JP3164294U - Cardiopulmonary resuscitation ambulance - Google Patents

Abstract

The present invention provides a cardiopulmonary resuscitation ambulance that correctly performs cardiopulmonary resuscitation for a user. A pedestal cradle 1, a barrel 2 provided on the upper surface of the pedestal cradle 1, an upper barrel 3 tightly fixed to the top side of the barrel 2, and a cylinder set in the barrel 2; A control device connected to the upper barrel 3 and the lower cylinder of the cylinder set, a clamp frame 10 fixed to the lower surface of the column base 1, a top cover 11 on the upper surface of the upper barrel 3, and a center of the top cover 11 The inflatable hand 12, the valve head 13 on the front side of the inflatable hand 12, and the pointing device 15 on the upper side of the hand holding plate 96. Two pumps provided in the upper barrel 3 and the barrel 2 and a pump group set including a bottom plate are provided, and unidirectional switching valves are provided at both ends of the pump group set and the cylinder set. [Selection] Figure 1

Description

  The present invention relates to a cardiopulmonary resuscitation ambulance.

Cardiopulmonary resuscitation (CPR / Cardiopulmonary esuscitation) combines artificial respiration and cardiac massage, and is therefore related to the method of taking first aid for emergency patients in life.
The aim is to maintain the body's blood circulation under urgent situations and reduce the damage to important organs such as the brain. The brain begins to suffer 4-6 minutes after lack of oxygen, and if it does not accept any first aid for up to 10 minutes, it becomes brain dead.
The timing of use refers to sudden onset of heart disease, suffocation, drowning, electric shock, and when allergic reactions, drug addiction, etc. cause sudden death. It is a method of giving the function of breathing and pulsing the recovery of the heart at the time of sudden death, mainly to prevent unexpected sudden death. It can never be applied to the end of the last stage of cancer that cannot be recovered, or the last stage of cancer that cannot be recovered.
For this reason, it is important for medical personnel to provide first aid for sudden deaths by using sufficient time without interruption until the arrival of an ambulance team or ambulance.
A combination of chest compressions (heart massage) and artificial respiration after cardiopulmonary arrest is confirmed (no response and no breathing). It is important to perform cardiopulmonary resuscitation without interruption until the arrival of the ambulance crew.
A new version of cardiopulmonary resuscitation (CPR) is a simple emergency mouthpiece.
Call (screaming patient)-Confirming the state of consciousness.
Call the rescue system (call 119).
A (Airway)-maintains airway fluency-B (Breathing)-performs artificial respiration twice, as the chin is raised on the forehead.
C (Circulation)-performs 30 heart massages.
However, when cardiopulmonary resuscitation (CPR) palpitations stop, it is possible to save lives in emergency measures and extend the prime time of first aid, but all people are able to accurately correct cardiopulmonary resuscitation ( CPR) cannot be performed. It may also cause 2 sub-harm to emergency patients.
In view of such a conventional problem, the devised person has issued three patent cases as follows.
Submitted on Patent Document 1, US Pat. No. 5,823,185, Apr. 4, 1997.
Submitted on Patent Literature 2, US Patent No. US6978443B1, February 17, 2000.
Patent document 3, US patent US7219667B2, filed December 17, 2004.
The above-mentioned three types of cardiopulmonary resuscitation ambulances can be revived to first aid and solve the incorrect drawbacks of cardiopulmonary resuscitation (CPR) operation.

US Pat. No. 5,823,185 US Patent No. US6978443B1 US patent US7219667B2

The above-mentioned patent documents 1, 2, and 3 have the following problems.
(1) Among the patent documents 1, 2, and 3 of the patent, the three patent cases, all of which have been improved in response to the lack of the previous patent case, but the biggest problem is 2006 For the time of year, further improvements to CPR can be made to increase the success rate of resuscitation. These three types of cardiopulmonary resuscitation ambulances were researched and designed in accordance with the original version of cardiopulmonary resuscitation (CPR). The cardiopulmonary resuscitation (CPR) standard will not be met.
In view of the above, it is one of the problems and objects to be solved by the present invention that the cardiopulmonary resuscitation ambulance can be adapted to the new version and the existing cardiopulmonary resuscitation (CPR) standard. Become.
(2) The cardiopulmonary resuscitation ambulance in 1, 2 and 3 of the patent document is used with a relatively large volume, a relatively complex overall structure, and a relatively low efficiency. There is a certain degree of difficulty in the production direction of production.
In view of the above, how to make the cardiopulmonary resuscitation ambulance more convenient can be manufactured, but there are two problems and object to be solved by the present invention.

  An object of this invention is to provide the cardiopulmonary resuscitation ambulance which can solve the above-mentioned subject.

In order to solve the above problems, the cardiopulmonary resuscitation ambulance of the present invention has the following features.
One is a pedestal cradle (1), which can be placed across the lie on the human body,
One is a barrel (2) on the surface of the column base (1) fixed with screws,
One is the barrel (2) that is clogged and fixed, the top upper barrel (3),
One is the air pump group set (4),
One is the barrel (2), the cylinder set located in (5),
One is the partition located between the air pump group set (4) and the cylinder set (5), avoiding contact between the two? Cylinder (6),
One is the control device (7),
A plurality of air pump group sets (4) and one-way throttle valves (8) located at both ends of the cylinder set (5),
One shaft is the column base (1), barrel (2), upper barrel (3), air pump group set (4), cylinder set (5), and partition? Pressure shaft strut bar (9), located on the axis of the center of the cylinder (6),
Two clamp frames (10), which can serve to be positioned on the human body on the lower surface of the fixed pedestal cradle (1);
One is the surface on the upper barrel (3), and the top cover (11), which is located to be closed,
One is an inflatable hand (12) located on one side of the center of the top cover (11),
One is an oxygen valve head (13) for storing an air conditioner located on the front side of the inflatable hand (12), which is driven by the inflatable hand (12) and connected to the oxygen supply device (17). ,
One is a breathing head (14) secured between a first air conduction block (71) and a second air conduction block (72); and
One is a pointing device (15) located above the hand platen platen (96).
Air pressure is stored against the air pump group set (4) through the pressure shaft strut bar (9) or to the cylinder set (5), and at the same time the patient is given a heart massage. To be made. After the number of massages was enough, the air conditioner storage for the cylinder set (5) with the inflatable hand (12) was combined with the oxygen introduced by the oxygen valve head (13) and mixed with the patient. To blow in the air and do this to complete the correct cardiopulmonary resuscitation (CPR) for the patient.

The cardiopulmonary resuscitation ambulance according to claim 1 of the present invention has the following features.
One is a pedestal cradle (1), which can be placed across the lie on the human body,
One is provided with a barrel (2) on the surface of the column base (1) fixed with screws, and a hole (21) located in the center at the bottom in the barrel (2). Thus, the hole (21) is provided with a vent hole (23) on one side of the two holes, and two grooves (24) positioned so as to face the vent hole (23). A flange (22) is provided at the bottom edge of the barrel (2), and a ring groove (25) is provided at the top edge.
One is provided with a hole (31) centered at the bottom of the barrel (2), the top upper barrel (3), the top upper barrel (3) of the top, and the hole (31 ) Is provided with two positioning holes (32) on one side and an exhaust guide hole (33) on the inside and an exhaust guide hole (34) on the outside on the opposite side.
One is pump group set (4) The pump group set is one barrel (2)
It is because it is provided at the bottom of the first pump (41) and one barrel (2) at the top of the. A second pump (42) having one end connected to the bottom of the first pump (41).
One is composed of a connecting plate (43) where the first pump (41) and the second pump (42) are connected, and a bottom plate (44) provided at the bottom of the second pump (42). . The first pump (41) and the second pump (42) all have one positioning plate (411, 421), one sealed board (414, 424), one positioning plate (411, 421) and a sealed board (414, 424) is composed of a stretchable inner membrane (412, 422), one stretchable inner membrane (412, 422), and an outer stretchable outer membrane (413, 423). However, since both of them are installed in reverse, the first pump (41) is packed in a sealed board in order from the positioning plate (411), and the second pump (42) is sealed in order from the positioning plate (421). Packed on the board.
Cylinder set (5) in one barrel (2), the cylinder set (5) is provided at the top in one barrel (2), and in the upper cylinder (51) outside the first pump (41) It is provided with a cover. One is provided at the bottom in the barrel (2) and is provided over the lower cylinder (52) outside the second pump (42). Connected to one lower cylinder (52). And it comprised from the air piping (53) which led out the air in a lower cylinder (52).
One partition between the pump group set (4) and the cylinder set (5) to avoid contact between the two? The partition with the cylinder (6)? A positioning flange (61) is provided between the top barrel (3) and the positioning plate (411) at the top of the cylinder (6). A valve guide hole (62) is provided on one side of the flange (61). Is an exhaust guide hole (63) provided on the opposite side? Slot (64) is provided on the side.
One control device (7), the control device (7) was connected to one side in the upper barrel (3) and the lower cylinder (52), and the gas in it was derived after rotating one angle The first air guide block (71) is provided.
One first air guide block (71) and a second air guide block (72) installed oppositely, connected to the upper cylinder (51), and led air therein. One in the first air guide block (71) and in the upper cylinder (51)
The first air guide pipe (73) that can control the sky inside
Is provided. The output of one second air guide block (72) and the lower cylinder (52), and one end connected to the first air guide block (71), the empty second air guide pipe (74 ). One pipe between the first air guide pipe (73) and the second air guide pipe (74) and a gear (75) are provided. An air guide rotating wheel (76) is provided between one second air guide pipe (74) and a pipe gear (75). A rebound stop piece (77) for rotating the pipe gear (75) is provided on one side of the pipe gear (75). One pipe, on the opposite side of the gear (75), is provided with a first electrically conductive piece (78) perpendicular to the pipe gear (75) and capable of guiding and moving the air guide rotating wheel (76). is there. And one first conductive piece (78) and a pipe gear (75) presenting in parallel, permutation and a second conductive piece (79) located far away.
Numbers are respectively provided with pump group set (4) and cylinder set (5) one-way directional switching valve (8) at the end, controlling the advance and exhaust of air pump group (4) and cylinder set (5) Served.
One shaft is the above column base (1), barrel (2), upper barrel (3), air pump group set (4), cylinder set (5), and partition? It is provided on a pressure shaft strut bar (9) which is located at the center of the cylinder (6). The pressure shaft strut bar (9) is provided on the bottom side of one column base (1) and contacts the human body. The flexible buffer plate (91) has a bottom pressure shaft strut bar (92) on the top. .
The middle pressure shaft strut bar (93) to the top of the bottom pressure shaft strut bar (92) fixed with one screw. A connector seam (94) to the top of the middle pressure shaft strut bar (93) secured in one pack, a connector seam (94) to the top of the connector pressure joint (94) secured to the top, and a top pressure shaft strut bar (95) to the top; The pressure shaft strut bar (95) provided with one fixed was composed of a top hand plate.
The second is a clamp frame (10) that can be positioned on the human body on the lower surface of the fixed pedestal cradle (1).
One is the surface on the upper barrel (3) and the top cover (11) which is located to be closed.
One is located on one side of the center of the top cover (11), the inflatable hand (12), this inflatable hand (12) has a T-shape and the protruding end (1211) is And on the other side there is a handle (121) connected to a hand plate (96). Two springs (122) are provided on the bottom side of the handle (121). One block (123) is provided on one side of the lower part of the handle (121), and a block ring (123) for preventing the handle (121) from jumping off is provided. And one hook (121) at the bottom opposite the handle and made up of a hook block (124) capable of controlling the action of the air guide rotating wheel (76).
One is an oxygen valve head (13) for storing an air conditioner located on the front side of the inflatable hand (12), which is driven by the inflatable hand (12) and connected to the oxygen supply device (17). .
One is a breathing head (14) fixed between the first air conduction block (71) and the second air conduction block (72), and this breathing head (14) is L-shaped, In addition, an oxygen inlet (1411) is provided with a mixture chamber (141) connected to the valve head (13) of the oxygen guide. A port-facing flow ridge (143) at one end connected to one air-mixing chamber (141) and the first air conduction block (71) is provided.
And one air-mixing chamber (141) and the second air conduction block (72) connected to one end of the port-facing head (143) relative to the starboard head-port (143). 144). and
A pointing device (15) located on top of one handhold plate (96), this pointing device (15) can display one control device (7) and an electrical connector, and the number of pressure accesses below LED digital display (151). Also, one is located at one end of the LED digital display (151), and the human voice can be emitted to the loudspeaker with the human microphone (152) and electrical connector, It consisted of a recording device (153) capable of collecting voice.
The first air guide pipe (73) is provided with an exhaust port (731) and an air intake port (732). The angle between the two is set at a right angle.
The second air guide pipe (74) has an exhaust port (741) and an air intake port (742).
Is provided. The angle between the two is set at a right angle. However, after accessing the first air guide pipe (73), the exhaust port (731) and the air intake port (732) of the first air guide pipe (73) are different from the tooth angle of the pipe gear (75). It is.
The pipe gear (75) is set to 32 mm, but on its one side is set to a gap (751) having a width of 2 teeth, so there are actually 30 teeth.
The air guide rotating wheel (76) is a relative pipe gear (75) set on one side of the gap (751), and has two guide gears (761) that are the same as the pipe gear (75). .

The present invention has the following effects by the above configuration. That is,
Feature 1 of the present invention is that through this installation, after pressing against the user 30 times, the user can breathe, and the downward pressure allows the first air pump (41), Through the two air pumps (42), the upper cylinder (51) and the lower cylinder (52) are pressurized and stored in the upper 15 and lower 15 operations, so that every minute can be used effectively. Completed all the operations of the new version of cardiopulmonary resuscitation (CPR) in a single piece of equipment, providing sufficient blowing pressure, providing twice blowing volume By doing so, it meets the standard of the new version of CPR.
The feature 2 of the present invention is that the whole device can be used manually, without electric or pneumatic movement. In addition, the pressure below the user can be limited by the influence of the pneumatic equipment such as pumps and cylinder pumps, and the pressure range below is limited to 4.5 cm. Therefore, the downward pressure range is too large for the downward pressure, so that the problem of the fracture of the chest can be avoided.
The third feature of the present invention is that the entire device, which is relatively inventor's conventional technology, is more streamlined, more convenient to manufacture, more industrially usable, and used in large quantities. Can be suitable.

It is a three-dimensional image of the present invention. It is an image of the progress change of the solid of the present invention. 3 is a partially enlarged image of FIG. 3 is a partially enlarged image of FIG. 3 is a partially enlarged image of FIG. 3 is a partially enlarged image of FIG. It is an image of three-dimensional progress change of the control device of the present invention. It is an image of the three-dimensional progress change of the first air pump of the present invention. It is an image of the three-dimensional progress change of the 2nd air pump of this invention. The present invention is a three-dimensional image of the top barrel. It is a three-dimensional image of the barrel of the present invention. It is an image of the progress change of the cylinder of the present invention. It is an image of the change in the three-dimensional progress of the cylinder under the present invention. It is an image of the cross section of XX of FIG. It is an image of a section when holding down under the present invention. It is an image of a section at the time of breath under the present invention. The present invention is an image of a cross-section when breathing. The present invention blows the breath handle, and is an image of the head of the oxygen spear and the control device. It is an image of the action of the pointing device when the first inflatable hand of the present invention holds down. It is an image of the action of the pointing device when the second inflatable hand of the present invention holds down. It is a three-dimensional image of the interior of the present invention when no gas is put into the lower cylinder. It is an image of the interior of the lower cylinder when it is filled with gas. The present invention is an image of the three-dimensional progress change of the one-way throttle valve and the slot block. It is an image of the three-dimensional progress change of the oxygen valve head of the present invention. It is a three-dimensional image of the clamp frame of the present invention. FIG. 22 is a partially enlarged image of FIG. 21. It is a three-dimensional image of the 1st air conduction block of this invention. For the upper orthographic view of FIG. For the front view of FIG. For the right orthographic view of FIG. It is a three-dimensional image of the 2nd air conduction block of this invention. FIG. 24 is an upper orthographic view of FIG. 23. It is a front view front view of FIG. It is a left view of FIG. The present invention is a cross-sectional image when the pressure shaft support bar and the gatling gear are not in action. The present invention is an image of a cross section when the gatling gear is displaced by first acting downward. The present invention is an image of a cross section when the gatling gear rotates by acting upward on the pressure shaft support bar. The present invention is an image of a cross section when one pressure shaft support bar is completed in an up / down action and one angle of the gatling gear is rotated. The present invention is a cross-sectional image when no action is taken. It is an image of the section at the time of the first breath of the present invention. It is an image of a section at the time of the second breath of the present invention. It is an image of a section when pressing down at the beginning of the present invention. It is an image of a cross section when the present invention recovers facing down. The present invention is a cross-sectional image of the internal state after 30 times below. It is an image of a cross section when the first breath is taken after the present invention is held down. It is an image of the cross section of the second breath after the present invention is held down. It is a three-dimensional image of the oxygen supply b of the present invention. It is an image of the three-dimensional progress change of the oxygen supply device of the present invention. It is the action execution image of this invention. It is the action execution image of this invention. The nose of the mouth of the present invention is an image of the progress of the three-dimensional progress of the vessel.

Next, the form for implementing this device is demonstrated using figures.
As shown in FIGS. 1, 2, 2A to 2D, 3, 6, 7, 14, 15, 15, 16, 24, 25, 26, and 27, it is a kind of cardiopulmonary Resuscitation ambulance (100) is posted. Its characteristics are as follows.

  One is a pedestal cradle (1), which can be placed across the lie on the human body,

  One is provided with a barrel (2) on the surface of the column base (1) fixed with screws, and a hole (21) located in the center at the bottom in the barrel (2). A groove (23) provided with a vent hole (23) on one side of the two holes (21), and two located opposite to the vent hole (23) ( 24). A flange (22) is provided at the bottom edge of the barrel (2), and a ring groove (25) is provided at the top edge.

One is provided with a hole (31) centered at the bottom of the barrel (2), the top upper barrel (3), the top upper barrel (3) of the top, and the hole (31 ) Is provided with two positioning holes (32) on one side and an exhaust guide hole (33) on the inside and an exhaust guide hole (34) on the outside on the opposite side.

  One is because the pump group set (4) is provided at the top of the first pump (41) at the top of one barrel (2) and at the bottom of the barrel (2). . A second pump (42) having one end connected to the bottom of the first pump (41). One is from a connecting plate (43) connected to the first pump (41) and the second pump (42), and a bottom plate (44) provided at the bottom of the second pump (42). Configured. The first pump (41) and the second pump (42) all have one positioning plate (411, 421), one sealed board (414, 424), one positioning plate (411, 421) and a sealed board (414, 424) is composed of a stretchable inner membrane (412, 422), one stretchable inner membrane (412, 422), and an outer stretchable outer membrane (413, 423). However, since both of them are installed in reverse, the first pump (41) is packed in the sealed board (414) in order from the positioning plate (411), and the second pump (42) is in turn from the positioning plate (421). It is packed in a board sealed.

  A cylinder set (5) in one barrel (2) is provided. The cylinder set (5) is provided at the top in one barrel (2) and is placed over the upper cylinder (51) outside the first pump (41). One is provided at the bottom in the barrel (2) and is provided over the lower cylinder (52) outside the second pump (42). Connected to one lower cylinder (52). And it comprised from the air piping (53) which led out the air in a lower cylinder (52).

  One partition between the pump group set (4) and the cylinder set (5) to avoid contact between the two? The partition with the cylinder (6)? A positioning flange (61) is provided between the top barrel (3) and the positioning plate (411) at the top of the cylinder (6). A valve guide hole (62) is provided on one side of the flange (61). Is an exhaust guide hole (63) provided on the opposite side? A slot (64) is provided on the side.

  One control device (7), the control device (7) was connected to one side in the upper barrel (3) and the lower cylinder (52), and the gas in it was derived after rotating one angle The first air guide block (71) is provided.

  One first air guide block (71) and a second air guide block (72) installed oppositely, connected to the upper cylinder (51), and led air therein. A first air guide pipe (73) is provided in which one of the first air guide blocks (71) and the output of the upper cylinder (51) can be controlled and the sky inside can be controlled. The output of one second air guide block (72) and the lower cylinder (52), and one end connected to the first air guide block (71), the empty second air guide pipe (74 ). One pipe gear (75) is provided between the first air guide pipe (73) and the second air guide pipe (74). An air guide rotating wheel (76) is provided between one second air guide pipe (74) and a pipe gear (75). A rebound stop piece (77) for rotating the pipe gear (75) is provided on one side of the pipe gear (75). One pipe, on the opposite side of the gear (75), is provided with a first electrically conductive piece (78) perpendicular to the pipe gear (75) and capable of guiding and moving the air guide rotating wheel (76). is there. And one first conductive piece (78) and a pipe gear (75) presenting in parallel, permutation and a second conductive piece (79) located far away.

Several of them are equipped with pump group set (4) and cylinder set (5) one-way directional switching valve (8) at the end, to enter and exhaust air pump group (4) and cylinder set (5) Provided to be controlled.

  One shaft is the above column base (1), barrel (2), upper barrel (3), air pump group set (4), cylinder set (5), and partition? It is provided on a pressure shaft strut bar (9) which is located at the center of the cylinder (6). The pressure shaft strut bar (9) is provided on the bottom side of one column base (1) and contacts the human body. The flexible buffer plate (91) has a bottom pressure shaft strut bar (92) on the top. . The middle pressure shaft strut bar (93) to the top of the bottom pressure shaft strut bar (92) fixed with one screw. A connector seam (94) to the top of the middle pressure shaft strut bar (93) secured in one pack, a connector seam (94) to the top of the connector pressure joint (94) secured to the top, and a top pressure shaft strut bar (95) to the top; The top pressure shaft support bar (95) is provided with a fixed top plate.

  2 is a clamp frame (10) provided to be positioned on the human body on the lower surface of the fixed pedestal cradle (1), 1 is the surface on the upper barrel (3) and closed The top cover (11) is located to be done.

  One is located on one side of the center of the top cover (11), the inflatable hand (12), this inflatable hand (12) has a T-shape and the protruding end (1211) is And on the other side there is a handle (121) connected to a hand plate (96). Handle (121). Two springs (122) are provided on the bottom side of the handle (121). One block (123) is provided on one side of the lower part of the handle (121), and a block ring (123) for preventing the handle (121) from jumping off is provided. And one hook (121) at the bottom opposite the handle and made up of a hook block (124) capable of controlling the action of the air guide rotating wheel (76).

  One is an oxygen valve head (13) for storing an air conditioner located on the front side of the inflatable hand (12), which is driven by the inflatable hand (12) and connected to the oxygen supply device (17). .

  One is a breathing head (14) fixed between the first air conduction block (71) and the second air conduction block (72), and this breathing head (14) is L-shaped, In addition, an oxygen inlet (1411) is provided with a mixture chamber (141) connected to the valve head (13) of the oxygen guide. One air-fueling chamber (141) is provided with an outlet connection (142) at the front end. An air port (143) directed to one end of the gas mixture chamber (141) and the first air conduction block (71) connected to each other is provided. And one air-mixing chamber (141) and the second air conduction block (72) connected to one end of the port-facing head (143) relative to the starboard head-port (143). 144). And a pointing device (15) located on top of the one hand plate (96). The pointing device (15) is a digital display (151) of LEDs that can display one control device (7) and an electrical connector, and the number of pressure accesses below. Also, one is located at one end of the LED digital display (151), and the human voice can be emitted to the loudspeaker with the human microphone (152) and electrical connector, It consisted of a recording device (153) capable of collecting voice.

  The first air guide pipe (73) is provided with an exhaust port (731) and an air intake port (732). The angle between the two is set at a right angle.

  The second air guide pipe (74) is provided with an exhaust port (741) and an air intake port (742). The angle between the two is also set at a right angle. However, after accessing the first air guide pipe (73), the exhaust port (731) of the first air guide pipe (73) and the air intake port (732) of the first air guide pipe (73) cause the pipe gear (75) to have different teeth. Is the angle.

  The pipe gear (75) is set to 32 mm, but since it is set to a gap (751) having a width of 2 teeth on one side thereof, there are actually 30 teeth.

The air guide rotating wheel (76) is a relative pipe gear (75) set on one side of the gap (751), and has two guide gears (761) that are the same gear as the pipe gear (75). .

  In this, through the installation, after pressing the user 30 times, can breathe against the user, and lay down from the pressure down, the first air pump (41), the second air pump (42) through 1 and in the operation below 1, the upper cylinder (51) and the lower cylinder (52) are pressurized to store air, with effective application per minute All the operation of the new version of cardiopulmonary resuscitation (CPR) in a single facility, providing enough breathing, providing pressure blowing, providing two blows To be completed.

  Next, through the installation of the pipe gear (75) and the air guide rotating wheel (76), when the user is taking a breath, the pressure shaft strut bar (9) can be eliminated and immediately the patient In the absence of force on the patient's chest, a successful general mixes air and blows into the patient's lungs.

  In addition, through the installation of the first air guide pipe (73) and the second air guide pipe (74), the cooperation of the pipe gear (75) and the air guide rotating wheel (76) is effective. After that, the air can be output twice.

  In the above description, the oxygen guide valve head (13) is L-shaped, and the oxygen guide tube (131), the oxygen guide tube (131), the top row of tops (132), have a hollow shape. ), Convex of the middle part of the oxygen guide tube (131)? The flange (133) is provided. At least one is provided with an oxygen guide tube (131) and a side exhaust (134) at the bottom. The mass is provided with an oxygen guide tube (131) and a ring (137) blocking at the bottom. A single piece of oxygen guide tube (131), a holder (136) on top of the blocking ring (137) other than the bottom, and one convexity? It consists of a spring (135) between the flange (133) and the holder (136).

Among them, through this installation, the input of oxygen can be effectively managed, and the complexity of the device can be reduced, so that the present invention can be made convenient to manufacture and increase the industrial usability.
In the above, the bottom of the buffer plate (91), a slight dent (911) is provided, the sound of the human body can be collected smoothly, the recording device (153) can be collected smoothly, the sound to the user Lay it out and give the patient the convenience of determining whether to recover palpitation and breathing.

  In the above, there is one protruding ridge (932) on one side of the described intermediate pressure shaft strut bar (93) inflatable handle (12) and protruding with the cap (11) On the opposite side of the ridge (932), there is provided a groove (111) which is slid and moved in one place, and this protruding ridge (932) slides.

  Among them, through this installation, it is possible to prevent the rotation of the pressure shaft strut bar (9), and to prevent dullness.

  In the above, an opening (931) on one side is provided near the pipe shaft (75) in the vicinity of the middle pressure shaft support bar (93).

  The first electric conduction (78) and the second electric conduction (79) are fixed on both sides of the middle pressure shaft strut bar (93), and the opening (931) on the side is parallel, In addition, this first electrical conduction (78) protrudes prominently on one side of the side opening (931), conspicuously in the middle pressure shaft strut bar (93), and hooked pipe gear ( 75) hook block (781).

  Also, the second electric conduction (79) is close to one side of the first electric conduction (78), 1 and the first electric conduction (78), one gap (h) with a gap on one surface (h) The electrical conduction column (791) of the installation is provided.

  Among them, through this installation, the pipe block (75) may be pushed when it becomes the hook block (781) of the first electric conduction (78) and is held under the pressure shaft column bar (9). From now on, it will bend and curve, hit the electric conduction column (791), and to the display (151) of the LED number of the indicator device (15) by 1 news electromagnetic wave (to) Let's set it to 1, so that the display is pressed once and the user knows how many times to hold down.

  In the above, the gas mixture chamber (141) and the outlet connection (142) are connected to each other and connected to the place, and the mixed gas outlet (1414) is provided, and the oxygen inlet (1411) is vertically installed. . A first gas inlet (1412) is provided at the place connected to the left direction change valve (143). An inlet (1413) for 1 second gas is provided at the right turn valve (144). A seventh one-way diverter valve (8G) is provided, one of which is one of the outlet connections (142) described above.

  Among them, the first air guide block (71) and the second air guide block (72) are connected through the installation of the air-fuel mixture chamber (141), and the input air from both is supplied to the oxygen inlet. (1411) Input oxygen can be mixed well, provided with sufficient oxygen to the patient, restore the lung function of the patient as soon as possible, and extend brain deficiency time Thus, it can be avoided that the patient is injured that cannot be recovered.

  In the above description, an air filter (35) is provided at the position where the upper barrel (3) is facing the surface of the wall on one side of the control device (7).

  Among them, through the air filter (35), the air in the present invention can be entered and filtered once to avoid entering harmful air to the patient.

  As shown in FIG. 4, there is a person hole (4111) in the center of the positioning plate (411) of the first air pump (41), and one side of the hole (4111) is near the center from inside to outside. (F) The four telescoping inner membranes (412) are located in the valve positioning hole (4112) between the telescopic outer membrane (413) and the two upper cylinders (51 ) And a valve positioning hole (4112) facing the valve guide hole (62). All the positioning holes (4112) of this valve can provide a one-way directional valve (8) with a strong positioning, 1 in the other direction the air pipe (53) crosses the positioning groove (4113) ), An exhaust guide hole (4114) of the exhaust guide hole (33) is provided while 1 is opposed to the upper barrel (3).

  The first air pump (41) is described above, the two are located at the valve positioning hole (4112) between the telescopic inner membrane (412) and the telescopic outer membrane (413). The two laterally relative first valve positioning holes (4112) just for the first one-way diverter valve (8A) with air advancement through the first air pump (41) Installed, another two lateral relative valve positioning holes (4112) are just installed for the second one-way diverter valve (8B) that can exhaust the first air pump (41). The upper cylinder (51) is then installed for the third one-way directional valve (8C) by air advancement and also covered by the block (86).

  Among these, after the first air pump (41) is pressed through the installation of the first air pump (41), the installation of the one-way directional switching valve (8) is cooperated, and the use of the action of pressing and responding originally is used. Then, it is effective to exhaust the air when it goes into breath, and it is suitable for storing air to the upper cylinder (51).

  The center of the positioning plate (421) of the second air pump (42) as shown in FIG. 5 has a person hole (4211), and one side of the hole (4211), the center of the vicinity is from the inside. To the outside, four are located in the valve positioning hole (4212) between the telescopic inner capsule (422) and the telescopic outer capsule (423), and two are connected to the lower cylinder (52) There is a spear positioning hole (4212), all of the scissor positioning holes (4212) can provide one with a strong positioning by directing the one way directional valve (8) in another direction. , Another side 1 air piping (53) is provided across the positioning groove (4213), 1 in air piping (53) lower cylinder (52) positive exhaust guide hole (4214) Across the Serve with a bite.

  A second air pump (42) is described, two at the heel positioning hole (4212) between the telescopic inner capsule (422) and the telescopic outer capsule (423), from inside to outside ( F) The two lateral directional relative heel positioning holes (4212) can only lead the second air pump (42) to the fourth one way diverter valve (8D) in another direction for installation. can not. Another two lateral direction relative heel positioning holes (4212) guide the fifth one-way diverter valve (8E) in another direction that can only be evacuated to the installed second air pump (42). The upper and upper cylinders (51) can be stored to guide the two guide holes (4112) in the valve guide hole (62) for lower cylinder (52) for installation. The 6th one way diverter valve (8F) of breath is stored in the other direction, and it can only be given down, and each 5th one way diverter valve (8E) is led in the other direction One side of the sixth one-way conversion valve (8F) is guided in a different direction, and is further covered and covered with a diversion block (86).

  Among these, after pressing the second air pump (42) through the installation of the second air pump (42), the installation in cooperation with the one-way directional control valve (8) is effective for the downward pressure and recovery action. Air can be stored and stored in the lower cylinder (52).

  As the first pump, the positioning plate (411) of (41) is provided with an exhaust guide hole (4114) for connection to the upper cylinder (51).

  The positioning plate (421) of the second pump (42) can be connected to the lower cylinder (52), and is equipped to connect the air pipe (53) and the exhaust guide hole (4214) of the lower cylinder (52). Is provided.

  Among them, through this installation, the upper cylinder (51) and the lower cylinder (52) can be stabilized and positioned, and the gas therein can be smoothly eliminated.

  Among the above, the sealed boards (414, 424) and the connection plate (43) may all be located in the central hole (4141, 4241, 431). And several bottom ends connected to the bottom pressure shaft strut bar (92) in the middle pressure shaft strut bar (93) located in the upper end so that the mutual snail can be fixedly connected. Hole connector holes (4142, 4242, 432) are provided.

  Among them, through the installation of the connector holes (4142, 4242, 432), it can lead to the connection of the board (414, 424) sealed to the pressure shaft column bar (9) and the connection plate (43), at the same time When the first air pump (41) and the second air pump (42) are expanded by moving the first air pump (41) and the second air pump (42) to reduce the second air pump (42), the first air pump By reducing (41), the target of the output is achieved by compressing the gas for the second time in the operation under 1 and under 1.

  In the above, the hole (441) which can be provided so that the center of the pad (44) is laid and 1 goes up and down on the pressure shaft strut bar (92) at the bottom. There is one side of the hole (441), near the center, the valve positioning hole (442) of the installation, and the valve positioning slot (443) of the saddle valve presenting two 8-shaped installations, both to one side Thus, the valve positioning hole (442) and the collar positioning slot (443) can all supply (provide) the use of a one-way directional valve (8). The other side can be provided with a groove (445) positioned at 1 across the air pipe (53). Moreover, the ventilation guide groove (444) of the ventilation hole (23) of the ventilation hole (23) relative to the barrel (2) is laid through the bottom of the pad (44) and ventilating through the positioning hole (442) of the valve. Is provided.

  In this, through this installation, the pressurized gas of the second air pump (42) can be stored in the smooth lower cylinder (52), and after the second air pump (42) and the gas have been fed in, The air is sucked into the ventilation guide groove (444) and the circulation is repeated again.

  In the above, each has a ventilation guide groove (444), one further has a filter tip (16), and a positioning groove (24) in the barrel (2)? To position.

  Among them, it is possible to enter the air in the present invention very much through the filter chip (16), and it is filtered once to avoid entering harmful air to the patient.

  8, 9, 10, 11, 12, 12, 13, 17, and 18. The upper cylinder (51) has one upper barrel and a positioning ring plate (511) for connection of both ends of the bottom of the (3) positioning ring plate (511) for connection of both ends of a cylindrical machine part, etc. 511), if 1 is positioned at the edge of the inner ring of the positioning ring plate (511) and presents a spiral inner capsule (512) that is contracted, if 1 is positioned on the positioning ring plate (511) ) The outer ring presents a spiral outer capsule (513) that is constricted and 1 has a limited space when sealed between the spiral inner capsule (512) and the spiral outer capsule (513). It is formed from a closed ring plate (514). This positioning ring plate (511) and positioning ring plate (511) are provided with one valve guide hole (5111) at the opposite position of the valve guide hole (62), and the opposite exhaust guide hole ( 63) is provided with an exhaust pipe (5112) connected to the second air guide block (72), and a slot (64) is provided with a groove (5113).

  As mentioned above, the lower cylinder (52) is from the positioning ring plate (521), which is connected to the top end face of the positioning plate (421) and the connection of the air piping (53) on one side. -Is it tightened to the outer ring edge of this positioning ring plate (521)? The spiral outer capsule (523) of the state, and 1 is sealed between the spiral inner capsule (522) and the spiral outer capsule (523), thus forming a sealed ring plate (524) forming a sealed space. It is.

  One valve guide hole (5211) is provided at each of the opposed valve guide holes (5111) of the positioning ring plate (521), and is connected to the air pipe (53) and arranged in a sequence. Is provided with a row of pores (5212) and grooves (5213).

  Among them, one of the most important points in this installation is that the spiral inner capsule (512, 522) and the spiral outer capsule (513, 523) produce a spring-like effect through this spiral design. When storing air, creating one pressure and performing the action of breathing, this air quickly squeezes out, and the patient can acquire air and high speed breathing Compared to this, a better relief effect can be generated.

  In the above, mentioning that guiding the ringing at the connection between the air piping (53) and the positioning ring plate (521) of the lower cylinder (52)? The air pipe inlet (531) is in the form of a shape. And one surface of the connection with the first air guide block (71) is an air piping outlet (532) which is L-shaped.

  As shown in FIG. 22, FIG. 22A, FIG. 22B, and FIG. 22C, the air conduit (711) in the first air guide block (71) is led out after the rotation of the gas by 90 degrees. In the end, this air conduit (711) is the air conduit inlet (7111) of the connection of the lower cylinder (52) through one air pipe (53). 1 Vertical air duct (7112) Matsumatsubashi has a hole (7113) for positioning the first air guide pipe, (73). One positioning hole (7113) has a vertical air guide crown (7114) on one side of the vertical air conduit (7112) vertically, and at the end of one vertical air guide crown (7114), It is composed of an air output hole (7115) that can be connected to the port-directed flow trough (143).

  Among them, through the installation, the air conduit (711) of the first air guide block (71) is controlled effectively by the gas output of the lower cylinder (52), and the first breath can be formed. is there.

  23, 23B, and 23C, the second air guide block (72) is provided with an air conduit (721), and after the gas can be rotated by 90 degrees, it is derived. This air conduit (721) is an air conduit inlet (7211) connected from the upper cylinder (51) to 1, 1 is a vertical air conduit (7212) connected to the air conduit inlet (7211), 1 is located at the end of the vertical air guide crown (7212), the second air guide pipe (74) is positioned in the positioning hole (7213), and the one positioning hole (7213) is straight and the vertical air conduit ( 7212) has a longitudinal air conduit (7214) on one side and an air output hole (7215) which can be connected to this starboard head (144) at the end of one longitudinal air duct (7214). ) Is Rukoto.

  Among them, through this installation, the air guide crown (721) of the second air guide block (72), the gas output of the upper cylinder (51) is controlled to form the first breath. It is.

  Furthermore, as shown in Fig. 19, the one-way direction change valve (8) that it posted is from 1 valve body (81), and it is provided with a screw (82) that blocks one side of 1 valve body (81). , If one shaft slides within the valve body (81), the piss (82) blocking one side can move the connection and the blocking piss (82) can be moved blocked. It is the valve shaft (83) of the movement. If 1 is the positioning ring block (84) which can restrict the positioning of the displacement amount of the valve shaft (83) on the other side of the valve shaft (83). If one valve body (81) and the positioning ring block (84) are closed, a closing spring (85) is provided to retract one piss (82).

  Among them, using a simple one-way directional valve installation, it is possible to lower the failure rate and the difficulty of subsequent repairs as well as effective control of the gas flow direction.

  In the above, one of the diversion blocks (86) can change the direction of the gas in one U-shaped water discharge channel (861), and the intake is provided in another installation.

  As shown in FIGS. 21 and 21A, it is necessary to post that it should not support the clamp frame (10) and from the bottom end of the column base (1) to the shell (101) is supported. If one surface of the shell (101) stands out, the outer tube (102) on one surface of (101) is provided, and if one group is the outer tube (102) If one side manages the inner tube (103) to which the shell (101) is dedicated after it stands out, two are provided, and the outer tube (102) and the inner tube (103) are separated from the shell (103). 101) dedicating the elastic bends and managing what stands out in marking the curved hook body (104), two each one outside the one (102) Or It consists of a connecting tube (103), a spring (105) for connecting the shell (101) from the other end, and a stent (106) between the one-post cradle (1) and the shell (101). .

  As described above, the two clamp frames (10) are connected to the curved hook body (104) on the same side, and the curved hook body (104) is pulled at the same time by connecting the curved hook body (104). 104) is provided for the drawbar (107).

  In the above, the shell (101) has the base (1011) of the guidance device (1012) from the center of the inner surface, and the center of the inner surface has the top cover (1013) of the guidance device (1014). Made up of.

  One side of the outer tube (102) is provided with an L-shaped guide block (1021) so that the outer tube (102)) can be prevented from rotating or sliding.

  In addition, a guide block (1021) having an L-shaped outer tube (102) is provided on one side of the guide block (1021) opposite to the inner tube (103). Yes.

  A separate bar (107) is fitted on one two curved hook body (104) from the upper bar (1071) above, and the upper bar (1071) is facing the snail The lower bar (1072) at the bottom of the draw bar (1072) below the bar (1071) is provided by screwing.

  Among them, through this installation, the force of the high-speed positioning of the present invention 1 is provided, and at the same time seeking stability, the chest against the patient is producing too much pressure and smoothing its breathing. It is avoided that it does not become.

  As shown in FIGS. 36 and 37, the oxygen supply device (17) described is a bottle (171) containing pure oxygen. There is a pure oxygen bottle body (171) from which it contains; one connector (172) on one side of this bottle (171) is provided. A connector block (173) is provided for providing the position of one connector (172) between the bottle (171) and the connector (172).

  In the connector (172), there is one T-shaped channel (1721), and this connector block (173) is provided with at least one or more vertical openings (1731).

  Among them, through this oxygen supply device (17), it is convenient to use the cardiopulmonary resuscitation ambulance (100) of the present invention together, and the head can be used on a high pillow.

  In the above, the outlet connection (142) of the breath-blowing head (14) is connected to the pneumatic transport pipe (19) and one of the breathing devices: Mouth and nose breathing device (18) (as in FIG. 39), oxygen mask (20) (see FIG. 40).

  Among them, it can be applied to patients with different medical conditions through different respiratory devices, and looks more convenient in terms of usability.

  As shown in FIG. 40, the mouth and nose breathing device (18) can be connected to the patient's mouth nose, one hose (181), one sleeve (182), one Air shift diffuser (183), one connecting pipe (184), one bidirectional valve (185), one nasal breathing device (186), one nostril three-way pipe (187), one hollow protective mask (188), one mouth fixing device (1881), and one gusseted mand band (189). One side of this socket (182) is connected to the air transport pipe (19) door, the air shift diffuser (183) is connected to one side of the socket (182), the bidirectional valve (185), the pillar It is manufactured from a resilient material and has an air shift diffuser (183), one end of which is shaped like a cone. In the center of the nasal nose breathing apparatus (186), there is an air duct (1861), the surrounding area has a plurality of holes (1862), and on the other side of the air duct (1861), an air shift diffuser (183) is facing. Then, one side of the nostril three-way pipe (187) has two holes (1871) and communicates with the patient's nose. On the other hand, only one hole (1872) serves to connect with the air duct (1861) of the nasal respiratory device (186). One surface of the pipe (184) to be connected is connected to the air shift diffuser (183). One surface of the mouth-fixing device (1881) is placed inside the patient's mouth, and the other surface connects to another surface of the connecting pipe (184).

  The hose (181) serves to enter the patient's mouth, one end of which is connected to the mouth fixing device (1881). Another surface is connected to an air shift diffuser (183). Wear a hollow protective mask (188) to fit the mouth and prevent it from being locked into the patient's mouth too deeply in the mouth-fixing device (1881) or hose (181) .

  Among them, through this kind of mouth and nasal breathing device (18), it can be used for patients with unstable breathing situation, relatively oxygen mask (20), has a better oxygen supply effect. And, it is possible to avoid receiving the possibility of disease infection by artificial respiration with one-to-one mouth.

  As shown in Fig. 28, Fig. 29, Fig. 30, Fig. 31, Fig. 32, Fig. 33, Fig. 34, Fig. 35, Fig. 38, Fig. 39, the present invention is a new version. Posting the design of the device by cardiopulmonary resuscitation, and all the actions can be put into the installation, making it convenient for the user to help the person, and the success rate of rescue operation Raise and lower hurt salvation.

  First, as shown in Fig. 38 and Fig. 39, support the Clamp frame (10) of the cardiopulmonary resuscitation ambulance (100) and pull it away, and support the chest of the patient. Ensure that the buffer plate (91) is properly centered at the two nipples on the chest, is properly cardiopulmonary resuscitation (CPR), and the oxygenator (17) is released behind the patient's neck. In order to lay things high, hold the forehead and raise the chin, maintain the fluency of the respiratory tract, and provide the connection between the oxygen supply device (17) and the valve head of the oxygen guide (13) And then cover the oxygen mask (20) with the connection 1 and outlet connection (142).

  After that, the first step, starting the rescue, as shown in Fig. 29 and Fig. 30, after the device of the present invention, the first and second breaths are taken by the upper cylinder (51 ) And the lower cylinder (52) have no pressure present, so they are inflated with a hand plate (96) and continuously pressurized against the valve head (13) of the oxygen guide through the handle (12) Sufficient oxygen is input, and the pressure of oxygen in the mixed gas chamber (141) exceeds the pressure of the seventh one-way switching valve (8G) to output oxygen to the patient.

  After that, the second step and the device of the present invention, as shown in FIGS. 31 to 33, can be born by performing 1 heart massage circulation (30 times, 15 up, 15 down). After holding the strut (9) simultaneously with the heart massage, the gas flows from the second air pump (42) to the fifth one-way conversion valve (8E)), diversion block (86), and sixth one-way conversion. Flows through the valve (8F) into the lower cylinder (52), so the lower cylinder (52) is initially filled with gas, and in addition, the first air pump (41) is at the same time the first one-way diversion Inhale through the valve (8A).

  The upper cylinder (51) can be filled with gas when the strut (9) is raised, and the gas flows from the first air pump (41) to the second one-way diverter valve (8B), the diversion block (86), Flowing through the third one-way diverter valve (8C) into the upper cylinder (51), which is filled with the gas for the second time, in addition, the second air pump (42) is at the same time the fourth one-way Inhale through the diverter valve (8C).

  After the user has pressed the strut (9) 30 times, the air in the upper cylinder (51) and lower cylinder (52) has been stored and filled, and it has been rotated and the pipe gear (75) I went around 1 and returned to the state before breathing.

  At this time, after the 3rd step, 30 times of pressing and after, pressing again, that is, after the 31st time, it can be rotated by turning the handle (12) down and inflating, The hook block (124) can be turned by moving the air guide rotating wheel (76) .The first air guide pipe (73) and the second air guide pipe (74) can be moved and turned. Thus, when the first round is suppressed, the first air guide pipe (73) has an exhaust port (731) and an air intake port (732) which can conduct first, and the lower cylinder (52) When the output and the secondary hold down, the exhaust port (741) and air intake port (742) of the second air guide pipe (74) can conduct from that time, and the lower cylinder (52) Because there is pressure inside the upper cylinder (51) and lower cylinder (52), As shown in Fig. 34, after inflating and holding the handle (12), the oxygen guide valve head (13) is held down at the same time, so oxygen is constantly poured into the mixture chamber (141). The air that was excluded from the lower cylinder (52) was mixed with oxygen in the mixed gas chamber (141), and then the first mixed gas was output to continue. As shown in Fig. 35, after inflating once more and holding the handle (12), the mixed air from the second port is output from the upper cylinder (51). .

  Finally, if the patient has not been awake in a single cardiopulmonary resuscitation, he will turn over again from the second to the third step and transmit to the ambulance team or the ambulance It will be turned over until arrival.

  What is known from the above is that in the present invention, through this operation flow, we can revert to a complete new version of cardiopulmonary resuscitation (CPR), and after matching the installation of the pointing device (15), further You don't have to worry about low or high problems, you can fix the pressure and position you apply, you don't have to worry about hurting the rescue, and you can increase patient survival In addition to the current conventional artificial cardiopulmonary resuscitation, or compared to Patent Documents 1, 2, and 3, it has more practicality, effectiveness and industrial applicability.

1 Column base
2 barrels
21 hall
22 Flange
23 Vent hole
24 Positioning groove
25 position ring groove
3 Upper barrel
31 hall
32 Positioning holes
33 Exhaust guide hole in
34 Outside exhaust guide hole
35 Air filter
4 Pump group set
41 1st pump
411 Positioning plate
4111 hall
4112 Valve positioning hole
4113 groove
4114 Exhaust guide hole
412 Stretchable inner membrane
413 Stretch outer membrane
414 sealed board
4141 hall
4142 Connector hole
42 Second pump
421 Positioning plate
4211 hall
4212 Valve positioning hole
4213 groove
4214 Exhaust guide hole
422 telescopic inner capsule
423 telescopic outer capsule
424 sealed board
4241 hall
4242 connector
43 Connection plate
431 hall
432 connector
44 Bottom plate
441 hall
442 Valve positioning hole
443 Valve positioning slot
444 Ventilation guide groove
445 groove
5 Cylinder set
51 Upper cylinder
511 Positioning ring plate
5111 Valve guide hole
5112 Exhaust pipe
5113 groove
512 spiral inner capsule
513 spiral external capsule
514 Close ring plate
52 Lower cylinder
521 Positioning ring plate
5211 Valve guide hole
5212 Vent
5213 groove
522 spiral capsule
523 spiral external capsule
524 closed ring plate
53 Air piping
531 Air piping inlet
532 Air piping outlet
6 Partition? cylinder
61 Positioning flange
62 Valve guide hole
63 Exhaust guide hole
64 slots
7 Control unit
71 First air guide block
711 Air conduit
7111 Air conduit inlet
7112 Vertical air conduit
7113 Positioning hole
7114 Longitudinal air conduit
7115 Air output hole
72 Second air guide block
721 Air conduit
7211 Air conduit inlet
7212 Vertical air conduit
7213 Positioning hole
7214 Longitudinal air conduit
7215 Air output hole
73 First air guide pipe
731 Exhaust port
732 Air intake
74 Second air guide pipe
741 Exhaust vent
742 Air intake
75 Pipe, gear
751 gap
76 Air guide rotating wheel
761 Air guide gear
77 Rebound stop piece
78 First conductive piece
781 Hook block
79 Second electrical conduction piece
791 Electrical Conduction Row
8 One way directional valve
8A first one-way valve
8A first one way conversion valve
8B second one way conversion valve
8C 3rd one way conversion valve
8D 4th one way conversion valve
8E 5th one way conversion valve
8F Sixth one way conversion valve
8G Seventh one way conversion valve
81 Valve body
82? Fragment
83 Valve shaft
84 Positioning ring block
85 Closed spring
86 diversion block
861 U-shaped spillway
9 struts
91 Buffer plate
911 Recessed hole
92 Pressure shaft support bar at the bottom
93 Middle pressure shaft strut bar
931 side hole
932 Convex
94 Connector joint
95 struts
96 hand platen
10 Clamp frame
101 shell
1011 base stand
1012 guidance device
1013 cap
1014 Guide
102 outer pipe
1021 Guide block
103 Inner tube
1031 Guide block
104 Curved hook body
105 spring
106 stent
107 bar
1071 top bar
1072 Bottom bar
11 cap
111 Recessed groove
12 Inflatable handle
121 Handle
1211 Protruding end
122 Spring
123 Block ring
124 hook block
13 Oxygen valve head
131 oxygen tube
132 Top row
133 Flange
134 Side outlet
136 holder
137 Shielding Wheel
114 Inflated head
141 Mixed room
1411 Oxygen entrance
1412 Gas port
1413
1414 Export of mixed gas
142 Outlet connection
143 Left turn valve
144 Right turn valve
15 pointing device
151 LED digital display
152 microphone
153 Recording equipment
16 Filter chip
17 Oxygen supply device
171 bottles
172 connector
1721 T-shaped channel
173 Connector block
1731 Longitudinal opening
18 Mouth and nasal breathing devices
181 hose
182 socket
183 Air Shift Diffuser
184 Connecting pipe
185 bidirectional valve
186 Nasal breathing apparatus
1861 air duct
1862 hall
187 Nostril 3-way pipe
1871 hall
188 Hollow protective mask
1881 Mouth fixing device
189 Machiko Mando Belt
19 Pneumatic transport pipe
20 Oxygen mask
100 cardiopulmonary resuscitation ambulance
H gap

Claims (1)

(A) A pedestal cradle (1) that can be placed over the lying lie of the human body,
(B) The barrel (2) on the surface of the column base (1) fixed with screws is provided with a hole (21) located in the center at the bottom of the barrel (2). The hole (21) is provided with a vent hole (23) on one side of the two, and two grooves (24) positioned facing the vent hole (23) are provided, and the barrel (2) A flange (22) is provided at the bottom edge, and a ring groove (25) at the position is provided at the top edge,
(C) A hole (31) is provided at the center in the bottom of the barrel (2), the top upper barrel (3), the top upper barrel (3) of the top, Two positioning holes (32) are provided on one side, and an exhaust guide hole (33) on the inside and an exhaust guide hole (34) on the outside are provided on the opposite side.
(D) Pump group set (4) The pump group set is provided at the top of the first pump (41) at the top of one barrel (2) and at the bottom of the barrel (2). A second pump (42) connected to the bottom of one pump (41),
(E) The first pump (41) and the second pump (42) are connected to each other connecting plate (43), and the second pump (42) is provided at the bottom of the bottom plate (44), The first pump (41) and the second pump (42) all have one positioning plate (411, 421), one sealed board (414, 424), one positioning plate (411, 421) and a sealed board (414, 424) is composed of a stretchable inner membrane (412, 422) and one stretchable inner membrane (412, 422), an outer stretchable outer membrane (413, 423), but both are installed in reverse To present, the first pump (41) is packed in a sealed board in order from the positioning plate (411), and the second pump (42) is packed in a sealed board in order from the positioning plate (421). Rarely
(F) Cylinder set (5) in barrel (2), said cylinder set (5) is provided at the top in one barrel (2) and is attached to the upper cylinder (51) outside the first pump (41) Covered, provided at the bottom in one barrel (2), and placed on the lower cylinder (52) outside the second pump (42), and on one lower cylinder (52) Consisting of an air pipe (53) connected and led out of the air in the lower cylinder (52),
(G) A partition that can avoid contact between the pump group set (4) and the cylinder set (5)? The cylinder (6) is provided and the partition? A positioning flange (61) is provided between the top upper barrel (3) and the positioning plate (411) on the top of the cylinder (6), and a valve guide hole (62) is provided on one side of the flange (61). The exhaust guide hole (63) is provided on the opposite side. Slot (64) is provided on the side,
(H) The control device (7), the control device (7) is connected to one side in the upper barrel (3) and the lower cylinder (52), and the gas in it is derived after rotating it by one angle. Another first air guide block (71) is provided,
(I) the first air guide block (71) and the second air guide block (72) installed in the opposite direction, connected to the upper cylinder (51), and led the air therein;
(J) A first air guide pipe (73) capable of controlling the inside of the first air guide block (71) and the output of the upper cylinder (51) and the empty inside is provided,
(K) The output of the second air guide block (72) and the lower cylinder (52), and one end connected to the first air guide block (71), and the empty second air guide pipe ( 74),
(L) A pipe and gear (75) between the first air guide pipe (73) and the second air guide pipe (74) are provided,
(M) An air guide rotating wheel (76) between the second air guide pipe (74) and the pipe gear (75) is provided,
(N) A rebound stop piece (77) for rotating the pipe gear (75) is provided on one side of the pipe gear (75),
(O) On the opposite side of the pipe, gear (75) is provided a first electrically conductive piece (78) perpendicular to the pipe gear (75) and capable of guiding and moving the air guide rotating wheel (76). ,
(P) The first electric conductive piece (78) is composed of a pipe gear (75) presenting a permutation in parallel and in parallel, and a second electric conductive piece (79) disposed far away from the first electric conductive piece (78). The pump group set (4) and cylinder set (5) are provided with a one-way direction change valve (8) at the end of the pump, and the air pump group (4) and cylinder set (5) are controlled to advance and exhaust. Offering
(Q) The shaft is the above column base (1), barrel (2), upper barrel (3), air pump group set (4), cylinder set (5), and partition? The pressure shaft support bar (9) is located at the center of the cylinder (6), and the pressure shaft support bar (9) is provided on the bottom side of one column base (1). Touching the human body, flexible buffer plate (91) bottom pressure shaft strut bar (92) on top,
(R) pressure shaft strut bar (92) at the bottom of the bottom fixed with screws, pressure bar strut bar (93) in the middle of the top,
(S) Connector pressure seam (94) to the top of the intermediate pressure shaft strut bar (93) fixed by packing, connector seam (94) to the top pressure shaft strut bar (95) to the top, And the pressure shaft strut bar (95) provided with a fixed one is composed of a top hand plate,
(T) the clamp frame (10) capable of being provided on the human body on the lower surface of the fixed column base (1),
(U) the surface on the upper barrel (3) and the top cover (11), which is located to be closed,
(V) Top cover (11) Located on one side of the center, inflatable hand (12), this inflatable hand (12) is T-shaped and has a protruding end (1211). And on the other side there is a handle (121) connected to the hand plate (96),
(W) springs (122) provided on the bottom side of the handle (121),
(X) provided on one side of the lower part of the handle (121), and provided with a block ring (123) for preventing the handle (121) from jumping off, and one lower part on the opposite side of the handle (121) And the air guide rotating wheel (76) consists of a hook block (124) capable of controlling the action,
(Y) an oxygen valve head (13) for storing an air conditioner located on the front side of the inflatable hand (12), which is driven by the inflatable hand (12) and connected to the oxygen supply device (17);
(Z) The breath blowing head (14) fixed between the first air conduction block (71) and the second air conduction block (72), the breath blowing head (14) is L-shaped, A certain oxygen inlet (1411) is provided with a mixed gas chamber (141) connected to a valve head (13) of an oxygen guide. One mixed air chamber (141) and a first air conduction block (71) are connected to one end of the port, and one mixed air chamber (141) is connected to the second air. The conduction block (72) is composed of a starboard head (144) and a starboard head (144) relative to one end of the set connected to the conductive block (72), and one hand holding plate (96) ) Pointing device (15) located at the top, this pointing device (15) is a digital display (151) of one control device (7) and an electrical connector, and the number of access of pressure below ) And
(A) It is located at one end of the LED digital display (151), and the human voice can be emitted to the loudspeaker, and the human microphone (152) and the electrical connector can be used to Consists of recording equipment (153) that can be collected,
(B) The first air guide pipe (73) is provided with an exhaust port (731) and an air intake port (732), the angle between the two is set at a right angle, and the second air guide pipe (74 ) Is provided with an exhaust port (741) and an air intake port (742), and is set at a right angle between the two, but after accessing the first air guide pipe (73), the first air The exhaust port (731) and the air intake port (732) of the guide pipe (73) are different from the tooth angle of the pipe gear (75),
(C) The pipe gear (75) is set to 32 mm, but on its one side is set to a gap (751) with a width of 2 teeth, so there are actually 30 teeth,
(D) The air guide rotating wheel (76) is a relative pipe gear (75) set on one side of the gap (751), and two guide gears (761) that are the same as the pipe gear (75) are set. And
A cardiopulmonary resuscitation ambulance consisting of the above (100).

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