CN205402891U - Utilize electromagnetic heating phase -change thermal's heating heating equipment - Google Patents

Abstract

The utility model discloses a warm heating equipment who utilizes electromagnetic heating phase -change thermal to adopt, this equipment include that pressure gauge interface, discharge valve mouth, phase change material temperature measurement mouth no. 1, hot water delivery port, phase change material, temperature measure mouth, stainless steel inner, insulation material, phase change material temperature measurement mouth no. 2, phase -change thermal 0, hot water return water mouth, base, phase -change thermal 1 and drain. The advantage of this equipment has: (1 )Change to electromagnetic heating instead, thermal efficiency ratio resistance -type electricity heating efficiency promotes 30%~50%, and high energy reaches electro -heat conversion rate's 95%. (2 ) solenoid does not have the overheated hidden danger of burning out, and is longe -lived. (3 ) solenoid is outside jar body pressure -bearing inner bag, and it is swift to change easy maintenance. (4 )Can whole jar of interior temperature variation and heat accumulation total amount of accurate control.

Description

A kind of heating equipment utilizing Electromagnetic Heating phase-transition heat-storage

Technical field

This utility model belongs to Electric heater technical field, particularly relates to a kind of heating equipment utilizing Electromagnetic Heating phase-transition heat-storage.

Background technology

Indoor heating is that the northern area of China people live and must obligato need winter, winter heating starts with the people of the electric equipment such as electric heater and air-conditioning and gets more and more, but these electrical equipment heating equipments are inefficient, power consumption is high, thus hinders the promotion efficiency in electric heater market.Analyzing the drawback of current electrical equipment heating equipment, mainly energy conversion rate is low, and expensive, energy waste is serious.

Tradition Electric heating is that resistance-type heating rod is directly protruding in tank by installing port, it is easy to following adverse consequences occurs: electrically heated rod is overheated to be burnt, and service life is low, is typically about 3000 hours；Electrically heated rod surface is easily generated incrustation scale, affects the thermal efficiency；Electrically heated rod is easily corroded infiltration, causes the potential safety hazard of electric leakage；Resistance-type electric heating is inefficient, and the general thermal efficiency is at 50%-70%；Change, after electrically heated rod damage, the water needed in drain tank body, cause waste, affect the seriality of heating simultaneously.

Utility model content

For solving the shortcoming of above-mentioned heating system, this utility model provides a kind of heating equipment utilizing Electromagnetic Heating phase-transition heat-storage.

A kind of heating equipment utilizing Electromagnetic Heating phase-transition heat-storage, including gauge port 1, exhaust valve port 2, phase-change material temperature-measuring port 1, hot water outlet 4, phase-change material 5, temperature measurement mouth 6, stainless steel inner container 7, insulation material 8, phase-change material temperature-measuring port 29, insulation crust 10, hot water backwater's mouth 11, base 12, solenoid 13, sewage draining exit 14；

Gauge port 1 and exhaust valve port 2 are respectively arranged at the both sides at described equipment top；

Phase-change material temperature-measuring port 1 is arranged at described equipment upper end, and is connected with the phase-change material 5 being arranged at described device interior topmost；

Hot water outlet 4 is arranged at the side of described equipment upper end；

Phase-change material 5 is arranged at the inside of described equipment；

Temperature measurement mouth 6 is arranged at the bottom of hot water outlet 4；

Stainless steel inner container 7, insulation material 8 and insulation crust 10 are arranged from inside to outside, constitute the shell of described equipment；

Phase-change material temperature-measuring port 29 is arranged at described equipment lower end, and is connected with the phase-change material 5 being arranged at described device interior bottommost；

Hot water backwater's mouth 11 is arranged at described equipment lower end；

Base 12 is arranged at described equipment bottom, supports whole equipment；

Solenoid 13 is arranged at described equipment bottom, and position contacts with the bottom of stainless steel inner container 7, has insulation crust 10 to wrap up outside it；

Sewage draining exit 14 is arranged at side, described equipment bottom.

Described stainless steel inner container 7 is pressure-bearing tank body.

It is heat-conducting medium in the stainless steel inner container 7 of described equipment.

Described solenoid 13 is directly installed on pressure-bearing tank base, directly the water in tank is heated.

In pressure-bearing tank, the installation of phase-change material 5 adopts cylinder multilamellar network structure.

Described phase-change material temperature-measuring port 1 and phase-change material temperature-measuring port 29 are respectively arranged at top layer and the bottom of equipment, monitor the variations in temperature in whole tank and accumulation of heat total amount.

The beneficial effect of the beneficial effects of the utility model:

(1) using Electromagnetic Heating instead, thermal efficiency ratio resistance-type electric heating improved efficiency 30%～50%, most high energy reaches the 95% of electric heating conversion ratio.

(2) itself operating temperature of Electromagnetic Heating is only slightly higher than ambient temperature, it does not have overheated hidden danger of burning, the life-span, period need not safeguard up to more than 10 years.

(3) electromagnetic heater is outside tank body pressure-bearing inner liner, and repair and replacement are convenient and swift, affects little on the seriality of heating.

(4) phase-change material temperature-measuring port one and phase-change material temperature-measuring port two are respectively arranged at top layer and the bottom of equipment, and the temperature of the bottom and top phase-change material is monitored, and just can accurately monitor the variations in temperature in whole tank and accumulation of heat total amount.When the temperature of phase-change material temperature-measuring port one is lower than phase transition temperature, namely illustrate that in tank, heat is exhausted, it is necessary to start electrical heating.Illustrate that when the temperature of phase-change material temperature-measuring port two is higher than phase transition temperature in tank, heat stores full, it is necessary to stop electrical heating.

Accompanying drawing explanation

Fig. 1 is that this utility model utilizes Electromagnetic Heating phase-change heat-storage heating heating equipment structural representation；

In figure: 1 be gauge port, 2 be exhaust valve port, 3 be hot water outlet for phase-change material temperature-measuring port one, 4,5 be phase-change material, 6 be temperature measurement mouth, 7 be stainless steel inner container, 8 be insulation material, 9 be insulation crust for phase-change material temperature-measuring port two, 10,11 be hot water backwater's mouth, 12 be base, 13 be solenoid, 14 be sewage draining exit.

Detailed description of the invention

Below in conjunction with accompanying drawing, the utility model is described in further detail.

As shown in Figure 1, this utility model utilizes the heating equipment of Electromagnetic Heating phase-transition heat-storage, including gauge port 1, exhaust valve port 2, phase-change material temperature-measuring port 1, hot water outlet 4, phase-change material 5, temperature measurement mouth 6, stainless steel inner container 7, insulation material 8, phase-change material temperature-measuring port 29, insulation crust 10, hot water backwater's mouth 11, base 12, solenoid 13, sewage draining exit 14；Gauge port 1 and exhaust valve port 2 are respectively arranged at the both sides at described equipment top；Phase-change material temperature-measuring port 13 is arranged at described equipment upper end, and is connected with the phase-change material 5 being arranged at described device interior topmost；Hot water outlet 4 is arranged at the side of described equipment upper end；Phase-change material 5 is arranged at the inside of described equipment；Temperature measurement mouth 6 is arranged at the bottom of hot water outlet 4；Stainless steel inner container 7, insulation material 8 and insulation crust 10 are arranged from inside to outside, constitute the shell of described equipment；Phase-change material temperature-measuring port 29 is arranged at described equipment lower end, and is connected with the phase-change material 5 being arranged at described device interior bottommost；Hot water backwater's mouth 11 is arranged at described equipment lower end；Base 12 is arranged at described equipment bottom, supports whole equipment；Solenoid 13 is arranged at described equipment bottom, and position contacts with the bottom of stainless steel inner container 7, has insulation crust 10 to wrap up outside it；Sewage draining exit 14 is arranged at side, described equipment bottom.

Stainless steel inner container 7 is pressure-bearing tank body.

It is heat-conducting medium in the stainless steel inner container 7 of equipment.

Solenoid 13 is directly installed on pressure-bearing tank base, directly the water in tank is heated.

In pressure-bearing tank, the installation of phase-change material 5 adopts cylinder multilamellar network structure.

Phase-change material temperature-measuring port 1 and phase-change material temperature-measuring port 29 are respectively arranged at top layer and the bottom of equipment, monitor the variations in temperature in whole tank and accumulation of heat total amount.

Claims (6)

1. the heating equipment utilizing Electromagnetic Heating phase-transition heat-storage, it is characterised in that: include gauge port (1), exhaust valve port (2), phase-change material temperature-measuring port one (3), hot water outlet (4), phase-change material (5), temperature measurement mouth (6), stainless steel inner container (7), insulation material (8), phase-change material temperature-measuring port two (9), insulation crust (10), hot water backwater's mouth (11), base (12), solenoid (13), sewage draining exit (14)；

Gauge port (1) and exhaust valve port (2) are respectively arranged at the both sides at described equipment top；

Phase-change material temperature-measuring port one (3) is arranged at described equipment upper end, and is connected with the phase-change material (5) being arranged at described device interior topmost；

Hot water outlet (4) is arranged at the side of described equipment upper end；

Phase-change material (5) is arranged at the inside of described equipment；

Temperature measurement mouth (6) is arranged at the bottom of hot water outlet (4)；

Stainless steel inner container (7), insulation material (8) and insulation crust (10) are arranged from inside to outside, constitute the shell of described equipment；

Phase-change material temperature-measuring port two (9) is arranged at described equipment lower end, and is connected with the phase-change material (5) being arranged at described device interior bottommost；

Hot water backwater's mouth (11) is arranged at described equipment lower end；

Base (12) is arranged at described equipment bottom, supports whole equipment；

Solenoid (13) is arranged at described equipment bottom, and position contacts with the bottom of stainless steel inner container (7), has insulation crust (10) to wrap up outside it；

Sewage draining exit (14) is arranged at side, described equipment bottom.

2. a kind of heating equipment utilizing Electromagnetic Heating phase-transition heat-storage according to claim 1, it is characterised in that:

Described stainless steel inner container (7) is pressure-bearing tank body.

3. a kind of heating equipment utilizing Electromagnetic Heating phase-transition heat-storage according to claim 1, it is characterised in that:

It is heat-conducting medium in the stainless steel inner container (7) of described equipment.

4. a kind of heating equipment utilizing Electromagnetic Heating phase-transition heat-storage according to claim 1, it is characterised in that: described solenoid (13) is directly installed on pressure-bearing tank base.

5. a kind of heating equipment utilizing Electromagnetic Heating phase-transition heat-storage according to claim 1, it is characterised in that: in pressure-bearing tank, the installation of phase-change material (5) adopts cylinder multilamellar network structure.

6. a kind of heating equipment utilizing Electromagnetic Heating phase-transition heat-storage according to claim 1, it is characterised in that: described phase-change material temperature-measuring port one (3) and phase-change material temperature-measuring port two (9) are respectively arranged at top layer and the bottom of equipment.