CN203615800U - Temperature adjustment module structure - Google Patents

Abstract

The utility model discloses a temperature adjusting module structure which is used for an airflow device. The temperature adjusting module structure comprises a body and at least one energy storage assembly. The body is provided with an accommodating space, a first air port and second air ports, wherein the first air port and the second air ports are communicated with the accommodating space. The airflow device is arranged corresponding to the first air port. The energy storage assembly comprises a fixing part and at least one energy storage element. The fixing part can be detachably connected to a frame to enable the energy storage assembly to be accommodated in the accommodating space. Thus, the number of the energy storage assemblies can be increased or decreased in a group mode, so that the temperature adjusting module structure has the advantage that the number of the energy storage elements can be conveniently adjusted.

Description

Temperature-regulating module structure

Technical field

The utility model relates to the temperature-regulating module structure of a kind of cold-storage or accumulation of heat, relates in particular to a kind of temperature-regulating module structure.

Background technology

Generally in the time of summer or high indoor of daytime temperature, can use and discharge the air conditioner of cold wind or thermantidote to reduce temperature, and in the time of winter or lower indoor of temperature at night, also can use and discharge the warming machine of hot blast or Hot-air fan to promote temperature.No matter discharge the airflow apparatus such as cold wind or warm braw, most of startup period is all in peak of power consumption.

Develop a kind of register today, this register is provided with energy storage material, this energy storage material can be between electricity consumption low peak period storage power in advance, be to open airflow apparatus during peak of power consumption, allow airflow apparatus and energy storage material be used in conjunction with, make register there is effect of blowing cold air or hot blast, and by adjust energy storage material number, determine the power of cold or heat, to realize the effect of temperature adjustment.

The corresponding airflow apparatus configuration of register, the air-flow contact energy storage material that airflow apparatus is produced, be cooled or heat after air-flow flow in indoor environment, improve or reduce the temperature of indoor environment with this.Therefore, how allowing register depending on the quantity of increase in demand or the energy storage material that successively decreases, make indoor temperature reach preset value, is that register is needed one of effect possessing badly.

Utility model content

An object of the present utility model, is to provide a kind of temperature-regulating module structure, and it is to utilize accumulation of energy assembly to increase or to reduce quantity with burst mode, and then reaches temperature-regulating module structure and have convenient effect of adjusting energy-accumulating element quantity.

For reaching above-mentioned purpose, the utility model provides a kind of temperature-regulating module structure, and for an airflow apparatus, this temperature-regulating module comprises:

One body, has an accommodation space and is provided with one first air port and one second air port that are communicated with this accommodation space, and described airflow apparatus is to configuring in the first air port; And

At least one accumulation of energy assembly, is placed in this accommodation space, and this accumulation of energy assembly comprises:

One fixture; And

At least one energy-accumulating element, this energy-accumulating element can be connected in this fixture by assemble or disassemble, and this fixture can be connected in this framework by assemble or disassemble.

Above-mentioned temperature-regulating module structure, wherein this fixture is a suspender member, and this suspender member end has a hook part, and this suspender member hang on this body by this hook part.

Above-mentioned temperature-regulating module structure, wherein the energy-accumulating element quantity of each this accumulation of energy assembly is multiple, the plurality of energy-accumulating element be sequentially connected in series and stacked arrangement on this suspender member.

Above-mentioned temperature-regulating module structure, wherein this suspender member is a peg, and this energy-accumulating element is provided with a through hole, and this energy-accumulating element is socketed on this suspension rod by this through hole.

Above-mentioned temperature-regulating module structure, wherein this suspender member is a lanyard, and this energy-accumulating element is provided with a through hole, and this energy-accumulating element is socketed on this lanyard by this through hole.

Above-mentioned temperature-regulating module structure, wherein this suspender member is a U-shaped lanyard, and the outer peripheral edges of this energy-accumulating element offer a ring shaped slot, and this U-shaped lanyard is to should ring shaped slot chimeric, and makes this energy-accumulating element be positioned on this U-shaped lanyard.

Above-mentioned temperature-regulating module structure, wherein this suspender member is a mesh bag, this energy-accumulating element is placed in this mesh bag.

Above-mentioned temperature-regulating module structure, wherein this energy-accumulating element is a spherical pieces, a circular block, a cylindricality piece, a square type piece, a gore, a circular rings piece, a square type ring piece or a triangle ring piece.

Above-mentioned temperature-regulating module structure, wherein this body is a framework, and this framework has at least one portion that hangs, and this suspender member can assemble or disassemble hang on this by this hook part and hangs portion.

Above-mentioned temperature-regulating module structure, wherein this framework has a top that is configured in this accommodation space top, and this hangs portion to configuring at top.

Above-mentioned temperature-regulating module structure, the quantity that wherein hangs portion and accumulation of energy assembly is multiple, those hang portion and are arranged in this top towards this second air port direction in spacing parallel arranging mode from this first air port, and make the plurality of accumulation of energy assembly be arranged in this accommodation space in spacing parallel arranging mode.

Above-mentioned temperature-regulating module structure, wherein this framework more comprises at least one cover plate, and this top is provided with and is communicated with at least one transmission groove of this accommodation space, and this cover plate is to should transmission groove cover cap, and this portion of hanging is formed on the bottom of this cover plate.

Above-mentioned temperature-regulating module structure, the quantity that wherein hangs portion, accumulation of energy assembly, transmission groove and cover plate is respectively multiple, the plurality of transmission groove is arranged in this top towards this second air port direction in spacing parallel arranging mode from this first air port, and makes the plurality of accumulation of energy assembly be arranged in this accommodation space in spacing parallel arranging mode.

Above-mentioned temperature-regulating module structure, wherein said airflow apparatus is fixed in this framework, and this framework is provided with one the 3rd air port of corresponding described airflow apparatus configuration.

Above-mentioned temperature-regulating module structure, wherein this first air port and this second air port are respectively formed at the corresponding two ends of this body.

The utility model also has following effect:

The first, utilize the quantity of heat storage of energy storage material large, make energy-accumulating element continue the air-flow of flowing through lower the temperature or heat up, allow the energy-accumulating element can be in electricity consumption ebb period storage power in advance, use in the peak of power consumption period again, and then reach effect that peak load shifting reduces peak electricity consumption, raising energy use efficiency, saves the electricity charge.

The second, the number of the arrangement of each accumulation of energy assembly can optionally increase or reduce with burst mode, make the temperature adjustment ability of temperature-regulating module structure have weak, in, strong effect, and then allow the gas flow temperature that flows out also have weak, in, strong effect.

Three, energy-accumulating element can rapid-assembling or is dismantled in suspender member, to facilitate the replacing of energy-accumulating element.

Four, the energy-accumulating element quantity of each accumulation of energy assembly is multiple, each energy-accumulating element be sequentially connected in series and stacked arrangement on suspender member, each accumulation of energy assembly also can be arranged side by side, make single accumulation of energy assembly can optionally adjust the quantity of energy-accumulating element, allow single accumulation of energy assembly have weak, in, strong thermoregulation effect, or accumulation of energy assembly in groups can optionally adjust quantity arranged side by side, allow temperature-regulating module structure have weak, in, strong thermoregulation effect.

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 combination figure of Fig. 1 the utility model accumulation of energy assembly the first embodiment;

The three-dimensional exploded view of Fig. 2 the utility model temperature-regulating module structure the first embodiment;

The three-dimensional combination figure of Fig. 3 the utility model temperature-regulating module structure the first embodiment;

The cross-sectional schematic of Fig. 4 the utility model temperature-regulating module structure the first embodiment;

Another cross-sectional schematic of Fig. 5 the utility model temperature-regulating module structure the first embodiment;

The another cross-sectional schematic of Fig. 6 the utility model temperature-regulating module structure the first embodiment;

The cross-sectional schematic of Fig. 7 the utility model temperature-regulating module structure the second embodiment;

The use view of Fig. 8 the utility model accumulation of energy assembly the second embodiment;

The three-dimensional combination figure of Fig. 9 the utility model accumulation of energy assembly the 3rd embodiment;

The three-dimensional combination figure of Figure 10 the utility model accumulation of energy assembly the 4th embodiment;

The three-dimensional combination figure of Figure 11 the utility model accumulation of energy assembly the 5th embodiment;

The three-dimensional combination figure of Figure 12 the utility model accumulation of energy assembly the 6th embodiment;

The use view of Figure 13 the utility model accumulation of energy assembly the 6th embodiment;

Another of Figure 14 the utility model accumulation of energy assembly the 6th embodiment uses view.

Wherein, Reference numeral

100 ... airflow apparatus

101 ... air-flow

10 ... temperature-regulating module structure

1 ... body

11 ... accommodation space

12 ... the first air port

13 ... the second air port

14 ... top

141 ... transmission groove

15 ... hang portion

16 ... cover plate

161 ... bottom

17 ... the 3rd air port

2 ... accumulation of energy assembly

20 ... fixture

21 ... suspender member

211 ... hook part

212 ... peg

213 ... lanyard

214 ... U-shaped lanyard

215 ... mesh bag

22 ... energy-accumulating element

221 ... through hole

222 ... ring shaped slot

3 ... framework

The specific embodiment

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 Fig. 6, the utility model provides a kind of the first embodiment of temperature-regulating module structure, for an airflow apparatus 100, airflow apparatus 100 can produce an air-flow 101, and this temperature-regulating module structure 10 mainly comprises a body 1 and one or more accumulation of energy assembly 2.

Airflow apparatus 100 is take fan as example, and this fan can be an extraction fan or a blower fan.

As shown in Figures 2 to 5, body 1 has an accommodation space 11 and is provided with one first air port 12 and one second air port 13 that are communicated with accommodation space 11, and corresponding the first air port 12 of airflow apparatus 100 configures.Wherein, the first air port 12 and the second air port 13 are respectively formed at the corresponding two ends of body 1.

In addition, the present embodiment body 1 is a framework 3, but does not put as limit, and framework 3 has a top 14 that is configured in accommodation space 11 tops, and top 14 has one or more and hangs portion 15.

Further illustrate as follows, framework 3 more comprises one or more cover plate 16, and top 14 is provided with one or more transmission groove 141 that is communicated with accommodation space 11, corresponding each transmission groove 141 cover caps of each cover plate 16, and respectively hang portion 15 and be formed on the bottom 161 of each cover plate 16.

In addition, airflow apparatus 100 can be separated from each other with framework 3, and airflow apparatus 100 also can be fixed in framework 3, makes framework 3 relative wind devices 100 can be fixed framework or portable framework; Wherein, the present embodiment discloses airflow apparatus 100 and is fixed in framework 3, and framework 3 is provided with one the 3rd air port 17 that corresponding airflow apparatus 100 configures, but not as restriction, its visual actual conditions are adjusted voluntarily.

As shown in Figure 1, accumulation of energy assembly 2 comprises a fixture 20 and one or more energy-accumulating element 22, energy-accumulating element 22 can be connected in fixture 20 by assemble or disassemble, fixture 20 can be connected in framework 3 by assemble or disassemble, and make accumulation of energy assembly 2 be placed in accommodation space 11, the most preferred embodiment of this fixture 20 is a suspender member 21, but not as restriction, suspender member 21 can hang on the portion of hanging 15 by assemble or disassemble.

Wherein, in energy-accumulating element 22, cold-storage or heat-storing material are housed; In addition, energy-accumulating element 22 can be the geometry blocks such as a spherical pieces, a circular block, a cylindricality piece, a square type piece, a gore, a circular rings piece, a square type ring piece or a triangle ring piece, and therefore the external form of energy-accumulating element 22 is not limited by the present embodiment.

Moreover suspender member 21 ends have a hook part 211, hook part 211 can correspondence hangs portion 15 and hangs, even if suspender member 21 can be assembled or dismantle in hanging portion 15 by hook part 211.Wherein, the external form of hook part 211 is also not limited to hook font, and its visual demand is adjusted external form voluntarily.

Again, suspender member 21 is a peg 212, and energy-accumulating element 22 is provided with a through hole 221, and energy-accumulating element 22 is sheathed and be fixed in suspension rod 212 by through hole 221, even if energy-accumulating element 22 can be assembled or dismantle in suspender member 21.

The quantity that hangs portion 15 and accumulation of energy assembly 2 is multiple, respectively hangs portion 15 and is arranged in top 14 towards the second air port 13 directions in spacing parallel arranging mode from the first air port 12, and make each accumulation of energy assembly 2 be arranged in accommodation space 11 in spacing parallel arranging mode.

Be described in detail as follows, the quantity that hangs portion 15, accumulation of energy assembly 2, transmission groove 141 and cover plate 16 is multiple, each transmission groove 141 is arranged in top 14 towards the second air port 13 directions in spacing parallel arranging mode from the first air port 12, and makes each accumulation of energy assembly 2 be arranged in accommodation space 11 in spacing parallel arranging mode.

The combination of the utility model accumulation of energy assembly 2, as shown in Figure 1, it is to utilize energy-accumulating element 22 to be connected in fixture 20 by assemble or disassemble.By this, accumulation of energy assembly 2 can increase or reduce quantity with burst mode, and then the convenient quantity of once adjusting multiple energy-accumulating elements.

The combination of the utility model temperature-regulating module structure 10, as shown in Figures 2 to 5, it is utilize body 1 to have accommodation space 11 and be provided with the first air port 12 and the second air port 13 that are communicated with accommodation space 11, corresponding the first air port 12 of airflow apparatus 100 configures; Accumulation of energy assembly 2 is placed in accommodation space 11, and accumulation of energy assembly 2 comprises fixture 20 and energy-accumulating element 22, and energy-accumulating element 22 can be connected in fixture 20 by assemble or disassemble, and fixture 20 can be connected in framework 3 by assemble or disassemble.By this, accumulation of energy assembly 2 can increase or reduce quantity with burst mode, and then reaches temperature-regulating module structure 10 and have convenient effect of adjusting energy-accumulating element 22 quantity.

The use state of the utility model temperature-regulating module structure 10 and accumulation of energy assembly 2, as shown in Figures 4 to 6, no matter fan can be extraction fan or blower fan, when airflow apparatus 100 starts, all can produce an air-flow 101, make air-flow 101 forward sequentially or oppositely sequentially flow through the first air port 12, accommodation space 11 and the second air port 13; First, energy-accumulating element 22 freezed in advance or heated in the electricity consumption ebb period (as night), then energy-accumulating element 22 is placed in accommodation space 21, making energy-accumulating element 22 continue the air-flow 101 of flowing through lower the temperature or heat up.Energy-accumulating element 22, in electricity consumption ebb period (as night) storage power in advance, is the use of peak of power consumption period, and then reaches effect that peak load shifting reduces peak electricity consumption, raising energy use efficiency, saves the electricity charge.

In addition, as shown in Figure 6, the quantity that hangs portion 15, accumulation of energy assembly 2, transmission groove 141 and cover plate 16 is multiple, each transmission groove 141 is arranged in top 14 towards the second air port 13 directions in spacing parallel arranging mode from the first air port 12, corresponding each transmission groove 141 cover caps of each cover plate 16, and respectively hang portion 15 and be formed on the bottom 161 of each cover plate 16, accumulation of energy assembly 2 is placed in accommodation space 11, energy-accumulating element 22 can be connected in suspender member 21 by assemble or disassemble, suspender member 21 can hang on the portion of hanging 15 by assemble or disassemble, and makes each accumulation of energy assembly 2 be arranged in accommodation space 11 in spacing parallel arranging mode.By this, each group accumulation of energy assembly 2 front and back correspondences and side by side arrangement each other, make the number of the arrangement of each accumulation of energy assembly 2 optionally increase or to reduce with burst mode, make the temperature adjustment ability of temperature-regulating module structure 10 have weak, in, strong effect, and then allow air-flow 101 temperature that flow out also have weak, in, strong effect.

Again, accumulation of energy assembly 2 hang on cover plate 16, to facilitate the replacing of accumulation of energy assembly 2, when energy-accumulating element 22 recovers normal temperature, only extract to replace accumulation of energy assembly 2 out energy-accumulating element 22, can allow the fast quick-recovery unit of temperature-regulating module structure 10 continue blowing cold air or hot blast ability.

In addition, suspender member 21 ends have hook part 211, and hook part 211 can correspondence hangs portion 15 and hangs, even if suspender member 21 can rapid-assembling or dismantled in hanging portion 15, with the use of convenient accumulation of energy assembly 2.

And suspender member 21 is peg 212, energy-accumulating element 22 is provided with through hole 221, and energy-accumulating element 22 is sheathed and be fixed in suspension rod 212 by through hole 221, though energy-accumulating element 22 can rapid-assembling or dismantles in suspender member 21, to facilitate the replacing of energy-accumulating element 22.

Please refer to shown in Fig. 7, the utility model temperature-regulating module structure the second embodiment, temperature-regulating module structure 10 second embodiment and the first embodiment are roughly the same, but temperature-regulating module structure 10 second embodiment and the first embodiment difference be, airflow apparatus 100 is fixed on the rear of framework 3.

But the utility model airflow apparatus 100 can be fixed on front or the rear of framework 3, the position of airflow apparatus 100 does not affect effect and effect of temperature-regulating module structure 10 and accumulation of energy assembly 2 simultaneously.

Please refer to shown in Fig. 8 to Fig. 9, the utility model accumulation of energy assembly the second to three embodiment, accumulation of energy assembly 2 second to three embodiment and the first embodiment are roughly the same, but accumulation of energy assembly 2 second to three embodiment and the first embodiment difference be, the external form difference of energy-accumulating element 22.

But, energy-accumulating element 22 can be the geometry blocks such as a spherical pieces, a circular block, a cylindricality piece, a square type piece, a gore, a circular rings piece, a square type ring piece or a triangle ring piece, and therefore the external form of energy-accumulating element 22 is not limited by above-described embodiment.

In addition, energy-accumulating element 22 quantity of each accumulation of energy assembly 2 are multiple, each energy-accumulating element 22 be sequentially connected in series and stacked arrangement on suspender member 21, makes single accumulation of energy assembly 2 can optionally adjust the quantity of energy-accumulating element 22, allow single accumulation of energy assembly 2 have weak, in, strong thermoregulation effect.

Please refer to shown in Figure 10, the utility model accumulation of energy assembly the 4th embodiment, accumulation of energy assembly 2 the 4th embodiment and the first embodiment are roughly the same, but accumulation of energy assembly 2 the 4th embodiment and the first embodiment difference be, the suspender member 21 of accumulation of energy assembly 2 the 4th embodiment is a lanyard 213.

Further illustrate as follows, energy-accumulating element 22 is provided with a through hole 221, and energy-accumulating element 22 is socketed on lanyard 213 by through hole 221, makes the energy-accumulating element 22 can rapid-assembling or dismantle in suspender member 21, to facilitate the replacing of energy-accumulating element 22.

Please refer to shown in Figure 11, the utility model accumulation of energy assembly the 5th embodiment, accumulation of energy assembly 2 the 5th embodiment and the first embodiment are roughly the same, but accumulation of energy assembly 2 the 5th embodiment and the first embodiment difference be, the suspender member 21 of accumulation of energy assembly 2 the 5th embodiment is a U-shaped lanyard 214.

Further illustrate as follows, the outer peripheral edges of energy-accumulating element 22 offer a ring shaped slot 222, and the corresponding ring shaped slot 222 of U-shaped lanyard 213 is chimeric, and makes energy-accumulating element 22 be positioned on U-shaped lanyard 214, make the energy-accumulating element 22 can rapid-assembling or dismantle in suspender member 21, to facilitate the replacing of energy-accumulating element 22.

Please refer to shown in Figure 12 to Figure 14, the utility model accumulation of energy assembly the 6th embodiment, accumulation of energy assembly 2 the 6th embodiment and the first embodiment are roughly the same, but accumulation of energy assembly 2 the 6th embodiment and the first embodiment difference be, the suspender member 21 of accumulation of energy assembly 2 the 6th embodiment is a mesh bag 215.

Further illustrate as follows, one or more energy-accumulating element 22 can be placed in mesh bag 215, makes the energy-accumulating element 22 can rapid-assembling or dismantle in suspender member 21, to facilitate the replacing of energy-accumulating element 22.

In addition, referring again to Fig. 6, the framework 3 of this 6th embodiment is not provided with transmission groove 141 and cover plate 16, because framework 3 of the present utility model is not limited by the various embodiments described above, its visual actual state is adjusted voluntarily, and only framework 3 has the portion of hanging 15 and can hang for suspender member 21.

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

Claims (15)

1. a temperature-regulating module structure, for an airflow apparatus, is characterized in that, this temperature-regulating module comprises:

One body, has an accommodation space and is provided with one first air port and one second air port that are communicated with this accommodation space, and described airflow apparatus is to configuring in the first air port; And

At least one accumulation of energy assembly, is placed in this accommodation space, and this accumulation of energy assembly comprises:

One fixture; And

At least one energy-accumulating element, this energy-accumulating element can be connected in this fixture by assemble or disassemble, and this fixture can be connected in this framework by assemble or disassemble.

2. temperature-regulating module structure according to claim 1, is characterized in that, this fixture is a suspender member, and this suspender member end has a hook part, and this suspender member hang on this body by this hook part.

3. temperature-regulating module structure according to claim 2, is characterized in that, the energy-accumulating element quantity of each this accumulation of energy assembly is multiple, the plurality of energy-accumulating element be sequentially connected in series and stacked arrangement on this suspender member.

4. temperature-regulating module structure according to claim 2, is characterized in that, this suspender member is a peg, and this energy-accumulating element is provided with a through hole, and this energy-accumulating element is socketed on this suspension rod by this through hole.

5. temperature-regulating module structure according to claim 2, is characterized in that, this suspender member is a lanyard, and this energy-accumulating element is provided with a through hole, and this energy-accumulating element is socketed on this lanyard by this through hole.

6. temperature-regulating module structure according to claim 2, is characterized in that, this suspender member is a U-shaped lanyard, and the outer peripheral edges of this energy-accumulating element offer a ring shaped slot, and this U-shaped lanyard is to should ring shaped slot chimeric, and makes this energy-accumulating element be positioned on this U-shaped lanyard.

7. temperature-regulating module structure according to claim 2, is characterized in that, this suspender member is a mesh bag, and this energy-accumulating element is placed in this mesh bag.

8. temperature-regulating module structure according to claim 1, is characterized in that, this energy-accumulating element is a spherical pieces, a circular block, a cylindricality piece, a square type piece, a gore, a circular rings piece, a square type ring piece or a triangle ring piece.

9. temperature-regulating module structure according to claim 2, is characterized in that, this body is a framework, and this framework has at least one portion that hangs, and this suspender member can assemble or disassemble hang on this by this hook part and hangs portion.

10. temperature-regulating module structure according to claim 9, is characterized in that, this framework has a top that is configured in this accommodation space top, and this hangs portion to configuring at top.

11. temperature-regulating module structures according to claim 10, it is characterized in that, the quantity that hangs portion and accumulation of energy assembly is multiple, those hang portion and are arranged in this top towards this second air port direction in spacing parallel arranging mode from this first air port, and make the plurality of accumulation of energy assembly be arranged in this accommodation space in spacing parallel arranging mode.

12. temperature-regulating module structures according to claim 10, it is characterized in that, this framework more comprises at least one cover plate, and this top is provided with at least one transmission groove that is communicated with this accommodation space, this cover plate is to should transmission groove cover cap, and this portion of hanging is formed on the bottom of this cover plate.

13. temperature-regulating module structures according to claim 12, it is characterized in that, the quantity that hangs portion, accumulation of energy assembly, transmission groove and cover plate is respectively multiple, the plurality of transmission groove is arranged in this top towards this second air port direction in spacing parallel arranging mode from this first air port, and makes the plurality of accumulation of energy assembly be arranged in this accommodation space in spacing parallel arranging mode.

14. temperature-regulating module structures according to claim 9, is characterized in that, described airflow apparatus is fixed in this framework, and this framework is provided with one the 3rd air port of corresponding described airflow apparatus configuration.

15. temperature-regulating module structures according to claim 1, is characterized in that, this first air port and this second air port are respectively formed at the corresponding two ends of this body.

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