is air pump.
Preferably, also comprise the controller being electrically connected to described gas compressing apparatus, described controller is for controlling the On/Off of described gas compressing apparatus.
The utility model by being provided for producing the gas compressing apparatus of Compressed Gas in housing, the gas-guide pipeline that at least one is communicated with the outlet side of gas compressing apparatus is set in water storage liner, the compressed air producing by gas compressing apparatus is delivered in water storage liner through gas-guide pipeline, water is sprung up fast, so that the dirt in water storage liner and water are mixed, make dirt along with current flow out from sewage draining exit, realize and dispose rapidly the object of dirt in water storage liner, thereby improved dirty removal capacities and the scrubbing efficiency of this storage-type electric water heater.
The specific embodiment
Should be appreciated that specific embodiment described herein is only in order to explain the utility model, and be not used in restriction the utility model.
Shown in Fig. 1, Fig. 2 and Fig. 3, Fig. 1 is a cutaway view of the utility model storage-type electric water heater preferred embodiment; Fig. 2 is a side view of the utility model storage-type electric water heater preferred embodiment; Fig. 3 is the partial structurtes schematic diagram of gas-guide pipeline in the utility model storage-type electric water heater one embodiment.
The utility model provides a kind of storage-type electric water heater, and with reference to Fig. 1 and Fig. 2, this storage-type electric water heater comprises housing 10, and with the water storage liner 20 of water inlet pipe 101, outlet pipe 102 and sewage draining exit 103.Described water storage liner 20 is arranged in described housing 10, and this storage-type electric water heater also comprises and being filled between housing 10 and inner bag 20, for the heat-insulation layer of heat-insulation and heat-preservation.Wherein, sewage draining exit 103 is arranged on the bottom of water storage liner 20, and valve port switching device (for example, manual blowdown valve or magnetic valve) 40 is installed, when this storage-type electric water heater being cleaned to maintenance, by opening the sewage in valve port switching device 40 discharge water storage liner 20.In order to improve pollution discharge capability and the contaminant removal effectiveness of this storage-type electric water heater, described storage-type electric water heater also comprise be arranged on described housing 10 outsides or be arranged on housing 10 and water storage liner 20 between gas compressing apparatus 50, and the gas that described gas compressing apparatus 50 is blown out is delivered at least one gas-guide pipeline 60 in described water storage liner 20; Described gas compressing apparatus 50 can be for example air pump, for generation of Compressed Gas.The material of described gas-guide pipeline 60 comprises plastic cement, glass, metal etc., one end of this gas-guide pipeline 60 is communicated with described gas compressing apparatus 50 outlet sides, the other end can extend to from the optional position of water storage liner 20 locular walls described water storage liner 20, certainly in order to reduce the technique that gas-guide pipeline 60 is set, cost-saving, the present embodiment can adopt following several scheme, for example the other end of described gas-guide pipeline 60 can be from water inlet pipe 101, outlet pipe 102, the courage mouth 104 of sewage draining exit 103 or installation heating tube 70 extends in described water storage liner 20, without offer the through hole extending for described gas-guide pipeline 60 on described water storage liner 20 courage walls, save technique, cost-saving, install simple.
For the ease of understanding, below take structure that sewage draining exit 103 arranges gas-guide pipeline 60 and be elaborated as example:
Those skilled in the art is known, and the position of the corresponding described sewage draining exit 103 in described housing 10 outsides is provided with the water pipe head 11 being communicated with described sewage draining exit 103, and described water pipe head 11 is threaded with described sewage draining exit 103; Described valve port switching device 40 is arranged on the inside, one end of described water pipe head 11, the other end inside of described water pipe head 11 is provided with the laying passage 12 extending for described gas-guide pipeline 60, and one end of described laying passage 12 is communicated with described sewage draining exit 103, and the other end of described laying passage 12 runs through the sidewall of described water pipe head 11.Wherein, described gas-guide pipeline 60, from the outlet side of described gas compressing apparatus 50, extends in the cavity of described water storage liner 20 through laying passage 12, sewage draining exit 103, to realize the setting of gas-guide pipeline 60.
The utility model by being provided for producing the gas compressing apparatus 50 of Compressed Gas in housing 10, the gas-guide pipeline 60 that at least one is communicated with the outlet side of gas compressing apparatus 50 is set in water storage liner 20, the compressed air producing by gas compressing apparatus 50 is delivered in water storage liner 20 through gas-guide pipeline 60, water is sprung up fast, so that the dirt in water storage liner 20 and water are mixed, make dirt along with current flow out from sewage draining exit 103, realize the object of disposing rapidly dirt in water storage liner 20, thereby dirty removal capacities and the scrubbing efficiency of this storage-type electric water heater have been improved.
Further, with reference to Fig. 1 and Fig. 2, in order to make the dirt that is deposited on water storage liner 20 bottoms fully be mixed in current and be discharged from, the gas outlet 105 of described gas-guide pipeline 60 is arranged in the cavity of described water storage liner 20, and this gas outlet 105 is towards the bottom of described water storage liner 20 cavitys.Gas impact is carried out facing to the bottom of water storage liner 20 cavitys in gas outlet 105 by gas-guide pipeline 60, the current of water storage liner 20 bottoms are sprung up fast, the dirt of water impact water storage liner 20 cavity bottom, comes off dirt and is dissolved in the water, so that along with current are discharged.
With reference to Fig. 1 and Fig. 2, at the utility model further in embodiment, the sewage draining exit 103 of described water storage liner 20, outlet pipe 102 and water inlet pipe 101 are arranged successively along left side to the right side of described water storage liner 20, and the gas outlet 105 of described gas-guide pipeline 60 is positioned at described water inlet pipe 101 right sides.Be understandable that due to water storage liner 20 one end in water inlet pipe 101 from described sewage draining exit 103 away from, therefore, the dirt that this end is piled up is difficult to discharge most, by 60 pairs of gas-guide pipelines, blows herein, the dirt at this place is easily come off, and then removed fast.
Be appreciated that the gas outlet 105 of described gas-guide pipeline 60 is towards the left side of described water storage liner 20 in order further to make the impulse force of γ-ray emission wash away the bottom of water storage liner 20 cavitys.Because sewage draining exit 103 is positioned at the left side of water storage liner 20, the dirt on the right side of water storage liner 20 can be blowed to sewage draining exit like this, to facilitate rapid discharge.
Further, in the lump with reference to Fig. 3, described gas-guide pipeline 60 comprises the pipe branch 62 that pipeline body 61 and a plurality of and described pipeline body 61 are communicated with respectively, the air inlet of described pipeline body 61 is communicated with the outlet side of described gas compressing apparatus 50, is respectively equipped with described gas outlet 105 described in each on pipe branch.
Be understandable that, in order further to make the impulse force of γ-ray emission wash away the bottom of water storage liner 20 cavitys, gas outlet 105 is respectively near the bottom position setting of described water storage liner 20 cavitys described in each of described gas-guide pipeline 60.
In above-described embodiment, in order to prevent that water in water storage liner 20 is by gas-guide pipeline described in inspiration 60, described gas-guide pipeline 60 is provided with check valve (scheming not shown).This check valve can be arranged on gas-guide pipeline 60 and be arranged in one section of water storage liner 20, or is arranged on gas-guide pipeline 60 and is positioned at a section outside water storage liner 20.
In addition, described storage-type electric water heater also comprises the controller (scheming not shown) being electrically connected to described gas compressing apparatus 50, and described controller is for controlling the On/Off of described gas compressing apparatus 50.This controller is the master controller of this water heater, can also control the size of the gas pressure of these gas compressing apparatus 50 outputs.
It should be noted that, in the utility model, the orientation words such as described left side, right side, top and bottom only represent its orientation in the accompanying drawings, so that understand, and be not equal to the concrete orientation in practical application or sale.
The foregoing is only preferred embodiment of the present utility model; not thereby limit the scope of the claims of the present utility model; every equivalent structure or conversion of equivalent flow process that utilizes the utility model description and accompanying drawing content to do; or be directly or indirectly used in other relevant technical fields, be all in like manner included in scope of patent protection of the present utility model.