CN212057683U - Efficient constant-state high-temperature air duct of solid-state heat storage device - Google Patents

Abstract

A high-efficiency steady-state high-temperature air duct of a solid-state heat storage device relates to a high-temperature air duct. The utility model provides a heat uneven, a large amount of heat of high temperature wind channel heat accumulator be remained the problem in the heat accumulator of distal end. The inside at the heat accumulator is installed to the heat accumulation intracavity siphunculus, the outside of heat accumulator is provided with the insulation material layer, the right-hand member of heat accumulation intracavity siphunculus is connected with high temperature wind channel air-out pipe, the inside high temperature wind channel air-supply line that is provided with of left end of heat accumulator sets up three heat accumulation intracavity siphunculus through the inside different interlaces of lower extreme on the heat accumulator, forms opposite hot-blast passageway relatively to realize the regulation and control of volume of airing exhaust through the regulation carousel that rotates air regulation valve upper end, improve the utilization ratio of the fan amount of wind, also improve the utilization ratio of heat accumulator, indirectly improve the storage, the heat exchange efficiency of solid-state heat-retaining device, reduce the use of raw and other materials, control in real.

Description

Efficient constant-state high-temperature air duct of solid-state heat storage device

Technical Field

The utility model belongs to the technical field of solid-state heat-retaining is relevant, concretely relates to solid-state heat-retaining device of efficient is constant high temperature wind channel.

Background

The ventilation duct is a metal or nonmetal duct for ventilation and air conditioning engineering of industrial and civil buildings, the ventilation duct is a municipal infrastructure for circulating air and reducing the concentration of harmful gases, and the high-temperature duct is a common ventilation duct for high-temperature discharge and waste heat recovery in industrial production.

The existing high-temperature air duct technology has the following problems: the air duct of the product in the existing industry is unreasonable in design, uneven in air flow distribution and incapable of fully playing the improvement under the condition of heat storage energy efficiency, a straight-through form is generally adopted in the high-temperature air duct designed and used in the industry at present, the air duct is perpendicular to the inner channel of the heat storage cavity, the air flow can select the nearest path to flow through, the far-end ventilation quantity is far smaller than the near-end ventilation quantity, the heat distribution of the heat accumulator is also uneven, a large amount of heat is remained in the far-end heat accumulator, and the production cost and the heating cost are wasted.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide an efficient solid-state heat-retaining device steady state high temperature wind channel to the high temperature wind channel that proposes in solving above-mentioned background art adopts direct form to make the uneven a large amount of heats of heat accumulator distribute the problem of remaining in the heat accumulator of distal end.

In order to achieve the above object, the utility model provides a following technical scheme: a high-efficiency steady-state high-temperature air channel of a solid-state heat storage device comprises a heat storage cavity inner through pipe and a heat accumulator, wherein the heat storage cavity inner through pipe is arranged inside the heat accumulator, a heat insulation material layer is arranged outside the heat accumulator, the right end of the heat storage cavity inner through pipe is connected with a high-temperature air channel air outlet pipe, a high-temperature air channel air inlet pipe is arranged inside the left end of the heat accumulator, the lower end of the high-temperature air channel air inlet pipe is connected with a high-temperature air guide pipe, a first air outlet pipe is connected on the circumferential outer wall of the right end of the upper side of the high-temperature air channel air inlet pipe, a second air outlet pipe is connected on the circumferential outer wall of the high-temperature air channel air inlet pipe on the lower side of the first air outlet pipe, a third air outlet pipe is connected on the circumferential outer wall of the high-temperature air channel air, the adjustable air volume adjusting device is characterized in that an adjusting turntable is connected to the outer wall of the upper end of the limiting baffle disc, a rotating rod is connected to the outer wall of the lower end of the limiting baffle disc, a steering ball is connected to the lower end of the rotating rod, an air exhaust channel is arranged on the steering ball, and a steering chamber is arranged inside the air volume adjusting valve.

Preferably, the sealing rings are sleeved outside the left end and the right end of the through pipe in the heat storage cavity, and a ventilation guide hole is formed in the circumferential outer wall of the through pipe in the heat storage cavity between the two sealing rings.

Preferably, the number of the through pipes in the heat storage cavity is three, and the three through pipes in the heat storage cavity are kept in a parallel state.

Preferably, the left ends of the through pipes in the three heat storage cavities in the heat storage body are respectively connected with the air volume regulating valves corresponding to the first air outlet pipe, the second air outlet pipe and the third air outlet pipe.

Preferably, the right ends of the through pipes in the three heat storage cavities in the heat storage body penetrate through the heat storage body and are connected with the high-temperature air duct air outlet pipe on the right side.

Preferably, the right ends of the first air outlet pipe, the second air outlet pipe and the third air outlet pipe are embedded in the air volume adjusting valve and are communicated with the steering chamber.

Preferably, the left ends of the through pipes in the three heat storage cavities in the heat storage body are fixedly embedded in the air volume adjusting valve and are communicated with the steering chamber.

Preferably, the steering ball is of a sphere-like structure with a hollow interior, and a smooth state is maintained between the outer wall of the steering ball and the inner wall of the steering chamber.

Preferably, the lower end of the rotating rod vertically penetrates through the air volume adjusting valve and is fixedly connected with a steering ball in the steering chamber.

Preferably, the sealing ring is of an O-shaped ring structure made of VITON fluorine rubber, and the sealing ring is fixedly sleeved on the circumferential outer walls of the left end and the right end of the through pipe in the heat storage cavity.

Compared with the prior high-temperature air channel technology, the utility model provides a solid-state heat-retaining device of efficient is constant state high-temperature air channel possesses following beneficial effect:

1. the utility model discloses a set up three heat accumulation intracavity siphunculus between different levels in heat accumulator upper and lower extreme inside, form the hot-blast passageway of relative opposition, and realize the regulation and control of air discharge volume through rotating the regulation carousel of air regulation valve upper end, improve the utilization ratio of the fan amount of wind, also improve the utilization ratio of heat accumulator, indirectly improve the storage of solid-state heat-retaining device, heat exchange efficiency, reduce the use of raw and other materials, reduce the consumption, only adjust the position of turning to the ball through rotating the regulation carousel of air regulation valve upper end, can control in real time the heat accumulation intracavity siphunculus air discharge of different levels in heat accumulator upper and lower extreme inside;

2. the utility model discloses the inside ball that turns to of air regulation valve can rotate relatively when rotating the regulation carousel, and when the centre of a circle of the passageway of airing exhaust of turning to ball inside transversely aligns with the centre of a circle of the air intake that turns to the room both sides and air outlet, the air volume of the passageway of airing exhaust reaches the biggest, and when continuing to rotate the regulation carousel, along with the skew of the passageway of airing exhaust makes the air volume reduce gradually and close, the air volume that siphunculus from the top down in the heat accumulation chamber according to this principle heat accumulator should reduce gradually, after confirming that the regulating valve air volume that is applicable to under certain operating mode is regulated and control the flow, can make the air volume of airing exhaust of siphunculus in each heat accumulation chamber be close mutually, make the heat in the heat accumulation body can be taken away uniformly, thereby make.

Drawings

The accompanying drawings are included to provide a further understanding of the invention, and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention, and together with the description, do not constitute a limitation of the invention, in which:

fig. 1 is a schematic structural view of a steady-state high-temperature air duct of an efficient solid-state heat storage device provided by the present invention;

fig. 2 is a schematic structural view of the air volume adjusting valve provided by the present invention;

fig. 3 is a schematic cross-sectional structure view of the air volume adjusting valve provided by the utility model;

FIG. 4 is a schematic view of a vertical cross-sectional structure of the air volume adjusting valve of the present invention;

in the figure: 1. a seal ring; 2. a through pipe in the heat storage cavity; 3. a vent guide hole; 4. an air outlet pipe of the high-temperature air duct; 5. a heat accumulator; 6. adjusting the turntable; 7. a thermal insulation material layer; 8. an air volume adjusting valve; 9. a first air outlet pipe; 10. a high-temperature air duct air inlet pipe; 11. a second air outlet pipe; 12. a third air outlet pipe; 13. a high temperature air duct; 14. a limiting baffle disc; 15. rotating the rod; 16. an air exhaust channel; 17. a steering ball; 18. and a diversion chamber.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Referring to fig. 1-4, the present invention provides a technical solution: a high-efficiency steady-state high-temperature air channel of a solid-state heat storage device comprises heat storage cavity inner through pipes 2 and a heat storage body 5, wherein the heat storage cavity inner through pipes 2 are arranged inside the heat storage body 5, the number of the heat storage cavity inner through pipes 2 is three, the three heat storage cavity inner through pipes 2 are kept in a mutually parallel state, the three heat storage cavity inner through pipes 2 are arranged at different intervals inside the upper end and the lower end of the heat storage body 5 to form a relatively opposite hot air channel, so that heat in the heat storage body 5 can be uniformly taken away, thereby maximizing conversion efficiency, a heat insulation material layer 7 is arranged outside the heat storage body 5, the right end of the heat storage cavity inner through pipe 2 is connected with a high-temperature air channel air outlet pipe 4, the right end of the heat storage cavity inner through pipe 2 inside the heat storage body 5 penetrates through the heat storage body 5 and is connected with a right-temperature air channel, the air discharge amount of the through pipes 2 in each heat storage cavity can be approximate, hot air is discharged from the high-temperature air channel air outlet pipe 4 to the outside through the through pipes 2 in the heat storage cavity, the utilization rate of the air quantity of a fan is improved, a high-temperature air channel air inlet pipe 10 is arranged inside the left end of the heat storage body 5, the lower end of the high-temperature air channel air inlet pipe 10 is connected with a high-temperature air guide pipe 13, a first air outlet pipe 9 is connected on the circumferential outer wall of the right end of the upper side of the high-temperature air channel air inlet pipe 10, a second air outlet pipe 11 is connected on the circumferential outer wall of the high-temperature air channel air inlet pipe 10 on the lower side of the first air outlet pipe 9, a third air outlet pipe 12 is connected on the circumferential outer wall of the high-temperature air channel air inlet pipe 10 on the lower side of the second air outlet pipe 11, air outlet pipes 9, 11 and the right end of the third air outlet pipe 12 are connected with an air quantity regulating valve 8, the three heat storage cavity through pipes 2 are communicated with the first air outlet pipe 9, the second air outlet pipe 11 and the third air outlet pipe 12 to form respective independent hot air channels, and the air volume of each heat storage cavity through pipe 2 is adjusted through the air volume adjusting valve 8, so that the air volume of each heat storage cavity through pipe 2 tends to be uniform.

A high-efficiency steady high-temperature air duct of a solid-state heat storage device comprises a limit baffle disc 14 arranged at the upper end of an air volume adjusting valve 8, an adjusting rotary disc 6 connected with the outer wall of the upper end of the limit baffle disc 14, a rotary rod 15 connected with the outer wall of the lower end of the limit baffle disc 14, the lower end of the rotary rod 15 vertically penetrates through the air volume adjusting valve 8 and is fixedly connected with a steering ball 17 inside a steering chamber 18, the adjusting rotary disc 6 is mutually connected with the steering ball 17 inside the air volume adjusting valve 8 through the rotary rod 15, so that the position of the steering ball 17 can be adjusted by rotating the adjusting rotary disc 6 at the upper end of the air volume adjusting valve 8, thereby completing the control of the ventilation volume, the lower end of the rotary rod 15 is connected with the steering ball 17, an air exhaust channel 16 is arranged on the steering ball 17, the steering chamber 18 is arranged inside the air volume adjusting valve 8, the steering ball 17, when the adjusting turntable 6 at the upper end of the air volume adjusting valve 8 is rotated, the steering ball 17 inside the air volume adjusting valve 8 can rotate relatively, when the circle center of the air exhaust channel 16 inside the turning ball 17 is transversely aligned with the circle centers of the air inlet and the air outlet at the two sides of the turning chamber 18, the ventilation volume of the air exhaust channel 16 reaches the maximum, when the adjusting turntable 6 is continuously rotated, along with the deviation of the air exhaust channel 16, the ventilation quantity is gradually reduced and closed, the right ends of the first air outlet pipe 9, the second air outlet pipe 11 and the third air outlet pipe 12 are embedded in the air quantity adjusting valve 8 and keep a mutual communication state with the steering chamber 18, the first air outlet pipe 9, the second air outlet pipe 11 and the third air outlet pipe 12 are communicated with the respective air quantity adjusting valves 8, so that the air output of the first air outlet pipe 9, the second air outlet pipe 11 and the third air outlet pipe 12 can be controlled by rotating the adjusting turntable 6 at the upper end of the air volume adjusting valve 8.

A high-efficiency steady high-temperature air duct of a solid heat storage device comprises a heat accumulator 5, wherein the left ends of three heat accumulation cavity inner through pipes 2 in the heat accumulator 5 are fixedly embedded in an air volume adjusting valve 8 and are kept in a mutually communicated state with a steering chamber 18, the three heat accumulation cavity inner through pipes 2 in the heat accumulator 5 are communicated with the air volume adjusting valve 8 at the left end, when an adjusting turntable 6 at the upper end of the air volume adjusting valve 8 is rotated, the air volumes of a first air outlet pipe 9, a second air outlet pipe 11 and a third air outlet pipe 12 can be controlled, so that the ventilation volumes in the three heat accumulation cavity inner through pipes 2 are kept consistent, sealing rings 1 are sleeved outside the left end and the right end of the heat accumulation cavity inner through pipes 2, a ventilation guide hole 3 is arranged on the circumferential outer wall of the heat accumulation cavity inner through pipe 2 between the two sealing rings 1, the sealing rings 1 are of O-shaped ring structures, through the guide hole 3 of ventilating on the siphunculus 2 in the heat accumulation chamber, the inside high temperature that exists of absorption heat accumulator 5 that can be better, and because sealing washer 1 is VITON fluorine plain rubber material, have high temperature resistance, weatherability, ozone resistance and chemical resistance to effectively guarantee sealed heat preservation effect, have longer life simultaneously, need not frequent change.

The utility model discloses a theory of operation and use flow: after the utility model is installed, the constant high temperature air channel of the solid-state heat storage device is mainly composed of a heat storage cavity inner through pipe 2, a high temperature air channel air outlet pipe 4, a heat storage body 5, a high temperature air channel air inlet pipe 10 and three corresponding air volume adjusting valves 8, the left ends of the three heat storage cavity inner through pipes 2 inside the heat storage body 5 are respectively connected with a first air outlet pipe 9, a second air outlet pipe 11 and an air volume adjusting valve 8 corresponding to a third air outlet pipe 12, so that the three heat storage cavity inner through pipes 2 are mutually communicated with the first air outlet pipe 9, the second air outlet pipe 11 and the third air outlet pipe 12 to form independent hot air channels, and the regulation and control of the air discharge are realized by rotating an adjusting turntable 6 at the upper end of the air volume adjusting valve 8, when the adjusting turntable 6 is rotated, a steering ball 17 inside the air volume adjusting valve 8 can be relatively rotated, and when the circle center of the air discharge channel 16 inside the steering ball 17 is transversely aligned, the ventilation volume of the exhaust channel 16 reaches the maximum, and when the adjusting turntable 6 continues to rotate, the ventilation volume is gradually reduced and closed along with the deviation of the exhaust channel 16, according to the principle, the ventilation volume of the through pipe 2 in the heat storage cavity in the heat storage body 5 from top to bottom is gradually reduced, and after the optimal ventilation volume adjusted and controlled by the air volume adjusting valve 8 under a certain working condition is determined, the exhaust volume of the through pipe 2 in each heat storage cavity can be close to each other.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (10)

1. The utility model provides a high efficiency solid-state heat-retaining device constant state high temperature wind channel, includes through pipe (2) and heat accumulator (5) in the heat accumulation chamber, its characterized in that: the heat storage cavity inner pipe (2) is arranged inside the heat storage body (5), a heat insulation material layer (7) is arranged outside the heat storage body (5), the right end of the heat storage cavity inner pipe (2) is connected with a high-temperature air channel air outlet pipe (4), a high-temperature air channel air inlet pipe (10) is arranged inside the left end of the heat storage body (5), the lower end of the high-temperature air channel air inlet pipe (10) is connected with a high-temperature air guide pipe (13), a first air outlet pipe (9) is connected onto the circumferential outer wall of the right end of the upper side of the high-temperature air channel air inlet pipe (10), a second air outlet pipe (11) is connected onto the circumferential outer wall of the high-temperature air channel air inlet pipe (10) on the lower side of the first air outlet pipe (9), a third air outlet pipe (12) is connected onto the circumferential outer wall of the high-temperature air channel air inlet pipe (10) on the lower side of the second air outlet pipe (11), and an, the upper end of air regulation valve (8) is provided with spacing fender dish (14), be connected with on the upper end outer wall of spacing fender dish (14) and adjust carousel (6), be connected with dwang (15) on the lower extreme outer wall of spacing fender dish (14), the lower extreme of dwang (15) is connected with steering ball (17), be provided with air exhaust passageway (16) on steering ball (17), the inside of air regulation valve (8) is provided with and turns to room (18).

2. The efficient constant high temperature air duct of solid state heat storage device of claim 1, wherein: sealing rings (1) are sleeved outside the left end and the right end of the through pipe (2) in the heat storage cavity, and a ventilation guide hole (3) is formed in the circumferential outer wall of the through pipe (2) in the heat storage cavity between the sealing rings (1).

3. A high efficiency, constant high temperature air duct for a solid state heat storage device as claimed in claim 1 or 2, wherein: the three through pipes (2) in the heat storage cavity are respectively arranged, and the three through pipes (2) in the heat storage cavity are kept in a parallel state.

4. The efficient constant high temperature air duct of solid state heat storage device of claim 3, wherein: the left end of the through pipe (2) in the three heat accumulation cavities in the heat accumulator (5) is respectively connected with the first air outlet pipe (9), the second air outlet pipe (11) and the air volume adjusting valve (8) corresponding to the third air outlet pipe (12).

5. The efficient constant high temperature air duct of solid state heat storage device of claim 3, wherein: the right ends of the through pipes (2) in the three heat storage cavities in the heat accumulator (5) penetrate through the heat accumulator (5) and are connected with the high-temperature air duct air outlet pipe (4) on the right side.

6. The efficient constant high temperature air duct of solid state heat storage device of claim 1, 2, 4 or 5, wherein: the right ends of the first air outlet pipe (9), the second air outlet pipe (11) and the third air outlet pipe (12) are embedded in the air volume adjusting valve (8) and are kept in a mutually communicated state with the steering chamber (18).

7. The efficient constant high temperature air duct of solid state heat storage device as claimed in claim 4 or 5, wherein: the left ends of the through pipes (2) in the three heat storage cavities in the heat accumulator (5) are fixedly embedded in the air volume adjusting valve (8) and are communicated with the steering chamber (18).

8. The efficient constant high temperature air duct of solid state heat storage device of claim 6, wherein: the steering ball (17) is of a sphere-like structure with a hollow inner part, and a smooth state is kept between the outer wall of the steering ball (17) and the inner wall of the steering chamber (18).

9. A high efficiency, constant state, high temperature air duct for solid state heat storage device as claimed in claim 1, 2, 4, 5 or 8 wherein: the lower end of the rotating rod (15) vertically penetrates through the air volume adjusting valve (8) and is fixedly connected with a steering ball (17) in a steering chamber (18).

10. The efficient constant high temperature air duct of solid state heat storage device of claim 2, wherein: the sealing ring (1) is of an O-shaped ring structure, and the sealing ring (1) is fixedly sleeved on the circumferential outer walls of the left end and the right end of the through pipe (2) in the heat storage cavity.

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