CN207936294U - A kind of ceiling board air-conditioning system - Google Patents

Abstract

The utility model discloses a kind of ceiling board air-conditioning systems, including：Aeration device, super-hydrophobic ceiling board, super-hydrophobic ceiling board include ceiling board and super-hydrophobic film, and super-hydrophobic film is arranged the end face far from wall top in ceiling board, micropore is provided on super-hydrophobic ceiling board；Thermal-insulation baffle plate, the first end of thermal-insulation baffle plate and the first side of side wall connect, and distance is connected to default between the second end of thermal-insulation baffle plate and the second side of side wall；The fresh air cavity that super-hydrophobic ceiling board, wall top and side wall surround is respectively enclosed to the first cavity, the second cavity and connection cavity by thermal-insulation baffle plate；First side of the side wall is equipped with air inlet and air outlet.The utility model not will produce dripping phenomenon, and due to being provided with several micropores in the class by the way that super-hydrophobic film is arranged on ceiling board, fresh air is passed through interior by the micropore, sensible heat and latent heat in process chamber, entire indoor temperature equilibrium without dead angle, it is noiseless, without blowing feeling, fluctuations in indoor temperature is small.

Description

A kind of ceiling board air-conditioning system

Technical field

The utility model is related to indoor air-conditioning system technical field more particularly to a kind of ceiling board air-conditioning systems.

Background technology

With the raising that people require life comfort level, air-conditioning equipment is installed indoors and has become huge numbers of families' First choice improves experience of living to adjust indoor temperature.

The exit of the fresh air system of existing most of indoor uses generally uses louvered air outlet, this louvered to go out The wind of air port blowout is straight wind, so that there are the temperature difference for interior, can not lead to indoor occupant with room air rapid fusion Comfort level reduces.Therefore, ceiling board air-conditioning system is developed, using the laying water pipe on ceiling board and in ceiling board and wall It is passed through fresh air in the space that top and side wall are constituted to handle indoor sensible heat and latent heat, to substantially increase relaxing for indoor occupant Appropriateness, still, there are disadvantages for this structure, first, when being freezed, can be passed through cold water in water pipe, water pipe with ceiling board When being exchanged heat, the temperature of ceiling board may be reduced to dew point hereinafter, can condense upon on ceiling board to indoor steam, from And generate the phenomenon that ceiling board drips.Secondly, water pipe uses for a long time, inevitably will produce leak source, and the water in water pipe can be along hanging Top plate leaks into interior, and the phenomenon that ceiling board drips is further aggravated.Finally, water pipe setting is constituted in ceiling board and wall top and side wall Space in, repair is cumbersome, and the circulation of water will produce the underwater sound in water pipe, is made an uproar so as to cause indoor room inner sense Sound reduces the residence comfort of indoor occupant.

Invention content

The purpose of this utility model is to provide a kind of ceiling board air-conditioning system, can sensible heat and latent heat in process chamber, Entire indoor temperature equilibrium without dead angle, it is noiseless, without blowing feeling, while not will produce dripping phenomenon and fluctuations in indoor temperature is small.

The technical scheme that the utility model is provided is as follows：

A kind of ceiling board air-conditioning system, including：It is laid on the insulating layer of the inner surface of wall top and side wall；Several are hung Bar, the first end of the sunpender are connect with the wall top；Several keel, the second end of the sunpender are connect with the keel；It is super Hydrophobic ceiling board, the super-hydrophobic ceiling board are connect with the keel, and the super-hydrophobic ceiling board includes ceiling board and super-hydrophobic Film, the super-hydrophobic film be arranged be provided on end face of the ceiling board far from the wall top, the super-hydrophobic ceiling board it is several The micropore of perforation；Thermal-insulation baffle plate, the first end of the thermal-insulation baffle plate are connect with the first side of the side wall, the thermal-insulation baffle plate Have to preset between second end and the second side of the side wall and is connected to distance, the first side of the side wall and the second side phase of side wall It is right；The fresh air cavity that super-hydrophobic ceiling board, wall top and side wall surround is divided into three parts, respectively the first chamber by the thermal-insulation baffle plate Body, the second cavity and connection cavity, the cavity formed between the thermal-insulation baffle plate and wall top are the first cavity, the thermal-insulation baffle plate The cavity formed between super-hydrophobic ceiling board is the second cavity, and the part for removing first cavity and the second cavity is connection Cavity, first cavity are connected to the second cavity by the connection cavity；First side of the side wall be equipped with air inlet and Air outlet, the air inlet are connected to first cavity and positioned at the tops of the thermal-insulation baffle plate, the air outlet with it is described Second cavity is connected to and positioned at the lower section of the thermal-insulation baffle plate；Aeration device, the aeration device fresh air outlet with it is described into Air port is connected to.

In above structure, by being equipped with super-hydrophobic film on the end face of the separate wall top of ceiling board, super-hydrophobic film can subtract Small steam avoids indoor condensation vapor on super-hydrophobic ceiling board in the probability of its surface aggregation to realize in refrigeration, The phenomenon that generation is dripped.And water pipe is not set in this structure, therefore be not in the case where needing repairing water pipe, and not The problem of noise being generated due to water pipe water flowing, also avoid water pipe leak simultaneously.This structure directly uses in aeration device It handles obtained fresh air to handle indoor sensible heat and latent heat, fresh air is first passed through from air inlet in the first cavity, then newly Wind contacts during traveling with the surrounding side wall of the first cavity, slowly reduces to its speed, when fresh air from the first cavity into When entering connection cavity, fresh air wind speed is relatively low, at this point, fresh air is entered with lower wind speed in the second cavity again, a portion is new Wind is got in by the micropore on super-hydrophobic ceiling board, handles indoor sensible heat, and remainder fresh air slow transits through the second chamber Heat exchange is carried out with super-hydrophobic ceiling board while body, to realize the indoor latent heat of processing, is finally discharged the from air outlet Outside two cavitys, whole process realizes the indoor sensible heat of processing and has also handled latent heat, and new in the second cavity due to entering Wind velocity is relatively low, therefore, relatively low by the new wind velocity of micropore, can preferably be merged with room air, fresh air is each It is blown into interior in a micropore so that entire indoor temperature equilibrium is without dead angle, and due to ceaselessly there is fresh air to be passed through from micropore Interior, it is indoor to be in barotropic state always, outdoor air can be avoided to be got in by gaps such as gaps, ensure Indoor Temperature The fluctuation of degree is smaller.

Preferably, the thermal-insulation baffle plate is located at the centre position of the super-hydrophobic ceiling board and wall top.

By being arranged thermal-insulation baffle plate in super-hydrophobic ceiling board and wall top centre position, the first cavity and second are enabled to The volume of cavity is identical, causes not enough sectional areas in the second cavity for new to avoid the first cavity volume larger Wind passes through or the small volume of the first cavity, causes the fresh air flowing velocity in the second cavity too slow.

Preferably, the default connection distance >=500mm.

By setting default connection distance to 500mm or more, can ensure to be passed through in connection cavity out of first cavity Fresh air have enough accommodation spaces, can also ensure that fresh air in the first cavity enters the second chamber by connection cavity glibly In vivo.

Preferably, the default connection distance is between 500mm~650mm.

Preferably, the percent opening of the super-hydrophobic ceiling board is 25%~30%.

Percent opening by controlling super-hydrophobic ceiling board is capable of the ventilation rate of indirect control micropore, a part of new to ensure Wind can be got in by micropore, for handling indoor sensible heat, reach good refrigeration or heating effect, remainder is new Wind then carries out heat exchange with super-hydrophobic ceiling board, air source radiation is carried out, to realize the purpose of process chamber internal latent heat.

Preferably, a diameter of 6~8mm of the micropore.

By the way that the diameter control of micropore within the above range, capable of being ensured to, a part of fresh air passes through micropore into entering the room Interior, if micro-pore diameter is smaller, when the wind speed in the second cavity is larger, fresh air is just difficult to get in by micropore, to nothing Method removes indoor sensible heat, influences the effect freezed and heated.If micro-pore diameter is excessive, the fresh air by micropore can be caused Wind speed is relatively large, to can not preferably be mixed with room air, so that indoor occupant has blowing feeling, reduces The comfort level of indoor occupant.

Preferably, the micropore is evenly spaced according to matrix-style on the super-hydrophobic ceiling board.

Matrix-style is distributed on super-hydrophobic ceiling board, enables to fresh air uniform from each position of super-hydrophobic ceiling board Fresh air is sent into interior, ensures entire indoor temperature equilibrium without dead angle.

Preferably, the ceiling board air-conditioning system further includes：Blast pipe, the first end of the blast pipe with it is described into Air port is connected to, the fresh air outlet of the second end of the blast pipe and the aeration device, and air inlet is equipped at the blast pipe Wind turbine；Discharge pipe, the air outlet are connected to the first end of the discharge pipe, and induced draft fans are equipped at the discharge pipe.

By the way that air intake blower fan and induced draft fans are arranged, the air inlet wind speed and the of the fresh air in the first cavity can be controlled respectively The outlet air wind speed of fresh air in two cavitys, can indirect control fresh air by the wind speed of micropore, to realize to entire ceiling board The flexible control of the cooling or heating effect of air-conditioning system.

Preferably, the second end of the discharge pipe is connected to the cycle air inlet of the aeration device.

Fresh air after being exchanged heat with super-hydrophobic ceiling board is passed through in aeration device and is recycled, it is new to reduce processing The energy consumption of wind.

Preferably, the surface of the sunpender is equipped with insulating layer.

By the way that when insulating layer is arranged in sunpender surface, and fresh air can be avoided to be contacted with sunpender, sunpender carries out hot friendship with fresh air It changes, to reduce the effect of indoor heating and refrigeration.

A kind of ceiling board air-conditioning system provided by the utility model, can bring following advantageous effect：

The utility model provides a kind of structure of novel ceiling board air-conditioning system, compared to the prior art, reduces Water pipe and its related accessory avoid water pipe the case where needing repairing long neglected and in disrepair, avoid water while reducing cost It is phenomena such as tube leakage, noiseless.The utility model is directly handled indoor sensible heat and latent heat using processed fresh air, And it by the way that super-hydrophobic film is arranged on ceiling board, avoids when this system is freezed, steam condenses upon on ceiling board, causes to drip The generation of water phenomenon.Indoor temperature equilibrium is sent into interior without dead angle and using micropore by fresh air, and fresh air is opposite by micropore speed It is relatively low, no blowing feeling, and due to continuing through micropore to indoor conveying fresh air, indoor is in persistently barotropic state, can avoid room Outer air is got in by gaps such as gaps, ensures that the fluctuation of indoor temperature is smaller.

Description of the drawings

Below by a manner of clearly understandable, preferred embodiment is described with reference to the drawings, to ceiling board air-conditioning system Above-mentioned characteristic, technical characteristic, advantage and its realization method be further described.

Fig. 1 is the structural schematic diagram of the concrete structure of the ceiling board air-conditioning system of the utility model；

Fig. 2 is the side view of concrete structure shown in FIG. 1；

Fig. 3 is the vertical view of the ceiling board and blast pipe in Fig. 1；

Fig. 4 is the pore arrangement schematic diagram of the ceiling board in Fig. 1.

Drawing reference numeral explanation：

1a- wall tops, 1b- side walls, 2- sunpenders, 3- insulating layers, 4- thermal-insulation baffle plates, 5- air inlets, 6- air outlets, 7- air inlets Pipe, 8- discharge pipes, 9- air intake blower fans, 10- induced draft fans, 11- ceiling boards, 11a- micropores, the first cavitys of A-, the second cavitys of B, C- Connection cavity.

Specific implementation mode

In order to illustrate the embodiment of the utility model or the technical proposal in the existing technology more clearly, attached drawing will be compareed below Illustrate specific embodiment of the present utility model.It should be evident that the accompanying drawings in the following description is only the one of the utility model A little embodiments for those of ordinary skill in the art without creative efforts, can also be according to these Attached drawing obtains other attached drawings, and obtains other embodiments.

To make simplified form, in each figure only schematically show with the relevant part of the utility model, they are simultaneously Its practical structures as product is not represented.

【Embodiment 1】

As shown in Figure 1, embodiment 1 discloses a kind of 11 air-conditioning system of ceiling board, including：It is laid on wall top 1a and side The insulating layer 3 of the inner surface of wall 1b, more sunpenders 2, more keel, super-hydrophobic ceiling board 11, thermal-insulation baffle plate 4 and fresh air dress It sets.Wherein, the insulating layer 3 for being laid on the inner surface of wall top 1a and side wall 1b is rubber and plastic cotton, and thickness 20mm can prevent fresh air Heat exchange is carried out by wall top 1a and side wall 1b with outdoor, reduces energy loss.

As shown in Figure 1, the first end (upper end of the sunpender 2 in Fig. 1) of every sunpender 2 is connected by expansion bolt and wall top 1a It connects, the second end (lower end of the sunpender 2 in Fig. 1) of sunpender 2 is connect with keel, and sunpender 2 is for being fixedly secured keel in side wall On 1b, and keel are paved with entire interior.Insulating layer can also be wrapped up on sunpender 2, which can be rubber and plastic cotton, and thickness is 10mm, thickness are not limited to 10mm, as long as its thickness can ensure between fresh air and sunpender without heat exchange.

Super-hydrophobic ceiling board 11 is arranged on keel.And super-hydrophobic ceiling board 11 and wall top have at a distance from 300mm.Specifically , super-hydrophobic ceiling board 11 includes ceiling board 11 and super-hydrophobic film, and super-hydrophobic film is arranged at end of the ceiling board 11 far from wall top 1a Face, the micropore 11a of several perforations is provided on super-hydrophobic ceiling board 11, and super-hydrophobic ceiling board 11 and wall top 1a and side wall 1b surrounds confession The fresh air cavity of new wind circulation, interior are connected to fresh air cavity by several micropore 11a, and the fresh air in fresh air cavity can pass through Micropore 11a is got in.

As shown in figure 3, the percent opening of micropore 11a is 25%, so that part fresh air can be entered by micropore 11a Interior handles indoor sensible heat, plays the role of controlling indoor temperature.It of courses, percent opening is all within 25%~30% Can with, such as 28%, 29% etc., percent opening can ensure that the ventilation rate of super-hydrophobic ceiling board 11 exists within the above range Between 25%~30%, i.e. 1m³Fresh air, can have 0.3m³Fresh air got in by micropore 11a.

As shown in Figure 1, thermal-insulation baffle plate 4 be arranged between wall top 1a and super-hydrophobic ceiling board 11 and thermal-insulation baffle plate 4 first End (right end of the super-hydrophobic ceiling board 11 in Fig. 1) is connect with the first side of side wall 1b, and the second end of thermal-insulation baffle plate 4 is (in Fig. 1 The left end of super-hydrophobic ceiling board 11) with the second side of side wall 1b have it is default be connected to distance, thermal-insulation baffle plate 4 is parallel to wall top 1a and sets It sets, the first side of side wall 1b is opposite with the second side of side wall 1b.In the present embodiment, thermal-insulation baffle plate 4 is made of thermal insulation material, can adopt Thermal insulation material has mineral wool, rock wool etc., or using polymer thermal insulative partition board 4 made of the materials such as polyurethane, and keeps the temperature The thickness of partition board 4 is 10mm, and details are not described herein again.

Super-hydrophobic ceiling board 11, wall top 1a and side wall 1b the fresh air cavity surrounded are divided into three parts by thermal-insulation baffle plate 4, respectively For the first cavity A, the second cavity B and connection cavity C, the cavity formed between thermal-insulation baffle plate 4 and wall top 1a is the first cavity A, The cavity formed between thermal-insulation baffle plate 4 and super-hydrophobic ceiling board 11 is the second cavity B, removes the first cavity A's and the second cavity B Part is that connection cavity C, the first cavity A and the second cavity B are connected to by connection cavity C.

In the present embodiment, it is 600mm to preset connection distance.By the way that default connection distance setting is more than or equal to 500mm, energy Enough ensure that fresh air passes through connection cavity C from the first cavity A and enters in the second cavity B, fresh air is not easy to be stuck in connection cavity C Place.In other specific embodiments, it can also be 500mm, 525mm, 580mm, 620mm etc. to preset connection distance, as long as in advance If connecting distance >=500mm, of course, it is best within the scope of 500mm~650mm, it can ensure second to a greater extent The length of cavity B, to improve the time that fresh air is detained at the second cavity B, to improve heating and refrigeration effect.

As depicted in figs. 1 and 2, the first side of side wall 1b is equipped with air inlet 5 and air outlet 6, air inlet 5 and the first cavity A Connection and the top for being located at thermal-insulation baffle plate 4, air outlet 6 are connected to and are located at the lower section of thermal-insulation baffle plate 4 with the second cavity B, into The fresh air outlet in air port 5 and aeration device, to receive the fresh air from aeration device after processed.

It keeps the speed of 2m/s to be passed through fresh air into the first cavity A at air inlet 5, is then kept at air outlet 6 again The speed of 1m/s exhausting out of second cavity B, so that the fresh air at micropore 11a is got in the speed of 0.2m/s. Intake velocity at air inlet 5 determines according to actual conditions, is not restricted herein with the air draft speed at air outlet 6.

In the present embodiment, the fresh air after aeration device is processed is delivered to air inlet 5 by fresh air outlet, subsequently into the In one cavity A, contacted with the surrounding side wall 1b of the first cavity A during fresh air is in traveling, to which its speed slowly reduces, when When fresh air enters connection cavity C from the first cavity A, fresh air wind speed is relatively low, at this point, fresh air enters the second chamber with lower wind speed again In body B, a portion fresh air is got in by the micropore 11a on super-hydrophobic ceiling board 11, handles indoor sensible heat, remaining Heat exchange is carried out with super-hydrophobic ceiling board 11 while part fresh air slow transits through the second cavity B, to realize that processing is indoor Latent heat is finally discharged from air outlet 6 outside the second cavity B, whole process realize the indoor sensible heat of processing also handled it is latent Heat.

It is blown into interior in each micropore 11a of fresh air so that entire indoor temperature equilibrium is without dead angle, and due to ceaselessly having Fresh air is passed through interior from micropore 11a, indoor to be in barotropic state always, and outdoor air can be avoided to pass through the gaps such as gap It gets in, ensures that the fluctuation of indoor temperature is smaller.

【Embodiment 2】

As shown in Figure 1, embodiment 2, on the basis of embodiment 1, the thermal-insulation baffle plate 4 of embodiment 2 is located at super-hydrophobic ceiling board The centre position of 11 and wall top 1a.To ensure that the first cavity A is identical as the volume of the second cavity B, the sectional area of new wind circulation Also identical, it avoids the first cavity A volumes larger and not enough sectional areas in the second cavity B is caused to pass through for fresh air, or The small volume of the first cavity of person A, causes the fresh air flowing velocity in the second cavity B too slow.

【Embodiment 3】

As shown in figure 4, embodiment 3 is on the basis of Examples 1 to 2, and a diameter of 7mm of the micropore 11a of embodiment 3, phase The distance between center of circle of adjacent micropore 11a is 12mm, and micropore 11a is evenly spaced in super-hydrophobic ceiling board 11 according to matrix-style On.Uniform arrangement mode can ensure that fresh air is uniformly sent into indoor, guarantor by fresh air from each position of super-hydrophobic ceiling board 11 Entire indoor temperature equilibrium is demonstrate,proved without dead angle.

Of course, if micropore 11a between 6mm~8mm all can, such as 6mm, 6.5mm, as long as meeting percent opening It is required that；Can also be staggered between adjacent cells 11a, details are not described herein again.

【Embodiment 4】

As shown in Figure 1, embodiment 4, on the basis of Examples 1 to 3, embodiment 4 further includes：Blast pipe 7 and discharge pipe 8, The first end of blast pipe 7 is connected to air inlet 5, the second end of blast pipe 7 and the fresh air outlet of aeration device, blast pipe 7 Place is equipped with air intake blower fan 9, and air outlet 6 is connected to the first end of discharge pipe 8, and induced draft fans 10 are equipped at discharge pipe 8.Discharge pipe 8 Second end be connected to the cycle air inlet 5 of aeration device, can recycle air outlet 6 come out fresh air, to play section About adjust the energy of new air temperature.

By the way that air intake blower fan 9 and induced draft fans 10 is respectively set, air intake blower fan 9 can control the fresh air in the first cavity A Wind speed, induced draft fans 10 can control the wind speed of the fresh air in the second cavity B, to indirect control fresh air from micropore 11a into Enter in indoor wind speed and the second cavity B, residence time of the fresh air in the second cavity B.

It should be noted that above-described embodiment can be freely combined as needed.The above is only the utility model Preferred embodiment, it is noted that for those skilled in the art, do not departing from the utility model principle Under the premise of, several improvements and modifications can also be made, these improvements and modifications also should be regarded as the scope of protection of the utility model.

Claims (10)

1. a kind of ceiling board air-conditioning system, which is characterized in that including：

It is laid on the insulating layer of the inner surface of wall top and side wall；

Several sunpenders, the first end of the sunpender are connect with the wall top；

Several keel, the second end of the sunpender are connect with the keel；

Super-hydrophobic ceiling board, the super-hydrophobic ceiling board are connect with the keel, the super-hydrophobic ceiling board include ceiling board and Super-hydrophobic film, the super-hydrophobic film is arranged to be opened on end face of the ceiling board far from the wall top, the super-hydrophobic ceiling board There is the micropore of several perforations；

Thermal-insulation baffle plate, the first end of the thermal-insulation baffle plate are connect with the first side of the side wall, the second end of the thermal-insulation baffle plate Have to preset between the second side of the side wall and be connected to distance, the first side of the side wall is opposite with the second side of side wall；

The fresh air cavity that super-hydrophobic ceiling board, wall top and side wall surround is divided into three parts, respectively first by the thermal-insulation baffle plate Cavity, the second cavity and connection cavity, the cavity formed between the thermal-insulation baffle plate and wall top are the first cavity, the thermal insulation separation The cavity formed between plate and super-hydrophobic ceiling board is the second cavity, and the part for removing first cavity and the second cavity is to connect Cavity is connect, first cavity is connected to the second cavity by the connection cavity；

First side of the side wall is equipped with air inlet and air outlet, and the air inlet is connected to first cavity and positioned at described The top of thermal-insulation baffle plate, the air outlet are connected to second cavity and positioned at the lower sections of the thermal-insulation baffle plate；

The fresh air outlet of aeration device, the aeration device is connected to the air inlet.

2. ceiling board air-conditioning system according to claim 1, it is characterised in that：

The thermal-insulation baffle plate is located at the centre position of the super-hydrophobic ceiling board and wall top.

3. ceiling board air-conditioning system according to claim 1, it is characterised in that：

The default connection distance >=500mm.

4. ceiling board air-conditioning system according to claim 3, it is characterised in that：

The default connection distance is between 500mm~650mm.

5. ceiling board air-conditioning system according to claim 1, it is characterised in that：

The percent opening of the super-hydrophobic ceiling board is 25%~30%.

6. ceiling board air-conditioning system according to claim 5, it is characterised in that：

A diameter of 6~8mm of the micropore.

7. ceiling board air-conditioning system according to claim 5, it is characterised in that：

The micropore is evenly spaced according to matrix-style on the super-hydrophobic ceiling board.

8. ceiling board air-conditioning system according to claim 1, which is characterized in that further include：

Blast pipe, the first end of the blast pipe are connected to the air inlet, and the second end of the blast pipe is filled with the fresh air The fresh air outlet set is equipped with air intake blower fan at the blast pipe；

Discharge pipe, the air outlet are connected to the first end of the discharge pipe, and induced draft fans are equipped at the discharge pipe.

9. ceiling board air-conditioning system according to claim 8, it is characterised in that：

The second end of the discharge pipe is connected to the cycle air inlet of the aeration device.

10. the ceiling board air-conditioning system according to any one of claim 1~9, it is characterised in that：

The surface of the sunpender is equipped with insulating layer.