CN209960610U - Electricity-saving energy-storage electric heater - Google Patents

Abstract

The utility model belongs to an economize on electricity energy storage formula electric heater comprises electric heating pipe and control panel, and its lower extreme is the base, and the air intake is located before the base, on the back both sides limit, and the upper end export of air intake communicates with each other bottom in the fixed frame. The middle part of the upper end of the base is fixed with the lower end of the fixed frame into a whole through the U-shaped connecting clamp. The fixed frame is internally fixed with a front layer and a rear layer of 8 energy storage bricks, and an electric heating pipe is arranged between the two layers of energy storage bricks. The outer skin encloses four side edges of the housing frame. The lower end of the shell frame is fixed on the periphery of the upper end of the base through a U-shaped or L-shaped connecting clamp. The upper end of the shell frame is connected with the corresponding fixed frame into a whole through a U-shaped or L-shaped connecting card. The upper shell cover with the air outlet is fixed at the upper end of the shell frame in a sealing way. The utility model discloses utilize the heat-retaining heat supply of valley electricity, have structural design rationally, the power consumption is low, and energy-concerving and environment-protective, the good and low advantage of installation use cost of continuation heat dissipation.

Description

Electricity-saving energy-storage electric heater

Technical Field

The utility model belongs to an economize on electricity energy storage formula electric heater.

Background

At present, the traditional heating boiler using coal as raw material has large volume, complex structure, large coal burning pollution, low heat utilization rate, high manufacturing cost and inconvenient use. The existing electric heater has replaced the traditional heating boiler using coal as raw material. The electric heater uses the electric heating pipe as a heating element and uses electricity as an energy source, and has the advantages of no pollution, high heat utilization rate, low manufacturing cost and convenient use. But the electric heater has the heat dissipation fast, and the poor and high not enough of charges of electricity of heating continuation nature, for improving the not enough of electric heater heating continuation nature, realize with the heat-retaining function that increases the electric heater usually. Such as: chinese patent publication No. CN205756023 discloses a solar semiconductor heating system for a vegetable greenhouse, in which a solar water heater is arranged on the roof of the north side of a greenhouse chamber, a semiconductor heat pipe heater and a hot water storage tank are arranged in the greenhouse chamber, and a radiator is arranged on the inner side wall of the greenhouse chamber. Solar energy is collected in the daytime for heating and water in the heat storage water tank is heated, and a semiconductor heat pipe heater is adopted to continuously heat and heat the water in the heat storage water tank at night, so that the heating cost and the vegetable price can be greatly reduced. However, the patent is difficult to be used in a household heating system due to the complex structure and high investment cost. On the other hand, the electric heater uses liquid matters such as water or oil as heat storage media, the structure is too complicated, and the continuous heat dissipation is difficult to reach the ideal requirement.

In order to stagger the peak of electricity utilization, the electricity fee in the low-ebb electricity period at 23-5 hours at night is half of the electricity fee in other periods. Statistics shows that the power consumption of the existing electric heater is still large, the electricity expense in winter accounts for 17-25% of the annual income of a family, and the family is difficult to bear.

Therefore, how to provide a multipurpose energy-saving and environment-friendly electric heater with low use cost for a household is a problem to be solved urgently.

Disclosure of Invention

The utility model aims at designing an economize on electricity energy storage formula electric heater, utilize the heat-retaining heat supply of low ebb electricity, it is reasonable to have a structural design, and the power consumption is low, and is energy-concerving and environment-protective, and the heat dissipation of continuation is good and the advantage that installation use cost is low.

Therefore, the utility model relates to an economize on electricity energy storage formula electric heater comprises electric heating pipe and control panel, and the lower extreme of economize on electricity energy storage formula electric heater is the base, and the air intake is located the base before, on the back both sides limit, the upper end export of air intake communicates with each other the bottom in the fixed frame. The middle part of the upper end of the base is fixed with the lower end of the fixed frame into a whole through the U-shaped connecting clamp. The fixed frame is internally fixed with a front layer and a rear layer of 8 energy storage bricks, and an electric heating pipe is arranged between the two layers of energy storage bricks. The outer skin encloses four side edges of the housing frame. The lower end of the shell frame is fixed on the periphery of the upper end of the base through a U-shaped or L-shaped connecting clamp. The upper end of the shell frame is connected with the corresponding fixed frame into a whole through a U-shaped or L-shaped connecting card. The upper shell cover with the air outlet is fixed at the upper end of the shell frame in a sealing way.

The energy storage brick is a rectangular body. The electric heating pipes are divided into two groups, and a group of electric heating pipes is arranged between two layers of energy storage bricks on one side. The control panel is positioned on the lateral shell plate. The electric heating pipes are spirally distributed between the two layers of energy storage bricks. The base is a frame type base. The fixed frame and the shell frame are made of angle steel.

The structure achieves the purpose of the utility model.

The utility model discloses utilize the heat-retaining heat supply of valley electricity, have structural design rationally, the power consumption is low, and energy-concerving and environment-protective, the good and low advantage of installation use cost of continuation heat dissipation.

The utility model discloses utilize the low cost in the low ebb electricity period when 23 ~ 5 night, to indoor heat supply and simultaneous heating energy storage brick with electric heating pipe. At 23-5 hours, the electric heating tube can be heated by 30m²The indoor temperature is kept at 22-26 ℃, and the surface temperature of the energy storage brick reaches 700-750 ℃. And in the daytime, the electric heating pipe is stopped from heating, and the energy storage bricks are used for heat dissipation and heating. The indoor temperature can be kept at 20-22 ℃ in 6-22 hours, and the household heating cost is greatly reduced. Compared with the traditional electric heating, the invention has the advantages of 80 percent reduction of cost and convenient use.

Drawings

Fig. 1 is a schematic structural diagram of the present invention.

Fig. 2 is a schematic view of the cross-sectional structure a-a of fig. 1.

Detailed description of the preferred embodiments

As shown in fig. 1 and 2, the electric heater of energy-saving and energy-storing type is composed of an electric heating tube 6 and a control panel 7, wherein the control panel is located on a lateral outer shell plate. The control panel is internally provided with a control computer, and the control panel surface is provided with buttons and a function display screen for setting the program function of the control computer. The two groups of electric heating pipes are connected in parallel and are connected with a power supply through a lead, a control computer on a control panel and a switch button. The control computer can automatically control the on-off of the electric heating pipe according to a set program, for example, the computer is controlled to start the electric heating pipe to supply heat to the indoor and heat the energy storage brick at the same time in a low valley electricity period of 23-5 hours at night; in the daytime, the electric heating pipe stops heating; this is a conventional control panel, control computer and circuit, which are well known in the art and will not be described again.

The lower end of the power-saving energy-storage electric heater is a base 8, and the base is a frame type base. The air inlet 9 is positioned on the front side edge and the rear side edge of the base, and the outlet at the upper end of the air inlet is communicated with the inner bottom end of the fixed frame 3. The upper end middle part of base is fixed as an organic whole through U type joint strap 11 and fixed frame's lower extreme, and U type joint strap is even as an organic whole through welding or bolt with the upper end middle part of base, and fixed frame is even as an organic whole through bolt and U type joint strap again.

The fixed frame is internally fixed with a front layer and a rear layer of 8 energy storage bricks 10, and an electric heating pipe is arranged between the two layers of energy storage bricks. The energy storage brick is a rectangular body. The electric heating pipes are spirally distributed between the two layers of energy storage bricks. The electric heating pipes are divided into two groups, and a group of electric heating pipes is arranged between two layers of energy storage bricks on one side. The electric heating pipe is fixed between the two layers of energy storage bricks, and a groove is arranged on the surface of the energy storage brick corresponding to the surface of the electric heating pipe, and the electric heating pipe is arranged in the groove. Two groups of electric heating pipes are connected in parallel, the electric heating pipes are powered by a 220V power supply, and the power of each group is 800-1500W. The electric heating pipe is used for heating indoor temperature and energy storage bricks.

The shell plate 13 closes the four side edges of the housing frame 5. The lower end of the shell frame is fixed on the periphery of the upper end of the base through a U-shaped or L-shaped connecting clamp 4. The upper end of the shell frame is connected with the corresponding fixed frame into a whole through a U-shaped or L-shaped connecting card. The shell plate may be fixed integrally with the housing frame and the U-shaped or L-shaped connector by fixing bolts 12. An upper shell cover 2 with an air outlet 1 is fixed at the upper end of the shell frame in a sealing way, and the upper shell cover can be fixed with the upper end of the shell frame into a whole through a fixing bolt.

The fixed frame and the shell frame are made of angle steel, the fixed frame is used for fixing the electric heating pipe and the two layers of energy storage bricks in the fixed frame, and the two layers of energy storage bricks are aligned side by side. The energy storage brick comprises 20-30% of silicon dioxide, 8-10% of aluminum oxide, 56-60% of ferric oxide and 8-10% of magnesium oxide, wherein the volume density of each cubic centimeter of the energy storage brick is 2.91-2.94 g, and the energy storage brick is a product sold in the market.

When the electric heating device is used, the switch is turned on, the power supply is switched on, the control computer can automatically control the electric heating pipe to be turned on and off according to a set program, for example, in a low valley electricity period of 23-5 hours at night, the control computer starts the electric heating pipe to supply heat to the indoor and simultaneously heat the energy storage bricks (the surface temperature of the energy storage bricks heated in the period reaches 700-750 ℃), indoor cold air enters the shell frame closed by the shell plate from the air inlet on the base, absorbs the heat emitted by the electric heating pipe and the energy storage bricks, and then the cold air is changed into hot air and flows out of the shell frame from the air outlet of the. In the daytime, the control computer stops heating of the electric heating pipe, and the energy storage bricks are used for heat dissipation and heating. The indoor temperature can be kept at 20-22 ℃ in 6-22 hours, and the household heating cost is greatly reduced.

In a word, the utility model discloses utilize the off-peak electricity heat-retaining heat supply, it is reasonable to have structural design, and the power consumption is low, and energy-concerving and environment-protective, the good and installation use cost low advantage of continuation heat dissipation. Can be popularized and used.

Claims (7)

1. The utility model provides an economize on electricity energy storage formula electric heater, comprises electric heating pipe and control panel, its characterized in that: the lower extreme of economize on electricity energy storage formula electric heater is the base, the air intake is located before the base, back both sides limit, the upper end export of air intake communicates with each other bottom in the fixed frame, the upper end middle part of base is fixed as an organic whole through the lower extreme of U type connector clip with the fixed frame, fixed frame internal fixation has two-layer 8 energy storage bricks altogether around, be equipped with electric heating pipe between the two-layer energy storage brick, the shell plate seals the four sides side of casing frame, the lower extreme of casing frame passes through U type or L type connector clip to be fixed on the periphery of base upper end, the upper end of casing frame links integratively with the fixed frame that corresponds through U type or L type connector clip, the upper cover that has the air outlet seals to be fixed in the.

2. The power-saving energy-storage electric heater according to claim 1, characterized in that: the energy storage brick is a rectangular body.

3. The power-saving energy-storage electric heater according to claim 1, characterized in that: the electric heating pipes are divided into two groups, and a group of electric heating pipes is arranged between two layers of energy storage bricks on one side.

4. The power-saving energy-storage electric heater according to claim 1, characterized in that: the control panel is positioned on the lateral shell plate.

5. The power-saving energy-storage electric heater according to claim 1, characterized in that: the electric heating pipes are spirally distributed between the two layers of energy storage bricks.

6. The power-saving energy-storage electric heater according to claim 1, characterized in that: the base is a frame type base.

7. The power-saving energy-storage electric heater according to claim 1, characterized in that: the fixed frame and the shell frame are made of angle steel.

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