CN208205393U - Storage is hot integrated electric hydrophone - Google Patents

Abstract

It is hot integrated electric hydrophone, including heat accumulation chamber and i.e. hot chamber the utility model proposes a kind of storage.Heat accumulation chamber is connected by the water inlet manifold of the first water inlet branch and electric heater, i.e., hot chamber is connect by the second water inlet branch with water inlet manifold；Water flow in water inlet manifold flows into heat accumulation chamber by the first water inlet branch, flows into i.e. hot chamber by the second water inlet branch；It is connected between heat accumulation chamber and i.e. hot chamber by the first outlet pipe, the water flow in heat accumulation chamber flow to i.e. hot chamber by the first outlet pipe；Heat accumulation is intracavitary to be equipped with primary heater, i.e., hot intracavitary equipped with secondary heater；I.e. it is hot it is intracavitary be connected with total outlet pipe, through secondary heater heat water flow electric heater is flowed out by total outlet pipe；Primary heater and secondary heater are connect with control system, and control system is used to control the heating parameters of primary heater and/or secondary heater.The storage of the utility model, that is, hot integrated electric hydrophone can either be heated quickly, and it is constant to be able to maintain temperature.

Description

Storage is hot integrated electric hydrophone

Technical field

It is hot integrated electric hydrophone the utility model relates to household appliance technical field more particularly to a kind of storage.

Background technique

Storage-type electric water heater refers to the fixed temperature for heating water, can for a long time or temporarily store hot water, and equipped with control Or the device of limitation water temperature.Currently, common storage-type electric water heater, although installation and easy to operate, the longer heating of needs Time.

Instant electric water heater is that one kind can heat component by electronics come quick flow heated water, and can pass through electricity Road controls water temperature, flow velocity, power etc., and water temperature is made to reach the water heater of the temperature of suitable human body bathing.But at present instant heating type Electric water heater water exit temperature is controlled by silicon-controlled, and leaving water temperature is unstable.

Thus, heat water heater can either quickly, and it is everybody asking of extremely paying close attention to that it is constant, which to be able to maintain temperature, Topic.

Utility model content

The utility model embodiment provides a kind of i.e. hot integrated electric hydrophone of storage, in the prior art to solve or alleviate One or more technical problems at least provide a kind of beneficial selection or create conditions.

In order to realize the above object, one aspect according to the present utility model, the utility model embodiment provides one Kind storage is hot integrated electric hydrophone, including heat accumulation chamber and i.e. hot chamber；

The heat accumulation chamber is connected by the water inlet manifold of the first water inlet branch and electric heater, i.e. the hot chamber passes through second Water inlet branch is connect with the water inlet manifold；Water flow in the water inlet manifold flows into the heat accumulation by the first water inlet branch Chamber flows into the i.e. hot chamber by the second water inlet branch；

It is connected between the heat accumulation chamber and the i.e. hot chamber by the first outlet pipe, the water flow in the heat accumulation chamber passes through institute It states the first outlet pipe and flow to the i.e. hot chamber；

The heat accumulation is intracavitary to be equipped with primary heater, and the primary heater is used to heat the water flow in the heat accumulation chamber；

That is the heat is intracavitary to be equipped with secondary heater, and the secondary heater is used to heat the water flow in the i.e. hot chamber；

It is described i.e. heat it is intracavitary be connected with total outlet pipe, the water flow heated through the secondary heater passes through the total outlet pipe Flow out electric heater；

The primary heater and the secondary heater are connect with control system, and the control system is for controlling institute State the heating parameters of primary heater and/or the secondary heater.

Preferably or optionally, it is described i.e. heat it is intracavitary be equipped with the first temperature sensor, first temperature sensor is used for The intracavitary water flow temperature of the sensing i.e. heat；

First temperature sensor is connect with the control system, and the control system is according to first temperature sensing The temperature signal that device is sensed controls the heating parameters of the primary heater and/or the secondary heater.

Preferably or optionally, at the water inlet manifold be equipped with water segregator, the water segregator be separately connected described first into Water branch and the second water inlet branch；

The water segregator is connect with the control system, and the control system is sensed according to first temperature sensor The temperature signal arrived adjusts the water flow in the first water inlet branch and the second water inlet branch by the water segregator.

Preferably or optionally, the first water inlet branch is equipped with first flow control valve, and the second water inlet branch is set There is second flow control valve；

The first flow control valve and the second flow control valve are connect with the control system, the control system The temperature signal that system is sensed according to first temperature sensor passes through the first flow control valve and adjusts described first Water flow in water inlet branch adjusts the water flow in the second water inlet branch by the second flow control valve.

Preferably or optionally, water flow sensing unit, the water flow sensing unit and the control are equipped at the water inlet manifold System connection；

The flow signals that the control system is sensed according to the water flow sensing unit start the primary heater And/or the secondary heater.

Preferably or optionally, second temperature sensor is equipped in the water inlet manifold, the second temperature sensor is used The temperature of the water flow in the water inlet manifold is entered in sensing；

The second temperature sensor is connect with the control system, when the second temperature sensor sensed it is total When the temperature of water flow in water inlet pipe is higher than threshold value, the control system closes the water inlet of the first water inlet branch, adjusts institute State the water flow of the second water inlet branch and the heating parameters of the secondary heater.

Preferably or optionally, i.e. it is intracavitary to be set to the heat accumulation for the intracavitary embedded of the heat.

Preferably or optionally, the cavity wall setting of the secondary heater fitting i.e. hot chamber.

Preferably or optionally, the total outlet pipe is located at the intracavitary one end of the i.e. heat towards the top of the i.e. hot chamber It is extended.

Preferably or optionally, the second water inlet branch and first outlet pipe are located at the intracavitary end of the i.e. heat It is located at the intracavitary end of the i.e. heat lower than the total outlet pipe.

Some technical solutions in above-mentioned technical proposal have the following advantages that or beneficial effect, the electric hot water of the utility model Device can either be heated quickly, and it is constant to be able to maintain temperature.

Above-mentioned general introduction is merely to illustrate that the purpose of book, it is not intended to be limited in any way.Except foregoing description Schematical aspect, except embodiment and feature, by referring to attached drawing and the following detailed description, the utility model is into one Aspect, embodiment and the feature of step, which will be, to be readily apparent that.

Detailed description of the invention

In the accompanying drawings, unless specified otherwise herein, otherwise indicate the same or similar through the identical appended drawing reference of multiple attached drawings Component or element.What these attached drawings were not necessarily to scale.It should be understood that these attached drawings are depicted only according to originally practical Novel disclosed some embodiments, and should not be taken as the limitation to the scope of the utility model.

Fig. 1 is that the storage of the utility model is the structural schematic diagram of hot integrated electric hydrophone in one embodiment；And

Fig. 2 is that the storage of the utility model is the structural schematic diagram of hot integrated electric hydrophone in another embodiment.

Specific embodiment

Hereinafter, certain exemplary embodiments are simply just described.As one skilled in the art will recognize that Like that, without departing from the spirit or scope of the present utility model, it can be modified by various different modes described real Apply example.Therefore, attached drawing and description are considered essentially illustrative rather than restrictive.

The utility model provides a kind of i.e. hot integrated electric hydrophone of storage.

Below with reference to Fig. 1 to Fig. 2, the storage, that is, hot integrated electric hydrophone of the utility model is illustrated.Wherein, in figure Arrow direction indicate electric heater in water flow flow direction.

Shown in Figure 1, in one embodiment, the electric heater of the utility model includes heat accumulation chamber 1 and i.e. hot chamber 2. Primary heater 13 is equipped in heat accumulation chamber 1, primary heater 13 can be used for heating the water flow in heat accumulation chamber 1.It is set in i.e. hot chamber 2 There is secondary heater 23, secondary heater 23 can be used for heating the water flow in i.e. hot chamber 2.

Wherein, heat accumulation chamber 1 is connect by the first water inlet branch 11 with the water inlet manifold 3 of electric heater, and i.e. hot chamber 2 passes through Second water inlet branch 21 is connect with water inlet manifold 3.In this way, the water flow in water inlet manifold 3 can be flowed by the first water inlet branch 11 Enter to heat accumulation chamber 1, and i.e. hot chamber 2 can be flowed by the second water inlet branch 21.

Also, it is connected between heat accumulation chamber 1 and i.e. hot chamber 2 by the first outlet pipe 12, in this way, the water flow in heat accumulation chamber 1 is logical It crosses the first outlet pipe 12 and flow to i.e. hot chamber 2.

Meanwhile it being connected with total outlet pipe 22 in that is, hot chamber 2, in this way, the water flow heated through secondary heater 23 can pass through Total outlet pipe 22 flows out electric heater.

In one embodiment, as shown in Figure 1 or 2, if the water flow of setting water inlet manifold 3 is S1, the first water inlet The water flow of branch 11 is S2, and the water flow of the second water inlet branch 21 is S3, and the water flow of the first outlet pipe 12 is S4, total to be discharged The water flow of pipe 22 is S5；So, the relationship between S1, S2, S3, S4 and S5 can indicate are as follows: S1=S2+S3, S4=S2, S5 =S3+S4, S1=S5.

Further, primary heater 13 and secondary heater 23 are connect with control system (not shown), control System can control the heating parameters of primary heater 13 and secondary heater 23.Wherein, heating parameters include but is not limited to add Hot temperature and heating time.

In one embodiment, the water flow in the water inlet manifold 3 of electric heater passes through the first water inlet branch 11 and respectively Two water inlet branches 21 enter in heat accumulation chamber 1 and i.e. hot chamber 2.Water flow in heat accumulation chamber 1 first passes through primary heater 13 and is added Heat, then, the water flow after heating can be flowed into i.e. hot chamber 2 by the first outlet pipe 12.Hot water in first outlet pipe 12 It is mixed in the cold water in the second water inlet branch 21 shortly hot chamber 2, then reheating is carried out by secondary heater 23, And it is exported to outside electric heater by total outlet pipe 22.It is mixed in hot chamber 2 in sight in this way, hot and cold water passes through, and carries out reheating, The thermal transition efficiency for realizing i.e. hot chamber can be maximized, and then realizes maximized hot water amount's output.

It is shown in Figure 1, in one embodiment, i.e., the first temperature sensor 24, the first temperature sensing are equipped in hot chamber 2 Device 24 can be used for sensing the water flow temperature in i.e. hot chamber 2.

Wherein, the first temperature sensor 24 is connect with control system, and control system can be according to the first temperature sensor 24 The temperature signal sensed controls the heating parameters of primary heater 13 and secondary heater 23.

In this way, when a certain temperature is set, if the temperature that the first temperature sensor 24 is sensed is below or above The temperature, the temperature that control system can be fed back according to the first temperature sensor 24 adjust primary heater 13 and second and add The heating temperature of hot device 23 and heating time, so that the water temperature in i.e. hot chamber 2 is maintained at the temperature being set, that is, by adjusting, The temperature for sensing the first temperature sensor 24 is identical as the temperature being set, so that keeping is the water temperature perseverance in hot chamber 2 It is fixed.

It is shown in Figure 1, in one embodiment, water segregator 31 is equipped at water inlet manifold 3, water segregator 31 is separately connected the One water inlet branch 11 and the second water inlet branch 21, in this way, water segregator 31 is adjustable to be diverted to the first water inlet branch 11 and second Water flow in water inlet branch 21.

Wherein, water segregator 31 is connect with control system, and control system can be sensed according to the first temperature sensor 24 Temperature signal, come control water segregator 31 adjust first water inlet branch 11 and second water inlet branch 21 in water flow.

In this way, when a certain temperature is set, if the temperature that the first temperature sensor 24 is sensed is below or above The temperature, the temperature that control system can be fed back according to the first temperature sensor 24 adjust the first water inlet by water segregator 31 Water flow in branch 11 and the second water inlet branch 21, that is, adjust the water in the first water inlet branch 11 and the second water inlet branch 21 The ratio of flow.To so that the water temperature in i.e. hot chamber 2 is maintained at the temperature being set, that is, by adjusting, make the first temperature The temperature that sensor 24 is sensed is identical as the temperature being set, and the water temperature maintained in i.e. hot chamber 2 is constant.

Certainly, control system, can be with when the water flow in branch 11 and the second water inlet branch 21 is intake in adjusting first Cooperation adjusts the heating parameters of primary heater 13 and secondary heater 23, thus, by way of comprehensive adjustment, realizes and keep Water temperature in i.e. hot chamber 2 is constant.

It is shown in Figure 2, in another embodiment, first water inlet branch 11 be equipped with first flow control valve 111, second Branch 21 of intaking is equipped with second flow control valve 121.

Wherein, first flow control valve 111 and second flow control valve 121 are connect with control system.Control system can With the temperature signal sensed according to the first temperature sensor 24, the first water inlet branch is adjusted by first flow control valve 111 Water flow in road 11 adjusts the water flow in the second water inlet branch 21 by second flow control valve 121.

In this way, when a certain temperature is set, if the temperature that the first temperature sensor 24 is sensed is below or above The temperature, the temperature that control system can be fed back according to the first temperature sensor 24 are adjusted by first flow control valve 111 Water flow in first water inlet branch 11 adjusts the water flow in the second water inlet branch 21 by second flow control valve 121, That is, making the ratio of the first water inlet branch 11 and the water flow in the second water inlet branch 21 by adjusting.To so that i.e. hot chamber 2 Interior water temperature is maintained at the temperature being set, that is, adjusts the temperature that is sensed to the first temperature sensor 24 and is set Temperature is identical, and the water temperature maintained in i.e. hot chamber 2 is constant.

Certainly, control system, can be with when the water flow in branch 11 and the second water inlet branch 21 is intake in adjusting first Cooperation adjusts the heating parameters of primary heater 13 and secondary heater 23, thus, by way of comprehensive adjustment, realizes and keep Water temperature in i.e. hot chamber 2 is constant.

Referring to figure 1 and figure 2, in one embodiment, water flow sensing unit 32, water flow sensing are equipped at water inlet manifold 3 Device 32 is connect with control system.

Wherein, the flow signals that control system is sensed according to water flow sensing unit 32 start secondary heater 23.

In this way, secondary heater 23 can be directly initiated when water flow sensing unit 32 senses the flow signals of water flow, Water flow is heated in i.e. hot chamber 2, with for users to use.

Furthermore it is also possible to start primary heater 13 simultaneously, water flow is heated in heat accumulation chamber 1；Water flow after heating It flow in i.e. hot chamber 2, then carries out reheating in hot chamber 2 in sight；Finally, being that hot chamber 2 exports to outside water heater.Certainly, It can star primary heater 13, water flow heated in heat accumulation chamber 1, then be that hot chamber 2 exports to outside water heater.

It is shown in Figure 2, in one embodiment, second temperature sensor 33 is equipped in water inlet manifold 3, second temperature passes Sensor 33 can sense the temperature of the water flow entered in water inlet manifold 3.

Wherein, second temperature sensor 33 is connect with control system.When second temperature sensor 33 sensed always into When the temperature of water flow in water pipe 3 is higher than threshold value, control system closes the water inlet of the first water inlet branch 11, adjusts the second water inlet branch The water flow on road 21 and the heating parameters of secondary heater 23.Wherein, threshold value can be previously set.

In summer, when tap water inflow temperature is higher, that is, the water flow temperature in water inlet manifold 3 is higher, and is higher than Or when being equal to a certain given threshold, control system can close the water inlet of the first water inlet branch 11, make water flow in heat accumulation chamber 1 not It is heated.To which the water flow in water inlet manifold 3 can be entered directly in i.e. hot chamber 2 by the second water inlet branch 21, by second Heater 23 flows out after heating.In this way, water flow can be made to reach comfortable bathing temperature faster, function is washed to realize and open Can, reduce user's waiting and bother, promotes shower comfort level.

Certainly, when second temperature sensor 33 is set in water inlet manifold 3, the first water inlet branch 11 can not also be closed Water inlet, control system can be heated by the water flow and/or first for adjusting the first water inlet branch 11 and the second water inlet branch 21 The heating parameters of device 13 and secondary heater 23, to realize heating.

Referring to figure 1 and figure 2, in one embodiment, i.e., hot chamber 2 is embedded is set in heat accumulation chamber 1.Thus can Maximumlly to save space occupied by electric heater.

Shown in Figure 2, in one embodiment, secondary heater 23 can be bonded the cavity wall setting of i.e. hot chamber 2.This Sample, secondary heater 23 can be heated to the mixed uniform fluid flow in i.e. hot chamber 2 and quickly.Certainly, i.e., in hot chamber 2 Secondary heater may be heating plate form shown in Fig. 1.

Referring to figure 1 and figure 2, in one embodiment, total outlet pipe 22 is located at one end in i.e. hot chamber 2 towards i.e. heat The top of chamber 2 is extended.In this way, total outlet pipe 22 can be made to fetch water from close to the position at i.e. hot 2 top of chamber, so that guarantee is Hot and cold water in hot chamber 2 is being sufficiently mixed, and reheating and then is exported by total outlet pipe 22.

Referring to figure 1 and figure 2, in one embodiment, the second water inlet branch 21 and the first outlet pipe 12 are located at i.e. heat End in chamber 2 is located at the end in i.e. hot chamber 2 lower than total outlet pipe 22.In this way, can make by the second water inlet branch 21 and the The water flow that one outlet pipe 12 enters in i.e. hot chamber 2 is sufficiently mixed, and the temperature exchange of hot and cold water can be effectively performed.It avoids Hot and cold water i.e. in hot chamber 2 is not sufficiently mixed, just from the phenomenon that the discharge of total outlet pipe 22.

In the description of this specification, referring to term " one embodiment ", " some embodiments ", " example ", " specifically show The description of example " or " some examples " etc. means specific features, structure, material or spy described in conjunction with this embodiment or example Point is contained at least one embodiment or example of the utility model.Moreover, description specific features, structure, material or Feature may be combined in any suitable manner in any one or more of the embodiments or examples.In addition, in not conflicting situation Under, those skilled in the art can be by different embodiments or examples described in this specification and different embodiments or examples Feature be combined.

In addition, term " first ", " second " are used for descriptive purposes only and cannot be understood as indicating or suggesting relative importance Or implicitly indicate the quantity of indicated technical characteristic." first " is defined as a result, the feature of " second " can be expressed or hidden It include at least one this feature containing ground.The meaning of " plurality " is two or more in the description of the present invention, unless Separately there is clearly specific restriction.

Above description is only a specific implementation of the present invention, but the protection scope of the utility model is not limited to In this, anyone skilled in the art within the technical scope disclosed by the utility model, it is each can to readily occur in it Kind change or replacement, these should be covered within the scope of the utility model.Therefore, the protection scope of the utility model It should be based on the protection scope of the described claims.

Claims (10)

1. a kind of storage is hot integrated electric hydrophone, which is characterized in that including heat accumulation chamber and i.e. hot chamber；

The heat accumulation chamber is connected by the water inlet manifold of the first water inlet branch and electric heater, i.e. the hot chamber passes through the second water inlet Branch is connect with the water inlet manifold；Water flow in the water inlet manifold flows into the heat accumulation chamber by the first water inlet branch, The i.e. hot chamber is flowed by the second water inlet branch；

The heat accumulation chamber and it is described connected by the first outlet pipe between hot chamber, the water flow in the heat accumulation chamber passes through described the One outlet pipe flow to the i.e. hot chamber；

The heat accumulation is intracavitary to be equipped with primary heater, and the primary heater is used to heat the water flow in the heat accumulation chamber；

That is the heat is intracavitary to be equipped with secondary heater, and the secondary heater is used to heat the water flow in the i.e. hot chamber；

It is described i.e. heat it is intracavitary be connected with total outlet pipe, the water flow heated through the secondary heater is flowed out by the total outlet pipe Electric heater；

The primary heater and the secondary heater are connect with control system, and the control system is for controlling described the The heating parameters of one heater and the secondary heater.

2. storage according to claim 1 is hot integrated electric hydrophone, which is characterized in that i.e. the heat intracavitary is equipped with first Temperature sensor, first temperature sensor are used to sense the intracavitary water flow temperature of the i.e. heat；

First temperature sensor is connect with the control system, and the control system is according to the first temperature sensor institute The temperature signal sensed controls the heating parameters of the primary heater and the secondary heater.

3. storage according to claim 2 is hot integrated electric hydrophone, which is characterized in that be equipped with and divide at the water inlet manifold Hydrophone, the water segregator are separately connected the first water inlet branch and the second water inlet branch；

The water segregator is connect with the control system, and the control system is sensed according to first temperature sensor Temperature signal adjusts the water flow in the first water inlet branch and the second water inlet branch by the water segregator.

4. storage according to claim 2 is hot integrated electric hydrophone, which is characterized in that the first water inlet branch is equipped with First flow control valve, the second water inlet branch are equipped with second flow control valve；

The first flow control valve and the second flow control valve are connect with the control system, the control system root According to the temperature signal that first temperature sensor is sensed, first water inlet is adjusted by the first flow control valve Water flow in branch adjusts the water flow in the second water inlet branch by the second flow control valve.

5. storage according to claim 3 or 4 is hot integrated electric hydrophone, which is characterized in that set at the water inlet manifold There is water flow sensing unit, the water flow sensing unit is connect with the control system；

The flow signals that the control system is sensed according to the water flow sensing unit start the secondary heater.

6. storage according to claim 3 or 4 is hot integrated electric hydrophone, which is characterized in that set in the water inlet manifold There is second temperature sensor, the second temperature sensor is used to sense the temperature of the water flow entered in the water inlet manifold；

The second temperature sensor is connect with the control system, when total water inlet that the second temperature sensor is sensed When the temperature of water flow in pipe is higher than threshold value, the control system closes the water inlet of the first water inlet branch, adjusts described the The water flow of two water inlet branches and the heating parameters of the secondary heater.

7. storage according to claim 6 is hot integrated electric hydrophone, which is characterized in that i.e. the intracavitary embedded setting of heat It is intracavitary in the heat accumulation.

8. storage according to claim 7 is hot integrated electric hydrophone, which is characterized in that the secondary heater is bonded institute State the cavity wall setting of i.e. hot chamber.

9. storage according to claim 8 is hot integrated electric hydrophone, which is characterized in that the total outlet pipe is located at described The top of i.e. hot intracavitary one end towards the i.e. hot chamber is extended.

10. it is according to claim 9 storage be hot integrated electric hydrophone, which is characterized in that it is described second water inlet branch and First outlet pipe is located at the intracavitary end of the i.e. heat and is located at the intracavitary end of the i.e. heat lower than the total outlet pipe.