CN110792378B

CN110792378B - Louver ventilating device

Info

Publication number: CN110792378B
Application number: CN202010007996.4A
Authority: CN
Inventors: 龙智勇; 唐珂欣; 胡蕴文
Original assignee: Xian University of Architecture and Technology
Current assignee: Xian University of Architecture and Technology
Priority date: 2020-01-06
Filing date: 2020-01-06
Publication date: 2020-04-28
Anticipated expiration: 2040-01-06
Also published as: CN110792378A

Abstract

The invention relates to the technical field of ventilation, in particular to a louver ventilation device, which is characterized in that a louver frame and a plurality of hollow louvers arranged in the louver frame are arranged, at least one louver air outlet is arranged on each hollow louver, a louver air inlet is arranged at least one connecting end of the louver frame and each hollow louver, so that convection is formed between each louver frame and each hollow louver, and air flow can flow into each hollow louver from the louver air inlet until the air flow is discharged out of the louver air outlet; the air inlet of the louver is communicated to the air source device through the air channel by arranging the air channel in the louver frame, and air flow generated by the air source device can directly flow into the hollow louver through the air channel in the louver frame, so that the air flow generated by the air source device is discharged out of the louver air outlet, the air flow permeability of a window with the louver is increased, the problem of poor ventilation caused by the fact that the ventilation function of the traditional louver is only dependent on natural wind is solved by the structure, and the ventilation effect is improved.

Description

Louver ventilating device

Technical Field

The invention relates to the technical field of ventilation, in particular to a louver ventilation device.

Background

The shutter is a new house of family, soft decorations of official working, will use in the new building or decoration basically, but the traditional shutter function is single, can only provide and shelter from the sunshine, when the shutter is opened, its ventilation function only relies on the natural wind, the ventilation effect is extremely bad, and does not have other functions such as humidifying, etc., under the situation of office field or house, can't meet the ventilation requirement far away in summer, can only pass and purchase equipment such as the fan, ventilator, etc.; when people live in dry environment or work for a long time, equipment such as a humidifier needs to be purchased.

Conventional blinds are usually fixed inside the window, thus occupying the space in front of the window, and the window glass cannot be detached.

The rolling shutter curtain is not installed on the wall, so that air can flow out through the gap between the shutter and the window no matter whether the shutter is opened or not, and the ventilation effect is poor.

Disclosure of Invention

The invention aims to overcome the problem of poor ventilation caused by the fact that the ventilation function of the traditional shutter only depends on natural wind in the prior art, and provides a shutter ventilation device with the ventilation function.

In order to achieve the above purpose, the invention provides the following technical scheme:

a louver ventilating device comprises a louver frame and a plurality of hollow louvers arranged in the louver frame, wherein at least one louver air outlet is formed in each hollow louver, and a louver air inlet is formed in at least one connecting end, connected with each hollow louver, of the louver frame; an airflow channel is arranged in the louver frame, and the louver air inlet is communicated to an air source device through the airflow channel;

the hollow louver is provided with a middle cavity which can enable airflow to circulate between the louver air outlet and the louver air inlet; the hollow shutter comprises a guide plate, and airflow flows out through the cavity of the hollow shutter in the guide direction of the guide plate;

the hollow shutter is a frame-shaped hollow shutter, and the shutter air outlet is arranged on at least one long frame strip of the frame-shaped hollow shutter.

The louver is characterized in that a louver frame and a plurality of hollow louvers arranged in the louver frame are arranged, at least one louver air outlet is formed in each hollow louver, a louver air inlet is formed in at least one connecting end of each louver frame and each hollow louver, convection is formed between each louver frame and each hollow louver, and air flow can flow from the louver air inlets into the hollow louvers until the air flow is discharged out of the louver air outlets; the louver air inlet is communicated to the air source device through the air flow channel by arranging the air flow channel in the louver frame, and the air flow generated by the air source device can directly flow into the hollow louver through the air flow channel in the louver frame, so that the air flow generated by the air source device is discharged out of the louver air outlet, the air flow permeability of a window provided with the louver is increased, the problem of poor ventilation caused by the fact that the ventilation function of the traditional louver is only dependent on natural wind is solved by the structure, and the ventilation effect is improved; in addition, the air flow can flow in the flow guiding direction by arranging the flow guide plate, the hollow shutter is arranged into the frame-shaped hollow shutter, the volume and the flow direction of the air are limited by the frame-shaped shutter, so that the flow of the air flow is enhanced, meanwhile, a light shielding object can be arranged in the middle of the frame-shaped hollow shutter, and the ventilation is not influenced while the light shielding performance is achieved.

Preferably, the louver frame comprises an air source device mounting part, and the air flow channel is communicated to the air source device mounting part;

the air source device comprises at least one fan, and all the fans are arranged on the air source device installation part.

Preferably, the louvered ventilation device comprises a humidifying device comprising at least one capillary evaporation plate, the capillary evaporation plate being disposed between the fan and the airflow passage;

the humidifying device further comprises a water flow channel and a water storage box, one end of the water flow channel is connected with the capillary evaporation plate, the other end of the water flow channel is connected with the water storage box, and a humidifying water pump is further arranged on the water storage box.

Through setting up humidification device, this humidification device includes rivers passageway and water storage box, rivers passageway one end with capillary evaporating plate connects, the other end with the water storage box is connected, still be provided with the humidification water pump on the water storage box, the during operation makes rivers in the water storage box lead to capillary evaporating plate through the humidification water pump, capillary evaporating plate sets up the fan with between the airflow channel, through setting up the capillary evaporating plate that has moisture, when making the fan open, the air current of circulation to tripe air outlet has moisture, reaches the effect of humidification, provides the function of humidification.

Preferably, the louver frame is arranged on a wall body on the edge of the window frame, and is driven to move horizontally or vertically along the wall body to the window frame through gear transmission.

Preferably, the louver frame is provided with an organ cover capable of being opened and closed, and the organ cover is attached to the window frame when the louver frame is opened.

By arranging the movable louver frame and the foldable and foldable organ cover, the louver frame can be used by moving the louver frame to the front of a window frame when in use, and the louver frame is reset to the window side when in no use, so that the problem that the traditional louver fixed on a window occupies the use space in front of the window is solved, and the problem that window glass cannot be detached due to the traditional louver is solved; through setting up the organ cover that can open and shut, solved roll up curtain formula shutter curtain's circulation air and can flow through the space between shutter and window and flow out, lead to its ventilation effect poor problem, when opening the organ cover laminates with the window frame mutually, and the natural gas flow of flowing through this kind of structure can't flow out through the installation space between shutter and window.

Preferably, the organ cover comprises a flexible cover and a movable frame, one surface of the flexible cover is connected with the louver frame, and the other surface of the flexible cover is connected with the movable frame.

Preferably, an x-shaped connecting rod is connected between the louver frame and the moving frame and comprises a first rod and a second rod which are hinged to form an x shape, the first end of the first rod and the first end of the second rod are hinged to the moving frame, the second end of the first rod and the second end of the second rod are rotatably connected to the louver frame, and the opening and closing of the organ cover are controlled by controlling the size of an included angle between the first rod and the second rod.

Preferably, the louver frame is further provided with a strip-shaped limiting structure, the strip-shaped limiting structure is a sliding groove or a strip-shaped hole, and the second end of the first rod is arranged on the strip-shaped limiting structure and can slide along the strip-shaped limiting structure;

still be provided with on the shutter frame and follow the drive connecting rod of shutter frame moving direction motion, the one end of drive connecting rod with the second end of first pole is articulated mutually, the other end of drive connecting rod is connected with spacing portion, still be fixed with the stopper on the wall body, the stopper is used for holding and has spacing portion the drive connecting rod is with the increase the contained angle of first pole and second pole.

Preferably, the limiting part is further fixedly provided with an elastic element at the opposite end connected with the driving connecting rod, and the elastic element is used for pushing the driving connecting rod to reset when the louver frame resets.

Preferably, the window frame is further provided with a connecting rod and a pressing block, one end of the connecting rod is hinged with the window frame, the other end of the connecting rod is hinged with the pressing block, a glass sheet is arranged in the window frame, and the pressing block presses the glass sheet;

the louver frame is further hinged to an elastic clamping jaw, a torsional spring is arranged at the hinged position, and when the louver frame moves to the terminal point, the elastic clamping jaw pulls the connecting rod to rotate so as to separate the pressing block from the glass sheet.

Through articulated on the shutter frame have the elasticity jack catch, this articulated department is provided with the torsional spring when the shutter frame removes to the terminal point, the elasticity jack catch is stirred the connecting rod is rotatory in order to realize the separation of briquetting and glass piece, when the shutter frame resets, the elasticity jack catch also resets because the effect of torsional spring, replaces traditional fixed shutter on the window with this kind of structure, can carry out the dismouting to the window glass piece as required, satisfies different ventilation requirements.

Compared with the prior art, the invention has the beneficial effects that:

1. the louver is characterized in that a louver frame and a plurality of hollow louvers arranged in the louver frame are arranged, at least one louver air outlet is formed in each hollow louver, a louver air inlet is formed in at least one connecting end of each louver frame and each hollow louver, convection is formed between each louver frame and each hollow louver, and air flow can flow from the louver air inlets into the hollow louvers until the air flow is discharged out of the louver air outlets; the air inlet of the louver is communicated to the air source device through the air channel by arranging the air channel in the louver frame, and air flow generated by the air source device can directly flow into the hollow louver through the air channel in the louver frame, so that the air flow generated by the air source device is discharged out of the louver air outlet, the air flow permeability of a window with the louver is increased, the problem of poor ventilation caused by the fact that the ventilation function of the traditional louver is only dependent on natural wind is solved by the structure, and the ventilation effect is improved.

2. Make the air current can flow according to the water conservancy diversion direction through setting up the guide plate, through setting up cavity tripe into the cavity tripe of frame shape, the tripe that the frame shape set up has restricted gaseous volume and flow direction to the flow of reinforcing air current, simultaneously, can set up the light-shade in the middle of the cavity tripe of frame shape, do not influence the ventilation when possessing the performance of shading.

3. Through setting up humidification device, this humidification device includes rivers passageway and water storage box, rivers passageway one end with capillary evaporating plate connects, the other end with the water storage box is connected, still be provided with the humidification water pump on the water storage box, the during operation makes rivers in the water storage box lead to capillary evaporating plate through the humidification water pump, capillary evaporating plate sets up the fan with between the airflow channel, through setting up the capillary evaporating plate that has moisture, when making the fan open, the air current of circulation to tripe air outlet has moisture, reaches the effect of humidification, provides the function of humidification. .

4. By arranging the movable louver frame and the foldable and foldable organ cover, the louver frame can be used by moving the louver frame to the front of a window frame when in use, and the louver frame is reset to the window side when in no use, so that the problem that the traditional louver fixed on a window occupies the use space in front of the window is solved, and the problem that window glass cannot be detached due to the traditional louver is solved; through setting up the organ cover that can open and shut, solved roll up curtain formula shutter curtain's circulation air and can flow through the space between shutter and window and flow out, lead to its ventilation effect poor problem, when opening the organ cover laminates with the window frame mutually, and the natural gas flow of flowing through this kind of structure can't flow out through the installation space between shutter and window.

5. Through articulated on the shutter frame have the elasticity jack catch, this articulated department is provided with the torsional spring when the shutter frame removes to the terminal point, the elasticity jack catch is stirred the connecting rod is rotatory in order to realize the separation of briquetting and glass piece, when the shutter frame resets, the elasticity jack catch also resets because the effect of torsional spring, replaces traditional fixed shutter on the window with this kind of structure, can carry out the dismouting to the window glass piece as required, satisfies different ventilation requirements.

Drawings

FIG. 1 is a view of the operating state of the louvered ventilation unit;

FIG. 2 is a schematic view of the construction of the louvered ventilation assembly;

FIG. 3 is a schematic view of the structure of the blind frame;

FIG. 4 is a three-dimensional block diagram of a hollow louver;

FIG. 5 is a schematic longitudinal section of a hollow louver;

FIG. 6 is a cross-sectional view taken along line G-G of FIG. 5;

FIG. 7 is an enlarged view of a portion of area A of FIG. 2;

FIG. 8 is an enlarged view of a portion of the area B in FIG. 2;

FIG. 9 is an enlarged view of a portion of region C of FIG. 2;

fig. 10 is a schematic structural diagram of the organ cover opening and closing device;

FIG. 11 is an enlarged view of a portion of the area D in FIG. 10;

FIG. 12 is an enlarged partial view of area E of FIG. 10;

FIG. 13 is a view of the structural relationship of the sash to the glass sheet;

fig. 14 is a partially enlarged view of the region F in fig. 13.

The labels in the figure are: 1-louver frame, 101-louver air inlet, 102-air flow channel, 103-air source device installation part, 104-fan, 105-strip limiting structure, 2-hollow louver, 201-louver air outlet, 202-guide plate, 3-humidifying device, 301-capillary evaporating plate, 302-water flow channel, 303-water storage box, 304-humidifying water pump, 4-window frame, 5-wall body, 601-gear, 602-rack, 603-belt transmission piece, 7-organ cover, 701-flexible cover, 702-moving frame, 801-x connecting rod, 8011-first rod, 8012-second rod, 802-driving connecting rod, 803-limiting part, 804-limiting block, 805-elastic piece, 901-connecting rod, 902-pressing block, 903-elastic claw, 904-torsion spring and 10-glass sheet.

Detailed Description

The present invention will be described in further detail with reference to test examples and specific embodiments. It should be understood that the scope of the above-described subject matter is not limited to the following examples, and any techniques implemented based on the disclosure of the present invention are within the scope of the present invention.

Examples

As shown in fig. 1, fig. 1 is an operation state diagram of a louver ventilating device, a louver frame 1 is arranged on a wall 5 at the side of a window frame 4, a plurality of hollow louvers 2 are installed in the louver frame 1, the louver frame 1 with the plurality of hollow louvers 2 can be driven to move horizontally or vertically along the wall 5 to the window frame 4 through transmission of a gear 601, and the structure of the gear 601 is partially shown in a partial enlarged view of a region B of fig. 2.

It can be seen that in this operating position the louvre 1 is mounted in the wall 5 to the right of the frame 4 and has been driven onto the glass sheet 10 to the left.

As shown in fig. 2, fig. 2 is a schematic structural diagram of a louver ventilating device, which includes a hollow louver 2, a louver frame 1, a ventilating device, a humidifying device 3, a rotating device of the hollow louver 2, and a louver ventilating device displacement device.

As can be seen, the louver frame 1 with the hollow louvers 2 is installed on the wall 5, and the movement of the louver frame is completed through the gear transmission and the two guide rails arranged on the wall 5, and in addition, the louver ventilating device comprises an air source device and a humidifying device 3, and the humidifying device 3 supplies moisture upwards through a water storage box 303 and a humidifying water pump 304.

As shown in fig. 3, fig. 3 is a schematic structural diagram of a louver frame 1, the louver ventilation device includes the louver frame 1, and a louver air inlet 101 is arranged on at least one connecting end of the louver frame 1 and the hollow louver 2; an air flow channel 102 is arranged in the louver frame 1, the louver air inlet 101 is communicated to an air source device through the air flow channel 102, and the air source device is installed on an air source device installation portion 103.

The louver frame 1 further comprises an air source device mounting part 103, and the air flow channel 102 is communicated to the air source device mounting part 103;

in the figure, when the same hollow louver 2 is installed on the louver frame 1, the upper end and the lower end of the louver frame are both provided with louver air inlets 101, and the two louver air inlets 101 are both connected to an air source device installation part 103.

As shown in fig. 4 and 5, fig. 4 is a three-dimensional structure diagram of a hollow louver 2, fig. 5 is a schematic longitudinal sectional view of the hollow louver 2, the hollow louver 2 is a frame-shaped hollow louver, the louver outlet 201 is disposed on at least one long frame strip of the frame-shaped hollow louver, and a single hollow louver 2 is provided with at least one louver outlet 201.

The hollow louver 2 comprises a flow guide plate 202, and the air flow passes through the hollow space of the hollow louver 2 and flows out through the flow guide direction of the flow guide plate 202.

The hollow louver 2 has a central cavity that enables the air flow to pass between the louver outlet 201 and the louver inlet 101.

As shown in fig. 6, fig. 6 is a cross-sectional view along the line G-G in fig. 5, in which two long frame strips of the frame-shaped hollow louver are both provided with louver outlets 201, and the hollow louver 2 is provided with a baffle 202 at the cavity side thereof. In operation, the baffle 202 causes the air flow to flow in the diversion direction, and by arranging the hollow louver 2 as a frame-shaped hollow louver, the volume and flow direction of the air are limited by the frame-shaped louver, thereby enhancing the flow of the air flow.

Meanwhile, a light shield can be arranged in the middle of the frame-shaped hollow shutter, namely the light shield can be selectively arranged between the two guide plates 202, so that the light shield can better shield light when arranged, the light shield can better ventilate when not arranged, and the natural wind ventilation effect of the original traditional light shield shutter is not influenced when the light shield has the light shielding performance. When no shade is provided, natural wind circulates between the two air deflectors 202, and the air flow from the hollow louver 2 accelerates the air flow, achieving the effect of enhancing ventilation.

The working principle of the ventilation device is as follows:

the air flow generated by the air source device flows through the louver air inlet 101 through the air flow channel 102 in the louver frame 1 and enters the hollow louver 2, and the air flow flows out through the louver air outlet 201 according to the flow guiding direction due to the existence of the flow guiding plates 202 of the hollow louver 2, wherein the natural wind circulates between the two flow guiding plates 202, the air flow of the hollow louver 2 is accelerated, and the effect of enhancing the ventilation is achieved.

As shown in fig. 7, fig. 7 is a partial enlarged view of the area a in fig. 2, which shows the structure of the rotating device of the hollow louver 2, and a plurality of hollow louvers 2 realize that one motor controls the rotation angle of the hollow louver 2 by means of belt transmission or gear 601 transmission, thereby changing the ventilation performance; the turning device may be provided in the blind frame 1. Fig. 7 illustrates the principle of belt drive by the belt drive member 603.

As shown in fig. 8, fig. 8 is a partial enlarged view of the area B in fig. 2, which shows a displacement device of the louver ventilating device, the louver ventilating device is driven by a gear 601 to complete the displacement, a rack 602 is arranged on the wall 5, a gear 601 and a motor are arranged in the louver ventilating device, and the length of the displacement of the louver ventilating device is controlled by controlling the rotation angle of the motor.

As shown in fig. 9, fig. 9 is a partial enlarged view of the area C in fig. 2, which shows the structures of the humidifying device 3 and the air supply device, and as can be seen from fig. 2, the air supply device includes at least one fan 104, and all of the fans 104 are disposed on the air supply device mounting portion 103.

The air supply device comprises an air inlet cover surrounding the fan 104 as shown in fig. 1, and a plurality of air inlet holes are formed in the air inlet cover.

The humidifying device 3 comprises at least one capillary evaporation plate 301, wherein the capillary evaporation plate 301 is arranged between the fan 104 and the airflow channel 102; humidification device 3 still includes rivers passageway 302 and water storage box 303, rivers passageway 302 one end with capillary evaporation board 301 is connected, the other end with water storage box 303 is connected, still be provided with humidification water pump 304 on the water storage box 303.

The working principle of the humidifying device 3 is as follows:

during operation, make the rivers in the water storage box 303 lead to capillary evaporating plate 301 through humidification water pump 304, capillary evaporating plate 301 sets up fan 104 with between airflow channel 102, through setting up capillary evaporating plate 301 that has moisture, when making fan 104 open, the air current that circulates to tripe air outlet 201 has moisture, reaches the effect of humidification.

As shown in fig. 10, fig. 10 is a schematic structural diagram of the organ cover opening and closing device, the organ cover opening and closing device comprises an openable and closable organ cover 7, the openable and closable organ cover 7 is arranged on the louver frame 1, and the organ cover 7 can be attached to the window frame 4 when opened.

The organ cover 7 comprises a flexible cover 701 and a movable frame 702, wherein one surface of the flexible cover 701 is connected with the louver frame 1, and the other surface of the flexible cover 701 is connected with the movable frame 702;

an x-shaped connecting rod 801 is connected between the louver frame 1 and the moving frame 702, the x-shaped connecting rod 801 comprises a first rod 8011 and a second rod 8012 which are hinged to form an x shape, a first end of the first rod 8011 and a first end of the second rod 8012 are hinged to the moving frame 702, a second end of the first rod 8011 and a second end of the second rod 8012 are rotatably connected to the louver frame 1, and the opening and closing of the organ cover 7 are controlled by controlling the size of an included angle between the first rod 8011 and the second rod 8012.

As shown in fig. 11, fig. 11 is a partial enlarged view of a region D in fig. 10, a strip-shaped limiting structure 105 is further disposed on the louver frame 1, the strip-shaped limiting structure 105 is a sliding groove or a strip-shaped hole, and the second end of the first rod 8011 is disposed on the strip-shaped limiting structure 105 and can slide along the strip-shaped limiting structure 105;

the rotatable connection, such as a hinge, of the second end of the first rod 8011 in the elongated limiting structure 105 is fixedly connected to the driving link 802, and the sliding of the second end of the first rod 8011 in the elongated limiting structure 105 is controlled by controlling the horizontal movement of the driving link 802, so as to control the angle between the first rod 8011 and the second rod 8012.

As shown in fig. 12, fig. 12 is a partial enlarged view of an area E in fig. 10, a driving link 802 capable of moving along a moving direction of the louver frame 1 is further disposed on the louver frame 1, one end of the driving link 802 is hinged to the second end of the first rod 8011, the other end of the driving link 802 is connected to a limiting portion 803, a limiting block 804 is further fixed on the wall 5, and the limiting block 804 is used for pulling the driving link 802 with the limiting portion 803 to increase an included angle between the first rod 8011 and the second rod 8012;

the limiting portion 803 is further fixedly provided with an elastic member 805 at an opposite end connected to the driving link 802, and the elastic member 805 is used for pushing the driving link 802 to return when the louver frame 1 returns.

The elastic member 805 may be a spring, and the connection between the limiting portion 803 and the spring may be implemented by providing a cylinder with a smaller inner diameter than the spring on the limiting portion 803, so as to prevent the spring from being bent excessively when the spring is compressed.

The organ cover 7 works according to the following principle:

when the louver frame 1 is displaced, the driving connecting rod 802 with the limiting part 803 moves together until the limiting part 803 contacts with the limiting block 804, the spring starts to compress, the driving connecting rod 802 moves towards the direction opposite to the moving direction of the louver frame 1, the included angle between the first rod 8011 and the second rod 8012 is increased, and therefore the moving frame 702 of the organ cover 7 is driven to move towards the direction of the window frame 4 until the moving frame is attached to the window frame 4, and the flexible cover 701 can stretch and retract; when the louver frame 1 moves towards the direction of the wall body 5, the spring resets, the driving connecting rod 802 drives the first rod 8011 to restore the original position, the included angle between the first rod 8011 and the second rod 8012 is reduced, and therefore the movable frame 702 of the organ cover 7 is driven to move towards the direction of the louver frame 1 until the original position is restored.

As shown in fig. 13 and 14, fig. 13 is a structural relationship diagram of the window frame 4 and the glass sheet 10, and fig. 14 is a partially enlarged view of a region F in fig. 13.

As shown in fig. 13 and 14, a connecting rod 901 and a pressing block 902 are arranged on the window frame 4, one end of the connecting rod 901 is hinged to the window frame 4, the other end of the connecting rod 901 is hinged to the pressing block 902, a glass sheet 10 is arranged in the window frame 4, and the pressing block 902 presses the glass sheet 10;

an elastic claw 903 is further hinged to the louver frame 1, a torsion spring 904 is arranged at the hinged position, and when the louver frame 1 moves to the terminal point, the elastic claw 903 drives the connecting rod 901 to rotate so as to separate the pressing block 902 from the glass sheet 10.

The working principle of opening and closing of the glass sheet is as follows:

the elastic claw 903 is hinged to the louver frame 1, a torsion spring 904 is arranged at the hinged position, when the louver frame 1 moves to the terminal point, the elastic claw 903 dials the connecting rod 901 to rotate so as to separate the pressing block 902 from the glass sheet 10, and when the louver frame 1 resets, the elastic claw 903 resets under the action of the torsion spring 904.

Claims

1. The louver ventilating device is characterized by comprising a louver frame (1) and a plurality of hollow louvers (2) arranged in the louver frame (1), wherein at least one louver air outlet (201) is formed in each hollow louver (2), and a louver air inlet (101) is formed in at least one connecting end, connected with each hollow louver (2), of each louver frame (1);

an air flow channel (102) is arranged in the louver frame (1), and the louver air inlet (101) is communicated to an air source device through the air flow channel (102);

the hollow shutter (2) is provided with a middle cavity which enables air flow to circulate between the shutter air outlet (201) and the shutter air inlet (101), the hollow shutter (2) comprises a guide plate (202), and the air flow flows out through the cavity of the hollow shutter (2) in the guide direction of the guide plate (202);

the hollow louver (2) is a frame-shaped hollow louver (2), and the louver air outlet (201) is arranged on at least one long frame strip of the frame-shaped hollow louver (2);

the louver frame (1) comprises an air source device mounting part (103), and the air flow channel (102) is communicated to the air source device mounting part (103);

the air supply device comprises at least one fan (104), and all the fans (104) are arranged on the air supply device mounting part (103);

the louvered ventilation device comprises a humidifying device (3), the humidifying device (3) comprising at least one capillary evaporation plate (301), the capillary evaporation plate (301) being arranged between the fan (104) and the airflow channel (102);

the humidifying device (3) further comprises a water flow channel (302) and a water storage box (303), one end of the water flow channel (302) is connected with the capillary evaporation plate (301), the other end of the water flow channel is connected with the water storage box (303), and a humidifying water pump (304) is further arranged on the water storage box (303);

the louver frame (1) is arranged on a wall body (5) on the side of a window frame (4), and the louver frame (1) is driven to move horizontally or vertically along the wall body (5) to the window frame (4) through gear transmission;

the louver window is characterized in that an organ cover (7) capable of being opened and closed is arranged on the louver window frame (1), and the organ cover (7) is attached to the window frame (4) when the louver window is opened.

2. Shutter ventilation device according to claim 1, characterized in that said organ enclosure (7) comprises a flexible enclosure (701) and a mobile frame (702), said flexible enclosure (701) being connected on one side to said shutter frame (1) and on the other side to said mobile frame (702).

3. The louver ventilating device according to claim 2, characterized in that an x-shaped connecting rod (801) is connected between the louver frame (1) and the moving frame (702), the x-shaped connecting rod (801) comprises a first rod (8011) and a second rod (8012) hinged in an x shape, a first end of the first rod (8011) and a first end of the second rod (8012) are hinged on the moving frame (702), a second end of the first rod (8011) and a second end of the second rod (8012) are rotatably connected on the louver frame (1), and the opening and closing of the organ cover (7) are controlled by controlling the size of an included angle between the first rod (8011) and the second rod (8012).

4. The louver ventilation device according to claim 3, characterized in that the louver frame (1) is further provided with a strip-shaped limiting structure (105), the strip-shaped limiting structure (105) is a sliding groove or a strip-shaped hole, the second end of the first rod (8011) is arranged on the strip-shaped limiting structure (105) and can slide along the strip-shaped limiting structure (105);

still be provided with on louver frame (1) and follow drive connecting rod (802) that louver frame (1) moving direction moved, the one end of drive connecting rod (802) with the second end of first pole (8011) is articulated mutually, the other end of drive connecting rod (802) is connected with spacing portion pole (803), still be fixed with stopper (804) on wall body (5), stopper (804) are used for pulling and have spacing portion pole (803) drive connecting rod (802) are in order to increase the contained angle of first pole (8011) and second pole (8012).

5. The louver ventilation device according to claim 4, characterized in that the limiting rod (803) is further fixedly provided with an elastic member (805) at the opposite end connected with the driving link (802), the elastic member (805) is used for pushing the driving link (802) to reset when the louver frame (1) is reset.

6. The louver ventilating device according to claim 5, characterized in that the window frame (4) is further provided with a connecting rod (901) and a pressing block (902), one end of the connecting rod (901) is hinged with the window frame (4), the other end is hinged with the pressing block (902), the window frame (4) is provided with a glass sheet (10), and the glass sheet (10) is pressed by the pressing block (902);

the louver frame (1) is further hinged with an elastic claw (903), a torsion spring (904) is arranged at the hinged position, and when the louver frame (1) moves to the terminal point, the elastic claw (903) pulls the connecting rod (901) to rotate so as to separate the pressing block (902) from the glass sheet (10).