CN202581524U - Full-automatic low-energy-consumption electric heating system - Google Patents

Abstract

A full-automatic low-energy-consumption electric heating system belongs to the field of electric heating equipment. The heating system comprises a power source device connected with an intelligent controller, and is characterized by further comprising a signal acquisition unit composed of a thermal induction element and a control button, wherein the output end of the acquisition unit is connected with the input end of the intelligent controller; the output end of the intelligent controller is respectively connected with a heating control device; a panel display is arranged at the output end of the intelligent controller; the heating control device comprises three groups of independent carbon fiber heating wires; the thermal induction element of the signal acquisition unit is adopted to complete information acquisition of indoor temperature; the intelligent controller is used for processing the information; and the heating control device controls the operation of different carbon fiber heating wires. The heating system can ensure 16-18 DEG C heating requirement of a room of 10-15 m<2> in a non-stop manner, and the power consumption is extremely low. The heating system can be used all day long, achieves hierarchical control, has the advantages of automation and stability in operation, safety, reliability and long service life, and is suitable for production of various radiators.

Description

Full-automatic low energy consumption electric heating system

Technical field

The utility model provides a kind of full-automatic low energy consumption electric heating system, belongs to the electric heating apparatus field.

Background technology

The electric heating device has become one of heating main product of current society; Known Electric heater heater mainly contains metal electric heated filament, heat conduction pool, ceramic heating element, quartz heating tube etc., these heaters exist usually that power consumption is big, the thermal efficiency is low, heat dissipation capacity is inhomogeneous, dry, shortcomings such as noise, service life be short are arranged.

The manual temperature control adjusting of the many employings of present electric heating device etc.; Power higher (generally at 1000w-3000w); Surface temperature 80-100 ℃, per hour minimum 1 degree of power consumption causes most of users to adopt the instant occupation mode of opening; Not only heating effect is not good, and because the too high hidden danger such as occur easily hurting sb.'s feelings of temperature.Existing in addition Electric heater since the defective of material and structure cause the shortcoming that heat dissipation capacity is little, the thermal efficiency is low, and lack effective intelligence control system mostly, inconvenience but also caused the further waste of the energy not only.

These defectives have had a strong impact on the heating effect of electric heating equipment, have brought very big obstacle for the raising of people's quality of life and the improvement of environmental quality.

The utility model content

According to the deficiency of above prior art, the technical problem that the utility model will solve is: provide a kind of power consumption low, can guarantee the full-automatic low energy consumption electric heating system of whole day use, grading control, automatic stabilisation operation.

The utility model solves the technical scheme that its technical problem adopted: a kind of full-automatic low energy consumption electric heating system; Comprise supply unit connection of intelligent controller; It is characterized in that: the signal gathering unit that is made up of thermal induction element and control button is set; The input of the output connection of intelligent controller of collecting unit; The output of intelligent controller connects the heating work control device respectively, and the output of intelligent controller also is provided with panel display, and described heating work control device comprises three groups of independently carbon fiber heater wires.

The heating work control device adopts the convection type radiator structure.Accomplish the information gathering of indoor temperature through the thermal induction element of signal gathering unit; Obtain the information gathering of duty through the control button of control panel; Intelligent controller through two kinds of information are compared, analyze, calculating etc., obtain control signal corresponding; The heating work control device is accomplished corresponding action control (duty, adjustment etc.) automatically according to control signal, carries out corresponding signal output, controls the work of different carbon fiber heater wires, and implements to show results such as running time, temperature.

Wherein preferred version is:

Described signal gathering unit comprises thermal induction element, signal detector, signal amplifier and control button; Thermal induction element connects the input of signal detector; The output of signal detector connects signal amplifier, and the output of signal amplifier and control button be the connection of intelligent controller together.

The input signalization comparator of described intelligent controller and function calculator, the output of signal amplifier and control button are connected the input of signal comparator respectively, and the output of signal comparator is through function calculator connection of intelligent controller.Intelligent controller adopts the singlechip chip design; Realize the surveying of whole system, controlled, able to programme, can encrypt; Control that can the classification of multichannel carbon fiber heater wire: temperature T in heating temperature upper limit U, lower limit L, the detecting chamber is set; Controller measuring and calculating L-T>2 (2 ℃ difference is write-in programs in advance, can revise as required): A+B+C organizes work; 0 < L-T < 2:A+B group work; U ≧ T ≦ L:A organizes work; T ≧ U:A group quits work.

Described heating work control device comprises three groups of independently carbon fiber heater wires; The carbon fiber heater wire is respectively A group: 140w, B group: 180w, C group: 180w according to power; A group carbon fiber heater wire is the square wave layout; B group carbon fiber heater wire and the rectangular ripple layout of C group carbon fiber heater wire, B group carbon fiber heater wire and C group carbon fiber heater wire are arranged in the last trough and the lower wave trough of A group carbon fiber heater wire.Through the work test of nearly half a year, only A group heating, 0.66m ²The surface Working Temperature of convection type heat radiation warmer is 35-40 ℃, and every day, power consumption was merely 3.36 degree.B group or the heating of C group, the surface Working Temperature of heat radiation warmer is 70-80 ℃, every day, power consumption was 4.3 degree.

Described A group carbon fiber heater wire is the square wave layout, and last crest is provided with the rectangle turning with following crest.Equate at interval between adjacent two of described three groups of carbon fiber heater wires.This layout of carbon fiber heater wire is provided with, and can guarantee that temperature is even, low energy consumption simultaneously.

The beneficial effect that the full-automatic low energy consumption electric heating of the utility model system is had is: through the signal gathering unit that is made up of thermal induction element and control button is set; The output of intelligent controller connects the heating work control device respectively; The output of intelligent controller also is provided with panel display, and the heating work control device comprises Homogeneouslly-radiating is set three groups independently carbon fiber heater wires, accomplishes the information gathering of indoor temperature through the thermal induction element of signal gathering unit; After advancing the intelligent controller processing; Carry out corresponding signal output, control the work of different carbon fiber heater wires, can satisfy fully in the room of 10-15m2; Do not guarantee the heating demand of 16-18 ℃ of room temperature, power consumption is extremely low with shutting down.

The utility model design science is reasonable, satisfies whole day use, grading control, operation, and stable working state automatically, and safe and reliable, long service life is applicable to the production of polymorphic type radiator.

Description of drawings

Fig. 1 is the functional-block diagram of the utility model;

Fig. 2 is the carbon fiber heater wire layout of the utility model;

Wherein: 1, A group carbon fiber heater wire 2, B group carbon fiber heater wire 3, C group carbon fiber heater wire.

The specific embodiment

Below in conjunction with accompanying drawing the embodiment of the utility model is done and to further describe:

Embodiment 1:

As shown in Figure 1; Supply unit connection of intelligent controller; The signal gathering unit that setting is made up of thermal induction element and control button, the input of the output connection of intelligent controller of collecting unit, the output of intelligent controller connects the heating work control device respectively; The output of intelligent controller also is provided with panel display, and described heating work control device comprises three groups of independently carbon fiber heater wires.

Signal gathering unit comprises thermal induction element, signal detector, signal amplifier and control button; Thermal induction element connects the input of signal detector; The output of signal detector connects signal amplifier, and the output of signal amplifier and control button be the connection of intelligent controller together.

The input signalization comparator of intelligent controller and function calculator, the output of signal amplifier and control button are connected the input of signal comparator respectively, and the output of signal comparator is through function calculator connection of intelligent controller.Intelligent controller adopts the singlechip chip design; Realize the surveying of whole system, controlled, able to programme, can encrypt; Control that can the classification of multichannel carbon fiber heater wire: temperature T in heating temperature upper limit U, lower limit L, the detecting chamber is set; Controller measuring and calculating L-T>2 (2 ℃ difference is write-in programs in advance, can revise as required): A+B+C organizes work; 0 < L-T < 2:A+B group work; U ≧ T ≦ L:A organizes work; T ≧ U:A group quits work.

The heating work control device adopts the convection type radiator structure.Accomplish the information gathering of indoor temperature through the thermal induction element of signal gathering unit; Obtain the information gathering of duty through the control button of control panel; Intelligent controller through two kinds of information are compared, analyze, calculating etc., obtain control signal corresponding; The heating work control device is accomplished corresponding action control (duty, adjustment etc.) automatically according to control signal, carries out corresponding signal output, controls the work of different carbon fiber heater wires, and implements to show results such as running time, temperature.

Embodiment 2:

As shown in Figure 2; On the basis of embodiment 1; The heating work control device comprises three groups of independently carbon fiber heater wires, and the carbon fiber heater wire is respectively A group: 140w, B group: 180w, C group: 180w according to power, and A group carbon fiber heater wire 1 is the square wave layout; B group carbon fiber heater wire 2 is arranged in the last trough and the lower wave trough of A group carbon fiber heater wire 1 with C group carbon fiber heater wire 3 rectangular ripple layouts, B group carbon fiber heater wire 2 and C group carbon fiber heater wire 3.

Embodiment 3:

A group carbon fiber heater wire 1 is the square wave layout, and last crest is provided with the rectangle turning with following crest.Equate at interval between adjacent two of three groups of carbon fiber heater wires.

Intelligent controller in the utility model, convection type heat radiation housing construction are common prior art, its setting and be used for industry technical staff and grasp.

Work and use:

1, starting switch;

2, set higher limit U (as 18 ℃), the lower limit L (as 16 ℃) of required room temperature;

3, temperature T (as 10 ℃) in the thermal induction element detecting chamber

4, L-T>2:A+B+C organizes work; T ≧ 14:A+B organizes work; T ≧ 16:A organizes work; T ≧ 18:A group quits work;

5, T ≦ 18:A organizes work; T ≦ 16:A+B organizes work; T ≦ 14; A+B+C organizes work;

……

N, close switch, end-of-job.

Experiment effect:

Through the work test of nearly half a year, only A group heating, 0.66m ²The surface Working Temperature of convection type heat radiation warmer is 35-40 ℃, and every day, power consumption was merely 3.36 degree.B group or the heating of C group, the surface Working Temperature of heat radiation warmer is 70-80 ℃, every day, power consumption was 4.3 degree.

Claims (6)

1. full-automatic low energy consumption electric heating system; Comprise supply unit connection of intelligent controller; It is characterized in that: the signal gathering unit that is made up of thermal induction element and control button is set, the input of the output connection of intelligent controller of collecting unit, the output of intelligent controller connects the heating work control device respectively; The output of intelligent controller also is provided with panel display, and described heating work control device comprises three groups of independently carbon fiber heater wires.

2. full-automatic low energy consumption electric heating according to claim 1 system; It is characterized in that: described signal gathering unit comprises thermal induction element, signal detector, signal amplifier and control button; Thermal induction element connects the input of signal detector; The output of signal detector connects signal amplifier, and the output of signal amplifier and control button be the connection of intelligent controller together.

3. full-automatic low energy consumption electric heating according to claim 1 and 2 system; It is characterized in that: the input signalization comparator of described intelligent controller and function calculator; The output of signal amplifier and control button are connected the input of signal comparator respectively, and the output of signal comparator is through function calculator connection of intelligent controller.

4. full-automatic low energy consumption electric heating according to claim 1 system; It is characterized in that: described heating work control device comprises three groups of independently carbon fiber heater wires; The carbon fiber heater wire is respectively A group: 140w, B group: 180w, C group: 180w according to power; A group carbon fiber heater wire is the square wave layout; B group carbon fiber heater wire and the rectangular ripple layout of C group carbon fiber heater wire, B group carbon fiber heater wire and C group carbon fiber heater wire are arranged in the last trough and the lower wave trough of A group carbon fiber heater wire.

5. full-automatic low energy consumption electric heating according to claim 4 system, it is characterized in that: described A group carbon fiber heater wire is the square wave layout, and last crest and following crest are provided with the rectangle turning.

6. according to claim 1 or 4 described full-automatic low energy consumption electric heating systems, it is characterized in that: equate at interval between adjacent two of described three groups of carbon fiber heater wires.

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