CN203533851U - Tubular water storage water heater - Google Patents

Abstract

The utility model discloses a tubulose water storage water heater, including water storage container, heating device, water inlet and delivery port, the tubulose structure that water storage container constitutes for end to end's combination pipeline, the water storage volume of this water heater is regarded as to the volume of combination pipeline. The water storage container is set to be a combined pipeline capable of circulating, so that the water heater can be formed at will, the formed water heater is small in size and small in occupied area, can be suitable for various installation environments, and can select the combined pipelines with different lengths according to the capacity requirements of different water heaters so as to meet the normal water storage capacity of the water heater.

Description

Tubulose storage water heater

Technical field

The utility model relates to technical field of water heaters, relates in particular to a kind of tubulose storage water heater.

Background technology

Current electric heater on the market is probably divided into following two kinds:

1, storage-type electric water heater

Storage-type electric water heater refers to the pre-heated fixed utensil of water, generally adopts inner bag as tank, and it can long-term or interim stored hot water, and is equipped with and controls or the device of restriction water temperature.Storage-type electric water heater is divided into by its outlet pattern: two kinds of closed electrical water heater and open type electric water heaters.Closed electrical water heater is controlled the water yield at water outlet by one or more valves, and works under tap water pressure.Such water heater has that installation site is flexible, discharge pressure is high and the advantage such as heat loss is little.But because its inner bag is worked in situation with pressure, need to adopt thicker material, manufacture process requirement is high; The delivery port of open type electric water heater opens wide, and by a valve on inlet pipeline, controls the water yield, and this type of water heater is worked under normal pressure, therefore its inner bag making requirement is lower, and structure is also relatively simple.At present, the storage-type electric water heater of most of manufacturer production is closed electrical water heater.Storage-type electric water heater is divided into by mounting means: wall hanging is horizontal, three kinds of wall-mounted vertical and console modes.When wall hanging horizontal water heater is installed, level is hung on body of wall, is suitable for the water heater that capacity is not more than 100L, and body of wall is had to certain requirement of strength; Wall-mounted vertical water heater is vertically hung on body of wall while installing, and is suitable for the water heater that capacity is not more than 100L, and body of wall is had to certain requirement of strength, need be arranged on load bearing wall, and non-load bearing wall needs to install in advance emergency support; Floor hot-water unit can vertically be placed on firm ground while installing, and is suitable for water heater more than large capacity 100L.

The advantage of storage-type electric water heater: security performance is higher, energy is clean, can multichannel supply water, and both can be used for shower, bath in a tub, also can be used for laundry, washes dish, installs simple, easy to use.

Shortcoming: because storage-type electric water heater generally adopts inner bag in conjunction with the mode of heating, so volume is larger, take up room larger, installing space is had to corresponding requirement, need preheating before use, can not use continuously the water yield of overflow constant volume.

2, instant electric water heater

Instant electric water heater a kind ofly can carry out Fast Heating flowing water by electrons heat components and parts, and can control water temperature, flow velocity, power etc. by circuit, makes water temperature reach the water heater of the temperature that is applicable to human body bathing.Instant-heating, need not wait for, conventionally within the several seconds, can start heating.Although instant electric water heater's small volume, power is very large, higher to mounting electrical environmental requirement, and it is larger that leaving water temperature is affected by inflow temperature, often occur that temperature is much of that, flow is too little, and flow is much of that, temperature is too little, and heating system pipe table load is higher, affects heating system reliability.

Utility model content

The purpose of this utility model is to provide a kind of tubulose storage water heater, and it can convert external shape according to installation environment, area occupied is little, can be applicable to various installation environments, uses power few, and preheating time is few, and leaving water temperature is stable, and water flow is stable.

For reaching this object, the utility model by the following technical solutions:

A tubulose storage water heater, comprises tank, heater, water inlet and delivery port, and described tank is the tubular structure that end to end combined pipeline forms, and the volume of described combined pipeline is as the water storage volume of this water heater.

By tank, be set to the combined pipeline of circulation capable of circulation, make water heater random molding, water heater volume after moulding is little, area occupied is little, can be applicable to various installation environments, and can select according to the capacity requirement of different water heaters the combined pipeline of different length, to meet the normal reservoir water yield of water heater.

As a kind of preferred version of tubulose storage water heater, described combined pipeline is that pipeline passes through serial connection and/or associated formation.

As a kind of preferred version of tubulose storage water heater, described combined pipeline adopts the mode of one bend pipe or the mode connecting by elbow to combine.

The mode connecting by elbow combines can be selected with the following methods:

Described combined pipeline comprises a plurality of straight sections and bent portion, and a plurality of described straight sections are alternately connected successively with described bent portion, and described straight sections and described bent tube section are body formed.

Preferably, described straight sections is threaded and is integrated with bent portion.

Be more preferably, described straight sections and bent portion are welded as a whole.

Be more preferably, described straight sections and/or bent portion connect as one by attaching parts.

Be more preferably, described straight sections and/or bent portion move towards at least a portion along it bending.

As a kind of preferred version of tubulose storage water heater, described heater is the electric heater that is built in the electric heater in combined pipeline and/or is installed on combined pipeline outside.

A kind of preferred version as tubulose storage water heater, is serially connected with circulating pump in described combined pipeline, in order to drive water to flow in described combined pipeline inner loop.

A kind of preferred version as tubulose storage water heater is provided with temperature sensor in described combined pipeline, in order to detect water temperature.

As a kind of preferred version of tubulose storage water heater, described water inlet is provided with water intaking valve, described delivery port is provided with outlet valve, between water inlet and delivery port, isolating valve, is installed.

By isolating valve, is set, the cold water that can make water inlet does not mix with the hot water of water outlet in entering combined pipeline time, and the water temperature that guarantees delivery port is not subject to the interference of the water temperature of water inlet, strengthens user's comfort.

A kind of tubulose storage water heater's control method, described storage water heater comprises tank, heater, water inlet and delivery port, described tank is the tubular structure that end to end combined pipeline forms, and the volume of described combined pipeline is as the water storage volume of this water heater; Described water inlet is provided with water intaking valve, described delivery port is provided with outlet valve, between water inlet and delivery port, isolating valve, is installed; In combined pipeline, be serially connected with circulating pump; The method comprises the following steps:

Water inlet: described isolating valve, is closed, water intaking valve, outlet valve are opened, and tank is intake;

Heating: described isolating valve, is opened, and water intaking valve, outlet valve are closed, opens heater and circulating pump, and the water in tank is carried out to circulating-heating;

Water outlet: described isolating valve, is closed, water intaking valve, outlet valve are opened, and close circulating pump, and hot water ejects use by cold water.

As a kind of preferred version of tubulose storage water heater's control method,

Described water heater working is when water storage heating mode, and described heater is only worked in the heating period;

Described water heater working is when instant heating mode, and described heater is worked when water outlet simultaneously.

As a kind of preferred version of tubulose storage water heater's control method,

Described water intaking valve, outlet valve and isolating valve, are magnetic valve.

Contrast prior art, the beneficial effects of the utility model are: the combined pipeline that is set to circulation capable of circulation by tank, make water heater random molding, water heater volume after moulding is little, area occupied is little, can be applicable to various installation environments, and can select according to the capacity requirement of different water heaters the combined pipeline of different length, to meet the normal reservoir water yield of water heater.

Accompanying drawing explanation

Fig. 1 is the structural representation of the tubulose storage water heater described in embodiment mono-;

Fig. 2 is the structural representation of the tubulose storage water heater described in embodiment bis-;

Fig. 3 is the structural representation of the tubulose storage water heater described in embodiment tri-.

In Fig. 1:

110, combined pipeline; 111, straight sections; 112, bent portion; 120, water inlet; 130, delivery port; 140, isolating valve; 150, water intaking valve; 160, outlet valve; 170, heater; 180, circulating pump; 190, temperature sensor.

In Fig. 2:

210, combined pipeline; 211, straight sections; 212, bent portion; 220, water inlet; 230, delivery port; 240, isolating valve; 250, water intaking valve; 260, outlet valve; 270, heater; 280, temperature sensor.

In Fig. 3:

310, combined pipeline; 311, straight sections; 312, bent portion; 320, water inlet; 330, delivery port; 340, isolating valve; 350, water intaking valve; 360, outlet valve; 370, heater; 380, circulating pump; 390, temperature sensor.

The specific embodiment

Below in conjunction with accompanying drawing and by the specific embodiment, further illustrate the technical solution of the utility model.

In following examples, tubulose water heater of the present utility model, comprises tank, heater, water inlet and delivery port, and tank is the tubular structure that end to end combined pipeline forms, and the volume of combined pipeline is as the water storage volume of this water heater.

Embodiment mono-:

As shown in Figure 1, in the present embodiment, tubulose water heater described in the utility model, comprise tank, tank is the tubular structure that end to end combined pipeline 110 forms, combined pipeline 110 comprises a plurality of straight sections 111 and bent portion 112, and a plurality of straight sections 111 are alternately connected to form water storage pipeline successively with bent portion 112.

In the present embodiment, the straight sections 111 of combined pipeline 110 adopts the brake forming of single conduit one with bent portion 112.

Water inlet 120 and delivery port 130 are set on combined pipeline 110, and this water inlet 120 and delivery port 130 are next-door neighbour and arrange.

In the present embodiment, heater 170 is set on combined pipeline 110, this heater 170 is arranged at combined pipeline 110 external partial positions, on the water circulation stream of combined pipeline 110, circulating pump 180 is also set, to drive water to flow in combined pipeline 110 inner loop.

Heater 170 and circulating pump 180 are arranged at the position near the bottom of the water circulation stream of combined pipeline 110, so that the water in combined pipeline 110 can be heated fully.

On combined pipeline 110, be provided with temperature sensor 190, in the present embodiment, two temperature sensors 190 be set on combined pipeline 110.

Position in the water circulation stream of combined pipeline 110 between water inlet 120 and delivery port 130 arranges isolating valve, 140, isolating valve, 140 is for blocking direct connection the between water inlet 120 and delivery port 130, to avoid water inlet 120 water inlets directly to be discharged by delivery port 130 without heating.

At water inlet, 120 places arrange water intaking valve 150, at delivery port, 130 places set out water valve 160, and water intaking valve 150, for controlling the ON/OFF of water inlet 120, is realized water inlet or stops into water, outlet valve 160, for controlling the ON/OFF of delivery port 130, is realized water outlet or is stopped water outlet.

The control method of this tubulose water heater, comprises the following steps:

Water storage pattern:

(1), water inlet: open outlet valve 150 and outlet valve 160, close isolating valve, 140, water inlet 120 is communicated with combined pipeline 110, delivery port 130 is also communicated with combined pipeline 110, and water inlet 120 starts the interior water filling of combined pipeline 110;

(2), heating: when delivery port 130 there are flowing out, water in expression combined pipeline 110 is filled with, close water inlet 120 and delivery port 130, open isolating valve, 140, water in combined pipeline 110 can be realized and circulate, open heater 170, simultaneously ON cycle pump 180, make water in combined pipeline 110 under the effect of circulating pump 180, the heating through heater 170 of circulation;

(3), water outlet: observe temperature sensor 190, when on combined pipeline 110, the temperature difference of two temperature sensors 190 of setting is in 1 ℃, the water homogeneous heating that represents the storage in combined pipeline 110, can start water outlet work, open water inlet 120 and delivery port 130, and close isolating valve, 140, water inlet 120 and delivery port 130 are connected with combined pipeline 110 respectively, and be isolated between water inlet 120 and delivery port 130, prevent hot and cold water crossfire, now delivery port 130 starts water outlet, in order to guarantee that hot water effluent measures, the unlatching that can keep heater 170.

It is heat pattern, open water intaking valve 150 and outlet valve 160, water inlet 120 is communicated with combined pipeline 110, delivery port 130 is also communicated with combined pipeline 110, water inlet 120 starts the interior water filling of combined pipeline 110, now close isolating valve, 140, and open heater 170, the water in combined pipeline 110 is heated immediately.

Embodiment bis-:

As shown in Figure 2, in the present embodiment, tubulose water heater described in the utility model, comprise tank, tank is the tubular structure that end to end combined pipeline 210 forms, combined pipeline 210 comprises a plurality of straight sections 211 and bent portion 212, and a plurality of straight sections 211 are alternately connected to form water storage pipeline successively with bent portion 212.

In the present embodiment, the straight sections 211 of combined pipeline 210 adopts the brake forming of single conduit one with bent portion 212.

Water inlet 220 and delivery port 230 are set on combined pipeline 210, and this water inlet 220 and delivery port 230 are next-door neighbour and arrange.

In the present embodiment, heater 270 is set on combined pipeline 210, this heater 270 is wrapped in the outside of whole combined pipeline 210, on the water circulation stream of combined pipeline 210, circulating pump 280 is also set, to drive water to flow in combined pipeline 210 inner loop.

Heater 270 and circulating pump 280 are arranged at the position near the bottom of the water circulation stream of combined pipeline 210, so that the water in combined pipeline 210 can be heated fully.

On combined pipeline 210, be provided with temperature sensor 290, in the present embodiment, two temperature sensors 290 be set on combined pipeline 2110.

Position in the water circulation stream of combined pipeline 210 between water inlet 220 and delivery port 230 arranges isolating valve, 240, isolating valve, 240 is for blocking direct connection the between water inlet 220 and delivery port 230, to avoid water inlet 220 water inlets directly to be discharged by delivery port 230 without heating.

At water inlet, 220 places arrange water intaking valve 250, at delivery port, 230 places set out water valve 260, and water intaking valve 250, for controlling the ON/OFF of water inlet 220, is realized water inlet or stops into water, outlet valve 260, for controlling the ON/OFF of delivery port 230, is realized water outlet or is stopped water outlet.

The tubulose storage water heater's of embodiment bis-structure is only that from the difference of embodiment mono-heater is different, embodiment mono-is arranged on the inner local location of combined pipeline by heater, embodiment bis-is wrapped in combined pipeline outside by heater, therefore the tubulose storage water heater's of two embodiment control method is all consistent, repeats no more herein.

Embodiment tri-:

As shown in Figure 3, in the present embodiment, tubulose water heater described in the utility model, comprise tank, tank is the tubular structure that end to end combined pipeline 310 forms, combined pipeline 310 comprises a plurality of straight sections 311 and bent portion 312, and a plurality of straight sections 311 are alternately connected to form water storage pipeline successively with bent portion 312.

In the present embodiment, the straight sections of combined pipeline 310 311 and bent portion 312 minutes are body formed, and straight sections 311 connects as one by being the bent portion 312 of L-type bending.

The modes such as straight sections 311 can adopt with the connected mode of bent portion 312 and be threaded, welding, when employing is threaded, need to set up sealing device.

Water inlet 320 and delivery port 330 are set on combined pipeline 310, and this water inlet 320 and delivery port 330 are non-close setting.

In the present embodiment, heater 370 is set on combined pipeline 310, this heater 370 is arranged in combined pipeline 310, on the water circulation stream of combined pipeline 310, circulating pump 380 is also set, to drive water to flow in combined pipeline 310 inner loop.

Heater 370 and circulating pump 380 are arranged at the position near the bottom of the water circulation stream of combined pipeline 310, so that the water in combined pipeline 310 can be heated fully.

On combined pipeline 310, be provided with temperature sensor 390, in the present embodiment, two temperature sensors 390 be set on combined pipeline 310.

Position in the water circulation stream of combined pipeline 310 between water inlet 320 and delivery port 330 arranges isolating valve, 340, isolating valve, 340 is for blocking direct connection the between water inlet 320 and delivery port 330, to avoid water inlet 320 water inlets directly to be discharged by delivery port 330 without heating.

At water inlet, 320 places arrange water intaking valve 350, at delivery port, 330 places set out water valve 360, and water intaking valve 350, for controlling the ON/OFF of water inlet 320, is realized water inlet or stops into water, outlet valve 360, for controlling the ON/OFF of delivery port 330, is realized water outlet or is stopped water outlet.

This tubulose storage water heater's control method is consistent with embodiment's mono-, therefore at this, just repeats no more.

The setting position of heater is not limited to outside subregion or the outside Zone Full of tank described in above-described embodiment one, embodiment bis-and embodiment tri-, can also be arranged on the subregion of tank inside.

Know-why of the present utility model has below been described in conjunction with specific embodiments.These are described is in order to explain principle of the present utility model, and can not be interpreted as by any way the restriction to the utility model protection domain.Explanation based on herein, those skilled in the art does not need to pay performing creative labour can associate other specific embodiment of the present utility model, within these modes all will fall into protection domain of the present utility model.

Claims (7)

1. a tubulose storage water heater, comprise tank, heater, water inlet and delivery port, it is characterized in that, described tank is the tubular structure that end to end combined pipeline forms, and the volume of described combined pipeline is as the water storage volume of this water heater.

2. tubulose storage water heater according to claim 1, is characterized in that, described combined pipeline is that pipeline passes through serial connection and/or associated formation.

3. tubulose storage water heater according to claim 1, is characterized in that, described combined pipeline adopts the mode of one bend pipe or the mode connecting by elbow to combine.

4. tubulose storage water heater according to claim 1, is characterized in that, described heater is the electric heater that is built in the electric heater in combined pipeline and/or is installed on combined pipeline outside.

5. tubulose storage water heater according to claim 1, is characterized in that, in described combined pipeline, is serially connected with circulating pump, in order to drive water to flow in described combined pipeline inner loop.

6. tubulose storage water heater according to claim 1, is characterized in that, in described combined pipeline, is provided with temperature sensor, in order to detect water temperature.

7. according to any tubulose storage water heater described in claim 1～6, it is characterized in that, described water inlet is provided with water intaking valve, described delivery port is provided with outlet valve, between water inlet and delivery port, isolating valve, is installed.

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