KR102425964B1 - the horizontal non-electric damper - Google Patents

Abstract

The non-motorized damper according to the present invention has a structure in which louvers of a heat insulating material including weight portions at both lower ends are vertically arranged inside the frame to block the inside of the frame, and the non-powered damper is installed with a ventilation fan in the structure. Insulation is maintained, and when the ventilation fan exhausts the air inside the structure, a negative pressure is formed inside the structure, and the louver rotates with respect to the hinged frame and opens, so that the ventilation of the structure is made as external air flows in. It relates to a non-powered damper of a structure that can control the opening and closing amount and the inflow amount according to the angle at which the louver rotates, and maintains the open state of the louver when the louver is opened by a weight part.

Description

The horizontal non-electric damper

The present invention relates to a horizontal non-motorized damper, in which louvers including weight portions at both lower ends are vertically arranged inside a frame and both ends are hinged together, and the non-powered damper is installed in the structure with a ventilation fan, and ventilation When the fan exhausts the air inside the structure, a negative pressure is created inside the structure. As the louver rotates and external air flows in, the structure is ventilated, and the amount of air introduced can be adjusted according to the rotation angle of the louver. And, it has a structure to maintain the open state of the louver when the louver is opened by the weight.

In general, ventilation occupies a large part in the air conditioning of general buildings and buildings for livestock and livestock. Therefore, a large amount of air is discharged through a ventilation fan in the building, and a damper is provided to control the amount of air discharged, that is, the flow rate. Such a damper is composed of a plate type that blocks the ventilation pipe where the ventilation fan is installed, and the flow rate is adjusted according to the degree of opening and closing of the damper. There is a power damper that can be opened and closed artificially by

In addition, these dampers include a disk-type damper and a louver-type damper. The disk-type damper constitutes a damper having a disk structure corresponding to the cross section of the ventilation pipe, forms an axis transverse to the disk radial direction, and the damper rotates around the axis. It is a structure to control the flow rate while, or, the louver-type damper has a structure in which a plurality of narrow and long plate-shaped louvers are arranged and provided in the form of a square, and each louver is rotated while rotating.

Taking an example of a louver-type damper among these dampers, in Korean Utility Model Registration No. 20-0396655, a plurality of blocking plates are connected to each link, and each link is connected to a rod, and the rod is used for the operation of a magnet switch. The content of the backflow prevention damper of the dry air doctor having a structure that opens and closes the blocking plate is posted.

In addition, in Korean Patent Application No. 10-2007-0114886, a plurality of blades are configured, each blade is connected to a rotating shaft and a connecting weight, and a connecting rod is connected to each rotating shaft, so that the blades are blown off by air exhaust or connecting weights. The contents of the static pressure maintenance damper for ventilation of the opening and closing structure are posted.

However, in the first exemplified design exemplified above, since electricity must be supplied to operate the magnet switch, there was a risk of malfunction or failure in a high temperature or high humidity environment, and the problem of repair or replacement due to failure is inherent. had been

In addition, the second invention exemplified above does not require power, but since the connecting weight is arranged on only one side, and the blade has a plate structure, as the length of the blade increases, problems of imbalance and twisting while rotating may occur.

In addition, in the design and invention exemplified above, by the structure in which the blocking plate and the wing are opened or closed at the same time by one rod and the connecting rod, the individual opening and closing of the blocking plate or the wing cannot be adjusted, so the degree of opening and closing can be adjusted according to the height. There was a problem that could not be adjusted, and since the illustrated design and invention have a plate structure that only controls the flow rate, there is a problem that the insulation function cannot be expected at all.

In addition, the existing louver-type damper is made of aluminum or stainless steel and has excellent corrosion resistance, but it is difficult to expect thermal insulation performance due to the nature of the metal, and there is a problem in that deformation occurs due to high temperature and temperature change. Since it is heavy, there was a problem that the opening/closing control speed was slow as the length increased.

As described above, the non-powered damper according to the present invention has a structure in which both ends are hinge-coupled while louvers including weight portions at both lower ends are vertically disposed inside the frame, and the non-powered damper is installed in the structure together with a ventilation fan, When the ventilation fan exhausts the air inside the structure, a negative pressure is created inside the structure, and as the louver rotates and external air flows in, the structure is ventilated. and to maintain the open state of the louver when the louver is opened by the weight.

In addition, the louver of the non-powered damper is composed of a panel made of a thermal insulation material, a wrapping paper that encloses the panel hermetically and hermetically, and an outer cover with a 'C' cross-section that wraps around the edge of the panel, so that even if the non-powered damper is installed, the insulation properties to increase the weather resistance and durability together with the outer panel by preventing moisture penetration into the louver by the wrapping paper.

In addition, the weight portion of the non-powered damper consists of a protruding part protruding from the panel, an installation part protruding vertically to the lower part of the protrusion part, and a weight installed in the installation part, and the weight is the same for each louver of the weight part, or, of the louver It is constructed heavier toward the lower part, so if the weight of each louver is the same, all louvers open and close at the same time. It does not flow in, and warm air and cold outside air are mixed and supplied to the lower part to prevent shock caused by the temperature difference between the inside and outside air.

In addition, the louver of the non-motorized damper is installed so that the weight part faces the outside of the structure, and the upper end of the louver is opened while rotating into the inside of the structure. Also, on the opposite side of the weight portion of the louver, the louver top is prevented from rotating outward by an erroneous opening prevention means such as a string or a pole along the longitudinal direction of the louver.

In addition, a cooling pad is installed on the frame on the weight side of the non-powered damper, and a supply pipe for supplying water to the upper portion of the cooling pad is configured. Reduce the air temperature quickly.

As described above, the non-powered damper according to the present invention has a structure in which both ends are hinge-coupled while louvers including weight portions at both lower ends are vertically disposed inside the frame, and the non-powered damper is installed in the structure together with a ventilation fan, When the ventilation fan exhausts the air inside the structure, a negative pressure is formed inside the structure, and as the louver rotates, the outside air flows in, which has the effect of ventilating the structure. can be adjusted, and has the effect of maintaining the open state of the louver when the louver is opened by the weight.

In addition, the louver of the non-powered damper is composed of a panel made of a thermal insulation material, a wrapping paper that encloses the panel hermetically and hermetically, and an outer cover with a 'C' cross-section that wraps around the edge of the panel, so that even if the non-powered damper is installed, the insulation properties It has excellent weather resistance and durability along with the outer panel by preventing moisture penetration into the louver by the wrapping paper.

In addition, the weight portion of the non-motorized damper consists of a protrusion protruding from the panel, an installation portion protruding vertically to the lower portion of the protrusion, and a weight installed in the installation portion, and the weight is configured to be heavier toward the lower portion of the louver, the weight of the louver In other cases, as the upper light louver is sequentially opened from the lower louver, the upper warm air and cold outdoor air are mixed and supplied to the lower part to prevent shock due to the temperature difference between the inside and outside air.

In addition, the louver of the non-motorized damper is installed so that the weight part faces the outside of the structure, and the upper end of the louver is opened while rotating into the inside of the structure. Also, on the opposite side of the weight of the louver, there is an effect of preventing the louver from being opened while rotating the upper end of the louver outward by an erroneous opening prevention means such as a string or a pole along the longitudinal direction of the louver.

In addition, a cooling pad is installed in the frame on the weight side of the non-powered damper, and a supply pipe for supplying water to the upper portion of the cooling pad is configured. It has the effect of rapidly dropping the internal temperature by supplying it.

1 is a perspective view of a non-powered damper according to the present invention.
2 (A) and (B) are a perspective view and a cross-sectional view of a panel according to the present invention.
3 is a perspective view and a partially enlarged view of a louver according to the present invention.
Figure 4 is a perspective view of a louver according to another embodiment of the present invention.
5 is a partially cut-away perspective view of the non-powered damper according to the present invention.
6 is a side view and a partially enlarged view of a non-powered damper according to the present invention.
7 is a side view according to an operating embodiment of the non-powered damper according to the present invention.
8 and 9 are side views according to another operating embodiment of the non-powered damper according to the present invention.
10 is a side view in which a cooling pad is applied to a non-powered damper according to the present invention;
11 is a cross-sectional view in which a non-powered damper is applied to a structure according to the present invention;
12 is a cross-sectional view showing the operation of a non-powered damper installed in a structure according to the present invention.

The present invention relates to a horizontal non-motorized damper, and has a structure in which louvers including weight portions at both lower ends are vertically arranged inside a frame and both ends are hinged, and this non-powered damper is installed in the structure together with a ventilation fan, , when the ventilation fan exhausts the air inside the structure, a negative pressure is created inside the structure, and the louver rotates and opens while the outside air flows in to ventilate, and the amount of air introduced according to the rotation angle of the louver is adjusted. When the louver is opened by the weight, it is possible to maintain the open state of the louver.

As shown in FIG. 1, the non-powered damper 100 according to the present invention has a structure in which a louver 10 is vertically arranged inside the frame 20 to block the inside of the frame 20, and the louver 10 is a frame ( 20) is hinged to open and close while rotating, and the amount of opening and closing can be adjusted according to the degree (angle) of the louver 10 rotation.

In more detail, as shown in FIG. 2 , the louver 10 of the non-powered damper 100 includes a long plate-shaped panel 10 ′ and a weight portion 10 ″ assembled to the panel 10 ′. ), and the panel 10 ′ is composed of a wrapping paper 11 that wraps hermetically and hermetically, and an outer cover 12 that surrounds the edge of the panel 10 ′.

First, the panel 10 ′ is to have a constant length with a constant width and thickness, and the panel 10 ′ is composed of a heat insulating material, and the heat insulating material is composed of expanded polystyrene, compressed expanded polystyrene, polyurethane, etc., or the heat insulating material is general Insulation materials as well as fire-resistance insulation materials can be applied.

In addition, the wrapping paper 11 has a waterproof function and encloses the panel 10' in an airtight and close contact. There is a method of wrapping with a wrap or wrapping a heat-shrinkable vinyl, and then applying heat to completely adhere to the panel 10'.

And as shown in Figures 2 and 3, the outer cover 12 is to protect the edge of the panel (10') wrapped with the wrapping paper 11, the cross-section is formed in a 'C'-shaped cross-section, , is composed of a length corresponding to the horizontal and vertical length of the outer cover (12).

In addition, the outer cover 12 has a cross-sectional shape formed in a structure that does not fall out by being forcibly fitted to the edge of the panel 10'. The material of the outer cover 12 is stainless steel or synthetic resin, and the stainless steel is the panel 10'. ), use a channel-shaped stainless steel that can be inserted into the edge of the panel, or use a stainless steel plate bent to fit the edge of the panel (10'). ') is manufactured to fit on the edge.

When the outer cover 12 is made of synthetic resin or stainless steel in this way, the durability and corrosion resistance of the edge part are increased, and the outer cover 12 made of stainless steel is more durable than the outer cover 12 made of synthetic resin , when welding is required on the louver 10, the outer cover 12 of stainless steel is more suitable, but the outer cover 12 made of synthetic resin is lighter than the outer cover 12 made of stainless steel, so one louver The outer cover 12 of the same material may be used for (10), or a mixture of the outer cover 12 of different materials may be used as needed. All of them may be configured, or may be installed only on the edge of the panel 10 ′ requiring durability and strength.

And as shown in FIGS. 3 and 4, the weight portion 10″ is assembled on both lower sides of the outer cover 12 in the longitudinal direction, respectively, and the weight portion 10″ includes the support 14 and the weight 15. ), and the support 14 has an 'L'-shaped cross-section in which the protrusion 14a and the installation part 14b vertically protruding from one end of the protrusion 14a are integrated, and the opposite side of the protrusion 14a The attachment portion 14c parallel to the installation portion 14b is further configured, and the installation portion 14b is preferably formed in a rectangular cross-section, and if one or more grooves or holes (not shown) are formed as necessary, There is a feature that the fixing force of the weight 15 to be described later is easier.

And the weight 15 has an appropriate volume and weight in a cylindrical, rectangular, wedge-shaped, etc. other block structure, and is composed of metal, ceramic, or steel coated with a corrosion-resistant material having excellent corrosion resistance, and this weight 15 ) is formed with a through-fitting hole (15a) and a female screw (15b) connected from the outside to the fitting hole (15a) in a vertical direction with respect to the longitudinal direction of the fitting hole (15a), which is assembled to the female screw (15b). An external screw 15c is further configured.

So, the weight 15 is inserted into the installation part 14b of the support 14 through the fitting hole 15a, and the male screw 15c is assembled to the female screw 15b of the weight 15, and the male screw 15c When the tip is completely in close contact with the installation part 14b, or the end of the male screw 15c is inserted into a groove or hole (not shown) of the installation part 14b, the weight 15 can be more firmly fixed, and the installation part Since there is a characteristic that the center of gravity varies depending on the location installed in (14b), the weight 15 is installed at a desired position along the longitudinal direction of the installation part 14b in consideration of the center of gravity, and the weight ( 15) constitutes a fixed weight (10″).

And this weight portion 10″ can be installed with the panel 10′ by bolting, welding, using a binder, bundling, etc. by attachment portions 14c on both edges along the longitudinal direction of the panel 10′. In detail, the attachment portion 14c is fixed to the outer cover 12 so that the protrusion 14a can be positioned as far as possible toward one edge of the panel 10' in the width direction, and thus, the weight 15 is the panel Positioned away from (10'), the weight 15 has a structure that protrudes enough to contact the outer surface and the extended surface of the panel 10' as much as possible, while minimizing the protrusion on the opposite side, that is, the weight ( 15) is assembled to the support 14 and the panel 10' to have a protruding structure toward the side of the panel 10' while minimizing the protruding structure to the opposite side.

In addition, it is preferable to install the weight portion 10″ for the louver 10 to have a symmetrical structure, and the weight 15 of the weight portion 10″ may have the same weight for each louver 10, Alternatively, by varying the weight of the weight 15 for each louver 10, the light weight 15 is opened first, and the heavier the weight, the more slowly opened, and the weight 15 may have various structures. Rather than having a cylindrical or completely rectangular structure, as shown in FIG. 4 , both sides of the longitudinal direction of the louver 10 have a constant cross-section, and have a cross-section that becomes narrower toward the center of the louver 10, the installation part ( 14b) It protrudes toward the attachment portion 14c rather than the outside, and does not protrude beyond the attachment portion 14c from the protrusion 14a.

In this way, the weight portions 10″ are coupled to both sides of the panel 10′ to constitute the louver 10, and the louver 10 is light and excellent in heat insulation because the panel 10′ is made of a heat insulating material, and the panel (10') itself is wrapped with the wrapping paper 11, so it is excellent in airtightness and watertightness, and the outer cover has excellent durability of the panel 10'.

In addition, the louver 10 according to the present invention constitutes a non-powered damper 100 coupled with the frame 20 of an open structure in a square structure, and the non-powered damper 100 is a louver 10 inside the frame 20. It is configured in a structure that covers both the inside of the frame 20 while arranging left and right or up and down, but the longitudinal ends of the louver 10 and the frame 20 are coupled in a hinge-coupled structure, and the flow rate is controlled by the rotation of the louver 10 has a structure that

On the other hand, since the louver 10 has a structure that is assembled and rotated by a hinge coupling while being coupled to the frame 20, the louver 10 must be provided with a hinge means for hinge coupling, and both sides of the louver 10 are hinged. Since it is coupled, it is preferable to provide a hinge means on the outer cover 12 coupled to both sides of the louver 10, and the hinge means can be configured in a structure in which a pin is coupled to a hole and rotates, and the louver (10) A hole or a pin is configured as a hinge means in the outer cover 12 assembled on the side of the louver 10 to be precise, and the hinge means of the louver 10 is provided in the frame 20 to which the louver 10 is coupled. A corresponding hole or pin is provided to engage with the louver 10 so as to facilitate rotation of the louver 10 by the hinge coupling.

In addition, the louver 10 has a panel structure, and while the cross section is formed in a square shape, interference may occur in the rotation of the louver 10 between the louvers 10 adjacent up and down, preventing interference between the louvers 10 . In order to do this, looking at the method, first, as shown in the upper right corner of FIG. 6 , the mohair 14 is installed along the longitudinal direction of the louver 10 , and the mohair 14 is the gap between the louvers 10 . It is possible to prevent interference between the louvers 10 or between the louvers 10 and the frame 20 by the mohair 14 having good bendability even in rotation while increasing the closeness.

In addition, as a second method for preventing interference between the louvers 10 , as shown in the lower right of FIG. 6 , there is a method of rounding the corners of the louvers 10 , and mohair on the louvers 10 . (14) or the method of forming a rounding on the edge of the louver 10 can be applied respectively or applied simultaneously to prevent interference through the rotation of the louver 10.

And the louver 10 is hinged with the frame 20 so that the weight portion 10″ is located at the lower side, and the weight portion 10″ is located outside (outside, outside), and the weight portion 10″ is located on the outside. The weight 15 has a structure in which the weight portion 10 ″ protrudes below the fixed louver 10, and while both lower sides (points lower than the middle) of the louver 10 are hinged with the frame 20, , the louver 10 has a structure in which the top is in a flat state and then rotates while tilting inward (inside) and then returns to the original position.

On the other hand, it is preferable to provide an erroneous opening preventing means 21 so that the louver 10 does not rotate to the outside, and there are various types of erroneous opening preventing means 21 , but the louver 10 and the frame 20 As shown in the enlarged view of FIG. 6 , the louver 10 is configured as a stopper (not shown) that does not rotate to the outside in the hinged connection, or brackets (not shown) on both sides of the frame 20 and install the erroneous opening prevention means 21 such as a string or pole that crosses the bracket, so that even if the louver 10 is rotated outwardly, it is not overturned by the erroneous opening prevention means 21. It is preferable not to

In addition, a cooling pad 30 may be added to the frame 20. As shown in FIG. 10, the cooling pad 30 maximizes the surface area by arranging plates or fins. When water flows, the water evaporates and cools the air. The cooling pad 30 is generally made of metal, but recently paper, non-woven fabric, and other synthetic resin materials are also manufactured, and the upper part of the cooling pad 30 is When water is supplied to the supply pipe 31 for supplying water to the furnace, water is supplied or sprayed to the cooling pad 30 through the plurality of nozzles 32 configured in the supply pipe 31 .

On the other hand, the supply pipe 31 is directly connected to the water supply source or the groundwater supply source, or water is supplied from the water tank to the supply pipe 31 through the pump to the supply pipe 31. The water flowing down is circulated back to the water tank for recycling.

And it is preferable to control the amount and time of supply so that the water supplied to the cooling pad 30 can be supplied according to the internal temperature or humidity, and even if the cooling pad 30 is installed in the frame 20, the louver It is preferable to install at a distance so that the panel 10 ′ or the weight 10 ″ does not interfere with the cooling pad 30 due to the rotation (opening and closing) of (10).

In this way, the louvers 10 are arranged inside the frame 20 and, if necessary, the non-powered damper 100 of the structure in which the cooling pad 30 is installed on one side of the frame 20 is constituted.

Such a non-powered damper 100 is installed on the wall of a structure 300 corresponding to a general building, a greenhouse for growing plants, a greenhouse, a barn for livestock, etc., and the non-powered damper 100 is installed to be disposed above the wall rather than below Preferably, the non-powered damper 100 installed on the wall adjusts the flow rate required for ventilation according to the degree of rotation of the louver 10 to provide an environment suitable for living and growth to people, plants, livestock, and the like.

For example, by installing the non-powered damper 100 on the wall of the structure 300, as shown in FIGS. 6 and 11, all louvers 10 are parallel to the wall when there is no external force on the louvers 10. to keep it closed.

And a ventilation fan 210 is installed together with the non-powered damper 100. As shown in FIG. 11, the ventilation fan 210 is composed of a fan 210 and a motor 220 rotating the fan 210. And, the motor 220 of the ventilation fan 210 may be configured as a variable motor 220 capable of adjusting the rotation speed of the fan 210 , and the ventilation fan 210 is a wall or ceiling of the structure 300 . Alternatively, it is installed on the roof, and the ventilation fan 210 is installed to span the inside and outside, and has a structure for discharging air in the interior space to the outside by the operation of the ventilation fan 210 .

In this way, a number of non-powered dampers 100 and ventilation fans 210 are installed according to the ventilation amount of the structure 300, and the non-powered dampers 100 are usually parallel to the wall when the ventilation fan 210 does not operate. Therefore, the closed structure has a closed structure so that the internal and external air do not pass through each other.

And when the ventilation fan 210 operates in order to discharge the internal air, and the fan 210 discharges the internal air, a negative pressure is formed inside the structure 300 so that the upper end of the louver 10 moves toward the inside (inside). As it is tilted and rotated to open, outside air is introduced.

On the other hand, basically, the louver 10 has a structure closed by the weight portion 10″, and when the inside of the structure 300 forms a negative pressure, the louver 10 is opened as external air flows in by the pressure difference, and the louver When the (10) is opened to a certain extent, the weight of the weight 15 and the rotated louver 10 is divided based on the hinge-coupled basis, and there is a characteristic of maintaining the opening even with a weak force.

In addition, if the weight of the weight 15 for each louver 10 of the non-powered damper 100 is constant, all the louvers 10 are opened and closed at the same time, but the weight of the weight 15 is different for each louver 10, and several units In a state where the ventilation fan 210 can control the operation of each, or the motor 220 of the ventilation fan 210 is applied as the variable motor 220, the number of operation of the ventilation fan 210 is increased or the ventilation fan ( If the output of 210) is increased, as shown in FIGS. 8 and 9, the weight 15 is initially opened from the light louver 10 and gradually opened in the order that the weight 15 becomes heavier, and the non-powered damper If the weight 15 of the upper louver 10 of (100) is lightened and lightened as it goes down, the upper louver 10 is opened first and has a structure that is opened sequentially below it.

The non-powered damper 100 according to the present invention prevents a shock caused by a temperature difference between the inside and outside while the outside air is introduced. It is opened, and the cold air from the outside flows into the inside while facing the top by the rotated angle of the louver 10 and mixes with the warm air at the top of the inside and is supplied in a state in which the temperature is buffered to the bottom, so the cold air outside It has a characteristic that prevents it from being transmitted to people or animals and plants directly below it.

In addition, when the weight of the weight 15 is different for each louver 10, the upper louver 10 is opened first as much as possible so that the introduced external air can mix the warm air from the upper side, and the inside of the structure 300 is When it is hot and humid, when all the ventilation fans 210 are operated and the output of the motor 220 is maximized, all the louvers 10 are maximally opened to quickly introduce outside air to lower the temperature and humidity, and additionally, When water is supplied to the cooling pad 30 , air at a low temperature is introduced by the heat of vaporization, so that the internal temperature can be quickly decreased.

And when the number of operations of the ventilation fan 210 is reduced or the output is lowered, the louver 10 gradually returns to the original position to reduce the degree of opening, and when the operation of the ventilation fan 210 is completely stopped, the louver 10 returns to the original position. It returns to its original state and has a closed structure.

As described above, the non-powered damper 100 according to the present invention is installed on the wall to control the flow rate while ventilating the inside and outside together with the ventilation fan 210. This is excellent, and while the louver 10 is wrapped, the outer cover 12 is coupled to the edge, so the weather resistance and durability are excellent, and the non-powered damper 100 does not require a separate power, so it can be used semi-permanently. have.

In addition, in the non-powered damper 100, as the louver 10 is opened, the outside air flows into the inside upwards, and the cold air from the outside is mixed with the warm air from the top and supplied to the bottom, so that the animals and plants growing there are shocked by the sudden temperature difference. In addition, if the weight 15 of the louver 10 is made heavier toward the lower side of the louver 10, it is opened sequentially from the upper louver 10, so it is mixed with the upper air as much as possible by the opening of the louver 10 and is mixed with the lower It has a feature to prevent shock to animals and plants due to temperature difference as it is supplied with

In addition, the non-powered damper 100 exchanges the weight 15 in the weight portion 10 ″ of the louver 10 with a weight 15 of a different weight or adjusts the position at which the weight 15 is fixed, the louver 10 It has a characteristic that can control the time or degree of rotation.

10: Louver 10′: Panel 10″: Weight
11: wrapping paper 12: outer cover 13: mohair
14: support
14a: protrusion 14b: mounting portion 14c: attaching portion
15: weight
15a: fitting hole 15b: female thread 15c: male thread
20: frame 21: erroneous opening prevention means
30: cooling pad 31: supply pipe 32: nozzle
100: non-powered damper
200: ventilation fan 210: fan 220: motor
300: structure

Claims (7)

delete In the damper, the louver is arranged up and down inside the rectangular frame, and both sides of the louver are hinged with the frame to adjust the ventilation amount by rotation of the louver,
The louver consists of a panel, an outer cover coupled to the edge of the panel, and a weight portion coupled to both sides of the louver,
The weight part has a structure in which a support and a weight coupled to the support are combined,
The support consists of a protrusion vertically protruding from the louver, and an installation part protruding vertically downward from the protrusion, and the weight is positioned on the lower side outside the louver,
The panel of the louver is made of a heat insulating material or fire-resistant insulation material sealed and sealed with a wrapping material,
The outer cover is made of synthetic resin or stainless steel and has a structure that surrounds the edge of the panel,
The hinge combination of each louver and the frame constitutes a non-powered damper of a structure that is combined below the middle of both sides of the louver,
The non-powered damper is installed on the wall so that the weight is located on the outside, and when the air inside is discharged, the top of the louver is tilted to the inside due to negative pressure and is opened to introduce external air in the upper direction.
3. The method of claim 2,
A horizontal type non-powered damper, characterized in that the wrapping material of the louver panel is applied with heat-shrinkable vinyl and adhered by heat.
4. The method of claim 3,
The weight of each louver of the non-powered damper is configured so that the weight becomes heavier from the upper side to the lower side,
A horizontal type non-powered damper characterized in that the opening timing of each louver is different.
4. The method of claim 3,
In the weight of the louver, a penetrating fitting hole and a female thread connected from the outside to the fitting hole are formed in the vertical direction with respect to the longitudinal direction of the fitting hole,
By applying mohair to the edge of the louver or forming a rounding on the edge of the louver,
A horizontal type non-powered damper, characterized in that it facilitates the exchange of weights and prevents interference with the rotation of the louver.
6. The method according to any one of claims 2 to 5,
In the protrusion of the louver, an attachment part parallel to the louver is further configured, and the attachment part is integrated with the panel by welding or screw assembly,
When the louver is closed, make sure that both edges of the louver have a relatively large volume and weight, and the side facing the weight and the louver is located close to the louver face,
A horizontal type non-powered damper, characterized in that the louver is provided with an erroneous opening preventing means so that the weight is not rotated to the side to which the weight is attached.
7. The method of claim 6,
A horizontal type non-motorized damper, characterized in that by coupling a cooling pad to the side to which the weight of the louver is assembled to the frame, and supplying water to the upper portion of the cooling pad.

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