CN218237895U - Novel fused salt energy storage and heat exchange device - Google Patents

Abstract

The utility model relates to a novel fused salt energy storage heat transfer device, its technical scheme is: including speculum and conversion equipment, the fixed surface of speculum installs the honeycomb lens, the honeycomb lens constitutes for a plurality of hexagon lens equipment, the both sides of speculum are all rotated and are installed the pivot, fix through the connecting axle between the pivot, the center department of connecting axle rotates and is connected with the connecting block, the one end fixedly connected with support of connecting axle is kept away from to the connecting block, the one end that the connecting block was kept away from to the support rotates and connects in the center department of base top surface, the bottom surface fixed mounting of base is subaerial, the speculum is equipped with a plurality ofly. The utility model has the advantages that: the honeycomb-shaped reflecting lens is arranged on the reflecting mirror, so that the effect of focusing solar light energy is realized; the reaction glass with dark color is arranged, so that the temperature of a reaction place is increased, and the effect of maximizing energy is achieved.

Description

Novel fused salt energy storage and heat exchange device

Technical Field

The utility model relates to a fused salt energy storage technical field, in particular to novel fused salt energy storage heat transfer device.

Background

Under the background that global climate is warming and non-renewable energy sources are gradually exhausted, research and development of renewable energy sources are rapidly developed; the traditional industry uses low energy efficiency, and the instability of solar energy and wind energy needs to be matched with stored energy to solve the problem of mismatching of energy supply and demand in time, space and strength.

Millet electricity heat accumulation heat supply technique is one of emerging heat supply technique in recent years, utilizes night low ebb electrical heating energy storage medium, converts the rich low ebb electric power at night into heat energy and stores, supplies heat during for-use heat, has effectively solved the unmatched problem in energy supply and demand time, has shifted rich low ebb electric power, has improved energy comprehensive utilization efficiency, brings considerable economic benefits. The molten salt energy storage technology can realize valley electricity heat storage, and the principle of the molten salt energy storage heating system is as follows. And in the night valley electricity period, the molten salt pump conveys the cold molten salt in the low-temperature molten salt storage tank to the molten salt heater, the cold molten salt is heated by valley electricity and stored in the high-temperature storage tank, and in the day heat consumption period, the high-temperature molten salt is pumped out by the molten salt pump and flows into the molten salt-water heat exchanger. The municipal water is subjected to heat exchange with high-temperature molten salt in the heat exchanger to become hot water, and heat energy or hot water is supplied to residential districts. And the molten salt in the system flows back to the low-temperature molten salt storage tank after being cooled.

In the prior art, the radiation mirror for reflecting solar energy cannot sufficiently reflect the solar energy, and energy conversion cannot be maximized.

Therefore, it is necessary to design a novel fused salt energy storage and heat exchange device.

SUMMERY OF THE UTILITY MODEL

Therefore, the utility model provides a novel fused salt energy storage heat transfer device reaches the focus reflection through setting up cellular mirror piece, sets up dark reaction glass and lets the temperature in reaction place rise to reflection sunlight that the speculum of reflection sunlight energy can not be abundant in solving current technique, the problem of maximize can not be realized to energy conversion.

In order to achieve the above object, the present invention provides the following technical solutions: novel fused salt energy storage heat transfer device, including speculum and conversion equipment, the fixed surface of speculum installs the honeycomb lens, the honeycomb lens constitutes for a plurality of hexagon lens equipment, the both sides of speculum are all rotated and are installed the pivot, fix through the connecting axle between the pivot, the center department of connecting axle rotates and is connected with the connecting block, the one end fixedly connected with support of connecting axle is kept away from to the connecting block, the one end that the connecting block was kept away from to the support is rotated and is connected in the center department of base top surface, the bottom surface fixed mounting of base is subaerial, the speculum is equipped with a plurality ofly.

Preferably, the conversion device is a device for converting and storing heat energy of molten salt, and comprises a reaction tower and a cooler, wherein a stand column is arranged at the bottom end of the reaction tower, the bottom surface of the stand column is fixedly connected to the ground, a tower top is arranged at the top end of the reaction tower, reaction glass is arranged below the tower top, a circle of reaction glass is fixedly arranged below the tower top, and the reaction glass is dark-colored glass.

Preferably, the bottom end of the upright column is provided with two connectors, a reaction tube penetrates through the connectors, the reaction tube extends upwards inside the reaction tower to extend past the reaction glass to be turned over and extend downwards, and the reaction tube extends out of the other connector.

Preferably, the right side connector department fixedly connected with pipe, the one end that the reaction tower was kept away from to the pipe passes through connector fixed connection on hot molten salt holding vessel, pipe department between hot molten salt holding vessel and the reaction tower is equipped with the piston pump, the one end that the reaction tower was kept away from to hot molten salt holding vessel passes through connector fixed connection on the cooler.

Preferably, the box is collected to the bottom fixedly connected with of cooler, the bottom fixed mounting who collects the box has the stabilizer blade, stabilizer blade fixed mounting is subaerial, the cooler is equipped with a plurality of and every cooler homogeneous phase interconnect, the one end that hot molten salt holding vessel was kept away from to the cooler is passed through connector fixed connection on the steam engine.

Preferably, the collecting box is connected with a guide pipe through a connecting port fixedly, one end of the guide pipe, which is far away from the collecting box, is fixedly connected to the cold molten salt storage tank, the guide pipe between the cold molten salt storage tank and the collecting box is provided with a piston pump, the cold molten salt storage tank is fixedly connected to the reaction tower through the guide pipe, the piston pump is arranged on the guide pipe between the reaction tower and the cold molten salt storage tank, and connecting ports are arranged at two ends of the guide pipe.

Preferably, the reaction tube passes through a conduit between the reaction tower, the hot molten salt storage tank, the cooler, the collection box, the cold molten salt storage tank and the above device to form a circulation system, and the reaction tube passes through the inside of the conduit.

The beneficial effects of the utility model are that:

the utility model realizes the focusing effect of solar energy by arranging the honeycomb-shaped reflecting lens on the reflector; the reaction glass with dark color is arranged, so that the temperature of a reaction place is increased, and the effect of maximizing energy is achieved; the effect of allowing the cooled hot molten salt to re-enter the cold molten salt storage tank for recycling is achieved by providing a collection box below the cooler.

Drawings

FIG. 1 is a front view provided by the present invention;

fig. 2 is a top view provided by the present invention;

fig. 3 is a sectional view of a reaction tower provided by the present invention;

fig. 4 is a front view of the reflector provided by the present invention;

fig. 5 is a rear view of the reflector provided by the present invention.

In the figure: the device comprises a reflector 1, a honeycomb lens 11, a rotating shaft 12, a support 13, a base 14, a connecting block 15, a connecting shaft 16, a reaction tower 2, a tower top 21, reaction glass 22, a column 23, a reaction tube 24, a hot molten salt storage tank 3, a cold molten salt storage tank 4, a piston pump 5, a guide pipe 6, a cooler 7, a collecting box 71, support legs 72, a connecting port 8 and a steam engine 9.

Detailed Description

The preferred embodiments of the present invention will be described in conjunction with the accompanying drawings, and it will be understood that they are presented herein only to illustrate and explain the present invention, and not to limit the present invention.

Embodiment 1, refer to fig. 1-5, the utility model provides a novel fused salt energy storage heat transfer device, including speculum 1 and conversion equipment, the fixed surface of speculum 1 installs honeycomb lens 11, speculum 1 reflects solar light energy, honeycomb lens 11 lets solar light energy can focus, let light energy reach the effect of maximize, honeycomb lens 11 constitutes for a plurality of hexagon lens equipment, speculum 1's both sides are all rotated and are installed pivot 12, pivot 12 lets speculum 1 can rotate by vertical direction, fix through connecting axle 16 between the pivot 12, connecting axle 16 lets pivot 12 can rotate more firmly, connecting axle 16's center department rotates and is connected with connecting block 15, connecting block 15 lets speculum 1 can fixed connection on support 13, connecting block 15 keeps away from connecting axle 16's one end fixedly connected with support 13, support 13 lets speculum 1 can rotate by the horizontal direction, support 13 keeps away from connecting block 15's one end rotation and connects on the center department of base 14 top surface, base 14 fixes speculum 1, base 14's bottom surface fixed mounting is subaerial, speculum 1 is equipped with a plurality ofly.

The conversion device is a device for carrying out heat energy conversion and storage on molten salt, the conversion device comprises a reaction tower 2 and a cooler 7, the bottom end of the reaction tower 2 is provided with an upright column 23, the reaction tower 2 absorbs sunlight reflected by a reflector, the upright column 23 enables a reaction place to absorb the sunlight at a high position, the bottom surface of the upright column 23 is fixedly connected to the ground, the top end of the reaction tower 2 is provided with a tower top 21, the reaction place is protected by the tower top 21, reaction glass 22 is arranged below the tower top 21 and is sealed to form the reaction place, a circle of reaction glass 22 is fixedly arranged below the tower top 21, the reaction glass 22 is dark-color glass, and the deep-color heat absorption enables energy to be more fully utilized;

the bottom end of the upright column 23 is provided with two connectors 8, the connectors 8 enable the guide pipe 6 to be fixedly arranged on each device, the connectors 8 penetrate through the reaction tube 24, the reaction tube 24 transmits molten salt, the reaction tube 24 extends upwards in the reaction tower, extends through the reaction glass 22 to be folded and extends downwards, and the reaction tube 24 extends out of the other connector 8; a guide pipe 6 is fixedly connected to the right side connecting port 8, the guide pipe 6 prevents the reaction pipe 24 from being damaged and transmits steam to a steam engine 9, one end, far away from the reaction tower 2, of the guide pipe 6 is fixedly connected to a hot-melt salt storage tank 3 through the connecting port 8, the hot-melt salt storage tank 3 stores hot molten salt, a piston pump 5 is arranged at the guide pipe 6 between the hot-melt salt storage tank 3 and the reaction tower 2, the piston pump 5 extracts the molten salt, one end, far away from the reaction tower, of the hot-melt salt storage tank 3 is fixedly connected to a cooler 7 through the connecting port 8, water is arranged inside the cooler 7, and the hot-melt salt can generate steam and provide kinetic energy for the steam engine 9;

the bottom end of the cooler 7 is fixedly connected with a collecting box 71, the collecting box 7 collects the cooled hot molten salt, the cooled hot molten salt can enter the circulating system, a supporting leg 72 is fixedly arranged at the bottom end of the collecting box 71, the supporting leg 72 enables the collecting box to be far away from the ground, and the supporting leg 72 is fixedly arranged on the ground.

The utility model discloses a use as follows: the technical personnel in the field will the utility model provides a piston pump 5, 1 external power supply of speculum and controller, when the sun shines on speculum 1, adjust the angle of speculum, let the sunlight reflect on reaction glass 22, make the refrigerated hot molten salt in the reaction tower 2, heat, hot molten salt after the heating is by piston pump 5 suction to hot molten salt holding vessel 3 in, reenter in the cooler 7, the hot molten salt in through the cooler 7 can let the water among the cooler 7 generate steam, steam passes through pipe 6 and generates electricity in getting into steam engine 9, refrigerated hot molten salt can get into and collect box 71, carry out next reaction in getting into cold molten salt holding vessel 4 through piston pump 5, reach the endless effect.

Embodiment 2, the utility model provides a novel fused salt energy storage heat transfer device, with embodiment 1 difference be:

the utility model discloses a collection box 71 is through connector 8 fixedly connected with pipe 6, the pipe 6 is kept away from the one end fixed connection of collection box 71 on cold molten salt holding vessel 4, cold molten salt holding vessel 4 stores refrigerated hot molten salt, let refrigerated hot molten salt can get into circulation system, pipe 6 between cold molten salt holding vessel 4 and the collection box 71 is equipped with piston pump 5, cold molten salt holding vessel 4 is through pipe 6 fixed connection on reaction tower 2, be equipped with piston pump 5 on the pipe 6 between reaction tower 2 and the cold molten salt holding vessel 4, the both ends of pipe 6 all are equipped with connector 8; the reaction tube 24 passes through the reaction tower 2, the hot molten salt storage tank 3, the cooler 7, the collecting box 71, the cold molten salt storage tank 4 and the conduit 6 between the above devices to form a circulation system, and the reaction tube 24 passes through the inside of the conduit 6.

Embodiment 3, the utility model provides a novel fused salt energy storage heat transfer device, with the embodiment 1 difference be:

the coolers 7 are arranged in a plurality of numbers, the coolers 7 are mutually connected, one end of each cooler 7, which is far away from the hot molten salt storage tank 3, is fixedly connected to a steam engine 9 through a connecting port 8, and the steam engine 9 is used for generating electricity.

Embodiment 4, the utility model provides a novel fused salt energy storage heat transfer device, with embodiment 1 difference be:

the surface fixed mounting of speculum 1 has honeycomb lens 11, and speculum 1 reflects solar energy, and honeycomb lens 11 lets solar energy can focus, lets light energy reach the effect of maximize, and honeycomb lens 11 comprises for the equipment of a plurality of polygon lenses, also can realize light energy make full use of's effect.

The above description is only a preferred embodiment of the present invention, and any person skilled in the art may modify the present invention or modify it into an equivalent technical solution by using the technical solutions described above. Therefore, any simple modifications or equivalent replacements made according to the technical solution of the present invention belong to the scope of the claimed invention as far as possible.

Claims (7)

1. The utility model provides a novel fused salt energy storage heat transfer device, includes speculum (1) and conversion equipment, its characterized in that: the fixed surface of speculum (1) installs honeycomb lens (11), honeycomb lens (11) constitute for a plurality of hexagon lens equipment, the both sides of speculum (1) are all rotated and are installed pivot (12), fix through connecting axle (16) between pivot (12), the center department of connecting axle (16) rotates and is connected with connecting block (15), the one end fixedly connected with support (13) of connecting axle (16) are kept away from in connecting block (15), the one end rotation of connecting block (15) is kept away from in support (13) is located at the center of base (14) top surface, the bottom surface fixed mounting of base (14) is subaerial, speculum (1) is equipped with a plurality ofly.

2. The novel molten salt energy storage and heat exchange device of claim 1, which is characterized in that: the conversion device is a device for converting and storing heat energy of molten salt, and comprises a reaction tower (2) and a cooler (7), wherein an upright column (23) is arranged at the bottom end of the reaction tower (2), the bottom surface of the upright column (23) is fixedly connected to the ground, a tower top (21) is arranged at the top end of the reaction tower (2), reaction glass (22) is arranged below the tower top (21), a circle of reaction glass (22) is fixedly arranged below the tower top (21), and the reaction glass (22) is dark-colored glass.

3. The novel molten salt energy storage and heat exchange device of claim 2, which is characterized in that: the bottom of stand (23) is equipped with two connector (8), pass reaction tube (24) in connector (8), reaction tube (24) upwards extend through reaction glass (22) in the reaction tower inside and turn over and extend downwards, reaction tube (24) stretch out from another connector (8).

4. The novel molten salt energy storage and heat exchange device of claim 3, which is characterized in that: the right side connector (8) department fixedly connected with pipe (6), the one end that reaction tower (2) were kept away from in pipe (6) passes through connector (8) fixed connection on hot molten salt holding vessel (3), pipe (6) department between hot molten salt holding vessel (3) and reaction tower (2) is equipped with piston pump (5), the one end that reaction tower was kept away from in hot molten salt holding vessel (3) passes through connector (8) fixed connection on cooler (7).

5. The novel molten salt energy storage and heat exchange device of claim 2, which is characterized in that: the bottom fixedly connected with of cooler (7) collects box (71), the bottom fixed mounting who collects box (71) has stabilizer blade (72), stabilizer blade (72) fixed mounting is subaerial, cooler (7) are equipped with a plurality ofly and every cooler (7) homogeneous phase interconnect, the one end that hot melt salt holding vessel (3) was kept away from in cooler (7) is passed through connector (8) fixed connection on steam engine (9).

6. The novel molten salt energy storage and heat exchange device of claim 5, which is characterized in that: collect box (71) through connector (8) fixedly connected with pipe (6), pipe (6) are kept away from the one end fixed connection who collects box (71) and are on cold molten salt holding vessel (4), cold molten salt holding vessel (4) and pipe (6) of collecting between box (71) are equipped with piston pump (5), cold molten salt holding vessel (4) are through pipe (6) fixed connection on reaction tower (2), be equipped with piston pump (5) on pipe (6) between reaction tower (2) and the cold molten salt holding vessel (4), the both ends of pipe (6) all are equipped with connector (8).

7. The novel molten salt energy storage and heat exchange device of claim 3, which is characterized in that: the reaction tube (24) enters the reaction tower (2), the hot molten salt storage tank (3), the cooler (7), the collecting box (71), the cold molten salt storage tank (4) and a guide tube (6) among the devices to form a circulating system, and the reaction tube (24) passes through the inside of the guide tube (6).

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