CN204177258U - Accumulation of energy assembly and energy-accumulating element thereof - Google Patents

Abstract

The utility model discloses a kind of accumulation of energy assembly and energy-accumulating element thereof, and this energy-accumulating element comprises a cylinder, and cylinder inside is axially provided with a passage, and cylinder includes an energy storage material.By this, energy-accumulating element is cylinder, makes the external form of energy-accumulating element have the advantage of low flow resistance, makes air-flow more smooth and easy and quickly flow across energy-accumulating element.The utility model also discloses a kind of accumulation of energy assembly, comprising: a fixture; And at least one above-mentioned energy-accumulating element, this energy-accumulating element can be connected to this fixture by assemble or disassemble.

Description

Accumulation of energy assembly and energy-accumulating element thereof

Technical field

The utility model relates to the energy-accumulating element of a kind of cold-storage or accumulation of heat, particularly relates to a kind of accumulation of energy assembly and energy-accumulating element thereof.

Background technology

Generally when summer or daytime temperature high indoor, can use discharge cold wind air conditioner or thermantidote to reduce temperature, and when winter or lower indoor of temperature at night, also can use the warming machine of discharge hot blast or Hot-air fan to promote temperature.No matter discharge the airflow apparatus such as cold wind or warm braw, it starts and running, all necessary a large amount of power drain energy, and the major part period belongs to Peak power use.

Today develops a kind of energy storage material on the market, this energy storage material can between electricity consumption low peak period storage power in advance, airflow apparatus is opened during being peak of power consumption, allow airflow apparatus and energy storage material with the use of, and promote indoor temperature or reduce indoor temperature, to reach effect that peak load shifting reduces Peak power use, improves energy use efficiency, saves the electricity charge.

The corresponding airflow apparatus configuration of energy storage material, the hot and cold amount of energy storage material is also passed to air-flow by the air flow contacts energy storage material that airflow apparatus is produced, and air-flow flows in indoor environment again, to improve or to reduce the temperature of indoor environment.How allowing energy storage material have effect of low flow resistance, flow through energy storage material with making airflow smooth, is that one of effect possessed needed badly by energy storage material.

Utility model content

An object of the present utility model, is to provide a kind of accumulation of energy assembly and energy-accumulating element thereof, and it utilizes energy-accumulating element for cylinder, makes the external form of energy-accumulating element have the advantage of low flow resistance, make air-flow more smooth and easy and quickly flow across energy-accumulating element.

For reaching above-mentioned purpose, the utility model provides a kind of energy-accumulating element, and it comprises:

One cylinder, inside is axially provided with a passage, this cylinder by multiple arc block each other ring to establish and mutually group connects and formed, this cylinder includes an energy storage material.

Above-mentioned energy-accumulating element, wherein this passage is a circular channel.

Above-mentioned energy-accumulating element, wherein the outer peripheral edge of this cylinder offers at least one ring shaped slot along all circular directions.

Above-mentioned energy-accumulating element, wherein this cylinder outer peripheral edge is provided with at least one pair of through hole of relative configuration.

Above-mentioned energy-accumulating element, wherein the side of each this arc block has at least one protuberance, and opposite side has at least one recess, this recess engaging of this protuberance another this arc block corresponding of each this arc block.

Above-mentioned energy-accumulating element, wherein each this arc block comprises an arc shell, and this energy storage material is filled in the inside of this arc shell.

For reaching above-mentioned purpose, the utility model also provides a kind of accumulation of energy assembly, and it comprises:

One fixture; And

At least one above-mentioned energy-accumulating element, this energy-accumulating element can be connected to this fixture by assemble or disassemble.

Above-mentioned accumulation of energy assembly, wherein the quantity of fixture and energy-accumulating element is respectively multiple, the arrangement alongside one another of the plurality of fixture, the plurality of energy-accumulating element is by respectively this fixture arrangement concatenated with one another, and make the plurality of energy-accumulating element stacked and arranged in parallel mutually, wherein the plurality of energy-accumulating element abut against each other together and between form a flow channel.

The utility model also has following effect:

The first, utilize the quantity of heat storage of energy storage material large, cylinder is made to continue to lower the temperature to the air-flow flowed through or heat up, allow energy-accumulating element can in electricity consumption offpeak period storage power in advance, use in the peak of power consumption period again, and then reach effect that peak load shifting reduces Peak power use, raising energy use efficiency, the saving electricity charge.

The second, energy-accumulating element is cylinder, and cylinder inside is provided with circular channel, makes the external form of energy-accumulating element have the advantage of low flow resistance, and then reduces self flow resistance, makes the air flow rate that flows through and wind velocity lift.

Three, the external form of cylinder has more the feature of low flow resistance, flows through energy-accumulating element with allowing airflow smooth, and keeps certain contact area with energy-accumulating element, and then the heat trnasfer reached between energy-accumulating element and air-flow has best efficiency.

Four, when cylinder loses the effect freezed or heat, only need substitute the cylinder in accumulation of energy assembly, to allow the fast quick-recovery refrigeration of accumulation of energy assembly or heating capacity, and reach the good temperature control regulating effect of maintenance.

Five, tandem and left and right are arranged side by side each cylinder each other, or self arranged in parallel of each cylinder, its arrangement mode is also because of the external form of cylinder and position relation and have low flow resistance toward each other, and four cylinders are close together, the flow channel formed also has low flow resistance characteristic, makes air-flow more smooth and easy and quickly flows across energy-accumulating element.

Below in conjunction with the drawings and specific embodiments, the utility model is described in detail, but not as to restriction of the present utility model.

Accompanying drawing explanation

The three-dimensional exploded view of Fig. 1 the utility model energy-accumulating element first embodiment;

First using state schematic diagram of Fig. 2 the utility model energy-accumulating element first embodiment;

Second using state schematic diagram of Fig. 3 the utility model energy-accumulating element first embodiment;

The using state schematic diagram of Fig. 4 the utility model energy-accumulating element second embodiment;

The using state schematic diagram of Fig. 5 the utility model energy-accumulating element the 3rd embodiment;

The three-dimensional exploded view of Fig. 6 the utility model energy-accumulating element the 4th embodiment;

The three-dimensional exploded view of Fig. 7 the utility model accumulation of energy assembly;

The assembled sectional view of Fig. 8 the utility model accumulation of energy assembly;

The using state schematic diagram of Fig. 9 the utility model accumulation of energy assembly;

The assembled sectional view of another embodiment of Figure 10 the utility model accumulation of energy assembly.

Wherein, Reference numeral

10 ... energy-accumulating element

1 ... cylinder

11 ... circular channel

11 ' ... passage

12 ... arc block

121 ... protuberance

122 ... recess

13 ... energy storage material

14 ... through hole

15 ... ring shaped slot

16 ... arc shell

17 ... barrel shrond

2 ... framework

21 ... accommodation space

3 ... accumulation of energy assembly

30 ... fixture

31 ... suspender member

311 ... hook part

32 ... peg

33 ... lanyard

40 ... flow channel

200 ... airflow apparatus

201 ... air-flow

Detailed description of the invention

Relevant detailed description of the present utility model and technology contents, be described as follows cooperation accompanying drawing, but appended accompanying drawing is only as illustrative purposes, not for limiting to the utility model.

Please refer to shown in Fig. 1 to Figure 10, the utility model provides a kind of accumulation of energy assembly and energy-accumulating element, and this energy-accumulating element 10 mainly comprises a cylinder 1.

As shown in Figure 1 to Figure 3, first embodiment of the utility model energy-accumulating element 10, cylinder 1 inside is axially provided with a passage 11 ', passage 11 ' can be other geometric modelings such as circle, triangle, square, polygonal, but the most preferred embodiment of passage 11 ' is a circular channel 11, be filled with an energy storage material 13 in cylinder 1, cylinder 1 by multiple arc block 12 each other ring to establish and mutually group connects and formed.In addition, the side of each arc block 12 has one or more protuberance 121, opposite side has one or more recess 122, and the recess 122 of the protuberance 121 of each arc block 12 another arc block 12 corresponding engages, and make each arc block 12 each other ring to establish and group is connected into cylinder 1 mutually.

Be described in detail as follows, each arc block 12 comprises an arc shell 16, and energy storage material 13 is filled in the inside of arc shell 16.Wherein, circular channel 11 is formed in the centre of arc shell 16 and axially offers, and protuberance 121 is formed in the side of arc shell 16, and recess 122 is formed in the opposite side of arc shell 16.

In addition, the quantity of cylinder 1 is multiple, and as shown in Figure 2, each cylinder 1 can be laminated to each other arrangement and for follow-up, or as shown in Figure 3, each cylinder 1 can arrangement alongside one another and for follow-up.

The combination of the utility model energy-accumulating element 10 utilizes cylinder 1 inside to be axially provided with passage 11 '.By this, because energy-accumulating element 10 is cylinder 1, and the most preferred embodiment of passage 11 ' is circular channel 11, makes the external form of energy-accumulating element 10 have the advantage of low flow resistance, makes air-flow more smooth and easy and quickly flows across energy-accumulating element 10.

As shown in Figure 4, second embodiment of the utility model energy-accumulating element 10, second embodiment is roughly the same with the first embodiment, but the second embodiment and the first embodiment difference are, cylinder 1 outer peripheral edge of the second embodiment is provided with one or multipair through hole 14 of relative configuration.

Be described in detail as follows, one fixture 30 is provided, this fixture 30 is a suspender member 31, suspender member 31 is peg 32 or a lanyard, suspender member 31 can wear into through hole 14, make cylinder 1 be sheathed on suspender member 31 by through hole 14, allow multiple cylinder 1 be serially connected on suspender member 31 in stacked arrangement mode, and then for follow-up accumulation of energy assembly.By this, function and effect of identical first embodiment is achieved in.

As shown in Figure 5,3rd embodiment of the utility model energy-accumulating element 10,3rd embodiment is roughly the same with the first embodiment, but the 3rd embodiment and the first embodiment difference are, the outer peripheral edge of the cylinder 1 of the 3rd embodiment offers one or more ring shaped slot 15 along all circular directions.

Be described in detail as follows, one fixture 30 is provided, fixture 30 is a suspender member 31, suspender member 31 is a lanyard 33, lanyard 33 is first bent into U-shaped and lays and corresponding ring shaped slot 15 embeds along ring shaped slot 15, make cylinder 1 be positioned lanyard 33 by ring shaped slot 15, allow multiple cylinder 1 be serially connected in lanyard 33 in stacked arrangement mode, and then for follow-up accumulation of energy assembly.By this, function and effect of identical first embodiment is achieved in.

As shown in Figure 6,4th embodiment of the utility model energy-accumulating element 10,4th embodiment is roughly the same with the first embodiment, but the 4th embodiment and the first embodiment difference are, the cylinder 1 of the 4th embodiment comprises a barrel shrond 17, and energy storage material 13 is filled in the inside of barrel shrond 17.

In addition, the 4th embodiment also can be same as the second embodiment, and its cylinder 1 outer peripheral edge is provided with one or the multipair through hole (figure does not indicate) of relative configuration.By this, function and effect of identical second embodiment is achieved in.

Again, the 4th embodiment also can be same as the 3rd embodiment, and the outer peripheral edge of its cylinder 1 offers one or more ring shaped slot (figure does not indicate) along all circular directions.By this, function and effect of identical 3rd embodiment is achieved in.

Be described in detail as follows, circular channel 11 is formed in the centre of barrel shrond 17 and axially offers.By this, function and effect of identical first embodiment is achieved in.

As shown in Figure 7 to 10, the utility model accumulation of energy assembly 3, it is for airflow apparatus 200 and framework 2, and airflow apparatus 200 can produce an air-flow 201, and this accumulation of energy assembly 3 comprises a fixture 30 and one or more energy-accumulating element 10.Wherein, illustrate the 4th embodiment for energy-accumulating element 10, but also can other embodiments of energy-accumulating element 10 replace.

Energy-accumulating element 10 can be connected to fixture 30 by assemble or disassemble, be described in detail as follows, the fixture 30 of the present embodiment and the quantity of energy-accumulating element 10 are multiple, the arrangement alongside one another of each fixture 30, multiple energy-accumulating element 10 is by the arrangement concatenated with one another of each fixture 30, and make each energy-accumulating element 10 stacked and arranged in parallel mutually, wherein four energy-accumulating elements 10 abut against each other together and between form a flow channel 40.

Framework 2 has an accommodation space 21, and the corresponding accommodation space 21 of airflow apparatus 200 configures, and fixture 30 can be fixed in accommodation space 21, and the air-flow 201 allowing airflow apparatus 200 produce flows through energy-accumulating element 10.Wherein, fixture 30 can be a suspender member 31, and this suspender member 31 end has a hook part 311, and suspender member 31 hang on framework 2 by hook part 311.The combination of the utility model accumulation of energy assembly 3, as shown in Figure 7 to 9, it utilizes energy-accumulating element 10 can be connected to fixture 30 by assemble or disassemble.By this, because energy-accumulating element 10 is cylinder 1, and cylinder 1 inside is provided with circular channel 11, the external form of energy-accumulating element 10 is made to have the advantage of low flow resistance, and then reduce self flow resistance, make the air flow rate that flows through and wind velocity lift, make air-flow 201 more smooth and easy and quickly flow across energy-accumulating element 10.

The using state of the utility model accumulation of energy assembly 3 and energy-accumulating element 10, as shown in Figure 9, airflow apparatus 200 all can produce an air-flow 201 under starting, and makes air-flow 201 flow through accommodation space 21; First, by cylinder 1 in electricity consumption offpeak period (as night) condensation in advance or heating, again cylinder 1 is placed in accommodation space 21, cylinder 1 continues lower the temperature to the air-flow 201 flowed through or heat up, allow energy-accumulating element 10 can in electricity consumption offpeak period (as night) storage power in advance, use in the peak of power consumption period again, and then reach effect that peak load shifting reduces Peak power use, raising energy use efficiency, the saving electricity charge.

In addition, energy-accumulating element 10 is cylinder 1, and cylinder 1 inside is provided with circular channel 11, makes the external form of energy-accumulating element 10 have the advantage of low flow resistance, simultaneously, as shown in Figure 7 to 9, because the fixture 30 of the present embodiment and the quantity of energy-accumulating element 10 are multiple, the arrangement alongside one another of each fixture 30, multiple energy-accumulating element 10 is by the arrangement concatenated with one another of each fixture 30, and make each energy-accumulating element 10 mutually up and down and left and right is stacked and front and back arranged in parallel, its arrangement mode is also because of the external form of cylinder and position relation and have low flow resistance toward each other, again wherein four energy-accumulating elements 10 abut against each other together and between form a flow channel 40, this flow channel 40 also has low flow resistance characteristic, make air-flow 201 more smooth and easy and quickly flow across energy-accumulating element 10, to increase the efficiency of accumulation of energy assembly 3.

Moreover, as shown in Figure 10, the fixture 30 of the present embodiment and the quantity of energy-accumulating element 10 can be one, single energy-accumulating element 10 is fixed in accommodation space 21, because energy-accumulating element 10 is cylinder 1, and cylinder 1 inside is provided with circular channel 11, the external form of single energy-accumulating element 10 is made also to have the feature of low flow resistance.Wherein, illustrate the 4th embodiment for energy-accumulating element 10, but also can other embodiments of energy-accumulating element 10 replace.

In addition, shown in figure 4, cylinder 1 outer peripheral edge is provided with the through hole 14 of relative configuration, or with reference to shown in figure 5, the outer peripheral edge of cylinder 1 offers ring shaped slot 15 along all circular directions, to facilitate cylinder 1 quantity on adjustment suspender member 31, the quantity of cylinder 1 can be changed, namely the visual service condition of accumulation of energy assembly 3 is allowed to increase or reduce the quantity of energy-accumulating element 10, to promote the ease of use of accumulation of energy assembly 3 and energy-accumulating element 10.

Finally, suspender member 31 end has hook part 311, and hook part 311 corresponding can hang framework 2 and hang, even if suspender member 31 can rapid-assembling or dismantle in framework 2, with the use of convenient accumulation of energy assembly 3.

Certainly; the utility model also can have other various embodiments; when not deviating from the utility model spirit and essence thereof; those of ordinary skill in the art are when making various corresponding change and distortion according to the utility model, but these change accordingly and are out of shape the protection domain that all should belong to the claim appended by the utility model.

Claims (8)

1. an energy-accumulating element, is characterized in that, comprising:

One cylinder, inside is axially provided with a passage, this cylinder by multiple arc block each other ring to establish and mutually group connects and formed, this cylinder includes an energy storage material.

2. energy-accumulating element according to claim 1, is characterized in that, this passage is a circular channel.

3. energy-accumulating element according to claim 1, is characterized in that, the outer peripheral edge of this cylinder offers at least one ring shaped slot along all circular directions.

4. energy-accumulating element according to claim 1, is characterized in that, this cylinder outer peripheral edge is provided with at least one pair of through hole of relative configuration.

5. energy-accumulating element according to claim 1, is characterized in that, the side of each this arc block has at least one protuberance, and opposite side has at least one recess, this recess engaging of this protuberance another this arc block corresponding of each this arc block.

6. energy-accumulating element according to claim 1, is characterized in that, each this arc block comprises an arc shell, and this energy storage material is filled in the inside of this arc shell.

7. an accumulation of energy assembly, is characterized in that, comprising:

One fixture; And

At least one energy-accumulating element as described in claim 1 to 6 any one, this energy-accumulating element can be connected to this fixture by assemble or disassemble.

8. accumulation of energy assembly according to claim 7, it is characterized in that, the quantity of fixture and energy-accumulating element is respectively multiple, the arrangement alongside one another of the plurality of fixture, the plurality of energy-accumulating element is by respectively this fixture arrangement concatenated with one another, and make the plurality of energy-accumulating element stacked and arranged in parallel mutually, wherein the plurality of energy-accumulating element abut against each other together and between form a flow channel.