KR20220004907A - Smart damper built-in hood cap unit for ventilation and winch for construction - Google Patents

Abstract

The present invention relates to a winch for construction, in which a smart damper assembled at an inner diameter part of a sleeve is operated to open and close due to a pressure difference between an elastic force of a spring, applied to the rear surface of a flat plate manufactured with a shape such as a circular plate, a semi-circular bent plate, a double semi-circular plate and a ring shaped plate, and an air flow applied to the front surface of the flat plate, a shock and a noise are prevented as a lip tip portion of a lip seal inserted on a circumferential surface of an edge of the flat plate operated to open and close is slowly compressed by a linear elastic pressing force of the spring installed on the rear surface of the flat plate in order that the lip tip portion is in contact with and sealed with a donut circulate plate or a circular step formed within a hollow cylinder of the smart damper in a vertical direction, rainwater is not introduced indoors and guided to be drained again to the outside by forming a rain and wind protector on the edge of a ventilation opening, formed by perforating an outer diameter surface of a cylindrical cap with one side blocked in a hood cap, to be connected together with a slot for drainage formed on the smart damper, and in addition, a smart damper built-in hood cap unit for a ventilation opening is pulled with the winch for construction while being vertically hung on one end of a string in conformance with the height of the number of floors in an apartment, then is bound with one string on all of L shaped hooks formed on the smart damper built-in hood cap unit for the ventilation opening, is pulled by hand within a room and is fixated to a sleeve in order that the smart damper built-in hood cap unit for the ventilation opening is conveniently inserted and fixated to the sleeve within a room without allowing a worker to access the position of the sleeve while climbing down a rope from a high ladder vehicle or a rooftop of a building and to push the hood cap therein. The present invention can prevent industrial disasters and save construction costs.

Description

Smart damper built-in hood cap unit for ventilation and winch for construction

The present invention provides a smart damper equipped with a temperature sensor, a carbon monoxide center, and a buzzer on the inside of a sleeve embedded in a concrete wall to discharge combustion gas, odor, and polluted air generated from indoors of a building such as an apartment to the outdoors, and It relates to a hood cap unit with a built-in smart damper for ventilation that is fixed by inserting and fixing a hood cap with an integrated structure exposed on a wall, and a winch for inserting and fixing it to a sleeve indoors. More specifically, it is assembled on the inner diameter of the sleeve The opening/closing operation of the smart damper is made by the pressure difference between the elastic force of the spring applied to the rear of the flat plate made in the form of a circular plate, a semi-circular bent disc, a double semi-circular plate, and an annular plate and the airflow applied to the front of the plate. ,

In addition, the lip tip of the lip seal fitted on the peripheral circumferential surface of the rim of the flat plate for opening/closing operation is installed on the rear surface of the flat plate in order to contact and seal the inner surface of the donut disc or circular jaw formed in the vertical direction inside the hollow cylinder of the smart damper. As it is compressed gradually by the linear elastic pressing force of the spring, no impact noise is generated.

The hood cap is connected to the drain slot formed in the smart damper by forming a rain and windshield on the rim formed by drilling the outer diameter of the cylindrical cap blocked on one side so that rainwater does not flow into the room and exits again to the outside,

In addition, in order for an operator to easily insert and fix the hood cap unit with a built-in smart damper for ventilation indoors without pushing the hood cap by accessing the sleeve position on a rope from an elevated ladder or on the roof of a building, it is adjusted to the height of the apartment floor. After hanging up and down on one end of the string and pulling it up with a winch for construction, tie all the B-shaped rings formed on the hood cap unit with a built-in smart damper with a single string and pull it indoors by hand to fix it on the sleeve. it's about

The flat plate seal attached to the edge of the rectangular rotating swash plate of the damper, which discharges pollutants such as combustion gases, odors, and polluted air generated from indoors to the outdoors, and blocks the inflow of rain and wind into the indoor sloping plate with its own gravity and permanent magnet magnetic force There are many cases of complaints from apartment residents as the shock noise generated during the opening and closing operation while in contact with the right side of the apartment is transmitted through the pipe.

In addition, as rain and wind flows into the room through the ventilation hole of the hood cap installed on the outer wall of the beach or high-rise building, there is a problem that the pollution source cannot easily escape due to the noise and moisture damage caused by the rain and wind, and the back wind.

In addition, the damper is inserted and fixed indoors in the inner diameter of the sleeve embedded in the concrete wall, and the hood cap is fixed by pushing the worker down on a rope from the roof or climbing up an elevated ladder from the outer wall of the wall toward the sleeve. Since it is a track construction method, there is a problem in that the manufacturing cost of the damper and the hood cap, which must be manufactured in a separate type, increases, in particular, the construction cost increases due to the high skill of field workers, the risk of falling, and the relatively long construction time.

Accordingly, the present invention was devised to solve the problems of the related art as described above, and its purpose is to reduce the impact noise and moisture damage generated during the opening and closing operation of the existing damper. Instead of the instantaneous impact compression force generated by the self-gravity force between the flat plate seals and the magnetic force of the permanent magnet, in the smart damper, the lip tip of the lip seal attached to the outer peripheral surface of the rim formed in the vertical direction of the sealing ring and the inside of the hollow cylinder to be pressed By changing the contact condition between the donut disc formed in the vertical direction or the circular jaw to the linear elastic force pressing structure of the spring, the impact noise problem is solved,

In addition, the damage caused by rain and wind flowing backwards from the outer wall of the building is resolved by changing the exhaust passage formed in the smart damper and the airflow passage structure that bypasses the ventilation hole of the hood cap without directly penetrating it. to form a structure that prevents outside air from directly entering the interior and blocks it,

In addition, the problem of falling risk due to the existing two-track construction method of assembling the damper and the hood cap to the sleeve, the increase in manufacturing cost, and the increase in construction cost are solved by manufacturing the smart damper and the hood cap in one piece, and a winch for construction installed indoors hood cap unit and construction with a built-in smart damper for ventilation holes that can prevent industrial accidents, reduce production and construction costs, and shorten construction time by enabling even inexperienced people to easily and safely assemble and fix the hood cap unit with a built-in smart damper indoors It is to provide a winch for

In order to achieve the object of the present invention, the lip tip of the lip seal inserted into the outer peripheral surface of the rim of the flat plate formed in the shape of a circular plate, a semi-circular bent disc, a double semi-circle, and an annular plate on the left side of the hood cap unit with a built-in smart damper is a hollow cylinder By changing the compression with the inner surface of the vertically molded donut disc or circular jaw assembled inside the

In addition, in order to block the backflow of rain and wind from the outer wall of the building, the passage through which the indoor air flow flows to the outside and the ventilation hole of the hood cap do not directly penetrate but are resolved by changing the structure to a bypass structure, and the edge formed on the ventilation hole on the outer surface of the hood cap The rain and windshield is molded as an integral part to block the inflow of rain and wind by changing the structure in which outside air cannot directly flow into the room. to prevent damage caused by

The smart damper and hood cap are integrated to lower the manufacturing cost and on-site construction cost, and when the integrated smart damper built-in hood cap unit is installed on the sleeve, the Since the hood cap unit with built-in smart damper is installed by pulling it by hand, even unskilled people can safely assemble and fix it.

As described above, the hood cap unit with a built-in smart damper for ventilation of the present invention can reduce industrial accident prevention, manufacturing cost and assembly cost due to fall accidents by manufacturing the smart damper and the hood cap in one piece,

The lip tip of the lip seal fitted on the peripheral surface of the flat rim of the smart damper formed on the left side of the hood cap unit with a built-in smart damper, a semi-circular bent disk, a double semi-circle, and an annular plate is perpendicular to the inside of the hollow cylinder. By changing the contact with the inner surface of the donut disc formed of

In addition, by changing the airflow path so that the rain and wind flowing backward from the outer wall of the building do not directly penetrate the passage through which the indoor pollutant flows out and the ventilation hole of the hood cap, it is changed to bypass the direct influx of rain and wind. A rain and windshield is molded on the formed rim to prevent outside air from entering the room directly, and the drainage slot formed at the bottom of the smart damper induces the inflow of rainwater to be discharged back to the outside, preventing damage from rainwater penetrating into the sleeve.

When installing the integrated smart damper built-in hood cap unit on the sleeve, the smart damper built-in hood cap unit, which is hung up and down on one end of the provided string from the indoor winch fixed indoors, is pulled up by the motor, so that even inexperienced people can safely assemble and fix it. As there is no outdoor work to work on an elevated ladder truck or a rope from the roof, it is effective in preventing industrial accidents and reducing construction costs because there is no need for high-level construction technology and the risk of falling by workers.

1 is a perspective view of a conventional damper for ventilation and a hood cap assembly;
Figure 2 is a perspective view of the spring pressure disk sealing type smart damper built-in hood cap unit and winch for construction of the present invention;
3 is a perspective view of a hood cap unit with a built-in smart damper of a spring-pressed semicircle bending disk sealing type showing a first embodiment of the present invention;
4 is a perspective view of a spring-pressed double semi-disk sealing type smart damper built-in hood cap unit showing a second embodiment of the present invention;
5 is a perspective view of a hood cap unit with a built-in smart damper of a spring-pressured annular plate sealing type showing a third embodiment of the present invention;

Hereinafter, with reference to the accompanying drawings, the configuration of the present invention will be described in detail according to embodiments as follows.

1 shows a damper 100 for blocking airflow is inserted and fixed to the left end of a sleeve 10 installed on a concrete wall of a building from left to right, and a hood cap 200 is installed at the right end of the sleeve 10. ) is an assembling perspective view of the damper 100 and the hood cap 200 having a structure inserted and fixed from right to left. A pair of hollow cone members 14 having holes 13 symmetrically in the transverse direction are formed on the upper side of the right side edge of the inclined opening formed by drilling the central portion of the inclined plate 12 in a square shape, and the hole 13 A pair of pins 16 molded symmetrically in the left and right directions on the upper side of the prismatic swash plate 15 are inserted in a hinge form to allow the rotational opening and closing operation of the prismatic swash plate 15 compared to the fixed prismatic swash plate 12 do,

It has a structure in which the rim of the prismatic swash plate 15 is fixed by inserting a C-shaped groove 18 formed in the inner middle portion of the flat seal 17, and the prismatic swash plate 15 is a self-gravity force due to the inclination and the connection socket. (11) and the left side of the flat seal 17 by the magnetic force of the permanent magnets 19 and 19' inserted into the lower end of the prismatic swash plate 15, respectively, comes into contact with the right side of the prismatic swash plate 12, and the sleeve ( 10) Various floating substances such as combustion gases, odors, and polluted air are released, but the inflow of outside air is blocked.

In addition, a cylindrical cap 23 having a hollow cylinder 20 on the left side of the hood cap 200, and insect screens 21 and 21' and ventilation holes 22 and 22' along the circumferential direction of the right side, respectively. It is a structure assembled to protrude to the right, and the damper 100 for discharging various pollutants generated in the kitchen or indoors of the building to the outdoors is inserted and fixed by a worker located indoors at the left end of the sleeve 10, The hood cap 200 is for ventilation of a detachable structure in which a worker rides an elevated ladder or a rope descended from the roof and goes down to the outer wall of the building in which the sleeve 10 is embedded, and pushes it by hand to insert and fix it at the right end of the sleeve 10 It relates to the damper 100 and the hood cap 200 .

2 is a spring pressure disk sealing type smart damper built-in hood cap unit 300 in which the smart damper 110 and the hood cap 200' are integrally formed according to the present invention, and the sleeve installed on the concrete wall of the building ( 10) relates to a winch 400 for construction for installing the smart damper built-in hood cap unit 300 in the inner diameter of the sleeve 10, and the right inner diameter of the sleeve 10 has a spring pressure disc sealing type smart damper built-in hood cap. Inserting and fixing the hollow cylinder 20' formed on the left side of the unit 300, and inserting the snap ring 31 into the square groove 30 formed in the middle of the hollow cylinder 20', 20" composed of the left and right sides to support the right end of the spring 32, and to form a drainage slot 33 at the lowermost end of the circumferential surface where the square groove 30 is formed to drain the rainwater flowing in from the outside,

In addition, a plurality of L-shaped rings 36 are integrally formed along the circumferential direction of the left side of the donut disc 35 formed while drilling a large hole 34 on the vertical surface of the left end of the hollow cylinder 20 ′, and the On the right side of the donut disc 35, the lip tip of the lip seal 37 is pressed to secure airtightness,

On the right side of the donut disc 35, a plurality of circles along the circumferential direction at the edge of the disc 38 formed in the vertical direction to the left end of the sealing ring 40 assembled to the inner diameter of the hollow cylinder 20' The openings 39 and 39' are formed at equal intervals to allow the airflow to escape, and the lip seal 37 is inserted and fixed to the outer diameter of the inner diameter side of the circular openings 39 and 39', and the seal Between the inner diameter of the ring 40 and the snap ring 31, a spring 32 is inserted in the axial direction to allow an axial opening and closing operation between the donut disc 35 and the sealing ring 40,

The left and right ends of the hood cap 200' are covered in a C-shape on the left and right sides of the protruding disc 41 formed to protrude outwardly from the right middle part of the hollow cylinder 20' and press-contact to form a single body, and the hood Windshields (42, 42') connected to the ends of the opening edges of the ventilation holes (22, 22') formed by drilling holes in the upper and lower sides along the circumferential direction of the cylindrical cap 23 molded to protrude to the right of the cap 200' is molded to protrude outward to reduce the influx of wind and rain, and by assembling a mosquito net 21 on the inner diameter surfaces of the ventilation holes 22 and 22', the pressure of the air flow transferred along the sleeve 10 is applied by the spring 32. As the closed sealing ring 40 moves to the right and opens, the airflow is released through the ventilation holes 22 and 22' of the hood cap 200', but the inflow of outside air is blocked,

In addition, the substrate 44 inserted into the rectangular box 43 formed to protrude from one end of the left side of the donut disc 35 has a temperature sensor 45 and a carbon dioxide sensor for detecting a flame temperature or incomplete combustion state due to a fire. (46), and the signal information generated by the buzzer 47 to notify the danger is transmitted to the outside through a repeater and transmitted to a smartphone or computer app. ) is about

In addition, the pulleys 50 and 50' are assembled to the flanges 49 and 49' fastened to the left and right ends of the round bar 48 fitted to the inner diameter of the sleeve 10 by the yoke frames 51 and 51'. It is connected, and the lower end of the right pulley 50 has a string 54 wound around the winding drum 53 of the winch 400 for construction that operates as a motor 52, and the left pulley 50' is in a downward direction. At one end of the string 54, which is hung with a hood, a L-shaped ring 36 formed at the left end of the smart damper built-in hood cap unit 300 at a distance as far as the height of the sleeve 10 embedded in the concrete outer wall for each floor of the building. tied all together with one string (54') and hung,

The smart damper built-in hood cap unit 300, which is hung down to the height of the number of stories by loosening the string 54 wound on the winch 400 for construction temporarily fixed inside the uppermost floor of the building, is installed on each floor with a motor 52. After raising the sleeve 10 to the height, the worker puts his hand into the sleeve 10 and pulls the string 54' to easily assemble and fix the smart damper built-in hood cap unit 300 indoors. It relates to a winch 400 for construction.

3 is a spring-pressed semicircle bending disc sealing type smart damper built-in hood cap unit 300 in which the smart damper 110 and the hood cap 200 ′ are formed into one body, illustrating the first embodiment of the present invention. In relation to, the smart damper 110 is formed on the left side and the hood cap 200 ′ is formed on the right side in the hood cap unit 300 with a built-in smart damper of the spring-pressed semicircle bending disc sealing type, respectively.

At the left end of the hollow cylinder 20' formed on the left side of the smart damper 110 that is inserted and fixed in the sleeve 10 embedded in the concrete wall of the building, a circular jaw 55 protruding in the vertical direction is formed, and the A plurality of B-shaped rings 36 and 36' are molded at equal intervals along the circumferential direction of the left side of the circular jaw 55 and tied with one string 54', so that the operator simply holds the string 54' indoors. It is a structure that can assemble the hood cap unit 300 with a built-in smart damper of a spring-pressed semicircular bending disc sealing type by pulling it,

The lip seal 37' inserted into the upper and lower circular grooves 56 formed along the circumferential direction of the right side of the circular jaw 55 is composed of semi-circular bent semi-circular plates 57 and 57' and a prismatic column 58. By pushing with the elastic pressing force of the spring 32' and the spring steel wire 59 applied from the right side of the open disk 38', airtightness and opening/closing operating force are secured, and as long as it is symmetrical above and below the right extension line of the circular jaw 55 A pair of square holes (60, 60') and a square slot (61) connected to the right extension of the square holes (60, 60') are formed all the way to the right end of the hollow cylinder (20') to form a square column ( 58) to enable axial assembly,

A pair of semicircular bent semi-disk plates 57 and 57' separated by a pair of vertical grooves 62 symmetrically formed on the left and right sides of the prismatic column 58 formed in the vertical direction at the center of the circular plate 38' is formed, and is formed to be bent 90 degrees to the left and right at the upper and lower ends of the spring 32' inserted into the pair of pins 16 and 16' protruding symmetrically on the upper and lower sides of the right side of the prismatic column 58 (59) is inserted into the protrusion grooves 63, 63' formed in the vertical direction on the left and right side edges of the semi-circular plates 57, 57' and the semi-circular plates 57 and 57' that work integrally with the spring 32'. Rotational bending and opening/closing operations are stably allowed, and the left side of the semi-circular plates 57 and 57' is gradually compressed with the lip tip of the lip seal 37' by the elastic urging force of the spring 32' to form a circular jaw ( 55) and the semi-circular plate (57, 57') and the prismatic column (58) to maintain the airtightness and reduce the noise caused by the opening and closing operation, and the irregularities (64) formed in the inner diameter of the right end of the hollow cylinder (20') Since the right ends of the prismatic openings 65 and 65' drilled at equal intervals along the right circumferential surface of the hollow cylinder 20" fastened by the

In addition, at one end of the circumferential surface of the lower end of the protruding disk 41 formed outwardly at the right end of the hollow cylinder 20', a drainage slot 33' is formed to drain the rainwater flowing in from the outside, and the On the left and right side surfaces of the protruding disk 41, the left side of the hood cap 200' is covered in a C-shape and pressed into a single body, and the circumferential surface of the cylindrical cap 23 protrudes from the right side of the hood cap 200'. At one end and the right end of the ventilator 22 and 22' provided with a windshield 42 are formed, respectively, and insect screens 21 and 21' are fitted in the ventilation holes 22 and 22' to prevent the inflow of foreign substances from the outside. block,

When a polluted airflow such as combustion gas or odor introduced from inside the building is supplied to the left side of the disk 38', the semicircle bent semi-disk closed by the elastic pressing force of the spring 32' and the spring steel wire 59. (57, 57') is completely opened left and right with the prismatic column 58 as the central axis, and the airflow passes through the prismatic openings 65 and 65' and then closes the insect screens 21 and 21' of the hood cap 200'. However, the wind and rain cannot flow directly into the inside of the hollow cylinder 20" because the right end of the hollow cylinder 20" is blocked. become,

In addition, the substrate 44 inserted into the rectangular box 43 formed to protrude from the center of the left side of the rectangular column 58 has a temperature sensor 45 and a carbon dioxide sensor for detecting a flame temperature or incomplete combustion state due to fire. (46), and the signal information generated by the buzzer 47 for informing of the danger is transmitted to the outside through a repeater and transmitted to a smartphone or computer app. It relates to the hood cap unit (300).

4 is a spring pressurized double semi-disk sealing type smart damper built-in hood cap unit 300 in which the smart damper 110 and the hood cap 200 ′ are formed into one body according to the second embodiment of the present invention. In relation to this, in the spring-pressed double semi-disk sealing type smart damper built-in hood cap unit 300, the smart damper 110 is formed on the left side and the hood cap 200 ′ is formed on the right side, respectively, in an integrated structure.

In order to insert the smart damper built-in hood cap unit 300 into the sleeve 10 embedded in the concrete wall of the building, the left end of the hollow cylinder 20 ′ formed in the left and right directions of the smart damper 110 is inwardly directed. One prismatic column 58" is integrally formed in the vertical direction of the central axis of the protruding circular jaw 55, and the pins 16 and 16' are accommodated above and below the right extension line of the prismatic column 58". A pair of hollow cone members (14, 14') provided with holes (13, 13') that can be formed are respectively formed in the upper and lower parts,

The pins 16 and 16' fit together the holes 13 and 13' and the holes passing through the pair of hinges 66 and 66' protruding in the transverse direction of the semi-circular plates 57 and 57'. The lip seal 37 inserted into the outer circumferential surface of the rim of the semi-circular plate 57, 57' by being fitted to allow the rotational opening/closing operation of the semi-circular plates 57 and 57' located on the right side of the prismatic column 58". , 37') is compressed on the right inner surface of the circular jaw 55 to ensure airtightness, so that the spring 32' fitted to the central axis of the pins 16 and 16', and both ends of the spring 32' The spring 32' and the spring steel wire are inserted into the protruding grooves 63 and 63' respectively formed in the vertical direction at one end of the left and right edges of the semi-circular plates 57 and 57' by inserting the spring steel wire 59 connected to the end bent at 90 degrees. (59) is a structure compressed by the elastic pressing force,

A plurality of L-shaped rings 36 and 36' are molded at equal intervals along the circumferential direction of the left side of the circular jaw 55 and tied all with one string 54', allowing the operator to conveniently use the string 54' indoors. By pulling the spring-pressed double semi-disk sealing type smart damper built-in hood cap unit 300 is assembled to the inner diameter of the sleeve 10,

At the right end of the hollow cylinder 20', the semi-disc plates 57 and 57' are opened and a plurality of prismatic openings 65 and 65' formed by drilling at equal intervals along the circumferential surface to discharge indoor air pollutants. An insect screen formed at the right end of the hood cap 200' by forming a concavo-convex 64 on the inner diameter surface of the right extension line of 21') can block the wind and rain from entering the room directly,

In addition, a drainage slot 33' is formed at one end of the circumferential surface of the lower end of the protruding disc 41 formed outwardly at the right end of the middle part of the hollow cylinder 20' to drain rainwater flowing in from the outside. , A cylindrical cap 23 formed to protrude from the right side of the hood cap 200' by covering the left side of the hood cap 200' in a C shape on the left and right side surfaces of the protruding disk 41 and press-contacting it to form a single body. ) to block the inflow of foreign substances by inserting an insect screen 21' into the ventilation hole 22 provided with the weatherproof 42 formed by drilling the right end of the

When the pollutant airflow generated inside the building is supplied to the left side of the pair of semi-disk plates 57 and 57', the semi-disk plates 57 and 57' closed by the elastic pressing force of the spring 32' and the spring steel wire 59 are closed. While the hinges 66 and 66' are fully opened to the left and right as the central axis, the airflow passes through the prismatic openings 65 and 65' and then is discharged to the outside through the insect screen 21' of the hood cap 200', but rain and wind Since the right end is blocked by the cylindrical cap 67 having a structure blocked by a flat plate, it cannot directly flow into the inside and flows down to the lower end of the cylindrical cap 23 and rides the drainage slot 33' and is discharged to the outside again,

In addition, the substrate 44 inserted into the prismatic box 43 formed to protrude from the center of the left side of the prismatic column 58 ″ has a temperature sensor 45 and carbon dioxide for detecting a flame temperature or incomplete combustion state due to a fire. The signal information generated by the sensor 46 and the buzzer 47 for informing of the danger is transmitted to the outside through a repeater and transmitted to a smartphone or computer app. It relates to the hood cap unit (300).

5 is a spring pressure annular plate sealing type smart damper built-in hood cap unit 300 in which the smart damper 110 and the hood cap 200 ′ are formed as one body according to the third embodiment of the present invention. That is, in the spring-pressed annular plate sealing type smart damper built-in hood cap unit 300, the smart damper 110 is formed on the left side and the hood cap 200 ′ is formed on the right side, respectively, in an integrated structure.

In order to insert and fix the smart damper built-in hood cap unit 300 in the sleeve 10 embedded in the concrete wall of the building, the left end of the hollow cylinder 20', 20" formed in the left and right directions of the smart damper 110 to form an annular plate 68 by drilling a circular plate blocked in the vertical direction in an annular shape,

A pair of hollow cone members 14 having holes 13 symmetrically in the transverse direction are formed on the left and right sides of the upper right edge of the annular plate 68, and the holes 13 are symmetrically in the transverse direction. By inserting the formed pair of pins 16 and 16' to fasten the hollow cone member 14 and the hinges 66 and 66', the rotational opening and closing operation of the annular plate 69 compared to the fixed annular plate 68 is allowed. do,

The edge of the annular plate 69 is inserted and fixed in a C-shaped groove 18 formed in the inner middle portion of the lip seal 37, and the annular plate 69 is disposed between a pair of pins 16 and 16'. The spring 32' inserted into the spring 32' and the spring steel wire 59 connected to be bent by 90 degrees at both ends of the spring 32' were connected to the upper part of the annular plate 68 and the lower edge of the annular plate 69. The lip tip of the lip seal 37 presses the right side of the annular flat plate 68 with the elastic force of the spring formed while inserting it into the protruding grooves 63 and 63' formed in the left and right directions, respectively, to secure airtightness,

A plurality of B-shaped rings 36 formed at equal intervals along the circumferential direction of the left side of the annular plate 68 are bundled with a single string 54', and the operator located inside the sleeve 10 is easily pulled. This forms a structure in which the spring pressure annular plate sealing type smart damper built-in hood cap unit 300 can be assembled to the sleeve 10,

At one end of the circumferential surface of the lower end of the protruding disc 41 formed in the outward direction of the middle part of the hollow cylinder (20', 20"), drain slots 33 and 33' are respectively formed to drain the rainwater flowing in from the outside, A cylindrical cap 23 formed to protrude from the right side of the hood cap 200' by covering the left side of the hood cap 200' in a C-shape on the left and right sides of the protruding disk 41 and press-contacting it to form a single body. The insect screen 21 is inserted into the ventilation hole 22' provided with the weatherproofing (42,42') on the edge formed by drilling the circumferential surface of the to block the inflow of foreign substances,

When a pollutant airflow such as combustion gas or odor generated inside the building is supplied to the left side of the annular plate 69, the annular plate 69 closed by the elastic pressing force of the spring 32' and the spring steel wire 59 becomes the hinge. With 66 as the central axis, the airflow passes through the right end of the hollow cylinder 20" and then is discharged to the outside through the insect screen 21 of the hood cap 200', but the screen 21 The circumferential surface of the hollow cylinder (20") blocks the rain and wind introduced through it, and the rainwater that does not directly flow into the inside is drained through the drainage slots (33, 33'),

In addition, the substrate 44 inserted into the rectangular box 43 formed to protrude from one end of the left side of the annular flat plate 68 has a temperature sensor 45 and a carbon dioxide sensor for detecting the flame temperature or incomplete combustion state due to fire. (46), and the signal information generated by the buzzer 47 for informing of the danger is transmitted to the outside through a repeater and transmitted to a smartphone or computer app. It relates to the unit (300).

The present invention described above is not limited to the configuration and operation as shown and described. That is, the present invention is capable of various changes and modifications within the spirit and scope of the claims described.

10: sleeve 11: connection socket
12: square swash plate 13,13': hole
14, 14': hollow cone member 15: square rotation swash plate
16,16': pin 17: flat seal
18: C-shaped groove 19, 19': permanent magnet
20,20',20": hollow cylinder 21,21': insect screen
22,22': vent 23: cylindrical cap
24: concrete wall 30: square groove
31: snap ring 32,32': spring
33,33': drain slot 34: large hole
35: donut disc 36,36': B-shaped ring
37,37': Lip seal 38,38': Original plate
39,39': circular opening 40: sealing
41: protruding disc 42,42': weatherproof
43: square box 44: substrate
45: temperature sensor 46: carbon dioxide sensor
47: buzzer 48: round bar
49,49' : Flange 50,50' : Pulley
51,51': yoke frame 52: motor
53: winding drum 54,54': string
55: circular jaw 56: circular groove
57,57' : Semi-disc 58,58',58" : Square column
59: spring steel wire 60, 60': square hole
61: square slot 62: vertical groove
63,63': protrusion groove 64,64': uneven
65,65': square opening 66,66': hinge
67: cylindrical cap 68: annular flat plate
69: round plate 100: damper
110: smart damper 200,200': hood cap
300: smart damper built-in hood cap unit 400: winch for construction

Claims (5)

The snap ring 31 inserted into the square groove 30 formed in the middle part of the hollow cylinder 20', 20" corresponding to the outer diameter of the smart damper 110 supports the right end of the spring 32, and the The drainage slot 33 formed to communicate with the lowermost circumferential surface of the rectangular groove 30 drains the rainwater flowing in from the outside,
A temperature sensor 45 is provided in a rectangular box 43 having an L-shaped ring 36 to protrude along the circumferential direction on the left side of the donut disc 35 formed inside the left end of the hollow cylinder 20' in the vertical direction. , the carbon dioxide sensor 46, the board 44 to which the buzzer 47 is connected is fixed, and the signal information detected by each sensor is transmitted to a smartphone or computer app through a repeater,
The left end of the sealing ring 40 assembled to the inner diameter of the hollow cylinder 20' along the right side of the donut disk 35 has a plurality of edges formed at equal intervals along the circumferential direction at the edge of the disk 38 formed in the vertical direction. The lip seal 37 is inserted and fixed on the outer diameter surface of the inner diameter side edge of the circular openings 39 and 39', and a spring 32 is installed between the inner diameter part of the sealing ring 40 and the snap ring 31 in the axial direction. to allow an axial opening and closing operation between the donut disc 35 and the sealing ring 40, and on the right side of the donut disc 35, the lip tip of the lip seal 37 It maintains airtightness while being compressed by
In addition, the hood cap 200 ′ having a structure in pressure contact with the left and right sides of the protruding disc 41 formed outwardly in the middle of the smart damper 110 is the circumferential direction of the cylindrical cap 23 formed to protrude in the right direction. A spring pressure disk sealing type, characterized in that the ventilation holes 22 and 22' are formed along the hood cap unit with built-in smart damper. Yoke frames 51 and 51 having a structure in which pulleys 50 and 50' are fastened in the outer direction of the flanges 49 and 49' fastened to the left and right ends of the round bar 48 inserted into the sleeve 10 embedded in the concrete wall. ') are connected symmetrically, and at the lower end of the right pulley 50, the string 54 is wound around the winding drum 53 of the winch 400 for construction operated by the motor 52, and also the left pulley ( 50'), the string 54' and the string 54 are connected to the B-shaped ring 36 formed on the left side of the hood cap unit 300 with a built-in smart damper to one side branch of the string 54 hanging downward. and hang it,
A sleeve embedded in a wall by a motor 52 with a smart damper built-in hood cap unit 300 suspended vertically from one end of the string 54 wound on a construction winch 400 temporarily installed inside the uppermost floor of the building. (10) A winch for construction of a structure in which an indoor worker puts his or her hand in the sleeve 10 and pulls the string 54' after pulling it up to the height to assemble and fix it. A plurality of L-shaped rings ( 36,36') tied together with a single string (54'),
The lip seal 37 ′ inserted into the upper and lower circular grooves 56 formed along the circumferential direction of the right side of the circular jaw 55 is composed of semicircular bent semi-circular plates 57 and 57 ′ on both sides and a prismatic column 58 . The opening and closing operation and airtightness are secured while being compressed by the elastic force of the spring 32' applied from the right side of the disk 38', and a pair of square holes formed symmetrically on both sides of the right extension line of the circular jaw 55. In the right direction of (60, 60'), a prismatic slot 61 is formed all the way to the right end of the hollow cylinder 20' to enable axial assembly of the prismatic column 58,
Since a pair of vertical grooves 62 are provided symmetrically on the left and right sides of the prismatic column 58 formed in the vertical direction at the center of the circular plate 38', the semicircular bent semi-circular plates 57 and 57' are divided into both sides. Rotational bending operation is possible as it is formed to be large, and 90 degrees to the left and right from the upper and lower ends of the spring 32' inserted into the pair of pins 16 and 16' protruding symmetrically on the upper and lower sides of the right side of the prismatic column 58 The bent steel wire 59 is inserted into the protrusion grooves 63 and 63' formed in the vertical direction on the left and right side edges of the semi-disk plates 57 and 57', thereby forming the semi-disc plate 57 together with the spring 32'. , 57') rotational bending and opening/closing operation are possible,
The right side of a plurality of prismatic openings 65 and 65' drilled at equal intervals along the right circumferential direction of the hollow cylinder 20" fastened with the unevenness 64 formed in the inner diameter of the right end of the hollow cylinder 20' At the end of the extension line, a closed structure is formed with a circular plate,
In addition, a drainage slot 33' is formed at one end of the circumferential surface of the lower end of the protruding disk 41 formed outwardly at the right end of the hollow cylinder 20' to drain rainwater flowing in from the outside, and the protrusion The left and right side surfaces of the disc 41 are press-contacted to the left side of the hood cap 200' with one body, and one end of the circumferential surface of the cylindrical cap 23 protruding from the right side of the hood cap 200', and the right side A hood cap unit with a built-in smart damper of a spring-pressed semicircular bending type disc sealing type, characterized in that each of the vents 22 and 22' provided with a rain and windshield 42 are formed at the ends. The left end of the hollow cylinder 20' corresponding to the outer diameter of the smart damper 110 extends in the right extension line of the prismatic column 58" formed toward the vertical direction of the central axis of the circular jaw 55 protruding inwardly. A pair of hollow cone members (14, 14') having holes (13, 13') to accommodate the pair of pins (16, 16') are formed on both upper and lower sides, respectively,
In addition, the pins 16 and 16' are inserted so as to penetrate both the holes 13 and 13' and the pair of hinges 66 and 66' protruding in the transverse direction of the semi-circular plates 57 and 57'. A pair of semi-disc plates 57 and 57' located on the right side of the prismatic column 58" allow rotational opening/closing operation, and lip seals 37, The tip of the lip of 37') is a semi-circular plate 57 with a spring 32' pressed against the inner surface of the circular jaw 55, and a spring steel wire 59 connected to be bent at both ends of the spring 32' by 90 degrees. , 57') and compressed by the elastic pressing force of the spring formed by inserting it into the protruding grooves 63 and 63' formed in the vertical direction at one end of the left and right edges,
A substrate 44 to which a temperature sensor 45, a carbon dioxide sensor 46, and a buzzer 47 are connected is fixed to the prismatic box 43 formed to protrude from the middle of the left side of the prismatic column 58", Signal information detected by each sensor is transmitted to a smartphone or computer app through a repeater,
The concavo-convex 64 formed on the inner diameter surface of the right end of the plurality of prismatic openings 65 and 65' formed by drilling at equal intervals along the right circumferential direction of the hollow cylinder 20' is formed on the circumferential surface of the cylindrical cap 67. The windshield 42 is molded on the edge of the ventilation hole 22 formed by drilling the right end of the cylindrical cap 23 that is fastened with the unevenness 64 ′ and is formed to protrude from the right side of the hood cap 200 ′. It forms a structure that prevents the rain and wind from entering the room directly,
In addition, the insect screen 21 assembled to the ventilation hole 22 by forming a drainage slot 33' at one end of the circumferential surface of the lower end of the protruding disk 41 formed outwardly at the right end of the hollow cylinder 20'. '), a spring-pressed double semi-disk sealing type smart damper built-in hood cap unit, characterized in that the rainwater flowing through it is waterproofed again. As long as it is formed symmetrically in the horizontal direction on the right side of the upper right side of the annular plate 68 formed by drilling a circular plate blocking the left end of the hollow cylinder (20 ', 20 ") corresponding to the outer diameter of the smart damper 110 in an annular shape A pair of holes 13 for accommodating the pins 16 and 16' are drilled in the pair of hollow cone members 14, and a pair of annular plates 69 of an annular shape that can cover the annular plate 68 are formed on the upper side. Hinges 66 and 66' are formed in the transverse direction to fasten the hollow cone member 14 and the annular plate 69 together with pins 16 and 16' to allow rotational opening/closing operation, and the pair of pins ( The upper part of the annular plate 68 and the annular plate 69 are connected to the spring 32' inserted between 16 and 16' and the spring steel wire 59 bent by 90 degrees at both ends of the spring 32'. ), the lip tip of the lip seal 37 inserted into the rim of the annular plate 69 by the elastic pressing force of the spring formed while each inserted into the protruding grooves 63 and 63' formed in the transverse direction at one end of the lower edge of the annular plate 69 is annular. It secures airtightness while being compressed with the right side of the flat plate 68,
In addition, rain and windshields 42 and 42' are integrally formed on the edge of the end of the ventilation hole 22' formed by drilling the right circumferential surface of the hood cap 200', and the circumferential surface of the hollow cylinder 20" is an insect screen Blocks the inflow of rain and wind that has passed through (21) into the room, and the introduced rainwater is for drainage formed at one end of the peripheral surface of the lower end of the protruding disk 41 formed outwardly in the middle of the hollow cylinders 20', 20" A hood cap unit with a built-in smart damper of a spring pressure annular plate sealing type characterized in that it is drained by the slots (33, 33').

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