Abstract:
An emergency rescue device is provided which includes a plurality of launching tubes, a plurality of upper and lower fixing pieces, a plurality of upper and lower connecting moving pieces, a plurality of groups of tenons and spring units, a lighting device, a plurality of supporting poles, a plurality of upper and lower uniting pieces, a plurality of upper and lower spring holder portions, an outer cylinder and a lid, etc. A flare used in the emergency rescue device comprises a far upper end loaded with signal powders; a second section loaded with pushing powders, below which lighting powders are loaded and are partially exposed to outside the circumference of the flare body; and a far lower end with a tail wing. The emergency rescue device of the present invention allows the flare to be fired immediately and consecutively at the sky for SOS signaling, enabling an immediate rescue for victims.

Description:
BACKGROUND OF THE INVENTION 
     The present invention relates to emergency rescue devices, and more particularly to an emergency rescue device that can send rescue signals up to the sky in case of urgent condition. 
     Nowadays major crimes that endanger people&#39;s life and property, such as killing, robbery, kidnapping and theft, take place quite often. One of the reasons why cases cannot be solved and criminals cannot be deterred in a timely manner is that the victim or the eyewitness fails to report cases to the police in time; thus the criminal who runs away at ease cannot be subdued in time and remains at large. 
     In addition, it has been commonly reported for the cases of individuals lost in adventuring mountains or rivers; however, rescue is delayed and casualties are caused for the lost individuals because they are not equipped with SOS-launching devices and fail to indicate the site to be rescued. On the contrary, if emergency rescue equipment is available, e.g. emergency rescue devices available for the individuals mentioned above to indicate their locations by firing the emergency rescue device, rescuers can reach them promptly, and thereby the extent of casualties can be reduced. 
     SUMMARY OF THE INVENTION 
     The objective of the present invention is to provide an emergency rescue device with flare to be fired immediately and consecutively at the sky for help. 
     The emergency rescue device of the invention includes the following components. 
     A plurality of launching tubes are each provided on its wall with a slide groove longitudinally, wherein a large opening as a friction-lighting opening is formed around the central portion of the groove, and each tube can be loaded therein with flares. 
     An upper fixing piece and a lower fixing piece are respectively provided at the upper and lower ends of the annularly-arranged launching tubes which distribute uniformly through the upper and lower fixing pieces; the tubes are fastened to the upper and lower pieces where they are placed throughwith, wherein the friction-lighting openings of the plurality of launching tubes face the outer edges of the upper and lower fixing pieces, wherein a through hole is in the center of each of the upper and lower fixing pieces. 
     At proper positions on the periphery of the upper and lower fixing pieces, indented hooks are formed at equally-distant intervals with a same quantity as that of launching tubes; wherein the indented hooks on the upper fixing piece are symmetrical to those on the lower fixing pieces. 
     An upper connecting moving piece is located above the upper fixing piece, and a lower connecting piece is located under the lower fixing piece; wherein the upper and lower connecting moving pieces appear to be analogous to a vertical view of the right hand with the thumb being positioned separately from the other four fingers aligned closely to each other, the palm facing the chest, and the thumb and the index finger being in a horizontal position; wherein a through hole is provided on the upper and lower connecting moving pieces respectively at a position corresponding to the fingertip of the thumb, wherein the through hole corresponding to the upper thumb and that of the lower thumb are correspondingly aligned with those in the centers of the upper and lower fixing pieces; a through hole is provided at a position corresponding to the fingertip of the index finger, and a through hole is provided at a position corresponding to the wrist on the upper and lower connecting moving pieces, respectively, wherein the through hole corresponding to the upper index finger is aligned with that corresponding to the lower index finger, whereas the through hole corresponding to the upper wrist is also aligned with that corresponding to the lower wrist; wherein a bullet feeding opening, provided on the upper connecting moving piece, corresponds to an opening of the launching tube, which allows each flare to be placed therein with respect to an indented portion, which also acts as the outlet for launching a flare wherein an opening is provided on the lower connecting moving piece corresponding to the bullet feeding opening on the upper connecting moving piece, wherein an indented portion of the lower connecting moving piece allows the tail flame to go through when the flare is launched; the upper connecting moving piece is provided with a group of upper screw holes and an upper spring fixing end protruding upwardly around the position corresponding to the end of the upper wrist; wherein the lower connecting moving piece is provided with a group of lower screw holes and lower spring fixing end protruding downwardly around the position corresponding to the end of the lower wrist wherein the upper screw holes and the lower screw holes are symmetrical in position, and the upper spring fixing end and the lower spring fixing end are also symmetrical in position. 
     A first tenon and a first spring are provided, wherein an appropriate hole from the group of the upper screw holes may be chosen and used to fasten the first tenon and the first spring wherein one end of the first spring is fixed on the upper connecting moving piece while the other end is pressed and fixed on the first tenon, allowing the first tenon to be hooked to the indented hook of the upper fixing piece. 
     A second tenon and a second spring are provided, wherein an appropriate hold from the group of the upper screw holes may be chosen and used to fasten the second tenon and the second spring, wherein one end of the second spring is fixed on the lower connecting moving piece while the other end is pressed and fixed on the second tenon, allowing the second tenon to be hooked to the indented hook of the lower fixing piece. 
     A lighting device is formed of an arc shaped pulling handle and a friction piece; wherein the friction piece is placed inside the pulling handle with its indented side facing the friction lighting opening; wherein the pulling handle is provided at its one end with a sleeve tab, its radial direction protruding outward. The friction piece is provided at its one end with a fixing tube aiming at the pair of through holes at the one end of the pulling handle, wherein the through hole corresponding to the upper index finger, the pair of through holes aiming at the sleeve tube, the sleeve tube and the through hole corresponding to the lower index finger are aligned; wherein the pair of through holes at the other end of the pulling handle, the through hole corresponding to the upper wrist and the through hole corresponding to the lower wrist are also aligned; wherein a metal convex mesh portion is provided on the surface of the friction piece facing the friction lighting opening. 
     A first supporting pole passes through the through hole corresponding to the upper index finger, the pair of through holes aiming at the sleeve tube, and the through hole corresponding to the lower index finger; wherein after both ends of the first supporting pole pass through the through holes corresponding to the upper index finger and the lower index finger, both ends are fastened. 
     A second supporting pole passes through the pair of through holes at the other end of the pulling handle, the through hole corresponding to the upper wrist and the through hole corresponding to the lower wrist; wherein after both ends of the second supporting pole pass the through holes corresponding to the upper wrist and the lower wrist, both ends are fastened. 
     An upper uniting piece is located above the upper connecting moving piece, wherein in the center of the upper uniting piece is provided with a through hole corresponding to that of the center of the upper fixing piece; wherein the upper uniting piece is provided with launching openings in the same quantity as that of launching tubes, and solid openings correspond to the launching openings of the plurality of launching tubes on the upper fixing piece; wherein at an appropriate position on the upper uniting piece where the sliding of the upper connecting moving piece cannot reach, a stand for a group of upper screw holes is provided with a thickness approximately equal to that of the upper connecting moving piece; wherein an upper recessed arc portion is left on the upper uniting piece allowing the upper spring fixing end to protrude from the upper uniting piece and move thereby with the upper concaved annular portion; wherein other than the upper concaved annular portion, the rest of the periphery of the uniting piece is provided with a screw hole portion for mounting screws. 
     A lower uniting piece is located under the lower connecting moving piece; wherein at the center of the lower uniting piece a through hole is provided, corresponding to the central through hole of the lower fixing piece; wherein there is a hole on the lower uniting piece with a diameter a little shorter than that of the launching opening of the launching tube, allowing the tail flame to pass through when the flare is launched; wherein at an appropriate position on the lower uniting piece where the sliding of the lower connecting moving piece cannot reach, a stand for a group of lower screw holes is provided with a thickness approximately equal to that of the lower connecting moving piece; wherein a lower concaved annular portion is left on the lower uniting piece, allowing the lower spring fixing end to protrude from the lower uniting piece and move thereby within about in the lower concaved annular portion; wherein other than the concaved annular portion, the rest of the periphery of the lower uniting piece is provided with a screw hole portion for mounting screws. 
     An upper spring holder portion has the shorter wire end of its spring coil fixed on the upper uniting piece and the longer wire end hooked to the spring fixing end that protrudes from the upper uniting piece. 
     A lower spring holder portion has the shorter wire end of its spring coil fixed on the lower uniting piece and the longer wire end hooked to the spring fixing end that protrudes from the lower uniting piece. 
     A third supporting pole passes through the spring coil of the upper spring holder portion, the central through hole of the upper uniting piece, the through hole corresponding to the thumb of the upper connecting moving piece, the central through hole of the upper fixing piece, the central through hole of the lower fixing piece, the through hole corresponding to the thumb of the lower connecting moving piece, and the central through hole of the lower uniting piece and the spring of the lower spring holder portion, wherein after each of the both ends of the third supporting pole is fastened, the assembly of the inner body is completed. 
     An outer cylinder is provided. The inner body combined by the third pole is placed in the outer cylinder and fastened the outer cylinder at the peripheral edges of the upper uniting piece and the lower uniting piece. 
     A lid closing and fastened on the end of outer cylinder near the upper uniting piece, on which a launching opening is provided correspondingly to the opening of launching tube for launching flare. 
     The flare used in the emergency rescue device of the invention comprises: 
     Far upper end with signaling powders; a second section loaded with pushing powders, below which lighting powders are loaded and are partially exposed to outside the circumference body; and a far lower end with a tail wing. When the flare is placed into the launching tube, the height of the lighting powder in the launching tube is the same as that in the metal convex mesh portion. When the metal convex mesh portion turns, it can rub the lighting powder. 
     The emergency rescue device of the invention is provided with several launching tubes therein; each tube contains one flare. When in use, it is only necessary to hold the said device securely with two hands, face the launching mouth upward, hold the supporting member with the index finger of the right hand (or harness the supporting member on the four fingers when using one single hand), and hold and press the pulling tab forward with the thumb allowing it to slide to a preset position, at this point a flare can be immediately launched. The pulling tab will automatically return to its original position when the thumb releases it. Meanwhile the launching tubes annularly arranged in the launching device move back in sequence, and the next launching tube with a flare therein is now placed at the launching position. To launch again, similarly, hold the supporting member with the index finger of the right hand, and hold and press the pulling ear forward with the thumb, allowing it to slide to a preset position, and then another flare can be launched. This can be done continuously until all the flares in the launching device are launched. When the flares in the launching device are all launched, the lid can be taken off and the flares can be reloaded again into each launching tube. 
    
    
     BRIEF DESCRIPTION OF THE DRAWINGS 
     The objectives and the advantages of the invention will be clear from the following detailed description with reference to the accompanying self-explanatory drawings—reference numbers in each drawing represent the corresponding parts—wherein: 
     FIG. 1 is a schematic stereogram showing an embodiment of the structure of the emergency rescue device of the invention; 
     FIG. 2 is a schematic perspective stereogram of the embodiment in FIG. 1; 
     FIG. 3 is a schematic dissecting diagram of the embodiment in FIG. 1; 
     FIG. 4 is a schematic diagram of the structure of the flare used in FIG. 1; 
     FIGS. 5A-5E are vertical views showing positional variations of processes for launching the flares by pulling the pulling handle in the embodiment of FIG. 1; and 
     FIG. 6 is a schematic diagram of another embodiment of the invention having different designs for the supporting member. 
    
    
     DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS 
     First, with reference to the schematic stereogram of FIG. 1 showing an embodiment of the structure of the schematic stereogram launching device  1  of the emergency and the perspective stereogram of FIG. 2, which is a perspective view of FIG. 1 with the hexagon screws  8  on the outer cylinder  3  and the lid  2  of the launching device  1  of the emergency rescue device being dismounted and the outer cylinder  3 , and the lid  2  being removed. In FIG. 1, number  4  represents the supporting member vertically fixed on the outer cylinder  3 . In FIG. 1, number  5  is the pulling tab of the pulling handle  29 ; number  6  is an opening of the space allowing the pulling tab to move; number  7  is the launching opening. In FIG. 2, the launching tube  9 , the indented hook  12 ′, the supporting poles  21  and  22 , the screw holes&#39; stand  53 ′, the tenon  54 ′ and spring  55 ′, as well as the rest of the inner structure shown, will be described in details later. 
     Please refer to the dissected view in FIG. 3 for the structure of the embodiment. A plurality of launching tubes  9  (there are five tubes in this embodiment) are annularly disposed at equal intervals; the five launching tubes are secured by one end of the launching tube  9  passing through the upper fixing piece  10  while the other end passes through the lower fixing piece  10 ′, so as to secure the 5 launching tubes. A reinforcing piece (not shown) can also be used certainly to further secure the five launching tubes. Where each launching tube faces the outer edges of the upper fixing piece  10  and the lower fixing piece  10 ′, the tube is provided with a slide groove  13  (for reducing friction and guiding direction) in a vertical direction on the wall surface thereof. A section of a larger opening, formed around the central portion of the slide groove  13 , is called the friction lighting opening  14 . The friction lighting opening  14  of each launching tube positions at the same height, so as to facilitate a correct lighting of the flare in each launching tube. There are through holes  11 ,  11 ′ in the center of the upper and lower fixing pieces  10 ,  10 ′. On the periphery of the upper and lower fixing pieces  10 ,  10 ′, indented hooks  12 ,  12 ′ are formed at an appropriate position between every two neighboring launching tubes. The upper and lower fixing pieces have 5 indented hooks  12 ,  12 ′ on their periphery respectively. Also, the indented hooks  12  on the upper fixing piece are symmetrical to the indented hooks  12 ′ on the lower fixing piece. 
     The upper connecting moving piece  15  is located above the upper fixing piece  10 , while the lower connecting moving piece  16  is located under the lower fixing piece  10 ′. The upper and lower connecting moving pieces  15 ,  16  appear to be analogous to a vertical view of the right hand with the thumb being positioned separately from the other four fingers aligned closely to each other, the palm facing the chest, and the thumb and the index finger being in a horizontal position. A through hole  17  is provided on the upper connecting moving piece  15  at the position corresponding to the thumb fingertip; a through hole  17 ′ is provided on the lower connecting moving piece  16  at the position corresponding to the thumb fingertip. The through holes  17 ,  17 ′, the through holes  11 ,  11 ′ on the upper and lower fixing pieces  10 ,  10 ′, the central through hole  40  of the pentagonal washer  39  between the upper connecting moving piece  15  and the upper fixing piece  10 , and the central through hole  40 ′ of the pentagonal washer  39 ′ between the lower connecting moving piece  16  and the lower fixing piece  10 ′ are correspondingly aligned, allowing the supporting pole  18  to pass through. A through hole  19  is provided on the upper connecting moving piece  15  at the position corresponding to the index finger; a through hole  20  at the position corresponding to the wrist. A through hole  19 ′ is provided on the lower connecting moving piece  16  at the position corresponding to the fingertip of the index finger; a through hole  20 ′ at the position corresponding to the wrist. While the through holes  19 ,  19 ′ allow the supporting pole  21  to pass through, the through holes  20 ,  20 ′ allow the supporting pole  22  to pass through. The upper connecting moving piece  15  is provided with a bullet feeding opening  23  corresponding to the entry of a launching tube  9 , allowing each flare to be placed continuously into each launching tube  9  in association with a recessed portion  24 . 
     The recessed portion  24  is also the exit for flare when it is launched. An opening  23 ′ on the lower connecting moving piece  16  corresponds to the bullet feeding opening  23  on the upper connecting moving piece  15 , allowing the flare placed into the launching tube  9  from the bullet feeding opening  23  to be at the same height as the other flares in the other launching tubes for easy lighting. The recessed portion  24 ′ on the lower connecting moving piece  16  allows the tail flame to pass when the flare is launched. A group of screw holes  25  is on the upper connecting moving piece  15 , and an appropriate screw hole can be chosen to fasten the tenon  26  and spring  27  thereof. One end of the spring  27  is inserted in the upper screw holes&#39; group  25  of the upper connecting moving piece  15  and the other end is suppressed on the tenon  26 , allowing the tenon  26  to be elastically hooked to the indented hook  12  of the upper fixing piece  10 . A group of screw holes  25 ′ is on the lower connecting moving piece  16  and an appropriate screw hole can be chosen to fasten the tenon  26 ′ and the spring  27 ′ in coordination with a screw hole chosen from screw holes&#39; group  25 . One end of the spring  27 ′ is inserted in the upper screw holes&#39; group  25 ′ of the lower connecting moving piece  16  while the other end is suppressed on tenon  26 ′, thus allowing the tenon  26 ′ to be elastically hooked to the indented hook  12 ′ of the lower fixing piece  10 ′. The upper connecting moving piece  15  is provided with a spring fixing end  28  protruding upward around the position corresponding to the end of the wrist; the lower connecting moving piece  16  is provided with a spring fixing end  28 ′ protruding downward around the position corresponding to end of the wrist. 
     At the position facing the friction lighting opening  14  of the launching tube  9 , a lighting device is provided, which is formed of a pulling handle  29  and a friction piece  30 . Both pulling handle  29  and friction piece  30  are in an arc shape with the recessed side facing the friction lighting opening  14 . Inside the pulling handle  29  is placed the friction piece  30 , at least one end of which is provided with a sleeve tube. The pair of the through holes  33  of the sleeve tube  32  aiming at the end of pulling handle  29  without pulling tab  5  allows the supporting pole  21  to pass simultaneously through the through hole  19 , the pair of through holes  33 , the sleeve tube  32  and the through hole  19 ′. When both ends of the supporting pole  21  pass the through hole  19  and through hole  19 ′, they are fastened. Meanwhile, the pair of the through holes  34  at the end of the pulling handle  29  with pulling tab  5  allows the supporting pole  22  to pass simultaneously the through hole  20 , the pair of through holes  34  and through hole  20 ′. When the both ends of the supporting pole  22  pass through the through hole  20  and the through hole  20 ′, they are fastened. Thus, the upper connecting moving piece  15 , the lower connecting moving piece  16  and the lighting device (including the pulling handle  29 , the friction piece  30 ) are combined together. On the surface of the friction piece  30  facing the friction lighting opening  14 , a metal convex mesh  31  is provided. When the user uses the thumb to press the pulling tab  5  to slide forward, it makes the metal convex mesh rub the lighting powder  61  of the flare  58  (refer to FIG.  4 ), and the flare is lighted. Certainly, the width of the friction piece  30  allows the sliding to rub only the lighting powder of the flare to be launched, but not the lighting powder of the flare in the neighboring launching tube  9 . 
     The upper uniting piece  35  is located above the upper connecting moving piece  15 , with a through hole  37  provided in the center of the upper uniting piece  35 . The lower uniting piece  36  is located under the lower connecting moving piece  16 , with a through hole  37 ′ provided in the center of the lower uniting piece  36 . The supporting pole  18  passes through the central through hole  37  of the upper uniting piece  35 , the through hole  17  of the upper connecting piece  15 , the central through hole  40  of the pentagonal washer  39 , the central through hole  11  of the upper fixing piece  10 , the central through hole  11 ′ of the lower fixing piece  10 ′, the central through hole  40 ′ of the pentagonal washer  39 ′, the through hole  17 ′ of the lower connecting moving piece  16  and the central through hole  37 ′ of the lower uniting piece  36 . After the both ends of the supporting pole  18  pass through the central through hole  37  of the upper uniting piece  35  and the central through hole  37 ′ of the lower uniting piece  36 , said both ends again pass through the spring coils of the upper spring holder portion  47  and the lower spring holder portion  48  respectively and are fastened using washers  43 ,  44  and the nuts  45 ,  46  respectively. Thus, the inner components of the emergency rescue device  1  are all assembled together. 
     The upper uniting piece  35  is provided with 5 launching openings  51 , respectively corresponding to the launching openings of the 5 launching tubes  9  on the upper fixing piece  10 ; the diameter of the launching opening  51  is a little larger than that of the launching opening of the launching tube  9 . A hole  52  is provided on the lower uniting piece  36 , allowing the tail flame to pass through when the flare  58  is launched; the diameter of the hole  52  is a little smaller than that of the launching opening of the launching tube  9 . Thus, when the flare is placed into the launching tube  9  corresponding to the hole  52 , the flare will not slip out from the hole  52 . When the pulling tab  5  is pushed to slide forward, an appropriate position on the upper uniting piece  35  where the sliding of the connecting moving piece  15  cannot reach is provided with a screw holes&#39; stand  53 . The thickness of the screw holes&#39; stand  53  is approximately equal to that of the upper connecting moving piece  15 . A plurality of screw holes is provided on the screw holes&#39; stand  53 , and an appropriate screw hole can be chosen and used to mount the tenon  54  and the spring  55 . One end of the spring  55  is inserted in the screw hole of the screw holes&#39; stand  53  while the other end is pressed on the tenon  54 , thus allowing the tenon  54  to be elastically hooked to the indented hook  12  of the fixing piece  10 . Similarly, an appropriate position on the lower uniting piece  36  where the sliding of the connecting piece  16  cannot reach is provided with a screw holes&#39; stand  53 ′. The thickness of the screw holes&#39; stand  53 ′ is approximately equal to that of the lower connecting moving piece  16 . A plurality of screw holes is provided on the screw holes&#39; stand  53 ′, and an appropriate screw hole can be chosen and used to mount the tenon  54 ′ and the spring  55 ′. One end of the spring  55 ′ is inserted in the screw hole of the screw holes&#39; stand  53 ′ while the other end is pressed on the tenon  54 ′, thus allowing the tenon  54 ′ to be elastically hooked to the indented hook  12 ′ of the lower fixing piece  10 ′. 
     The shorter wire ends of the upper spring holder portion  47  and the lower spring holder portion  48  are respectively inserted in the small holes  49 ,  50  beside the central through holes of the upper uniting piece  35  and the lower uniting piece  36 ; whereas the other longer wire ends are respectively hooked to the spring fixing end  28  of the upper connecting moving piece  15  and the spring fixing end  28 ′ of the lower connecting moving piece  16 . Thus, after the pulling tab  5  of the pulling handle  29  is pushed to slide forward and rubbed to launch a flare, the upper connecting moving piece  15 , the lower connecting moving piece  16  and the lighting device, including the pulling handle  29  and friction piece  30 , can be brought back to their original positions by means of the elasticity of the upper spring holder portion  47  and the lower spring holder portion  48 , if the pulling tab  5  is released. At this moment, also because the tenons  26 ,  26 ′ of the upper connecting moving piece  15  and the lower connecting moving piece  16  are respectively hooked to the indented hooks  12 ,  12 ′ of the upper and lower fixing pieces  10 ,  10 ′, 5 launching tubes  9  may be brought backward and the next launching tube  9  brought to a launching position. When the next launching tube  9  is brought to the launching position, the tenons  54 ,  54 ′ on the upper uniting piece  35  and the lower uniting piece  36  are again hooked respectively to the indented hooks  12 ,  12 ′ of the upper and lower fixing pieces  10 ,  10 ′. 
     The longer wire ends of the upper spring holder portion  47  and the lower spring holder portion  48  are respectively hung on the spring fixing end  28  of the upper connecting moving piece  15 , and the spring fixing end  28 ′ of the lower connecting moving piece  16 . In order to enable the upper connecting moving piece  15  with the spring fixing end  28  on it, and the lower connecting moving piece  16  with the spring fixing end  28 ′ on it, to turn together when the user pushes the pulling tab  5  with the thumb to slide it forward, the recessed arc portions  56 ,  56 ′ positioned symmetrically up and down are left respectively on the upper uniting piece  35  and the lower uniting piece  36 , allowing the spring fixing ends  28 ,  28 ′ to protrude respectively on the upper uniting piece  35  and the lower uniting piece  36  so as to hang the longer wire ends of the upper spring holder portion  47  and the lower spring holder portion  48 . When the pulling tab  5  slides forward or retreats, the spring fixing ends  28 ,  28 ′ can move around respectively within the recessed annular portion  56 ,  56 ′. 
     Besides the recessed annular portions  56 ,  56 ′ on the periphery of the upper uniting piece  35  and lower uniting piece  36 , the rest portions are provided with short extended rims  57 ,  57 ′ respectively protruding upward and downward; there are screw holes on the short extended rims  57 ,  57 ′. After the body is mounted with the outer cylinder  3  and covered by the lid  2 , hexagonal screws  8  are used to fasten the screw holes, and the assembly of the emergency rescue device  1  of the invention is accomplished. The outer cylinder  3  is provided thereon with a supporting member  4  and an opening  6  for a space allowing the pulling tab  5  to protrude. When using both hands to securely hold the emergency rescue device  1 , the launching opening is kept facing upwards, supporting member  4  is held with the index finger of the right hand, and the pulling tab  5  is pressed forward with the thumb enabling the pulling tab  5  to slide within the space of the opening  6  to a preset position; thus the flare can be launched. The outer cylinder  3  may be formed of two semi-cylinders, and one of the semi-cylinders is provided with an opening  6 , allowing the pulling tab  5  to protrude. The lid  2  closes the end on the outer cylinder  3  near the upper uniting piece  35 , on which a launching opening  7  is provided corresponding to the opening of the launching tube for launching flare. The diameter of the launching opening  7  should be a little larger than that of the opening of the launching tube of the launching cylinder and that of the bullet feeding opening  23  of the upper connecting moving piece  15 . The short extended rims  57 ,  57 ′ can be modified to form a short square extended rim only at the place where the screw is fastened, at which screw holes are provided. The supporting member  4  of the outer cylinder  3  may be designed to form a handle shape  4  as shown in FIG.  6 . Thus, the emergency rescue device  1  can be held with one single hand by holding the supporting member  4 ′ with the other four fingers of the right hand, and the pulling tab  5  is pressed with the thumb to slide to the preset position to launch the flare. At this point, the Emergency rescue device  1  is secured and will not drop to the ground. 
     FIG. 4 illustrates the structure of the flare  58  used in the embodiment. The signaling powder  59  is loaded at the far upper end of the flare  58 , the pushing powder  60  is loaded in the middle and the lighting powder  61  is loaded below the pushing powder  60  and is exposed to the outside. The lighting powder  61  in the launching tube  9  is right in the same height as the metal convex mesh  31 , so that the turning of the metal convex mesh  31  can rub the lighting powder  61  to light the flare  58 . The lighting powder  61  can be provided only at the one location on the periphery of the flare for directionality. When the flare is loaded into the launching tube  9 , the lighting powder  61  is required to face the direction to the metal convex mesh  31 . The flare  58  is provided with a tail wing  62  at its far lower end to help stabilize the launching direction of the flare  58 . 
     The operational of the emergency rescue device of the invention to launch flares may be described with reference to the prior FIG. 3 in conjunction with FIG. 5A to FIG.  5 E. FIG. 5A to FIG. 5E only shows the situation of the tenon  26  on the upper connecting moving piece  15  and the tenon  54  on the upper uniting piece  35  hooked to the recessed groove  12  on the upper fixing piece  10 , as well as that of the tenon  26 ′ on the lower connecting moving piece  16  and the tenon  54 ′ on the lower uniting piece hooked to the recessed groove  12 ′ on the lower fixing piece  10 ′. When the 5 launching tubes of the emergency rescue device  1  are all loaded with flares (or at least the launching tube facing the metal convex mesh  31  loaded with flare  58 ), both hands are used to securely hold the emergency rescue device  1  for launching flares. The launching opening is kept facing up, the supporting member  4  is held with the index finger of the right hand (refer to FIG.  1 ), and the pulling tab  5  is pressed with the thumb allowing the pulling tab  5  to slide forward within the space of the opening  6  to the end of the opening  6 . At this point, the flare  58  in the launching tube corresponding to the metal convex mesh  31  can be launched. When the pulling tab  5  is not pressed by the thumb before launching, as show in FIG. 5A, the tenon  26  on the upper connecting moving piece  15  is hooked to the recessed groove  12  on the fixing piece  10  and the tenon  54  on the upper uniting piece  35  is also hooked to the another recessed groove  12  on the fixing piece  10  (at the same time, similarly, the tenon  26 ′ on the lower connecting moving piece  16  is hooked to the recessed groove  12 ′ on the lower fixing piece  10 ′, and the tenon  54 ′ on the lower uniting piece  36  is also hooked to the another recessed groove  12 ′ on the lower fixing piece  10 ′). After beginning to press the pulling tab  5 , as shown in FIG. 5B, as the tenon  26  connects with the upper connecting moving piece  15  and lighting device, the tenon  26  will be carried away from the original recessed groove  12  to slide on the arc surface of the upper fixing piece  10  (refer to FIG.  5 B). However, at this moment, the tenon  54 , which connects with the upper uniting piece  35  and unites with the outer cylinder  3 , cannot move but is tightly hooked to the recessed groove  12  of the upper fixing piece  10  (similarly at this moment the tenon  54 ′ is also tightly hooked to the recessed groove  12 ′ of the lower fixing piece  10 ′). Therefore, the upper and lower fixing pieces  10 ,  10 ′ and the 5 launching tubes  9  cannot move. Thus, when the pulling tab  5  in the space of the opening  6  slides forward, the metal convex mesh  31  on the lighting device can slide over the lighting powder  61  on the flare  58 , where the friction lights up the lighting powder  61 , and the flare  58  is launched. 
     As shown in FIG. 5C, when the pulling tab  5  in the space of the opening  6  slides forward to the end of the opening  6 , the tenon  26  is brought to the next recessed groove  12  and is hooked said recessed groove (the tenon  26 ′ is brought to the next recessed groove  12 ′ and hooked to it). In the process of pressing the pulling tab  5  to launch the flare, as the longer wire ends of the upper spring holder portion  47  and the lower spring holder portion  48  are respectively hooked to the spring fixing end  28  on the upper connecting moving piece  15  and the spring fixing end  28 ′ of the lower connecting moving piece  16 , the spring is tightly pulled. When the upper connecting moving piece  15  and the lower connecting moving piece  16  turn, the elasticity is stored. Therefore, after the flare  58  is launched, if the thumb releases from pressing pulling tab  5 , the elasticity restored in the upper spring holder portion  47  and the lower spring holder portion  48  will carry the upper and lower connecting pieces  15 ,  16  and the lighting device back to their original places, as shown in FIG.  5 D. At this point, as the tenons  26 ,  26 ′ on the upper connecting moving piece  15  and the lower connecting moving piece  16  are hooked to the next recessed grooves  12 ,  12 ′, so as to pull back and turn the upper and lower fixing pieces  10 ,  10 ′ and 5 launching tubes together for an interval distance between launching tubes. That is, the next launching tube is pulled back to the opposite position facing the metal convex mesh  31  on the lighting device to stand by for the next launching. In the process of pulling back and turning the upper and lower fixing pieces  10 ,  10 ′ and the 5 launching tubes, the tenons  54 ,  54 ′ on the upper uniting piece  35  and the lower uniting piece  36  will slide on the arc surfaces as those of the upper and lower fixing pieces  10 ,  10 ′ (refer to FIG.  5 D). When the next launching tube reaches the preset launching position opposing the convex mesh  31 , the tenons  54 ,  54 ′ are just hooked to the next turn of recessed grooves  12 ,  12 ′, as shown in FIG.  5 E. Thus, one cycling motion of launching flares is completed. 
     Although the invention has been described by means of embodiments, it should be understood that any variations or modifications made without deviation from the broad spirit and aspects defined in the scope of what is claimed should be construed as included in the scope of the invention: