KR102460991B1 - Sleeve with fireproof charging structure for quick fire shutoff - Google Patents

Abstract

The present invention relates to a sleeve having a fireproof filling structure of a rapid fire blocking function, which has an effect of more highly preventing fire spread and fire propagation, comprising: a sleeve body housing (100); a blocking member (200); a fireproof filling sheet (300); and a standing and fixing member (400).

Description

Sleeve with fireproof charging structure for quick fire shutoff

The present invention relates to a sleeve having a fireproof charging structure with a quick fire blocking function, and more particularly, to prevent the fire propagation between floors of a building when a fire occurs, the fireproof filler expands and expands by a heat source according to the fire to completely block the sleeve. It is possible to block the propagation of fire in advance by the heat from the entire fire and the foaming and expansion power of the fireproof filler, and then, according to the foaming expansion of the fireproof filler, the fire propagation between floors is completely blocked. It can block fire faster than the fire-resisting charging structure of the previous sleeve, preventing the progress of fire between floors, solving the problem of fire propagation between floors due to poor foam expansion of the fire-resisting filler, and quick fire-blocking function that is easy to install and construct It relates to a sleeve having a fireproof filling structure of

In general, a sleeve is formed in the inter-story slab (Slab/corresponding to the ceiling or floor) of a building for vertical penetration and connection of various pipes. As an example of a pipe to which such a sleeve is coupled, a ventilation system may be used, and such a ventilation system exhausts the air of the kitchen or bathroom of the apartment house to the outside to reduce the amount of indoor air caused by odors generated in the kitchen or bathroom. to prevent contamination. For this purpose, a floor pipe connected to the kitchen or bathroom on each floor, a main pipe that is connected to each floor pipe and installed vertically through interlayer concrete, a perforated plate for exhaust installed on the uppermost side of the main pipe, and an upper part of the perforated plate for exhaust It may be composed of an exhaust fan to be installed.

On the other hand, the main pipe of the ventilation system as described above forms a pipe construction hole by pouring a buried sleeve having a larger diameter than the main pipe in each interlayer concrete in order to connect it through the interlayer concrete, and the main pipe in the pipe construction hole was through-coupled, filled with fireproof filler or fireproof sealant between the main pipe and the buried sleeve, and the sleeve supporter was fastened to the upper and lower parts for construction.

However, in the conventional ventilation system as described above, when installing the main pipe in the interlayer concrete, it is inconvenient to fill the fire-resisting filler or fire-resisting sealant, which is separately charged in order to fill the space formed between the buried sleeve and the main pipe. There was a problem in that it was not possible to prevent the spread of fire between floors, as well as noise between the upper and lower floors, as the performance was lowered and the filling material was not clearly filled in the filling space.

Moreover, when a fire occurs in a building, property damage due to the rapid propagation power is aggravated due to the nature of the fire, which is a situation in which promptness is required to block the rapid propagation of fire. However, as described above, in the conventional sleeve, if a temperature above a certain temperature is not transmitted to the sleeve, as a fire-resistant filler is simply applied between the pipe and the connecting joint for the connecting joint and is configured to expand by heat, Expansion takes time, and in the end, this time period may result in failure to prevent fire propagation between floors.

1. Korean Patent Application No. 10-2020-0077791, filed on June 25, 2020. 2. Republic of Korea Patent No. 10-1801301, registration date 2017.11.20.

Therefore, the present invention was created to solve the above-described problems, and the blocking member with limited initial turning of the fire turns quickly by the heat according to the fire to quickly block the sleeve communicating between the floors, thereby preventing the rapid propagation of the fire between floors and The purpose of this is to provide a sleeve with a fire-resistant filling structure with a quick fire-blocking function that can prevent the spread of fire by preventing incomplete blocking of the interlayer communication sleeve due to the failure of the fire-resistant filler to completely shield the inner space of the sleeve. have.

In addition, the present invention has a double blocking structure by blocking interlayer communication of the sleeve according to the turning operation of the blocking member and shielding the sleeve space according to the foaming expansion of fireproof charging, thereby preventing higher fire spread and fire propagation. Another object of the present invention is to provide a sleeve having a fire resistant filling structure with a quick fire cut-off function.

In order to achieve the above object, the sleeve having a fireproof charging structure with a quick fire blocking function according to the present invention is formed in a cylindrical shape with an open upper and lower ends and is embedded in a slab, and a hanging step 120 at the lower end is formed along the inner periphery. The sleeve body housing 100 is formed, and the shaft block 110 in which the pivot hole 112 is symmetrically formed from side to side is in contact with the inner periphery of the cylindrical shape on the upper surface of the locking step 120 ; Half of the inner diameter of the cylindrical shape of the sleeve body housing 100 so as to be axially coupled to the pivot hole 112 formed in the shaft block 110 of the sleeve body housing 100 and to stand upright and pivot at right angles to the locking step 120 side to limit turning. a blocking member 200 formed symmetrically to each other in a semicircular shape formed in; The blocking member 200 is shaft-coupled to the pivot shaft hole 112 and is coupled in a shape corresponding to the surfaces facing each other in a standing state. 120), the inner space of the sleeve body housing 100 on the upper side of the blocking member 200 is completely filled, or the blocking member 200 is rotated at a right angle from a distance and caught on the engaging step 120. a fire-resistant filling sheet 300 provided to completely fill the inner space of the sleeve body housing 100 from the upper surface of the blocking member 200; The other end is the sleeve body housing so that the blocking member 200 is shaft-coupled to the pivot hole 112 inside the sleeve body housing 100 so that the inside of the sleeve body housing 100 communicates up and down and maintained in an upright state. The locking step formed in 100 is coupled to the left and right, and one end is fixed at a position orthogonal to the axis of the turning shaft hole 112 on one side of the highest point facing each other in a state where the semicircular blocking member 200 symmetrically formed is standing up. It is coupled, and is first cut by a heat source when a fire occurs, and the blocking member 200 is formed with a standing fixing member 400 provided so as to turn at right angles to the engaging step 120 by its own weight.

Here, the blocking member 200 is formed with a diameter corresponding to the diameter of the engaging step 120 formed on the inner lower part of the sleeve, is formed symmetrically in a semicircular shape divided in half, and stands on one side of the center side of the outer edge of the semicircular arc shape. a blocking plate 210 having a fixing hole 212 through which one end of the fixing member 400 is fitted and fixed; The blocking plate 210, which is symmetrically formed, is integrally formed along a horizontal outer edge that becomes a turning center pivoted by its own weight while facing each other, and front and rear ends are axially coupled to the pivot hole 112 of the shaft block 110 a pivoting shaft 220 that becomes; Interference prevention grooves ( 230); characterized in that it is formed.

On the other hand, the left and right sides are formed through the center of the pivoting shaft portion 220 of the blocking member 200 in a rectangular shape, and fixed to face each other by the standing fixing member 400 to maintain the blocking plate 210 in a standing state. an elastic member coupling part 240 provided so that an elastic force is applied so that the symmetrically formed blocking plate 210 automatically pivots to opposite sides of each standing facing each other; The blocking plate 210 is coupled to the elastic member coupling part 240, and as the blocking plate 210 is released from fixing according to the fire of the standing fixing member 400, the blocking plate 210 symmetrical to the left and right is placed on the engaging step 120. A torsion spring 250 provided to automatically pivot and unfold by an elastic force rather than a pivoting operation by the self-weight of the blocking plate 210 on the same horizontal plane where it is caught to block the communication of the sleeve body housing 100 by the blocking plate 210 );

Here, the semicircular blocking plate 210 of the blocking member 200 faces each other and is turned on the same horizontal plane by its own weight or elastic force in a standing state, and the turning angle at which the blocking step 120 is caught is an angle of 90°. The locking step 120 protruding into the inside of the sleeve body housing 100 so that the angle of the blocking plate 210 standing facing each other does not deviate from an angle of 90°, the upper surface front side and It is characterized in that the locking piece 260 is further formed above the center of the shaft block 110 formed to face each other in the rear side.

On the other hand, the standing fixing member 400 controls the turning operation of the blocking plate 210 to prevent the blocking plate 210 from blocking the communication of the inner periphery of the sleeve body housing 100 by the swinging operation. It is coupled to the fixing hole 212 formed in the blocking plate 210, and the other end is coupled to the support hole 130 formed on any one surface of the upper side of the engaging step 120 of the sleeve body housing 100, The standing fixing member 400 is cut as the temperature rises, and the blocking plate 210 is pivotally operated at the same time as the cut is provided to block the communication of the sleeve body housing 100 .

Furthermore, it is preferable that the support hole 130 to which the other end of the standing fixing member 400 is coupled is formed at a position close to the upper side of the engaging step 120 so as to be cut first when a fire occurs.

The present invention can secure sufficient shielding time through thermal expansion due to fire of fire-resistance fillers as the blocking member, which is limited in the initial turning of the fire, turns quickly by the heat according to the fire and quickly blocks the interlayer communicating sleeve, so that the fast interlayer of the initial fire Prevents propagation and prevents the spread of fire by preventing incomplete blocking of the interlayer communication sleeve due to the failure of the fireproof filler to completely block the inner space of the sleeve. By having a double blocking structure of the inner space of the sleeve according to the time difference due to the shielding of the sleeve space according to the foaming expansion of the fireproof filling, there is an effect of preventing higher fire spread and fire propagation.

1 is an overall installation state diagram of a sleeve having a fireproof charging structure with a quick fire cut-off function according to the present invention.
2 is an overall perspective view of a sleeve having a fireproof charging structure with a quick fire cut-off function according to the present invention.
3 is an exploded perspective view showing the main part of a sleeve having a fireproof charging structure with a quick fire blocking function according to the present invention.
4 to 6 are side cross-sectional views of a sleeve having a fire-resistant charging structure with a rapid fire cut-off function according to the present invention during normal fire progress.
7 is a side view of another embodiment of a sleeve having a fireproof charging structure with a quick fire cut-off function according to the present invention.
8 is a side view of another embodiment of a sleeve having a fire-resistant charging structure with a quick fire cut-off function according to the present invention.

Advantages and features of the present invention, and methods of achieving them, will become apparent with reference to the embodiments described below in detail in conjunction with the accompanying drawings. However, the present invention is not limited to the embodiments disclosed below, but will be implemented in a number of different forms.

In this specification, the present embodiment is provided so that the disclosure of the present invention is complete, and to fully inform those of ordinary skill in the art to which the present invention pertains to the scope of the present invention. And the invention is only defined by the scope of the claims. Accordingly, in some embodiments, well-known components, well-known operations, and well-known techniques have not been specifically described in order to avoid obscuring the present invention.

Like reference numerals refer to like elements throughout. In addition, the terms used (mentioned) herein are for the purpose of describing the embodiments and are not intended to limit the present invention in any way. In this specification, the singular also includes the plural, unless specifically stated otherwise in the phrase. In addition, elements and operations referred to as 'include (or include)' do not exclude the presence or addition of one or more other elements and operations.

Unless otherwise defined, all terms (including technical and scientific terms) used herein may be used with the meaning commonly understood by those of ordinary skill in the art to which the present invention belongs. Also, terms defined in commonly used dictionary are not to be interpreted ideally or excessively unless defined.

Hereinafter, technical features according to an embodiment of a sleeve having a fireproof charging structure with a quick fire blocking function according to the present invention will be described in detail with reference to the accompanying drawings.

1 is an overall installation state diagram of a sleeve having a fire-resisting charging structure having a rapid fire cut-off function according to the present invention, FIG. 2 is an overall perspective view of a sleeve having a fire-resistant charging structure having a rapid fire blocking function according to the present invention, FIG. 3 is It is an exploded perspective view showing the main part of a sleeve having a fireproof charging structure with a quick fire blocking function according to the present invention, and FIGS. 7 is a side view of another embodiment of a sleeve having a fire-resisting charging structure having a rapid fire-blocking function according to the present invention, and FIG. 8 is a sleeve having a fire-resistant charging structure having a rapid fire-blocking function according to the present invention It is a side view of another embodiment.

The sleeve having a fireproof filling structure with a rapid fire blocking function according to the present invention is defenseless from fire propagation as long as the foaming expansion time of the fireproof filler, which is a problem in the conventional method of simply shielding and closing the sleeve by foaming expansion of the fireproof filler. It is configured to quickly block the propagation of fire by blocking the interlayer communication of the sleeve more rapidly due to fire, and it is possible to more quickly limit the propagation and expansion due to fire by blocking the fire propagation faster and faster than in the prior art. That is, it is configured to minimize the blank time according to the foaming expansion time of the fireproof filler to quickly and quickly block the propagation of the fire, and to solve the problems caused by the poor foaming and expansion of the fireproof filler.

Accordingly, as shown in FIGS. 1 to 3, the sleeve having a fire resistant charging structure with a quick fire blocking function according to the present invention is a sleeve body housing 100, a blocking member 200, a fire resistant charging sheet 300, and standing fixed. It is composed of a member 400 .

The sleeve body housing 100 is made of a metal material with excellent corrosion resistance, such as a galvalume (aluminum galvanized) material, and is formed in a cylindrical shape with the upper and lower ends open so as to be coupled to the cylindrical slab connected between floors of a building. are buried Here, it is preferable to combine the slabs correspondingly to minimize the space between the outer periphery of the sleeve body housing and the slabs during embedding of the slabs, and finish them to maintain airtightness and watertightness.

Such a sleeve body housing 100 is formed along the inner periphery of the engaging step 120 at the lower end. Here, the locking step 120 is configured such that the blocking plate of the blocking member, which will be described later, is configured to limit any further swinging operation between the swinging operations within the sleeve body housing, and substantially connects the inner edge of the sleeve body housing to the swinging operation of the blocking plate. It is to be configured to limit the turning operation in order to block the vertical communication according to the. In addition, the engaging step 120 may be configured to be formed by bending or press-molded or formed by bending the lower end of the sleeve body housing by bending.

On the other hand, on one surface facing each other in the front and rear of the upper side of the engaging step 120, an axis block formed to be front and rear symmetrical is formed. Here, in each shaft block, the turning shaft hole 112 is symmetrically formed to the left and right so that the blocking plate to be described later is pivotally coupled to the pivoting reference point. Here, although it is described that the shaft block 110 is symmetrically formed before and after contacting the cylindrical inner periphery on the upper surface of the engaging step 120, it is formed in a position facing each other at the longest distance in the circumference, and a standing fixing member to be described later. It is preferable to be coupled at a position orthogonal to the portion to be coupled and configured in a “+” arrangement.

The blocking member 200 more quickly fills in the blank time of fire propagation according to the foaming expansion time in consideration of the foaming expansion time of the fireproof filler when a fire occurs, so that the fire spreads through the sleeve while the fireproof filler expands and expands. It is provided to minimize the occurrence of fire-resistant filling and to prevent inter-floor fire propagation by replacing it when the foaming and expansion failure of the fire-resistant filler occurs. Normally, the pivot hole 112 formed in the shaft block 110 of the sleeve body housing 100 It is shaft-coupled to and maintained in an upright state to discharge polluted indoor air or interlayer air such as odor to the outside, and when a fire occurs, the sleeve body housing is connected to the sleeve body housing by turning at right angles to the engaging step 120 side. The rotation is restricted so that the portion is not exposed, and the sleeve body housing is formed symmetrically left and right in a semicircular shape formed at half the inner diameter of the cylindrical shape of the sleeve body housing.

The blocking member 200 as described above is composed of a blocking plate 210 , a pivoting shaft portion 220 , and an interference preventing groove portion 230 .

The blocking plate 210 is formed to have a shape corresponding to the cylindrical cross-sectional shape of the inner periphery of the sleeve body housing, and is configured to smoothly rotate within the sleeve body housing by dividing it in half. The blocking plate 210 is formed with a diameter corresponding to the diameter of the engaging step 120 formed on the lower inner side of the sleeve, that is, the diameter of the inner periphery of the sleeve body housing, and is symmetrically formed in a semicircular shape divided in half. In addition, a fixing hole 212 through which one end of the standing fixing member 400 to be described later is fitted and fixed is formed on one side of the center side of the outer edge of the semicircular arc shape of the blocking plate 210 .

That is, as shown in FIGS. 4 and 5, the blocking plate 210 maintains the standing state of the blocking plate by the standing fixing member 400, which will be described later, for the action of turning to the engaging step side by its own weight. Normally, the upper and lower sides of the sleeve body housing communicate with each other to allow air to flow, but when a fire occurs, the blocking plate 210 of the blocking member is quickly turned toward the engaging step to block the inner periphery of the communicating sleeve body housing. Interlayer propagation can be prevented.

The pivoting shaft 220 serves as a rotation axis when the blocking plate is turned, and is integrally formed along a horizontal outer periphery where the blocking plates 210 symmetrically formed face each other and become a turning center rotated by their own weight, the axis The front and rear ends are shaft-coupled to the pivot hole 112 of the block 110 . That is, the pivot shaft 220 is configured such that the horizontal perimeter of the semicircular shape minus the arc perimeter serves as an axis, and serves as a rotation shaft for the blocking plate to pivot. The pivoting shaft 220 may be integrally configured, but it may have the same effect even if it is configured in a fitting manner by configuring a separate pivoting shaft. No, only both ends coupled to the pivot hole may be configured in the form of the same shaft configuration as the pivot shaft to pivot on the same line.

The anti-interference groove 230 is formed because jamming interference occurs at a position where the above-described shaft block overlaps the circular arc-shaped peripheral portion of the blocking plate, and when the shaft block protrudes, the interference prevention groove 230 When the shaft block is formed on the same surface as the inner peripheral surface of the sleeve body housing, there is no need to configure the interference prevention groove 230. However, when the shaft block protrudes, the pivoting shaft portion of the blocking plate is shaft-coupled to the pivoting shaft hole 112 of the shaft block 110, and the circular arc-shaped peripheral portion with the shaft block according to the swinging operation of the blocking plate 210 is The anti-interference groove 230 is formed by concavely formed at both ends of the front and rear ends of the pivoting shaft 220 so that there is no interference.

On the other hand, the blocking plate of the blocking member does not have a power configuration for swinging action of unfolding, and the blocking plate is actually swinging by its own weight. That is, when the standing fixing member 400, which will be described later, is cut due to a fire, the blocking plate is configured to swing toward the engaging step by its own weight. However, as shown in FIG. 6 in addition to the turning operation due to its own weight, the force that pushes the fireproof filling sheets to each other is applied in a state where the symmetrical blocking plates face each other due to the expansion and expansion of the fireproof filling sheet, which will be described later. The blocking plate can make the turning operation to the side of the jamming step faster.

However, in the case of an electric power source, there may be a problem of installation due to a complicated configuration in order to quickly and quickly turn the blocking plate to the side of the engaging step prior to the turning operation by the force that pushes against each other by the foaming and expanding force of the fireproof filling sheet. A configuration for a quick and quick turning operation of the blocking plate is preferable. To this end, as shown in FIG. 7, the application of a torsion spring is the most optimal for turning the blocking plate formed symmetrically to the left and right at the same time to the engaging step side.

Accordingly, as shown in FIG. 7 in the present invention, when a torsion spring is applied, an elastic member coupling portion 240 to which the torsion spring is coupled is formed in the center of the pivoting shaft portion 220 of the blocking member 200 . Here, the elastic member coupling portion 240 is formed through the center of the pivoting shaft portion 220 of the blocking plate 210 in a rectangular shape, and is attached to the standing fixing member 400 to maintain the blocking plate 210 in a standing state. It is provided so that the elastic force of a torsion spring, which will be described later, is applied to the opposite sides of which the blocking plates 210 formed to face each other and are fixed to face each other stand facing each other so that the elastic force is applied so that the elastic force is automatically rotated. That is, in the elastic member coupling part 240 , a spirally wound part, which is one element that can determine the elastic force strength of the torsion spring, is coupled to the pivoting shaft part 220 , and the end part to which the elastic force is applied is on the blocking plate side. Correspondingly, the blocking plate is coupled to automatically pivot.

As mentioned above, the elastic member coupling part 240 is configured to be coupled to a torsion spring, and the torsion spring 250 is coupled to the elastic member coupling part 240 and the blocking plate 210 . As the fixing of the standing fixing member 400 is released due to fire, the turning operation due to the weight of the blocking plate 210 on the same horizontal plane in which the symmetrical blocking plate 210 is caught by the engaging step 120 is performed. It is automatically rotated and unfolded by the elastic force of the torsion spring, and is provided to block the communicating inner periphery of the sleeve body housing 100 by the blocking plate 210. transmission can be prevented.

On the other hand, the semicircular blocking plate 210 of the blocking member 200 is turned on the same horizontal plane by its own weight or elastic force in a standing state facing each other, and the turning angle at which the blocking step 120 is caught is an angle of 90°. It is rotated within In this case, the symmetrical blocking plate 210 usually maintains a standing state facing each other in the center of the sleeve body housing, and in the event of a fire, the standing blocking plate 210 is erected by cutting due to a fire of the standing fixing member, which will be described later. ) corresponds to the upper part of the locking step on the left and right at an angle of 90° and turns within the range where it does not turn any more.

Accordingly, as shown in FIG. 8 , so that the angle of the blocking plate 210 standing facing each other does not deviate from an angle of 90°, the upper portion of the engaging step 120 protruding into the sleeve body housing 100 . A locking piece 260 is further formed above the center of the shaft block 110 formed to face each other on the front side and the rear side. Here, if the blocking plate deviates from the 90° angle in the standing state, the blocking plate 210 on either side may cause a defect that does not turn to the engaging step side even if a fire occurs, and one side of the blocking plate facing each other will be described later Even if the fire-resisting filling sheets are combined and expanded and expanded, the blocking plate on either side maintains an upright state to form a communication inner peripheral space of the sleeve body housing, causing a problem in that fire can be propagated between floors. do.

Accordingly, when the blocking plate 210 is positioned in an upright state through the locking piece 260, the blocking plate 210 is erected even in a cut state due to a fire of the standing fixing member, which will be described later by limiting the angle not to exceed 90°. It is pivoted symmetrically to the left and right on the basis of , so that it is possible to block the communication of the inner periphery of the sleeve body housing.

The fire-resistance filling sheet 300 is a conventional fire-resistance filling material that can prevent interlayer propagation of fire by foaming and expanding in the event of a fire to block the interlayer communication portion of the sleeve, and the above-described blocking plate 210 in the form of a sheet. ) to be combined or attached to the upper surface or to be applied in liquid form.

The fire resistant filling sheet 300 of the present invention as described above is coupled in a shape corresponding to the surfaces facing each other in a state in which the above-described blocking member 200 is shaft-coupled to the pivot hole 112 and standing, and thermally expands when a fire occurs. After the blocking member 200 is rotated at a right angle to be caught on the stopping step 120, the inner space of the sleeve body housing 100 above the blocking member 200 is completely filled or the blocking member 200 is It is provided so as to completely fill the inner space of the sleeve body housing 100 from the upper surface of the blocking member 200 in a state in which it is rotated at right angles from a distance and caught on the engaging step 120 .

As shown in FIGS. 1 and 4 to 6 , the standing fixing member 400 serves to fix the blocking plate 210 of the above-described blocking member to maintain a normally standing state, and when a fire occurs, It is configured so that it can be cut easily because it is sensitive to the temperature according to the fire. The standing and fixing member 400 is erected in a state in which the blocking member 200 is shaft-coupled to the pivot hole 112 inside the sleeve body housing 100 so that the inside of the sleeve body housing 100 communicates up and down. The other end is coupled to the left and right sides of the locking step formed in the sleeve body housing 100 so as to be maintained in the state, and one end is the turning shaft hole ( It is fixedly coupled to a position perpendicular to the axis of the 112), and is first cut by a heat source when a fire occurs, and the blocking member 200 is provided to turn at right angles to the engaging step 120 by its own weight.

That is, the standing fixing member 400 can be a discharge passage of air or odors through the communicating function of the sleeve in normal times, but in case of a fire, the sleeve can cause fire propagation between floors, so that the blocking plate is quickly blocked. (210) can serve to prevent the spread of fire between floors by quickly closing the inner periphery of the first sleeve caused by the fire. As described above, the standing fixing member 400 according to the present invention is configured in the form of a wire that is flexible and vulnerable to a heat source, and controls the quick turning operation of the blocking plate 210 so that the blocking plate 210 is rotated by the sleeve body. One end is coupled to the fixing hole 212 formed in the blocking plate 210 to prevent blocking communication of the inner periphery of the housing 100 , and the other end is the upper end of the engaging step 120 of the sleeve body housing 100 . It is coupled to the support hole 130 formed on one side.

Here, the support hole 130 is located close to the locking step 120, which is because maintaining the closest distance from the fire immediately responds to the temperature change of the fire, so in general, the support hole 130 side The standing fixing member 400 is rapidly cut so that the operation of the blocking plate is made immediately. That is, the closer the support hole 130 is to the jamming step side, the faster it responds to the heat source generated by the fire, and quick action is possible. That is, the standing fixing member 400 is cut according to the temperature rise due to the fire, and the blocking plate 210 is rotated at the same time as the cutting is cut to block the communication of the sleeve body housing 100. According to the provision, it is possible to prevent the occurrence of primary fire propagation and the occurrence of secondary fire propagation by fire-resistance fillers through this.

Furthermore, it is preferable that the support hole 130 to which the other end of the standing fixing member 400 is coupled is formed at a position close to the upper side of the engaging step 120 so as to be cut first when a fire occurs.

As shown in FIG. 1, the sleeve having the fire-resistance charging structure of the rapid fire blocking function according to the present invention having such a configuration is embedded in the slab formed between the layers, and the lower end of the inner periphery of the sleeve body housing 100 in ordinary times. The blocking member 200 is pivotally coupled to the pivoting shaft hole 112 of the shaft block formed on the upper side of the locking step 120 formed on the side.

Here, the shaft coupling of the blocking member 200 is to be coupled to the pivot hole 112 symmetrically formed on the left and right of the shaft block 110 , and the shaft block 110 is symmetrically formed in the upper and lower sides of the engaging step 120 . The member 200 is rotated left and right. That is, the axis of rotation and the axis of rotation are perpendicular to each other, and as the turning shaft formed in the blocking plate 210 of the blocking member 200 is axially coupled to the pivot hole, the blocking plate 210 on the circumferential side of an arc is left and right will rotate with

As shown in FIG. 1 , the blocking plate 210 normally maintains a standing state while facing each other with left and right symmetrical blocking plates. At this time, in order to maintain the standing state, the upper inner surface of each of the left and right sides of the engaging step 120 of the sleeve body housing 100 by the standing fixing member 400 and the middle side of the circular arc of the blocking plate 210 One surface It is formed so that the turning operation of the blocking plate 210 is limited.

That is, in normal times, the blocking plate 210 is in a standing state in the Y-axis direction, and when a fire occurs, as shown in FIG. 4 , the standing fixing member 400 is cut or cut by the fire temperature and the blocking plate ( As shown in FIG. 5 as the restriction on the turning operation of 210) is released, the left and right blocking plates 210 are caught in the X-axis direction by the elastic force of their own weight or the torsion spring on the upper surface of the locking step 120. It blocks the inner space of the sleeve body housing 100 while forming a horizontal plane.

Next, as shown in FIG. 6 , the standing fixing member 400 releases the standing and fixed state of the blocking plate 210 according to the occurrence of a fire, and the inner periphery of the sleeve body housing 100 is attached to the blocking plate 210 . After preventing the propagation of fire by quickly blocking the primary block by the As the space of the upper surface of the blocking plate 210 is completely sealed by the fire-resistant filling sheet 300 according to the expansion, the propagation of fire between floors is prevented.

Here, even if the blocking plate 210 is rusted due to the lapse of a long time or foreign substances are attached to the metal and the standing state is fixed, and a fire occurs even if the turning operation is not performed, the volume expansion force according to the foaming expansion of the fireproof filling sheet 300 The blocking plate 210 is pivotally operated from the Y-axis state to the engaging step 120 side in the X-axis state, and the sleeve body housing 100 inner periphery by the two configurations of the blocking plate 210 and the fire-resistant charging sheet 300 . This is completely sealed off, and through this, it is possible to prevent the spread of fire between floors.

Accordingly, in the case of a conventional sleeve including a fire resistant filler, it takes time to quickly block the entire inner periphery of the sleeve even if the fire progresses and the fire resistant filler expands. By quickly and quickly blocking the inside of the sleeve body housing prior to the foaming expansion of the fireproof filler by the plate, it is possible to more quickly prevent the propagation of fire between layers, and the communication space of the sleeve can be formed according to the failure of the foaming and expansion of the fireproof filler. In the state where the problem is first blocked by the blocking plate, the foaming and expansion of the fireproof filler can prevent the propagation of fire between floors even if the fireproof filler has poor foaming and expansion, as well as the holding power that can withstand the fire caused by fire and the prevention of inter-floor propagation. have.

In the above, the present invention has been described in detail as one embodiment, but the scope of the present invention is not limited thereto, and it is clear that many variations and modifications are possible by those skilled in the art within the scope of the technical idea, It will be included to a range substantially equivalent to the embodiment of the present invention. The technical features will be described in detail.

100: sleeve body housing 110: shaft block
112: turning shaft hole 120: jamming step
130: support hole 200: blocking member
210: blocking plate 212: fixing hole
220: pivot part 230: interference prevention groove part
240: elastic member coupling part 250: torsion spring
260: jammed piece 300: fireproof filling sheet
400: standing fixed member

Claims (6)

delete The upper and lower ends are formed in an open cylindrical shape and are embedded in the slab, and the locking step 120 is formed along the inner periphery at the bottom, and the shaft block 110 in which the turning shaft hole 112 is symmetrically formed on the left and right is the locking step ( 120) a sleeve body housing 100 formed symmetrically back and forth in contact with the inner periphery of the cylindrical shape on the upper surface; Half of the inner diameter of the cylindrical shape of the sleeve body housing 100 so as to be axially coupled to the pivot hole 112 formed in the shaft block 110 of the sleeve body housing 100 and to stand upright and pivot at right angles to the locking step 120 side to limit turning. a blocking member 200 formed symmetrically to each other in a semicircular shape formed in; The blocking member 200 is shaft-coupled to the pivot shaft hole 112 and is coupled in a shape corresponding to the surfaces facing each other in a standing state. 120), the inner space of the sleeve body housing 100 on the upper side of the blocking member 200 is completely filled, or the blocking member 200 is rotated at a right angle from a distance and caught on the engaging step 120. a fire-resistant filling sheet 300 provided to completely fill the inner space of the sleeve body housing 100 from the upper surface of the blocking member 200; The other end is the sleeve body housing so that the blocking member 200 is shaft-coupled to the pivot hole 112 inside the sleeve body housing 100 so that the inside of the sleeve body housing 100 communicates up and down and maintained in an upright state. The locking step formed in 100 is coupled to the left and right, and one end is fixed at a position orthogonal to the axis of the turning shaft hole 112 on one side of the highest point facing each other in a state where the semicircular blocking member 200 symmetrically formed is standing up. It is coupled, and is first cut by a heat source when a fire occurs, and the blocking member 200 is formed with a standing fixing member 400 that is provided to turn at right angles to the engaging step 120 by its own weight;
The blocking member 200 is formed with a diameter corresponding to the diameter of the engaging step 120 formed on the lower inner side of the sleeve and is symmetrically formed in a semicircular shape divided in half, and the standing fixing member is formed on one side of the center side of the outer edge of the semicircular arc shape. a blocking plate 210 having a fixing hole 212 through which one end of the 400 is fitted and fixed; The blocking plate 210, which is symmetrically formed, is integrally formed along a horizontal outer edge that becomes a turning center pivoted by its own weight while facing each other, and front and rear ends are axially coupled to the pivot hole 112 of the shaft block 110 a pivoting shaft 220 that becomes; Interference prevention grooves ( 230); a sleeve with a fire-resistant charging structure of a quick fire-blocking function, characterized in that it is formed of.
3. The method of claim 2,
It is formed through the center of the pivoting shaft 220 of the blocking member 200 in a rectangular shape, and left and right symmetrical formed to face each other by the standing fixing member 400 to maintain the blocking plate 210 in a standing state. an elastic member coupling part 240 provided so that an elastic force is applied so that the blocking plate 210 automatically pivots to opposite sides of each standing facing each other;
The blocking plate 210 is coupled to the elastic member coupling part 240, and as the blocking plate 210 is released from fixing according to the fire of the standing fixing member 400, the blocking plate 210 symmetrical to the left and right is placed on the engaging step 120. A torsion spring 250 provided to automatically pivot and unfold by an elastic force rather than a pivoting operation by the self-weight of the blocking plate 210 on the same horizontal plane where it is caught to block the communication of the sleeve body housing 100 by the blocking plate 210 ); A sleeve with a fire-resistant charging structure with a quick fire-blocking function, characterized in that it is formed of.
3. The method of claim 2,
The semicircular blocking plate 210 of the blocking member 200 is turned on the same horizontal plane by its own weight or elastic force in a standing state facing each other, and the turning angle at which the blocking step 120 is caught is within a 90° angle. Turning works,
The blocking plate 210 faces each other so that the angle of the standing state does not deviate from an angle of 90°. A sleeve having a fireproof charging structure with a quick fire blocking function, characterized in that the locking piece 260 is further formed above the center of the shaft block 110 .
3. The method of claim 2,
The standing fixing member 400 controls the turning operation of the blocking plate 210 so as to prevent the blocking plate 210 from blocking communication with the inner periphery of the sleeve body housing 100 by the swinging operation. It is coupled to the fixing hole 212 formed in the 210,
The other end is coupled to the support hole 130 formed on any one surface of the upper side of the engaging step 120 of the sleeve body housing 100,
The standing fixing member 400 is cut according to the temperature rise due to the fire, and at the same time the cut-off plate 210 is pivoted, it is provided to block the communication of the sleeve body housing 100. Sleeve with fireproof filling structure.
6. The method of claim 5,
The support hole 130 to which the other end of the standing fixing member 400 is coupled is preferably formed at a position close to the upper side of the engaging step 120 so as to be cut first when a fire occurs. sleeve with structure.

Images