JP2000024069A - Automatic heart and lung resuscitator - Google Patents

Abstract

PROBLEM TO BE SOLVED: To enable a heart and lung resuscitator to be safely and quickly put on and improve the convenience of an ambulance by placing a support to move an impact hammer in the vertical direction and a guide frame for in the horizontal direction on both sides of a patient and equipping an adjuster with a spring ratchet on the cross point of the support and the guide frame or on the cross point of the support and the impact hammer arm. SOLUTION: A support 3 is disposed outside a patient 1 body in the face-up position on a back plate 2. An impact hammer 4 is supported by the support 3 via an impact hammer arm 5. Impact is repeatedly applied on the breast bone of a patient by the impact hammer 4. The support 3 and the impact hammer arm 5 are connected by a telescopic joint 6 to enable the interval of the support 3 to be adjustable matching the back width of the patient. A guide frame 7 to move the impact hammer 4 is equipped and an adjuster 8 with a spring ratchet is equipped on the cross point of the guide frame 7 and the support 3. The support 3 is positioned by the adjuster onto the cross point of the support 3 and the guide frame 7. Thus the impact hammer can be moved in the vertical and horizontal directions by one touch.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

The present invention relates to an automatic impact cardiopulmonary resuscitation device. More specifically, the present invention can be safely and quickly and securely attached to a patient who needs artificial resuscitation work including heart massage, and is convenient for storage and placement in an ambulance, The present invention relates to an automatic shock cardiopulmonary resuscitation device that does not cause a displacement of the relative position of a patient and a shock hammer during transportation.

[0002]

2. Description of the Related Art An automatic shock cardiopulmonary resuscitation device is an emergency medical device for performing life-saving treatment for cardiac arrest and respiratory arrest. The patient must be in a supine position to maintain the patient's circulation and respiration by extracorporeal treatment. By repeatedly pressing and releasing the sternum strongly toward the thoracic vertebra, the heart located between the two is compressed and subjected to a cardiac massage, expelling blood to the aorta and pulmonary artery, and giving the patient oxygen gas for breathing. Equipment to supply. Conventionally used automatic shock cardiopulmonary resuscitation devices are roughly classified into two types according to the method of holding a shock hammer for compressing the sternum. One is the one that supports the sliding axis of the shock hammer at the tip of the beam. The other method is to fix the impact hammer to the patient through the support column, and to the other method to fix the impact hammer to the patient. In the method in which the impact mallet is fixed to the backboard, the patient also lies on the backboard, but since the patient and the impact mallet are isolated, emergency work is performed unless the sides of the patient are filled with heavy objects such as sandbags. For example, when the ambulance changes direction while performing the operation, the relative position between the patient and the impact mallet may be shifted, and therefore, how to fix the patient's body to the backboard becomes a problem. On the other hand, in the method of fixing the impact hammer to the patient, the impact hammer is brought into close contact with the patient's chest via a thick planar fastening band drawn out of the housing holding the impact hammer and provided at the end of the planar fastening band. The impact mallet is fixed to the patient's chest by penetrating any one of the plurality of holes into the mushroom-shaped button attached to the side of the backboard, so that the impact causes the sheet-like tightening band to instantaneously expand and the mushroom There is a risk that the button will deviate from the button. Also, although it was not put into practical use, the invention introduced as a document was fixed to an impact hammer at the center of two pillars juxtaposed in the shape of a gate, and a lever action point was connected to the top of the hammer. Attempts have been made to apply a pad at the tip of an impact mallet to a patient by raising and lowering a long handle connected to this action point like a hand-pump. However, this method has a major problem in how to insert a patient who has completely lost consciousness and has become extremely difficult to handle between the portal columns, and the gap between the outer sides of both arms of the patient lying on the back and the columns It is inevitably large, and it is difficult to position the hammer along the patient's height. Above all, there is no resistance in preventing the patient from shaking during transportation. In addition, the conventional automatic impact cardiopulmonary resuscitation device requires a complicated operation to set and secure the impact mallet to the patient, so that it is quick and reliable in the urgent medical field where time is of the essence. There has been a need for an automatic shock cardiopulmonary resuscitation device that can position an impact mallet.

[0003]

SUMMARY OF THE INVENTION The present invention is directed to patients who need artificial resuscitation including heart massage.
It can be installed safely, quickly and securely, convenient for storage and placement in an ambulance, convenient for taking out of the vehicle, and the relative position of the patient and the impact mallet during transportation may be shifted. The purpose of the present invention is to provide an automatic shock cardiopulmonary resuscitation device without the need.

[0004]

Means for Solving the Problems The inventors of the present invention have conducted intensive studies to solve the above-mentioned problems, and as a result, a column for supporting and moving the impact mallet in a vertical direction and a guide frame or fixing for moving in a horizontal direction. By disposing the group of points on both sides of the patient and providing an adjusting device having a spring-type ratchet at the intersection of the support column and the guide frame or the fixed group of members, when adjusting the positional relationship of the impact mallet with respect to the sternum of the patient lying supine, The inventor has found that the movement and the fixing in the vertical direction can be performed simultaneously and quickly with one touch, and based on this finding, the present invention has been completed. That is, the present invention relates to (1) an automatic shock cardiopulmonary resuscitation device for performing a heart massage by repeatedly applying a shock, wherein a support column for supporting and moving a shock hammer in a vertical direction and a guide frame or fixing for moving in a horizontal direction are provided. Automatic shock cardiopulmonary resuscitation characterized in that a group of points is arranged on both sides of the patient and an adjusting tool having a spring-type ratchet is provided at the intersection of the column and the guide frame or the fixed group or at the intersection of the column and the impact mallet arm. (2) The ratchet claw is a hook-shaped, spherical or semi-cylindrical horizontal projection, and the concave portion fitted with this is an independent or continuous digging window, a hemispherical recess or a semi-cylindrical groove. The automatic shock cardiopulmonary resuscitation device according to item (3), (3) the automatic shock cardiopulmonary resuscitation device according to item (1), wherein the adjuster for vertical or horizontal movement has a collar-type spring-type ratchet. B A shock head pad is connected to the pad, and its tip is formed by being surrounded by a circular, elliptical or polygonal hill, a warp-type hill or a sitting hakama hill. The automatic impact cardiopulmonary resuscitation device according to (1), wherein the rib is made of a soft elastic material having a concave shape, and (5) the hill of the impact head pad connected to the impact mallet rod has a JIS hardness of 10 to 60. The connecting portion between the elevated rib and the impact mallet is formed of a rubber-like elastic body or soft resin having a JIS hardness of 30 to 90, and both are integrally laminated and formed.
(4) The automatic shock cardiopulmonary resuscitation device according to (4), (6) the connection between the shock hammer rod and the shock head pad is performed by connecting a ball, a hemisphere or a short cylinder fixed to the shock hammer rod or the shock head pad forming the joint. (7) The automatic impact cardiopulmonary resuscitation device according to (4), wherein the impact is performed through a mortar-shaped universal joint in which the mortar is fitted to the core, and the mortar is fitted to the core. (4) an automatic shock cardiopulmonary resuscitation device according to item (4), wherein the connection is made via a crank-shaped universal joint, (8) a support column for supporting and vertically moving the shock hammer, and an adjustment tool having a spring-type ratchet. Is integrated with the back plate via a horizontally movable guide frame directly attached to the back plate, and is separated from the drive gas or breathing gas operating mechanism.
(1) The automatic impact cardiopulmonary resuscitation device according to the above (9), (9) a strut for supporting and vertically moving the impact mallet, and an adjusting tool having a spring-type ratchet are connected to a stretcher via a guide frame for horizontally moving. (10) The automatic shock cardiopulmonary resuscitation device according to (1), wherein the guide frame for horizontal movement of the patient in the height direction is provided with one stepless gear rail meshed with the idle gear. Automatic shock cardiopulmonary resuscitation device according to the paragraph,
(11) The automatic shock cardiopulmonary resuscitation device according to (1), wherein the upper and lower two stepless gear rails meshing with and interlocking with the idle gear are provided in the guarding width direction horizontal movement frame. is there.

[0005]

DESCRIPTION OF THE PREFERRED EMBODIMENTS The automatic impact cardiopulmonary resuscitation device of the present invention
An automatic shock cardiopulmonary resuscitation device that performs a cardiac massage by repeatedly applying a shock, wherein a strut supporting a shock hammer and moving vertically and a guide frame or a group of fixed points moving horizontally are arranged on both sides of a patient. , And an adjusting tool having a spring-type ratchet at the intersection of the support and the guide frame or the fixed portion group. 1 (a) and 1 (b)
1 is a side view of two embodiments of an automatic impact cardiopulmonary resuscitation device of the present invention, and FIGS. 1C and 1D are partial perspective views in the vicinity of an adjusting device having a spring-type ratchet. In the embodiment shown in FIG. 1 (a), a patient 1 lies on a back plate 2 and an impact hammer 4 supported by a column 3 provided outside the body of the patient repeatedly applies an impact to the patient's sternum. . In the embodiment shown in FIG. 1 (b), a patient 1 lies on a back plate 2 and impact mallets 4 supported by struts 3 inserted on both sides of the patient repeatedly apply an impact to the patient's sternum. In this embodiment, since the strut 3 and the impact mallet 5 are connected by the sheath-type telescopic device 6, the distance between the two struts can be adjusted according to the guardian width of the patient.

In the embodiment shown in FIG. 1 (c), there are a column 3 for supporting and moving the impact mallet in a vertical direction and a guide frame 7 for moving in a horizontal direction. A spring ratchet is provided at the intersection of the column and the guide frame. An adjusting tool 8 is provided. In the embodiment shown in FIG. 1D, there are a column 3 for supporting and moving the impact mallet in the vertical direction and a group of fixing points 9 for moving and fixing in the horizontal direction, and a spring type is provided at the intersection of the column and the group of fixing points. An adjusting tool 8 having a ratchet is provided. A strut for supporting the impact mallet and moving vertically and a guide frame or fixed group for moving horizontally are arranged on both sides of the patient, and a spring-type ratchet (meshing claw) is provided at the intersection of the post and the guide frame or fixed group. By positioning and fixing the support column with the adjustment tool, it is possible to move and fix in the horizontal and vertical directions simultaneously and with one touch, and it is possible to respond quickly in the emergency medical field where time is at stake Becomes In the automatic impact cardiopulmonary resuscitation device of the present invention, the ratchet claw is a hook-shaped, spherical or semi-cylindrical horizontal projection, and the concave portion fitted with the ratchet is an independent or continuous digging window, a hemispherical recess or a semi-cylindrical groove. It is preferred that FIG. 2 is a partial sectional view and a partial perspective view showing the shape of the ratchet. The ratchet shown in FIG. 2A has a hook-shaped claw 10 fitted into a recess 11. In this embodiment, the hook-shaped claws are fitted in the recesses, but they may be fitted in windows that penetrate the hook-shaped claws. In the ratchet shown in FIG. 2 (b), hook-shaped claws 12 are fitted into recesses 14 having projections 13. The ratchet shown in FIGS. 2C and 2D is composed of a combination of a spherical ratchet pawl 15 and a hemispherical recess 16 fitted with the pawl 15. The ratchet shown in FIGS. 2E and 2F is composed of a combination of a ratchet pawl 17 having a semi-cylindrical horizontal projection and a semi-cylindrical groove 18 fitted with the pawl 17. By making the ratchet pawl a hook-like, spherical or semi-cylindrical horizontal protrusion, the movement, positioning and fixing of the support can be performed smoothly.

[0007] In the automatic impact cardiopulmonary resuscitation device of the present invention, the adjusting device for vertical and horizontal movement may be formed by a flange-type spring ratchet. FIG.
It is an explanatory view of one mode of a collar stop type spring type ratchet and a hook-like claw. In this embodiment, an adjustment tool having a flange-type spring-type ratchet 20 as an adjustment tool for vertical movement is provided at the intersection of the impact mallet arm 5 holding the impact mallet housing 19 and the column 3. This adjuster has a spring 21 and an operation collar 22, and can be moved up and down by pushing down the operation collar by hand. When the operator releases the hand and the operation collar is pushed up by the elasticity of the spring, the adjustment tool is at that position. Fixed. In this embodiment, the notch 23 is provided on the support column, so that the adjustment tool is securely fixed. Further, in this embodiment, the fixing portion 9
Consists of a pocket provided with a hook-shaped claw 10 to which a spring 24 is attached. The support 3 is inserted into the pocket, and the hook-shaped claw is fitted into a penetrating window 25 provided at the lower portion of the support, so that the horizontal The position in the direction is fixed. The strut can be easily removed from the fixed position by pushing the lower part of the hook-shaped claw and releasing the engagement between the hook-shaped claw and the window.
FIG. 4 is an explanatory view of another embodiment of a flange type spring ratchet and a hook-shaped claw. In this embodiment, an adjustment tool having a flange-type spring-type ratchet 20 as an adjustment tool for vertical movement is provided at the intersection of the impact mallet arm 5 holding the impact mallet housing 19 and the column 3. This adjuster has a spring 21 and an operation collar 22, and can be moved up and down by pulling up the tip of the operation collar with a finger. Fixed in position. Further, in this embodiment, a fixing piece having a concave portion 11 to which a spring 24 is attached is provided at a lower portion of the column 3, and the column 3 is inserted and fitted into a fixing portion 9 having a hook-shaped claw 10 so that The position in the direction is fixed. The column can be easily removed from the fixed position by pushing the upper portion of the fixing piece and releasing the engagement between the hook-shaped claw and the concave portion.

In the automatic impact cardiopulmonary resuscitation device of the present invention, an impact head pad made of a soft elastic material is connected to an impact mallet rod,
It is preferable that the tip is formed by being surrounded by a circular, elliptical or polygonal elevated rib having a curvature at an apex angle, and the inside of the elevated rib is cut into a concave shape. 5A and 5B are plan views showing the shapes of three types of elevated ribs. FIG. 5A shows a circular elevated rib, FIG. 5B shows an elliptical elevated rib, and FIG.
(c) shows a triangular ridge rib having a curvature at the apex angle.
FIG. 6 is a cross-sectional view showing the shape of an impact head pad having an elevated rib in five modes, and FIGS. 6 (a), 6 (b) and 6 (c).
Fig. 6 (d) shows an impact head pad having a normal hill
FIG. 6 shows an impact head pad having a warp-shaped hill.
(e) shows an impact head pad having a sitting hakama-shaped hill. An impact head pad made of a soft elastic material is connected to the impact hammer rod, and its tip is formed by surrounding it with a circular, elliptical or polygonal elevated rib having a curvature at an apex angle, and the inside of the elevated rib is concave. When the impact is repeatedly applied to the heart by applying a shock, the force of lifting the patient's chest upward when the impact mallet is lifted is applied, and a more effective heart massage can be performed. In the case of a warp-shaped elevated rib where the tip of the elevated rib expands toward the outer periphery and a sitting hakama-shaped elevated rib where the hakama swells downward, the low-hardness rubber at the tip is easily deformed and the impact hammer is lifted In this case, a reduced pressure is formed in a direction in which the patient's chest is pulled up, so that the patient's chest and lungs are expanded, and more effective ventilation is performed. The hakama-shaped rib has various curves in its swelling, but if it is easily deformed and elastic, and it is easy to generate a pressure difference inside the hill upon compression and release, the hill for this purpose Has the same effect as.

In the automatic impact cardiopulmonary resuscitation device according to the present invention, the hill of the impact head pad connected to the impact mallet rod has a JIS hardness of 1.
The connecting portion between the hill and the impact mallet is formed of a rubber-like elastic body or soft resin having a JIS hardness of 30 to 90, and both are integrally laminated and formed. Is preferable. There is no particular limitation on the rubber-like elastic body and soft resin used, for example,
Natural rubber, styrene-butadiene rubber, butadiene rubber, isoprene rubber, acrylonitrile-butadiene rubber, chloroprene rubber, butyl rubber, ethylene-propylene rubber, acrylic rubber, chlorosulfonated polyethylene rubber, fluorine rubber, soft vinyl chloride resin, silicone resin, polyurethane Resins and the like can be mentioned. The elevated rib of the impact head pad is formed of a rubber-like elastic material or soft resin having a JIS hardness of 10 to 60, and the connecting portion between the elevated rib and the impact hammer is formed of a rubber-like elastic material or soft resin having a JIS hardness of 30 to 90. By integrally laminating the two, it is possible to perform a flexible operation similar to that of the resuscitation technique during heart massage by repeatedly applying a shock. The automatic impact cardiopulmonary resuscitation device of the present invention
The impact hammer rod and the impact head pad are formed into a sphere, a hemisphere or a short cylinder fixed to the impact hammer rod or the impact head pad which forms the joint, and the mortar is formed by opposing the mortar to be fitted thereto. Can be connected via a universal joint.
Alternatively, the impact hammer rod and the impact head pad can be connected via a crank-shaped universal joint. FIG.
FIG. 3 is a cross-sectional view showing a joint between an impact hammer rod and an impact head pad. The joint shown in FIG. 7A is connected by fixing a ball 27 to an impact mallet rod 26 and providing a mortar structure to be fitted to the ball on an impact head pad 28. FIG.
The joint shown in (b) is one in which an impact mallet rod 26 and an impact head pad 28 are connected via a universal joint 29 of the crank. The universal joint 29 is connected with the short cylinder sideways. By connecting the impact hammer rod and impact head pad using such a universal joint, it is possible to adapt the impact head pad that contacts the patient's chest to any inclination angle according to the position and shape of the chest And the vertical reciprocation of the impact mallet becomes possible.

The automatic impact cardiopulmonary resuscitation device according to the present invention includes a support column for supporting and vertically moving an impact mallet, and a guide frame for horizontally moving an adjusting device having a spring-type ratchet, which is directly attached to a back plate. It is possible to be configured to be integrated with the back plate through the intermediary, and to be separated from the operating mechanism of the driving gas or the breathing gas. The strut and adjuster are integrated with the back plate via the guide frame and separated from the drive gas or breathing gas operating mechanism, making the automatic shock cardiopulmonary resuscitation compact and easy to store in an ambulance In addition to the above, there is an effect that the degree of freedom is provided in the arrangement of the patient and the operating mechanism during work outside the ambulance, thereby facilitating the work. The automatic impact cardiopulmonary resuscitation device of the present invention has a configuration in which a strut for supporting and vertically moving an impact mallet and an adjusting tool having a spring-type ratchet are attached to a stretcher via a guide frame for horizontally moving. be able to. By attaching the strut and the adjustment device to the stretcher via the guide frame, it can be expanded and contracted according to the width of the back of the patient's chest, and can be used for patients of any size, such as those for Japanese, or for any width. It will be possible to attach it to the wrench. FIG. 8 (a) is a partial side view of another embodiment of the automatic impact cardiopulmonary resuscitation device of the present invention, and FIG.
Is a partial sectional view thereof. The automatic impact cardiopulmonary resuscitation device of this embodiment has a guide frame provided with a single continuously variable gear rail 31 meshed with a play gear 30, and is placed on the side of a patient in a supine position and moved in the height direction. By inserting the support 3 into the adjusting tool 8 and turning the fixing adjustment knob 32 to tighten the helical shaft, the position can be fixed by pressing against the inner surface of the guide frame. In the upper part of the support, FIG. 2, FIG. 3, FIG.
It is preferable to provide a spring type ratchet and a claw as shown in FIG. A fixing piece having a concave portion 11 to which a spring 24 is attached is provided at a lower portion of the support, and a hook-shaped claw 10 is provided on the adjusting tool 8, so that the support can be easily and quickly attached and removed with one touch. it can. In this way, a quick movement and a firm fixation can be achieved simultaneously. The height of the impact mallet can be finely adjusted by using a flange-type spring-type ratchet, a spherical ratchet, a semi-cylindrical horizontal projection ratchet, or the like provided on the upper part of the column.

FIG. 9 (a) is an explanatory view of another embodiment of the automatic impact cardiopulmonary resuscitation device of the present invention, and FIG. 9 (b) is a partial side view thereof. In the automatic impact cardiopulmonary resuscitation device of the present embodiment, a guide frame having two upper and lower continuously variable gear rails 31 meshed with and interlocked with the play gear 30 is provided on the back plate on which the patient 1 is supine, and the two columns are provided. Move the interval so that it matches the guard width of the patient. By meshing the idle gear and the stepless gear rail, the interval between the columns can be adjusted smoothly and steplessly. At the upper part of the column 3, an impact mallet 5 is connected to the column by a sheath-type telescopic device 6, so that the impact mallet can be held at a predetermined position even when the interval between the columns changes. When two pillars are placed on both sides of the patient,
By turning the fixed adjusting knob 32 provided on the adjusting tool 8 to tighten the helical shaft, it is possible to fix the position of the column by pressing against the inner surface of the guide frame. In this way, a quick movement and a firm fixation can be achieved simultaneously. 2. Description of the Related Art Conventionally, when a patient is transported while performing resuscitation work with an impact mallet, there has been a problem that the movement of an ambulance causes the patient's body to shift. Occasionally, this displacement may damage the patient's sternum. Attempts to load the gizzards on both sides of the patient to prevent the patient's body from shifting have been tedious and impractical in an emergency. In the embodiment shown in FIG. 9, the patient is horizontally moved along the guarding width direction by using a stepless gear rail, and the struts on both sides are fixed thereto by ratchets. Can be prevented from slipping. In this guard width adjustment method, since one idle gear 30 is the center, and a continuously variable gear rail 31 is meshed on both sides of the gear, when the gear rail in one direction is pressed, the idle gear rotates, and the opposite gear rail rotates. Approaches. That is, since the moving directions of both gear rails are opposite to each other, the adjusting tools 8 at both ends fixed to the gear rail move closer to or away from each other. Both gear rails are installed in the back plate. By turning the fixing adjustment knob 32 to tighten the helical shaft, it is possible to fix the position of the column by pressing against the inner surface of the guide frame. In this way, a quick movement and a firm fixation can be achieved simultaneously. If both adjustment tools are provided with a fixed adjustment knob, it can be fixed more firmly,
When emergency is required for emergency work or when work can only be performed from one side, such as inside an ambulance, two pillars can be fixed by tightening using only one fixed adjustment knob. Therefore, as shown in FIG. 9, the fixed adjustment knob may be provided on only one adjustment tool. The two columns 3 can be inserted and fixed to the adjustment tool 8 using a spring-type ratchet. Further, the upper impact mallet arm can be slid in conjunction with the movement of the lower portion by using the sheath type telescopic device.

[0012]

The automatic impact cardiopulmonary resuscitation device of the present invention can be safely, quickly and reliably attached to a patient who needs artificial resuscitation work including heart massage, regardless of the size of the patient. It is convenient for storage and arrangement in an ambulance, and there is no possibility that the relative position between the patient and the impact mallet during transportation is shifted.

[Brief description of the drawings]

FIG. 1 is a side view of two embodiments of an automatic impact cardiopulmonary resuscitation device according to the present invention, and a partial perspective view near an adjusting device having a spring-type ratchet.

FIG. 2 is a partial cross-sectional view and a partial perspective view showing the shape of a ratchet.

FIG. 3 is an explanatory diagram of one embodiment of a collar-type spring ratchet and a hook-shaped claw.

FIG. 4 is an explanatory view of another embodiment of a collar-type spring ratchet and a hook-shaped claw.

FIG. 5 is a plan view showing the shape of an elevated rib in three modes.

FIG. 6 is a cross-sectional view showing the shape of an impact head pad having elevated ribs in five modes.

FIG. 7 is a cross-sectional view showing a joint between the impact mallet rod and the impact head pad.

FIG. 8 is a partial side view and a partial sectional view of another embodiment of the automatic impact cardiopulmonary resuscitation device of the present invention.

FIG. 9 is an explanatory view and a partial side view of another embodiment of the automatic impact cardiopulmonary resuscitation device of the present invention.

[Explanation of symbols]

 DESCRIPTION OF SYMBOLS 1 Patient 2 Backboard 3 Prop 4 Impact hammer 5 Impact hammer arm 6 Sheath-type expansion / contraction device 7 Guide frame 8 Adjusting tool 9 Fixing point 10 Hook-shaped claw 11 Depression 12 Hook-shaped claw 13 Projection 14 Depression 15 Spherical ratchet claw Reference Signs List 16 hemispherical recess 17 semi-cylindrical horizontal projection ratchet claw 18 semi-cylindrical groove 19 impact hammer housing 20 flange-type spring-type ratchet 21 spring 22 operating collar 23 notch 24 spring 25 penetrated window 26 impact hammer rod 27 ball 28 impact Head pad 29 Universal joint 30 Play gear 31 Stepless gear rail 32 Fixed adjustment knob

Claims (11)

[Claims] 1. An automatic shock cardiopulmonary resuscitation device for performing a heart massage by repeatedly applying a shock, wherein a strut for supporting and moving a shock hammer in a vertical direction and a guide frame or a group of fixed points for horizontally moving the patient are provided. An automatic shock cardiopulmonary resuscitation device, which is provided on both sides of the device and has an adjuster having a spring-type ratchet at an intersection between a support and a guide frame or a group of fixed points or an intersection between a support and an impact mallet. 2. The ratchet pawl is a hook-shaped, spherical or semi-cylindrical horizontal projection, and the concave portion fitted with the ratchet is an independent or continuous digging window, a semi-spherical recess or a semi-cylindrical groove. Automatic shock cardiopulmonary resuscitation device as described. 3. The automatic impact cardiopulmonary resuscitation device according to claim 1, wherein the vertical or horizontal movement adjusting tool comprises a flanged spring ratchet. 4. An impact head pad is connected to an impact mallet rod,
Soft elastic whose tip is surrounded by a circular, elliptical or polygonal elevated rib having a curvature at the apex angle, a warp-shaped elevated rib or a sitting hakama-shaped elevated rib, and the inside of the elevated rib is cut into a concave shape. The automatic impact cardiopulmonary resuscitation device according to claim 1, which is made of a body material. 5. An elevated rib of an impact head pad connected to an impact mallet rod is formed of a rubber-like elastic material or soft resin having a JIS hardness of 10 to 60, and a connecting portion between the elevated rib and the impact mallet is JI.
The automatic impact cardiopulmonary resuscitation device according to claim 4, wherein the resuscitation device is formed of a rubber-like elastic body or a soft resin having an S hardness of 30 to 90, and both are integrally laminated. 6. A connection between the impact hammer rod and the impact head pad, wherein a sphere, a hemisphere or a short cylinder fixed to the impact hammer rod or the impact head pad forming the joint is a core, and a mortar-shaped fitting is provided. 5. The automatic impact cardiopulmonary resuscitation device according to claim 4, wherein the resuscitation is performed via a mortar-shaped universal joint which is opposed to the body. 7. The automatic shock cardiopulmonary resuscitation device according to claim 4, wherein the connection of the shock hammer rod and the shock head pad is performed through a crank-shaped universal joint. 8. A column for supporting and vertically moving the impact mallet and an adjusting tool having a spring-type ratchet are integrated with the back plate via a horizontally movable guide frame directly attached to the back plate. The automatic impact cardiopulmonary resuscitation device according to claim 1, wherein the resuscitation device is separated from an operating mechanism of a driving gas or a breathing gas. 9. The automatic stretcher according to claim 1, wherein a strut for supporting and vertically moving the impact mallet and an adjusting tool having a spring type ratchet are attached to the stretcher via a guide frame for horizontally moving. Impact cardiopulmonary resuscitation. 10. The automatic impact cardiopulmonary resuscitation device according to claim 1, wherein the guide frame for horizontal movement of the patient in the height direction is provided with one stepless gear rail meshed with the idle gear. 11. The automatic impact cardiopulmonary resuscitation device according to claim 1, wherein the frame for horizontal movement in the guarding width direction is provided with two upper and lower stepless gear rails meshing with and interlocking with a play gear.