KR101891516B1 - Apparatus for destructing reinforced or tempered glass - Google Patents

Abstract

An apparatus for automatically destructing reinforced glass according to one embodiment of the present invention comprises: a propulsion hitting portion for destructing reinforced glass; a hitting portion main body accommodating the propulsion hitting portion; an accommodating spring supporting the propulsion hitting portion; and a propulsion providing portion for providing propulsion. According to one embodiment of the present invention, the propulsion hitting portion is rotated by propulsion gas provided from the propulsion providing portion, and a hitting member is also rotated and comes in contact with multiple points such that reinforce glass can be easily destructed.

Description

TECHNICAL FIELD [0001] The present invention relates to an automatic glass destruction apparatus,

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to an automatic glass breaking device for tempered glass, and more particularly, to an automatic glass breaking device for tempered glass capable of automatically breaking tempered glass of a building.

The tempered glass is a glass reinforced by heating the template glass at a temperature close to the softening temperature (500 to 600 ° C), compressing the surface portion of the glass by quenching by the compressed cooling air, and deforming the inside by tensile deformation.

Such tempered glass has 3 to 5 times higher bending strength than normal glass, 3 to 8 times higher impact resistance, and superior heat resistance. However, because the glass itself maintains the balance of force inside, the whole is destroyed by the reddish-sized debris even if one side is cut a little.

Such tempered glass is mainly used in automobiles and buildings. In recent large buildings and buildings, outer walls are mainly made of tempered glass to ensure aesthetic appearance, shortening of air, light transmission, external view, and wall rigidity. As such, buildings and automobiles are mainly equipped with 'toughened windows' with high rigidity.

Although the reinforced glass window has a considerable advantage as described above, there is a disadvantage that it is difficult to easily escape the 'reinforced glass window' due to a considerable rigidity in a state of being perplexed by most people, such as a fire or other emergency, do.

In an embodiment of the present invention, a reinforced glass automatic destruction device capable of rescuing a person in a crisis by automatically breaking a reinforced glass window, which is an obstacle to escape of a vehicle or a building, in an emergency, .

An embodiment of the present invention is to provide a tempered glass automatic breaking device capable of destroying tempered glass with appropriate pressure by providing a rotary multiple impact contact structure that easily breaks the tempered glass.

According to an embodiment of the present invention, there is provided an automatic destruction apparatus for a tempered glass, comprising: a propelling unit including a striking member configured to impact a tempered glass to break a tempered glass; The propulsion hitting portion being configured to be movably received in the propulsion hitting portion, the propulsion hitting portion being provided with a hitting opening protruding from the striking member of the propelling hitting portion and a propelling opening located on the opposite side of the hitting opening, A striking portion main body; A receiving spring which is located inside the striking part main body and elastically supports the driving striking part so that the striking member is received in the striking part main body; And a propelling supply unit connected to the propulsion opening side of the impacting unit main body and configured to provide a propelling pressure by the propelling gas to the impact opening side, And the striking member of the propulsion hitting portion may be provided in a plurality of contact structures with respect to the tempered glass.

The striking part body may include a movement receiving part connected to the striking opening, the striking part being movably received; A propulsion receiving portion connected to the propulsion opening and receiving a propulsion force of the propulsion hitting portion movably; And a rotation guide portion provided between the movement receiving portion and the propulsion accommodating portion and provided with a rotation guide protrusion arranged in a helical arrangement to contact the propelling striking portion to guide rotation of the propelling striking portion.

A plurality of flow guides are provided in a part of the inner wall so that the propelling gas flows into the propulsion accommodating portion while the propelling gas is supplied to the propelling accommodating portion, A rotating blade may be provided on the rear portion of the striking portion to receive the driving force of the striking portion so that the striking member can be rotated by the propelling pressure of the propelling portion.

The propulsion unit may include a propellant charge unit accommodated in the charge acceptance unit and filled with a gunpowder for generating the propellant gas; And a cavity coupled to the charge acceptance part for detonating the explosive charge of the propellant charge part.

The propulsion providing section includes: a gas container for providing the propelling gas to the propelling opening; A gas pipe connecting the gas container and the propelling opening; And an open / close valve positioned between the gas container and the gas pipe to interrupt the flow of the propelling gas toward the gas pipe.

Wherein the opening / closing valve comprises: a valve body connecting the gas container and the gas pipe, the valve body having an opening / closing flow path; A valve body having a valve body rotatably disposed in an opening / closing passage of the valve body and provided with a connecting passage for connecting the opening / closing passage at a rotational position in one direction and blocking the opening / closing passage at a rotational position in the other direction; And an opening / closing operation part having the gas valve rotatably fixed in position and having a working plate for rotating the gas valve.

In the embodiment of the present invention described above, the reinforced glass window, which is an obstacle to the escape of the vehicle or the building, can be automatically broken by the automatic system or button when an emergency occurs, And to provide an automatic glass destruction apparatus.

An embodiment of the present invention can provide a tempered glass automatic breaking device capable of breaking tempered glass with appropriate pressure by providing a rotary multiple striking contact structure that easily breaks the tempered glass.

In the embodiment of the present invention, since the gas propulsion method is used, the tempered glass can be destroyed a plurality of times until the gas is exhausted, so that it is possible to repeat the destructive operation until it is successful when an emergency occurs, have.

FIG. 1 is a partially exploded perspective view of an automatic glass tempering apparatus according to an embodiment of the present invention.
Figure 1 is an exploded view of Figure 2;
3 is an enlarged view of the striking portion of Fig.
4 is a perspective view of an automatic glass breaker according to another embodiment of the present invention.
5 is an exploded view of Fig.
6 is a sectional cross-sectional view of an open / close valve connected to the gas container of FIG.

Various embodiments of the present invention will now be described by way of specific embodiments illustrated in the accompanying drawings. The differences in the embodiments are to be understood as mutually exclusive matters, and the specific shapes, structures, and characteristics described in connection with one embodiment may be embodied in other embodiments without departing from the spirit and scope of the present invention .

It is to be understood that the position or arrangement of the individual components in accordance with embodiments of the present invention may be varied and that like reference numerals may be used to indicate like or similar features throughout the various aspects, The form may be exaggerated for ease of explanation.

The direction and position of the drawing are described assuming an XYZ Cartesian coordinate system. The top, bottom, right and left coincide with the XY coordinate plane system, and the front, rear, left and right coincide with the YZ coordinate plane system. In the drawings of the embodiments, each of the elements for which the lower elements are not described are assumed to include typical lower elements for having respective assigned functions, and are not limited to the lower elements shown in the figures. It is to be understood that the components illustrated but not shown are included in the embodiments.

The terms used shall be understood to have the traditional meaning of Chinese characters, national language, or English, except those specifically defined, or to have attributes consistent with the terms used in the field. It is to be understood that "comprising, comprising, or having" means having more than one of the other components, "fixed and constrained" And can be moved by the user.

1 to 3, an automatic glass breaker according to an embodiment of the present invention includes a propelling unit 100 for destroying tempered glass, a striking unit body 100 in which the propelling unit 100 is accommodated, (110), a receiving spring (120) for supporting the propelling unit (100), and a propelling unit (140) for providing a propelling gas.

The propulsion hitting portion 100 includes a striking member 101 configured to impact the tempered glass to destroy the tempered glass.

The propulsion hitting portion 100 is configured to rotate in the hitting block body 110 by the pressure of the propelling gas of the propelling supply portion 140. To this end, the propelling hatch 100 may be provided with a rotary vane 102. The propulsion hitting portion 100 can be rotated by rotating the rotary vane 102 by the propelling gas provided in the propelling supply portion 140 and the impact member 101 is also rotated to contact the tempered glass to destroy the tempered glass can do.

 2 and 3, the striking member 101 of the propelling unit 100 may be provided in a plurality of contact structures with respect to the tempered glass. For example, the striking member 101 may be formed with pin protrusions 103 at a plurality of radial positions with respect to the center, such as a formation in which the shell of the end of the blank is clogged.

This striking member 101 provides a plurality of circumferential striking points. That is, the striking member 101 provides a striking point for the tempered glass at a plurality of positions in an advantageous manner than the one-point striking, and the plurality of the pin protrusions 103 are rotated by the rotating blades 102 as described above, Can be delivered over the entire surface of the tempered glass. Therefore, the entire surface of the tempered glass can be destroyed by not only forming the through holes in the tempered glass by one-shot blowing.

The propulsion hitting unit 100 includes a guide member 104 connected to the striking member 101 and guided by the striking member body 110, a rotary member 105 connected to the guide member 104 and guided to rotate, And a piston head 106 which is located on the side wall of the rotating vane 102 and receives the pressure of the propelling gas. A spring support member 107 supporting the receiving spring 120 is positioned between the striking member 101 of the propelling unit 100 and the guide member 104.

The striking member 101 and the rotation engaging member 105 have substantially the same diameter and are shaped in the guide member 104 in the rotation member 105 and the piston head 106 is extended further than the guide member 104 .

As a whole, the propulsion hitting portion 100 has a plurality of pointed striking members 101 at the dehumidifying portion, and pressure is applied to the piston head 106 by the pressure of the propelling gas as the diameter of the striking member 101 increases step by step, To the side of the center line extending from the center of the base 101.

The propelling unit 100 is urged to expose the impacting member 101 from the impacting unit body 110 by the propelling gas acting in opposition to the supporting force of the receiving spring 120, It is possible to destroy it.

The rotary blade 102 is provided at the rear portion of the propelling unit 100 to receive the driving force of the propelling unit 100 so that the propelling unit 101 can be rotated by the propelling pressure of the propelling unit 140.

The rotary vane 102 may be provided in an 'S' shape to facilitate rotation by the momentary pressure and rotational flow of the propelling gas, but is not limited thereto and may be a vane or screw structure that is easily rotated by gas pressure .

Referring to FIGS. 1 and 2, the striking part body 110 is configured to receive the driving striking part 100 movably therein. The striking portion main body 110 is positioned on the opposite side of the striking opening 111 and the striking opening 111 where the striking member 101 of the propelling striking portion 100 protrudes, A propelling opening 112 is provided. The striker body 110 is mounted on the tempered glass surface such that the striking aperture 111 faces the stiffened glass surface. In the drawing, the connection by the bolt has been described. However, it may be combined using an adhesive, or may be installed using a separate bracket in the reinforced glass frame.

The striking portion main body 110 is connected to the striking opening 111 and includes a moving accommodating portion 113 in which the striking member 101 is movably accommodated, A propulsion receiving portion 114 which is received in the propulsion receiving portion 114 to receive the propulsion force of the propulsion hitting portion 100 and a propulsion receiving portion 114 which is located between the propulsion receiving portion 114 and the movement receiving portion 113, And a rotation guide portion 115 provided with a rotation guide protrusion 116 of a helical arrangement which is in contact with the rotation guide portion 100. The overall length of the movement receiving portion 113, the propulsion receiving portion 114, and the rotation guide portion 115 may be various lengths in order to increase the acceleration of the propulsion.

The movement receiving portion 113, the propulsion accommodating portion 114 and the rotation guiding portion 115 have an inner diameter corresponding to the diameter of the propelling hatch 100 and a gas outlet (not shown) As shown in FIG.

A receiving spring (120) for supporting the striking member (101) is disposed on the side of the movement receiving portion (113). The receiving spring 120 is located inside the striking portion main body 110 and elastically supports the driving striking portion 100 so that the striking member 101 is accommodated in the striking portion main body 110.

The striking member 122 is formed on the outer side of the movement accommodating portion 113 so as to extend the striking opening 111 for striking and impacting the striking member 101, The cover 121 is engaged.

The propulsion receiving portion 114 is provided with a piston head 106 of the propulsion hitting portion 100. A plurality of gas inlet passages 125 for introducing propellant gas are connected to the propelling receptacle 114 and a plurality of gas inlet passages 125 are formed in a part of the inner wall of the gas inlet passageway 125, An inclined flow guide 127 is provided.

The flow guide 127 creates a rotational flow of the propelling gas such that the propelling gas is provided to rotate on the rotating blades 102 side of the propelling unit 100. The flow guide 127 is a wing structure fixed to the inner wall of the gas inflow passage 125 connected to the propelling opening 112. Accordingly, the propelling gas passing through the flow guide 127 is provided to the side of the propulsion accommodating portion 114 while rotating, and can apply rotational force to the rotary vane 102.

The rotation guide portion 115 is located at a position where the rotation slot member 105 of the propelling unit 100 is positioned. The rotation guide protrusion 116 of the rotation guide portion 115 is brought into contact with the rotation wand member 105 so that the rotation of the piston head 106 by the rotary wing 102 allows the impact propulsion portion to be easily rotated Guide the rotation.

The automatic tempering glass destroying apparatus according to an embodiment of the present invention is to provide a propellant gas as an explosive gas of a gunpowder.

Referring to FIGS. 1 and 2, the striking portion main body 110 further includes a charge accepting portion 130 connected to the propulsion accommodating portion 114. The charge accepting part 130 may be arranged to receive the propellant in the shape of an ammunition for providing the propellant gas by the explosive explosion to the piston head 106 side through the gas inflow passage 125.

The charge acceptance part 130 may be provided in a cylinder shape connected to a cone and a cone gradually tapered toward the gas inflow passage 125 side. The charge accepting part 130 includes the separating cover 135, so that it is possible to load and replace the propellant charge part 145 of the froth-like shape to be described later.

The propelling supply unit 140 is connected to the propelling opening 112 side of the impacting unit main body 110 and is configured to provide a propelling gas propelling pressure toward the impacting opening 111 side.

The propelling supply unit 140 is accommodated in the charge acceptance unit 130 and is coupled to the propellant charge unit 145 filled with gunpowder for generating propelling gas and the charge acceptance unit 130, ) May be provided with an opening 150 for exploding the gunpowder.

The propellant charge part 145 is in the form of a bubble containing a gunpowder. The propellant charge unit 145 explodes the built-in propellant by the venting unit 150. The propellant charge part 145 is formed to fit exactly in the charge acceptance part 130 and has a diameter enough to contain explosives.

The ball portion 150 includes a ball 151 having a ball 152 for exploiting the propulsion charging portion 145, a ball 151 movably received and an electric wire 157 connected thereto, and a solenoid A solenoid housing 153 in which a coil (not shown) is wound, a spring 154 in which the ball is supported by the block 151 in the solenoid housing 153, a permanent magnet 155 for moving the block 151, And a housing cover 165 for limiting the magnet 155 to the inside of the solenoid housing 153.

A wire 157 is connected to the solenoid coil, and a switch can be connected to the wire. The switch can be placed on the side of the tempered glass with the button, and can also be placed in the central control center where monitoring can be done to eliminate the risk. The switch can also be connected to the controller for automatic operation by sensors such as fire detection sensors.

When the solenoid coil is energized by the operation of the button and the ball 151 together with the permanent magnet 155 is moved toward the propellant charge part 145, the propellant charge part 145 contacts the inner explosive charge hole 152 Propelling gas due to the explosive explosion of the propellant charge part 145 flows to the impact part main body 110. [ The propelling gas rotates and moves the propelling hatch 100 toward the hitting opening 111 and the hitting member 101 of the propelling hatch 100 contacts the tempered glass so that the tempered glass can be destroyed.

As described above, the automatic tempering glass destruction apparatus according to an embodiment of the present invention automatically breaks the reinforced glass window which is an obstacle to escape of a vehicle or a building when an automatic destruction emergency occurs due to an automatic system or a button.

The toughened glass automatic breaking device according to an embodiment of the present invention can also break the tempered glass with appropriate pressure by providing a rotary multiple impact contact structure, such as the end of the blanket that easily breaks the tempered glass.

Hereinafter, a reinforced glass automatic destruction apparatus according to another embodiment of the present invention will be described. The automatic glass breaking device for tempered glass according to another embodiment of the present invention is provided with a propelling gas for blowing in a gas container unlike the tempered glass automatic breaking device according to the above embodiment. A detailed description of the same components denoted by the same reference numerals as those already described above will be omitted, and mainly the gas container and the related on / off valve will be described.

4 to 6, an automatic tempering glass destruction apparatus according to another embodiment of the present invention is characterized in that the propellant supply unit 140 includes a gas container 160, a gas pipe 165, and an on-off valve 170 will be.

The gas container 160 of the propelling supply unit 140 according to another embodiment of the present invention is filled with propelling gas at a high pressure in an enclosed inner space to provide a propelling gas to the propelling opening 112. [ The gas container 160 is connected to the striking portion body 110 through a gas pipe 165. The gas pipe 165 may be provided as a pipe of a metal material capable of withstanding high pressure as a pipeline for supplying propellant gas.

The on-off valve 170 is positioned between the gas container 160 and the gas pipe 165 so as to control the flow of the propelling gas toward the gas pipe 165 side. The opening and closing valve 170 allows the propelling gas to flow toward the gas pipe 165 so that the propelling unit 100 in the hitting unit body 110 can be rotated.

The opening / closing valve 170 may include a valve body 171, a gas valve 172, and an opening / closing operation portion 180. The valve body 171 connects the gas container 160 and the gas pipe 165 and is provided with an opening / closing passage 172.

The gas valve 174 is rotatably disposed in the opening and closing passage 172 of the valve body 171 and is provided with a connecting passage 176 for connecting the opening and closing passage 172 at a rotational position in one direction, And a valve body 175 for blocking the opening / closing flow path 172. As shown in FIG.

The opening and closing operation part 180 is provided with a working disk 181 for rotating the gas valve 174 and the gas valve 174 is rotatably positioned and fixed.

The opening and closing valve 170 is provided with an operating disk 181 for opening and closing a valve body 171 connecting the gas container 160 and the gas pipe 165 to a solenoid valve housing 185). The working disk 181 can be rotated by the electric signal of the electric wire 186 applied to the solenoid coil of the solenoid valve housing 185.

Accordingly, the valve body 175 can be rotationally driven automatically by the electric signal of the opening / closing valve 170, and the opening / closing flow path 172 of the valve body 171 can be automatically opened / closed. Since the opening / closing valve 170 can be automatically implemented, the striking member 101 can be operated by the signal of the button or the central control center to automatically break the tempered glass window.

The valve body 175 is rotated by the operating disk 181 driven by a solenoid method and the connecting passage 176 of the valve body 175 is coaxially aligned with the opening / And allows the flow of the fill gas of the gas container 160 to the gas pipe 165 side as it is deployed. As a result, the striking member 101 is projected while being rotated through the striking opening 111 while the filling gas is applied to the piston head 106 of the striking member main body 110, and the tempered glass contacting the striking member 101 is broken .

Since the automatic glass destruction apparatus according to the embodiment of the present invention uses the gas propulsion method, the tempered glass can be destroyed a plurality of times until the gas is exhausted, so that when an emergency occurs and destruction is attempted, There is an advantage to be able to do. In addition, there is an advantage that it can be used until the gas is exhausted without having to replace it after one use.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it will be understood by those skilled in the art that various changes and modifications may be made therein without departing from the spirit and scope of the invention as defined by the appended claims. Deletion, addition or the like of the present invention may be variously modified and changed within the scope of the present invention.

100: propelling striking part 101: striking member
102: rotation blade 103: pin projection
104: guide member 105: rotation and swing member
106: piston head 107: spring support member
110: striking part body 111: striking opening
112: propelling opening 113:
114: propelling housing part 115: rotation guide part
116: rotation guide projection 120: receiving spring
121: assembly cover 122: oblique exposure opening
125: gas inlet passage 127: flow guide
130: charge accepting part 135: separating cover
140: Propulsion supply study 145: Propulsion charge department
150: Ball Part 151: Ball Block
152: ball 153: solenoid housing
154: ball spring 155: permanent magnet
156: housing cover 160: gas container
165: gas pipe 170: opening / closing valve
171: valve body 172: opening /
174: gas valve 175: valve body
176: connecting channel 180: open / close operation part
181: Working disk 185: Solenoid valve housing

Claims (6)

A propelling unit including a striking member configured to impact the tempered glass to break the tempered glass;
The propulsion hitting portion being configured to be movably received in the propulsion hitting portion, the propulsion hitting portion being provided with a hitting opening protruding from the striking member of the propelling hitting portion and a propelling opening located on the opposite side of the hitting opening, A striking portion main body;
A receiving spring which is located inside the striking part main body and elastically supports the driving striking part so that the striking member is received in the striking part main body; And
And a propelling part connected to the propulsion opening side of the striking part body and configured to provide a propelling pressure by the propelling gas to the striking opening side,
Wherein the propelling striking part is configured to rotate in the striking part body by the propelling pressure of the propelling providing part, and the striking member of the propelling striking part is provided in a plurality of contact structures with respect to the tempered glass. The method according to claim 1,
The striking portion main body,
A movement receiving portion connected to the striking opening, the striking member being movably received;
A propulsion receiving portion connected to the propulsion opening and receiving a propulsion force of the propulsion hitting portion movably; And
And a rotation guide portion which is located between the movement accommodating portion and the propulsion accommodating portion and is provided with a rotation guiding protrusion arranged in a spiral arrangement to contact the propelling striking portion to guide rotation of the propelling striking portion. 3. The method of claim 2,
A plurality of flow guides are provided in a part of an inner wall of the propelling chamber to allow the propelling gas to flow into the propelling chamber,
Wherein the rotating blade is provided on the tail portion of the propulsion hitting portion so as to be rotatable by the propelling pressure of the propulsion providing portion. 3. The method of claim 2,
The striking portion main body,
And a charge acceptance part connected to the propulsion accommodating part,
The propulsion providing unit,
A propellant charge part accommodated in the charge acceptance part and filled with a gunpowder for generating the propellant gas; And
And a ball portion coupled to the charge acceptance portion and configured to detonate a gunpowder of the propellant charge portion. 3. The method of claim 2,
The propulsion providing unit,
A gas container for providing said propelling gas to said propelling opening;
A gas pipe connecting the gas container and the propelling opening; And
And an opening / closing valve positioned between the gas container and the gas pipe so as to interrupt the flow of the propelling gas toward the gas pipe. 6. The method of claim 5,
The on-
A valve body connecting the gas container and the gas pipe, the valve body having an open / close flow path;
A valve body having a valve body rotatably disposed in an opening / closing passage of the valve body and provided with a connecting passage for connecting the opening / closing passage at a rotational position in one direction and blocking the opening / closing passage at a rotational position in the other direction; And
Wherein the gas valve is rotatably positioned and includes an opening and closing operation portion having a working disk for rotation of the gas valve.

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