CN207180076U - A kind of heat-exchanging component of solar heat-exchange heat storage water tank - Google Patents

Abstract

The utility model discloses a kind of heat-exchanging component of solar heat-exchange heat storage water tank, including controller, electric T-shaped valve, water-returning control valve, first temperature sensor, second temperature sensor, first branch pipe, second branch pipe and the 3rd branch pipe, controller electrically connects with electric T-shaped valve and temperature sensor, one end of first branch pipe and the first interface of electric T-shaped valve connect, the second interface connection that one end of second branch pipe is connected with electric T-shaped valve, connected between 3rd branch pipe and the 3rd interface of electric T-shaped valve with water-returning control valve, second temperature sensor monitors the temperature of solar heat-exchange heat storage water tank.All challenge factories manufacture of heat-exchanging component of the present utility model, ensures that quality is easy to use；Sensor does not contact with heat transferring medium, substantially prolongs service life；Electric T-shaped valve does not have to be electrified for a long time, and fault rate is low.

Description

A kind of heat-exchanging component of solar heat-exchange heat storage water tank

Technical field

Solar water heater field is the utility model is related to, more particularly to a kind of heat exchange of solar heat-exchange heat storage water tank Component.

Background technology

That concentrates point family system each household at this stage is cycling in and out waterpipe, is all Assembling, when installation bus, In the reserved place's inlet and outlet piping in each family, installation process is more complicated, many components be all Assembling together, be not integrated , steady operation ability is poor, it is necessary to often change after the installation of each component, and one change it is very time-consuming laborious.Other temperature passes Sensor need to be placed on the standpipe of piping shaft, rather than is contacted with heat transferring medium, and the temperature of such temperature sensor measurement is exactly to manage The temperature in road, causes thermometric to be forbidden；The electric wire of temperature sensor is very long, it is necessary to be guided to from open air indoor, it is also necessary to is building in advance Build reserved penetration pipe when construction；Magnetic valve is electrified for a long time, it is easy to is broken down, is divided family system lifetim shadow to entirety Sound is very big, if it is possible to invents a kind of heat-exchanging component of integrated module, improves the stability of whole system, safety and cost are just Greatly promote.

Utility model content

In view of this, the utility model provides a kind of heat-exchanging component of solar heat-exchange heat storage water tank.

The technological means that the utility model uses is as follows：

A kind of heat-exchanging component of solar heat-exchange heat storage water tank, including controller, electric T-shaped valve, the first TEMP Device, second temperature sensor, the first branch pipe, the second branch pipe and the 3rd branch pipe, the controller and the electric T-shaped valve, first Temperature sensor and second temperature sensor electrically connect, one end of first branch pipe and the first interface of the electric T-shaped valve Connection, one end of second branch pipe is connected with the second interface of the electric T-shaped valve, the 3rd branch pipe with it is described electronic Connected between 3rd interface of triple valve with water-returning control valve, the second temperature sensor is used to access solar heat-exchange heat accumulation In tank box；

The heat-exchanging component also includes blind pipe, and the blind pipe is arranged in first branch pipe, and the sensor is arranged on In the blind pipe.

Preferably, the both ends of first branch pipe, the second branch pipe and the 3rd branch pipe are female threaded union.

Preferably, the temperature of first temperature sensor monitors is T₁, the temperature of the second temperature sensor monitoring For T₂, the controller compares T₁With T₂Difference, the controller is according to T₁With T₂Difference control the electric T-shaped valve Switch.

Preferably, T is worked as₁With T₂Difference >=7 DEG C when, the controller connects the electric T-shaped valve and described first Pipe, the passage of the second branch pipe.

Preferably, T is worked as₁With T₂Difference≤3 DEG C when, the controller connects the electric T-shaped valve and described first Pipe, the passage of the 3rd branch pipe.

Preferably, closed when the return water temperature of the water-returning control valve is 60 DEG C, the return water temperature of the water-returning control valve For 55 DEG C when open.

Using a kind of heat-exchanging component of solar heat-exchange heat storage water tank provided by the utility model, for integrated heat exchange group Part, it is to fit together basic components module, only needs during installation the heat-exchanging component by entirety to be installed to a point family System, other all challenge factory manufactures, ensures quality, easy to use；Sensor is placed in blind pipe, utilizes blind pipe Permeability performance, temperature sensor is not direct to be contacted with heat transferring medium, and measured temperature is relatively stable and accurate, and substantially prolongs Service life；Electric T-shaped valve is employed, without being electrified for a long time, fault rate is low；Bypass has selected mechanical water-returning control valve, temperature Close when spending high, opened when temperature is low, principle uses the pure change in physical properties of material, more firm, fault-free point；Outward appearance is floated It is bright, it is easy for installation, really solve all pain spots of former heat-exchange system.

Brief description of the drawings

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

In figure：Controller 1；Electric T-shaped valve 2；Water-returning control valve 3；First temperature sensor 4；Second temperature sensor 5； First branch pipe 6；Second branch pipe 7；3rd branch pipe 8；Blind pipe 9；Female threaded union 10

Embodiment

Principle of the present utility model and feature are described below in conjunction with accompanying drawing, example is served only for explaining this practicality It is new, it is not intended to limit the scope of the utility model.

A kind of heat-exchanging component of solar heat-exchange heat storage water tank as shown in Figure 1, wherein heat-exchanging component include controller 1, Electric T-shaped valve 2, water-returning control valve 3, the first temperature sensor 4, second temperature sensor 5, the first branch pipe 6, the and of the second branch pipe 7 3rd branch pipe 8, controller 1 electrically connect with electric T-shaped valve 2, the first temperature sensor 4 and second temperature sensor 5 respectively, the One end of one branch pipe 6 is connected with the first interface of electric T-shaped valve 2, and one end of the second branch pipe 7 connects with the second of electric T-shaped valve 2 Mouth connection, is connected, second temperature sensor 5 between the 3rd branch pipe 8 and the 3rd interface of electric T-shaped valve 2 with water-returning control valve 3 For accessing in solar heat-exchange heat storage water tank casing, second temperature sensor 5 monitors the temperature of solar heat-exchange heat storage water tank.

Wherein heat-exchanging component also includes blind pipe 9, and blind pipe 9 is arranged in the first branch pipe 6, and the first temperature sensor 4 is arranged on In blind pipe 9.

Preferably, the both ends of the first branch pipe 6, the second branch pipe 7 and the 3rd branch pipe 8 are equipped with female threaded union 10, because this The heat-exchanging component of application is unitary set, each bar branch pipe need by the way of female threaded union 10 with water tank or main system Supervisor is attached, and this connection avoids modularization heat exchange that is cumbersome under conventional coupling arrangement, while also causing the application Device access divides family system more convenient.

Preferably, the temperature of the first temperature sensor 4 monitoring is T1, and the temperature that second temperature sensor 5 monitors is T₂, control Device processed compares T₁With T₂Difference, controller 1 according to difference control electric T-shaped valve 2 switch.

Particularly, T is worked as₁With T₂Difference >=7 DEG C when, that is, heat transferring medium enter heat-exchanging component temperature with heat exchange store up When the difference of the temperature of storage water is >=7 DEG C in boiler, in other words, the temperature of the water of storage is too low in heat exchange heat storage water tank, Now controller 1 connects electric T-shaped valve 2 and first branch pipe 6, the passage of the second branch pipe 7, turn on pipeline 1. with pipeline 2. principal series The heat transferring medium of system is entered in heat exchange heat storage water tank by heat-exchanging component carries out recuperated cycle, is then returned to again by heat-exchanging component Return riser.

T₁With T₂Difference≤3 DEG C when, that is, heat transferring medium enter heat-exchanging component temperature with heat exchange heat storage water tank in store up When the temperature difference for the water deposited is≤3 DEG C, in other words, in heat exchange heat storage water tank the temperature of the water of storage is very high has reached 1. and 3. require, controller 1 connects the branch pipe 6 of electric T-shaped valve 2 and first, the passage of the 3rd branch pipe 8, turns on pipeline, now Heat transferring medium is not entered back into heat exchange heat storage water tank, but is returned directly to return riser.

Particularly, the application is connected between the 3rd branch pipe 8 and the 3rd interface of electric T-shaped valve 2 with water-returning control valve 3, It that is to say that the heat transferring medium come in from main system can flow through the 3rd without heat exchange heat storage water tank by water-returning control valve 3 Pipe 8 returns to return riser.Closed when wherein the return water temperature of water-returning control valve is 60 DEG C, the return water temperature of water-returning control valve is 55 DEG C when open.Because the heat exchange heat storage water tank at this family is after continuous circulation, indoor water tank temperature more and more higher；This family water tank temperature When satisfaction requires, other family water tanks may use heat big, also not up to demand temperature, but now, 1. 3. pipeline turns on pipeline after, Resistance is small, directly just returns to water tank by this family pipeline, current short circuit occurs, and all and setting water-returning control valve 3, this valve reach It is automatic to close during design temperature, it is not turned on, reduces the influence to the heat exchange of other families, allow other families to continue to exchange heat.

In summary, using a kind of heat-exchanging component of solar heat-exchange heat storage water tank provided by the utility model, for collection Into heat-exchanging component, it is to fit together basic components module, is only needed the heat-exchanging component of entirety during installation A point family system is installed to, other all challenge factory manufactures, ensures quality, it is easy to use；Sensor is placed on blind pipe 9 Interior, using the permeability performance of blind pipe 9, the first temperature sensor 4 is not direct to be contacted with heat transferring medium, measured temperature it is relatively stable and Accurately, and it substantially prolongs service life；Electric T-shaped valve 2 is employed, without being electrified for a long time, fault rate is low；Bypass is selected Mechanical water-returning control valve 3, closes when temperature is high, is opened when temperature is low, and principle uses the pure change in physical properties of material, more It is firm to add, fault-free point；Outward appearance is beautiful, easy for installation, really solves all pain spots of former heat-exchange system.

Preferred embodiment of the present utility model is the foregoing is only, it is all at this not to limit the utility model Within the spirit and principle of utility model, any modification, equivalent substitution and improvements done etc., the utility model should be included in Within the scope of protection.

Claims (6)

1. a kind of heat-exchanging component of solar heat-exchange heat storage water tank, it is characterised in that including controller, electric T-shaped valve, first Temperature sensor, second temperature sensor, the first branch pipe, the second branch pipe and the 3rd branch pipe, the controller and described electronic three Port valve, the first temperature sensor and second temperature sensor electrically connect, one end and the electric T-shaped valve of first branch pipe First interface connection, one end of second branch pipe is connected with the second interface of the electric T-shaped valve, the 3rd branch pipe Connected between the 3rd interface of the electric T-shaped valve with water-returning control valve, the second temperature sensor is used to access the sun It can exchange heat in heat storage water tank casing；

The heat-exchanging component also includes blind pipe, and the blind pipe is arranged in first branch pipe, and the sensor is arranged on described In blind pipe.

2. the heat-exchanging component of a kind of solar heat-exchange heat storage water tank according to claim 1, it is characterised in that described first The both ends of branch pipe, the second branch pipe and the 3rd branch pipe are female threaded union.

3. the heat-exchanging component of a kind of solar heat-exchange heat storage water tank according to claim 1, it is characterised in that described first The temperature of temperature sensor monitors is T1, and the temperature of second temperature sensor monitoring be T2, the controller compare T1 and T2 difference, the controller control the switch of the electric T-shaped valve according to T1 and T2 difference.

4. the heat-exchanging component of a kind of solar heat-exchange heat storage water tank according to claim 3, it is characterised in that as T1 and T2 Difference >=7 DEG C when, the controller connects the electric T-shaped valve and first branch pipe, the passage of the second branch pipe.

5. the heat-exchanging component of a kind of solar heat-exchange heat storage water tank according to claim 3, it is characterised in that as T1 and T2 Difference≤3 DEG C when, the controller connects the electric T-shaped valve and first branch pipe, the passage of the 3rd branch pipe.

A kind of 6. heat-exchanging component of solar heat-exchange heat storage water tank according to claim 1, it is characterised in that the backwater The return water temperature of control valve is closed when being 60 DEG C, and the return water temperature of the water-returning control valve is opened when being 55 DEG C.