CN209116841U - Heat energy storage and release equipment - Google Patents

Abstract

The utility model discloses a heat energy storage release equipment, be in including shell, setting heat accumulation spare in the shell, the shell top is equipped with the air outlet, the shell bottom is equipped with the air intake, be equipped with main heat dissipation channel on the heat accumulation spare, main heat dissipation channel's both ends communicate respectively air outlet and air intake, still be equipped with supplementary heat dissipation channel on the heat accumulation spare, supplementary heat dissipation channel's both ends communicate respectively air outlet and air intake. The utility model discloses well air can also be when getting into through main heat dissipation channel and supplementary heat dissipation channel after the air intake with take away the heat that holds the heat piece, flow from the air outlet again and indoor exothermic, through setting up supplementary heat dissipation channel like this, can also carry out heat exchange and conduction through supplementary heat dissipation channel between air and the heat piece, increased the area of contact of air and heat piece, thereby strengthened the heat conductivity, make the heat can release more fully, improve the heating effect, promote user experience.

Description

A kind of thermal energy storage release device

Technical field

The utility model relates to heating system technical fields, more particularly to a kind of thermal energy storage release device.

Background technique

Accumulated electric heater is that northern coal changes common a kind of heating system in electricity.It is used in night power grid low-valley interval Low-price electricity can be carried out fever and by heat storage.Power grid peak period on daytime, by release night storage heat come into Row heating, without accessing power grid, to achieve the purpose that reduce heat cost and balance network load.

Existing accumulated electric heater, in accumulation of heat and exothermic process, heat dissipation channel is single, causes heat complete It is discharged from heat liberation port, heating effect is undesirable, poor user experience.

Utility model content

The purpose of this utility model is to provide a kind of thermal energy storage release devices, can make more filling for heat release Point, improve heating effect.

The technical solution of the utility model are as follows: provide a kind of thermal energy storage release device, including shell, setting described outer Heat accumulation member in shell, the cover top portion are equipped with air outlet, and the outer casing bottom is equipped with air inlet, and the heat accumulation member is equipped with master Heat dissipation channel, the both ends of the main heat dissipation channel are respectively communicated with the air outlet and air inlet, are additionally provided in the heat accumulation member auxiliary Heat dissipation channel is helped, the both ends in the auxiliary heat dissipation channel are respectively communicated with the air outlet and air inlet.

The heat accumulation member is made of two parts being oppositely arranged, and it is logical that the main heat dissipation is formed between described two parts Road is equipped with the auxiliary heat dissipation channel on each part.

Each part of the heat accumulation member is made of even number heat accumulation member unit, and the heat accumulation member unit of described two parts Quantity is equal, and the even number heat accumulation member unit is divided into upper layer and lower layer and stacks, and each heat accumulation member unit is equipped with auxiliary heat dissipation Through-hole, the auxiliary heat dissipation through-hole on upper layer and lower layer heat accumulation member unit are connected to form the auxiliary heat dissipation channel.

The heat accumulation member unit is gitter brick.

Each part of the heat accumulation member is made of odd number heat accumulation member unit, and the heat accumulation member unit of described two parts Quantity is equal, and the odd number heat accumulation member unit is divided into the stacking of upper, middle and lower three and puts, and each heat accumulation member unit is equipped with auxiliary and dissipates Heat through-hole, the auxiliary heat dissipation through-hole on three layers of heat accumulation member unit of upper, middle and lower are sequentially communicated to form the auxiliary heat dissipation channel.

Two parts of the heat accumulation member are one piece of gitter brick.

The heat accumulation member is one piece of gitter brick.

The heating element for heating to heat accumulation member is equipped in the main heat dissipation channel.

The heating element is heating tube.

The upper end in the auxiliary heat dissipation channel is connected to by exhaust air flue with air outlet, the lower end in the auxiliary heat dissipation channel It is connected to by wind inlet channel with air inlet.

The upper end of the main heat dissipation channel is connected to by exhaust air flue with air outlet, and the lower end of the main heat dissipation channel passes through Wind inlet channel is connected to air inlet.

Insulating layer is equipped between the front end of the heat accumulation member, rear end, left end, right end, top and bottom and shell.

The insulating layer uses heat-preservation cotton.

The shell includes front side board, back side panel, left plate, right side plate, top plate and bottom plate, and the air outlet setting is being pushed up On plate, the air inlet is arranged on bottom plate.

The air door for being used to open and covering the air outlet is additionally provided at the top of the shell.

The air door is spindle rotationally arranged in the top of the shell, and the air door is opened and covered in the course of rotation The air outlet.

The air door is mounted on the top of shell by hinge.

The air door is a cover board.

The thermal energy storage release device is accumulated electric heater.

Air can also be when passing through main heat dissipation channel and auxiliary heat dissipation channel after air inlet entrance in the utility model It with the heat for taking away heat accumulation member, then flows out to indoor heat release from air outlet, in this way by setting auxiliary heat dissipation channel, air and stores Heat exchange and conduction can also be carried out by auxiliary heat dissipation channel between warmware, increase the contact surface of air and heat accumulation member Product discharges heat more sufficiently, improves heating effect, promote user experience to enhance heat conductivity.

Detailed description of the invention

Fig. 1 is the front schematic view of thermal energy storage release device in the utility model embodiment.

Fig. 2 be Fig. 1 in A-A to cross-sectional view.

Fig. 3 is the enlarged drawing in Fig. 2 at B.

Fig. 4 is schematic diagram seen from above inside thermal energy storage release device in the utility model embodiment.

Fig. 5 is the structure chart of heat accumulation member unit in the utility model embodiment.

Fig. 6 is the state diagram that air door opens air outlet in the utility model embodiment.

Fig. 7 is the state diagram that wind gate cover lives air outlet in the utility model embodiment.

Specific embodiment

As described in Fig. 1 to Fig. 3, the thermal energy storage release device proposed in the utility model embodiment, including shell 10, set The heat accumulation member in shell 10 is set, air outlet 11 is equipped at the top of shell 10,10 bottom of shell is equipped with air inlet 12.It is set in heat accumulation member There is main heat dissipation channel 20, the both ends of main heat dissipation channel 20 are respectively communicated with the i.e. main heat dissipation channel 20 of air outlet 11 and air inlet 12( One end is connected to air outlet 11, and the other end of main heat dissipation channel 20 is connected to air inlet 12).

Heating element 80 is equipped in main heat dissipation channel 20, heating element 80 is used to (convert electrical energy into heat accumulation member heating Inside thermal energy storage to heat accumulation member), heating element 80 is heating tube.

Shell 10 includes front side board 13, back side panel 14, left plate (not marking in figure), right side plate (not marking in figure), top Plate 15 and bottom plate 16, air outlet 11 are arranged on top plate 15, and air inlet 12 is arranged on bottom plate 16, and the bottom of shell 10 is also installed There is support leg 40.

Between the front end and front side board 13 of heat accumulation member, between the rear end of heat accumulation member and back side panel 14, the left end of heat accumulation member with Between left plate, between the right end and right side plate of heat accumulation member, between the top of the heat accumulation member and top plate 15 and bottom end of heat accumulation member Insulating layer 50 is equipped between bottom plate 16, insulating layer 50 uses heat-preservation cotton.

Insulating layer 50 between the top and top plate 15 of heat accumulation member is equipped with exhaust air flue 60, the bottom end of heat accumulation member and bottom plate Insulating layer 50 between 16 is equipped with wind inlet channel 70.The upper end of main heat dissipation channel 20 is connected by exhaust air flue 60 and air outlet 11 Logical, the lower end of main heat dissipation channel 20 is connected to by wind inlet channel 70 with air inlet 12.

Top plate 15 be equipped with outlet grid 30, outlet grid 30 be used for lateral outlet air, existing air stream through route be air from into Air port 12 enter after by when main heat dissipation channel 20 with take away the heat of heat accumulation member, then from air outlet 11 flow into outlet grid 30 backward Indoor heat release.

As shown in Fig. 2, Fig. 4 and Fig. 5, in order to enable heat release is more abundant, heating effect is improved, is gone back in heat accumulation member Equipped with auxiliary heat dissipation channel, the both ends in auxiliary heat dissipation channel are respectively communicated with air outlet 11 and air inlet 12(i.e. auxiliary heat dissipation channel One end be connected to air outlet 11, the other end in auxiliary heat dissipation channel is connected to air inlet 12).

Heat accumulation member is provided at least one main heat dissipation channel and at least one auxiliary heat dissipation channel.

In the present embodiment, likewise, the upper end in auxiliary heat dissipation channel is connected to by exhaust air flue 60 with air outlet 11, assist The lower end of heat dissipation channel is connected to by wind inlet channel 70 with air inlet 12, and main heat dissipation channel and auxiliary heat dissipation channel are along vertical side To extension.

Heat accumulation member is made of two parts being oppositely arranged, and main heat dissipation channel 20 is formed between two parts, heat accumulation member Two parts are arranged from front to back, and auxiliary heat dissipation channel is equipped on each part.Each part of heat accumulation member is stored by even number Warmware unit 90 is constituted, and 90 quantity of heat accumulation member unit of two parts is equal, and even number heat accumulation member unit 90 is divided into up and down It stacks for two layers, each heat accumulation member unit 90 is equipped with auxiliary heat dissipation through-hole 91, and the auxiliary on upper layer and lower layer heat accumulation member unit 90 dissipates The connection of heat through-hole 91 forms auxiliary heat dissipation channel, and heat accumulation member unit is gitter brick.An auxiliary on upper layer heat accumulation member unit 90 Thermal vias 91 is connected to an auxiliary heat dissipation through-hole 91 on lower layer heat accumulation member unit 90 and forms an auxiliary heat dissipation channel.

Air after the entrance of air inlet 12 can also when passing through auxiliary heat dissipation channel with take away the heat of heat accumulation member, then from Air outlet flows into after outlet grid to indoor heat release, can be in this way by the way that auxiliary heat dissipation channel is arranged, between air and heat accumulation member Heat exchange and conduction are carried out by auxiliary heat dissipation channel, the contact area of air and heat accumulation member is increased, to enhance heat Conductivity is measured, heat is discharged more sufficiently, heating effect is improved, promotes user experience.

In the present embodiment, heat accumulation member is made of 12 heat accumulation member units 90, and each part of heat accumulation member is by six accumulation of heats Part unit 90 is constituted, and six heat accumulation member units 90 of each part are divided into upper layer and lower layer, every layer of three heat accumulation member unit 90.Certainly Six heat accumulation member units 90 of each part can also be divided into three layers of upper, middle and lower, every layer of two heat accumulation member unit 90.Heat accumulation member It can also be made of 16 heat accumulation member units 90, each part of heat accumulation member is made of eight heat accumulation member units 90, each portion The eight heat accumulation member units 90 divided are divided into upper layer and lower layer, every layer of four heat accumulation member unit 90.

As shown in Figures 2 and 3, top plate 15 is equipped with the air door 100 for being used to open and covering air outlet 11, and air door 100 is One cover board.Air door 100 is spindle rotationally arranged on top plate 15, and air outlet 11 is opened and covered in the course of rotation to air door 100. In the process of accumulation of heat, air door 100 covers air outlet 11, and after accumulation of heat is abundant, air door 100 opens air outlet 11, carries out heat release.

As shown in Figure 6 and Figure 7, in the present embodiment, air door 100 is mounted on top plate 15 by hinge 300.

As shown in Figure 6 and Figure 7, in order to realize that cover board can automatically open and cover air outlet, being additionally provided on top plate 15 makes wind Door 100 rotation bimetal leafs 200, bimetal leaf 200 after powered up can with air themperature rise and upwarp, after power-off with Air themperature decline and be bent downwardly.

As shown in fig. 6, the heat of gitter brick has been saturated after thermal energy storage release device accumulation of heat terminates, it is hot at this time Release device, which can be stored, to be powered off, and bimetal leaf 200 is bent downwardly as air themperature declines, to push air door 100 One end so that air door 100 is rotated up and is opened air outlet, discharge heat；As shown in fig. 7, in the process of accumulation of heat, with air Temperature rises, and bimetal leaf 200 is upwarped as air themperature rises, and decontrols one end of air door 100, air door 100 is because of gravity meeting It rotates down and covers air outlet, avoid heat loss.

In the present embodiment, thermal energy storage release device is accumulated electric heater.

In another embodiment, each part of heat accumulation member can also be made of odd number heat accumulation member unit, and two parts Heat accumulation member element number it is equal, odd number heat accumulation member unit be divided into upper, middle and lower three stacking put, set on each heat accumulation member unit There is auxiliary heat dissipation through-hole, the auxiliary heat dissipation through-hole on three layers of heat accumulation member unit of upper, middle and lower is sequentially communicated to form auxiliary heat dissipation channel. For example, each part of heat accumulation member is made of nine heat accumulation member units, nine heat accumulation member units of each part are divided into upper, middle and lower Three stackings are put, every layer of three heat accumulation member unit；Each part of heat accumulation member can also be made of 15 heat accumulation member units, each portion The 15 heat accumulation member units divided are divided into the stacking of upper, middle and lower three and put, and every layer of five heat accumulation member unit, heat accumulation member unit is gitter brick.

It should be noted that two parts of heat accumulation member can also be one piece of gitter brick.Certainly heat accumulation member may be One piece of gitter brick.

Only to illustrate the design of the utility model, those skilled in the art's above specific embodiment exist Various deformation and variation can be made under the design of the utility model, these are deformed and variation is included in the guarantor of the utility model Within the scope of shield.

Claims (19)

1. a kind of thermal energy storage release device, including shell (10), the heat accumulation member being arranged in the shell (10), the shell (10) top is equipped with air outlet (11), and shell (10) bottom is equipped with air inlet (12), and the heat accumulation member is equipped with main heat dissipation The both ends in channel (20), the main heat dissipation channel (20) are respectively communicated with the air outlet (11) and air inlet (12), and feature exists In being additionally provided with auxiliary heat dissipation channel in the heat accumulation member, the both ends in the auxiliary heat dissipation channel are respectively communicated with the air outlet (11) and air inlet (12).

2. thermal energy storage release device according to claim 1, which is characterized in that the heat accumulation member by be oppositely arranged two A part is constituted, and forms the main heat dissipation channel (20) between described two parts, and the auxiliary is equipped on each part and is dissipated The passage of heat.

3. thermal energy storage release device according to claim 2, which is characterized in that each part of the heat accumulation member is by idol Several heat accumulation member units (90) are constituted, and heat accumulation member unit (90) quantity of described two parts is equal, the even number accumulation of heat Part unit (90) is divided into upper layer and lower layer and stacks, and each heat accumulation member unit (90) is equipped with auxiliary heat dissipation through-hole (91), and upper and lower two Auxiliary heat dissipation through-hole (91) connection on layer heat accumulation member unit (90) forms the auxiliary heat dissipation channel.

4. thermal energy storage release device according to claim 3, which is characterized in that the heat accumulation member unit (90) is accumulation of heat Brick.

5. thermal energy storage release device according to claim 2, which is characterized in that each part of the heat accumulation member is by surprise Several heat accumulation member units (90) are constituted, and heat accumulation member unit (90) quantity of described two parts is equal, the odd number accumulation of heat Part unit (90) be divided into upper, middle and lower three stacking put, each heat accumulation member unit (90) be equipped with auxiliary heat dissipation through-hole (91), it is upper in Auxiliary heat dissipation through-hole (91) on lower three layers of heat accumulation member unit (90) is sequentially communicated to form the auxiliary heat dissipation channel.

6. thermal energy storage release device according to claim 2, which is characterized in that two parts of the heat accumulation member are One piece of gitter brick.

7. thermal energy storage release device according to claim 1, which is characterized in that the heat accumulation member is one piece of gitter brick.

8. thermal energy storage release device according to any one of claim 1 to 7, which is characterized in that the main heat dissipation is logical The heating element (80) for heating to heat accumulation member is equipped in road (20).

9. thermal energy storage release device according to claim 8, which is characterized in that the heating element (80) is heating Pipe.

10. thermal energy storage release device according to claim 1, which is characterized in that the upper end in the auxiliary heat dissipation channel It is connected to by exhaust air flue (60) with air outlet (11), the lower end in the auxiliary heat dissipation channel passes through wind inlet channel (70) and air inlet Mouth (12) connection.

11. thermal energy storage release device according to claim 1, which is characterized in that the main heat dissipation channel (20) it is upper End is connected to by exhaust air flue (60) with air outlet (11), and the lower end of the main heat dissipation channel passes through wind inlet channel (70) and air inlet Mouth (12) connection.

12. thermal energy storage release device according to claim 1, which is characterized in that the front end of the heat accumulation member, rear end, Insulating layer (50) are equipped between left end, right end, top and bottom and shell (10).

13. thermal energy storage release device according to claim 12, which is characterized in that the insulating layer (50) is using heat preservation Cotton.

14. thermal energy storage release device according to claim 1, which is characterized in that the shell (10) includes front side board (13), back side panel (14), left plate, right side plate, top plate (15) and bottom plate (16), the air outlet (11) are arranged in top plate (15) On, the air inlet (12) is arranged on bottom plate (16).

15. thermal energy storage release device according to claim 1, which is characterized in that the top of the shell (10) is also set There is the air door (100) for being used to open and covering the air outlet (11).

16. thermal energy storage release device according to claim 15, which is characterized in that the air door (100) is rotatable Top in the shell (10) is set, and the air outlet (11) are opened and cover in the course of rotation to the air door (100).

17. thermal energy storage release device according to claim 16, which is characterized in that the air door (100) passes through hinge (300) it is mounted on the top of shell (10).

18. thermal energy storage release device described in any one of 5 to 17 according to claim 1, which is characterized in that the air door It (100) is a cover board.

19. thermal energy storage release device according to claim 1, which is characterized in that the thermal energy storage release device is Accumulated electric heater.