CN110115679A - A kind of Emergence Cardiopulmonary Cerebrovascular buoyant apparatus - Google Patents

Abstract

The invention discloses a kind of Emergence Cardiopulmonary Cerebrovascular buoyant apparatus, right bottom plate including left bottom plate and on the right side of left bottom plate, the upper surface of the left bottom plate and right bottom plate is fixedly installed with left column and right column respectively, a crossbeam is fixedly installed between the left column and the top of right column, the electric telescopic rod being arranged straight down is fixedly installed on the crossbeam, the lower section of the crossbeam is equipped with transverse slat.The Emergence Cardiopulmonary Cerebrovascular buoyant apparatus, patient chest cardiac resuccitation can automatically be pressed, it avoids using the artificial trouble for carrying out cardiac resuccitation pressing, the workload for alleviating staff, it is lower to the level requirement of doctor, during pressing, the frequency of pressing can be adjusted by adjusting the revolving speed of driving motor according to actual needs, the use for cooperating ventilator simultaneously, improves the chance of success of heart and brain resuscitation, is suitable for promoting the use.

Description

A kind of Emergence Cardiopulmonary Cerebrovascular buoyant apparatus

Technical field

The present invention relates to Emergence technical field more particularly to a kind of Emergence Cardiopulmonary Cerebrovascular buoyant apparatus.

Background technique

In current Emergence, to patient carry out heart and brain resuscitation when, need to heart chest and abdomen carry out strength by Pressure recovery, previous rescue method are to need uninterrupted strength to press, general feelings using manually uninterruptedly pressing patient chest Condition needs experienced and very consummate technology just to can be carried out effective rescue, it is easy to which the dynamics for controlling bad pressing causes The decline of first aid success rate and the secondary injury of emergency patients' body.And it needs to consume medical matters using manual cardiac resuscitation's pressing The a large amount of physical strength of personnel, and the frequency pressed is difficult to control, it is higher to the level requirement of doctor；Meanwhile current heart and brain are multiple Soviet Union's buoyant apparatus lacks the function to patient's assisted respiartion mostly, and salvage success rate is lower.

Summary of the invention

Technical problems based on background technology, the invention proposes a kind of rescues of Emergence Cardiopulmonary Cerebrovascular to fill It sets.

A kind of Emergence Cardiopulmonary Cerebrovascular buoyant apparatus proposed by the present invention, including left bottom plate and be located at left bottom plate on the right side of Right bottom plate, the upper surface of the left bottom plate and right bottom plate is fixedly installed with left column and right column respectively, the left column and It is fixedly installed with a crossbeam between the top of right column, is fixedly installed with the electric expansion being arranged straight down on the crossbeam Bar, the lower section of the crossbeam is equipped with transverse slat, and the both ends of transverse slat are slidably mounted on left column respectively and right column is close to each other Side is fixedly connected at the top of the output end and transverse slat of the electric telescopic rod, and the bottom of the transverse slat is provided with for heart and brain The mechanical compression device of resuscitation；

The mechanical compression device includes the U-shaped framework for being fixedly mounted on transverse slat bottom, the two sides inner wall of the U-shaped framework Between be slidably fitted with a movable cross bar along the vertical direction, hinged seat is provided at the top of the activity cross bar, it is described hinged Swing rod is rotatablely hinged on seat, the top rotation of the activity cross bar is equipped with U-shaped crankshaft, and the two sides of the U-shaped crankshaft are solid respectively Surely it is connected with shaft and transmission shaft, and the right end rotation of transmission shaft is through to the outside of U-shaped framework, rotates on the U-shaped crankshaft It is arranged with rotation pipe, and the top of swing rod is fixedly connected with rotation pipe, mounting plate is provided on the right side of the U-shaped framework, installed Driving motor is fixedly installed on plate, and driving motor is fixedly connected by shaft coupling with the right end of transmission shaft, the movable transverse The bottom of bar is fixedly welded with the compression bar being vertically arranged, and the bottom end sliding of the compression bar is through to lower section and the fixation of U-shaped framework It is connected with the press head of rubber material, the press head is internally provided with pressure sensor；

The upper surface of the left bottom plate is additionally provided with ventilator, and soft air-guide pipe, the air guide are connected on the ventilator One end of hose is provided with respirator.

Preferably, the left column and right column side close to each other are equipped with sliding slot, and the both ends of the transverse slat are all provided with There is sliding block, and sliding block is slidably mounted in sliding slot along the vertical direction.

Preferably, through hole is equipped at the half of the crossbeam length, the electric telescopic rod through through hole, The two sides of the electric telescopic rod are fixedly welded with connecting plate, and connecting plate is bolted on the bottom of crossbeam.

Preferably, L shape hanger is provided on the left column, and soft air-guide pipe is hung up on L shape hanger, the respirator On be additionally provided with elastic fixing belt for wearing.

Preferably, guide rail is equipped on the two sides inner wall of the U-shaped framework, the both ends of the activity cross bar are equipped with guiding Sliding block, and guide runner is slidably mounted on guide rail.

Preferably, the bottom interior wall of the U-shaped framework is equipped with mounting hole, and fixing sleeve is connected to sliding sleeve in mounting hole, and presses Bar sliding runs through sliding sleeve.

Preferably, rotation seat is installed, the left end of the shaft is rotatably installed in the inner left wall of the U-shaped framework On dynamic seat；The right side inner wall of the U-shaped framework is equipped with sleeve joint hole, and fixing sleeve is connected to bearing race in sleeve joint hole, and transmission shaft passes through It wears the inner ring of bearing race and is fixedly connected with the inner ring of bearing race.

Preferably, the upper surface of the right bottom plate is equipped with electric cabinet, is equipped with battery and controller, institute in the electric cabinet Battery, driving motor, pressure sensor, electric telescopic rod and ventilator is stated to be electrically connected with the controller respectively.

The beneficial effects of the present invention are:

1, the Emergence Cardiopulmonary Cerebrovascular buoyant apparatus, passes through driving motor, transmission shaft, U-shaped crankshaft, rotation pipe, pendulum The cooperation of bar, guide runner, guide rail, hinged seat, movable cross bar, compression bar, can make press head pump, into And realize and patient chest cardiac resuccitation is automatically pressed, it avoids using the artificial trouble for carrying out cardiac resuccitation pressing, Alleviate the workload of staff；

2, in the Emergence Cardiopulmonary Cerebrovascular buoyant apparatus, press head is rubber material, can ensure the comfortable of pressing Property, while the inside of press head is equipped with pressure sensor, the pressing dynamics of press head is detected by pressure sensor, and pass through The pressing dynamics of press head in the adjustable mechanical compression device that stretches of electric telescopic rod；It, can be according to reality during pressing Border needs the revolving speed by adjusting driving motor to adjust the frequency of pressing；

3, in the Emergence Cardiopulmonary Cerebrovascular buoyant apparatus, when the expiratory dyspnea of patient, it can put on and exhale for patient Suction hood, and assisted respiartion is carried out to patient using ventilator work, to improve the chance of success of heart and brain resuscitation；

In conclusion the Emergence Cardiopulmonary Cerebrovascular buoyant apparatus, can carry out patient chest cardiac resuccitation automatic Pressing, avoid using the artificial trouble for carrying out cardiac resuccitation pressing, the workload of staff alleviated, to the water of doctor It is flat to require lower, during pressing, the frequency of pressing can be adjusted by adjusting the revolving speed of driving motor according to actual needs, The use for cooperating ventilator simultaneously, improves the chance of success of heart and brain resuscitation, is suitable for promoting the use.

Detailed description of the invention

Fig. 1 is a kind of structural schematic diagram of Emergence Cardiopulmonary Cerebrovascular buoyant apparatus proposed by the present invention；

Fig. 2 is the structural schematic diagram of mechanical compression device in the present invention；

Fig. 3 is the structural schematic diagram of sliding sleeve in the present invention；

Fig. 4 is the cross section structure schematic diagram of U-shaped crankshaft and rotation pipe jointing part in the present invention；

Fig. 5 is the attachment structure schematic diagram of respirator of the present invention and elastic fixing belt.

In figure: 1 left bottom plate, 2 right bottom plates, 3 left columns, 4 right columns, 5 crossbeams, 6 electric telescopic rods, 7 transverse slats, 8 machinery are pressed Pressure device, 801U type frame, 802 driving motors, 803 transmission shafts, 804U type crankshaft, 805 rotation pipes, 806 swing rods, 807 are hingedly Seat, 808 movable cross bars, 809 compression bars, 810 press heads, 811 bearing races, 812 pressure sensors, 813 sliding sleeves, 814 guide runners, 815 guide rails, 816 shafts, 817 rotation seats, 9 sliding blocks, 10 sliding slots, 11 ventilators, 12 soft air-guide pipes, 13 respirators, 14L shape are hung Frame, 15 through holes, 16 connecting plates, 17 electric cabinets, 18 batteries, 19 controllers, 20 elastic fixing belts.

Specific embodiment

Combined with specific embodiments below the present invention is made further to explain.

Embodiment

With reference to Fig. 1-5, a kind of Emergence Cardiopulmonary Cerebrovascular buoyant apparatus, including left bottom plate 1 are proposed in the present embodiment With the right bottom plate 2 for being located at 1 right side of left bottom plate, the upper surface of the left bottom plate 1 and right bottom plate 2 is fixedly installed with left column 3 respectively With right column 4, a crossbeam 5, fixed peace on the crossbeam 5 are fixedly installed between the left column 3 and the top of right column 4 Equipped with the electric telescopic rod 6 being arranged straight down, the lower section of the crossbeam 5 is equipped with transverse slat 7, and the both ends of transverse slat 7 are slided respectively It is installed on left column 3 and the side close to each other of right column 4, the top of the output end and transverse slat 7 of the electric telescopic rod 6 is fixed Connection, the bottom of the transverse slat 7 is provided with the mechanical compression device 8 for heart and brain resuscitation；

The mechanical compression device 8 includes the U-shaped framework 801 for being fixedly mounted on 7 bottom of transverse slat, the U-shaped framework 801 A movable cross bar 808 is slidably fitted between the inner wall of two sides along the vertical direction, the top setting of the activity cross bar 808 is hinged Joint chair 807, swing rod 806 is rotatablely hinged on the hinged seat 807, and the top rotation of the activity cross bar 808 is equipped with U-shaped crankshaft 804, the two sides of the U-shaped crankshaft 804 have been respectively fixedly connected with shaft 816 and transmission shaft 803, and the right end of transmission shaft 803 turns The outside for being through to U-shaped framework 801 is moved, turning set is equipped with rotation pipe 805, and the top of swing rod 806 on the U-shaped crankshaft 804 It is fixedly connected with rotation pipe 805, the right side of the U-shaped framework 801 is provided with mounting plate, and driving electricity is fixedly installed on mounting plate Machine 802, and driving motor 802 is fixedly connected by shaft coupling with the right end of transmission shaft 803, the bottom of the activity cross bar 808 It is fixedly welded with the compression bar 809 being vertically arranged, the bottom end sliding of the compression bar 809 is through to lower section and the fixation of U-shaped framework 801 It is connected with the press head 810 of rubber material, the press head 810 is internally provided with pressure sensor 812；

The upper surface of the left bottom plate 1 is additionally provided with ventilator 11, and soft air-guide pipe 12, institute are connected on the ventilator 11 The one end for stating soft air-guide pipe 12 is provided with respirator 13.The Emergence Cardiopulmonary Cerebrovascular buoyant apparatus, can be to patient chest Cardiac resuccitation is automatically pressed, and is avoided using the artificial trouble for carrying out cardiac resuccitation pressing, is alleviated staff's Workload, it is lower to the level requirement of doctor, it, can be according to actual needs by adjusting driving motor 802 during pressing Revolving speed adjusts the frequency of pressing, while cooperating the use of ventilator 11, improves the chance of success of heart and brain resuscitation, is suitable for It promotes the use.

Specifically, the left column 3 is equipped with sliding slot 10, the both ends of the transverse slat 7 with the side close to each other of right column 4 It is equipped with sliding block 9, and sliding block 9 is slidably mounted on along the vertical direction in sliding slot 10.

Specifically, through hole 15 is equipped at the half of 5 length of crossbeam, the electric telescopic rod 6 is through passing through Perforation 15, the two sides of the electric telescopic rod 6 are fixedly welded with connecting plate 16, and connecting plate 16 is bolted on crossbeam 5 bottom.

Specifically, L shape hanger 14 is provided on the left column 3, and soft air-guide pipe 12 is hung up on L shape hanger 14, institute State the elastic fixing belt 20 being additionally provided on respirator 13 for wearing.

Specifically, guide rail 815, the both ends of the activity cross bar 808 are equipped on the two sides inner wall of the U-shaped framework 801 It is equipped with guide runner 814, and guide runner 814 is slidably mounted on guide rail 815.

Specifically, the bottom interior wall of the U-shaped framework 801 is equipped with mounting hole, and fixing sleeve is connected to sliding sleeve in mounting hole 813, and the sliding of compression bar 809 runs through sliding sleeve 813.

Specifically, rotation seat 817 is installed, the left end of the shaft 816 turns in the inner left wall of the U-shaped framework 801 It is dynamic to be mounted on rotation seat 817；The right side inner wall of the U-shaped framework 801 is equipped with sleeve joint hole, and fixing sleeve is connected to axis in sleeve joint hole Circle 811 is held, and transmission shaft 803 runs through the inner ring of bearing race 811 and is fixedly connected with the inner ring of bearing race 811.

Specifically, the upper surface of the right bottom plate 2 is equipped with electric cabinet 17, is equipped with battery 18 and control in the electric cabinet 17 Device 19 processed, the battery 18, driving motor 802, pressure sensor 812, electric telescopic rod 6 and ventilator 11 respectively with control Device 19 processed is electrically connected, it should be noted that the above-mentioned control section by controller 19 uses existing technology, no longer superfluous herein It states.

In the present embodiment, when in use, the indoor medical bed of first aid is placed in the lower section of mechanical compression device 8, patient lies In medical bed, then fat or thin according to the stature of patient, flexible by electric telescopic rod 6 adjusts mechanical compression device 8 With the upper and lower position of patient chest；Then transmission shaft 803 is driven to rotate by driving motor 802, transmission shaft 803 drives U-shaped song Axis 804 rotates, and drives swing rod 806 to carry out up and down direction swing further through rotation pipe 805 during the U-shaped rotation of crankshaft 804, with This simultaneously, the slide-and-guide along the vertical direction on guide rail 815 of guide runner 814, swing rod 806 drives further through hinged seat 807 and lives Dynamic cross bar 808 pumps, and then movable cross bar 808 drives press head 810 up and down reciprocatingly to transport further through compression bar 809 It is dynamic, and then realize and patient chest cardiac resuccitation is pressed；And press head 810 is rubber material, can ensure comfort, simultaneously The inside of press head 810 is equipped with pressure sensor 812, and the pressing dynamics of press head 810 are detected by pressure sensor 812, And the pressing dynamics of the adjustable mechanical compression device 8 that stretches by electric telescopic rod 6；It, can be according to reality during pressing Border needs the revolving speed by adjusting driving motor 802 to adjust the frequency of pressing；It can be patient when the expiratory dyspnea of patient Put on respirator 13, and worked using ventilator 11 to carry out assisted respiartion to patient, so as to improve heart and brain resuscitation at Function probability；And the above-mentioned trouble avoided using artificial progress cardiac resuccitation pressing, the workload of staff is alleviated, it is right The level requirement of doctor is lower, is suitable for promoting the use.

The foregoing is only a preferred embodiment of the present invention, but scope of protection of the present invention is not limited thereto, Anyone skilled in the art in the technical scope disclosed by the present invention, according to the technique and scheme of the present invention and its Inventive concept is subject to equivalent substitution or change, should be covered by the protection scope of the present invention.

Claims (8)

1. a kind of Emergence Cardiopulmonary Cerebrovascular buoyant apparatus, including left bottom plate (1) and the right bottom plate being located on the right side of left bottom plate (1) (2), which is characterized in that the upper surface of the left bottom plate (1) and right bottom plate (2) is fixedly installed with left column (3) He Youli respectively Column (4) is fixedly installed with a crossbeam (5), consolidates on the crossbeam (5) between the left column (3) and the top of right column (4) Dingan County is equipped with the electric telescopic rod (6) being arranged straight down, and the lower section of the crossbeam (5) is equipped with transverse slat (7), and transverse slat (7) Both ends are slidably mounted on left column (3) and right column (4) side close to each other, the output of the electric telescopic rod (6) respectively It holds and is fixedly connected at the top of transverse slat (7), the bottom of the transverse slat (7) is provided with the mechanical compression dress for heart and brain resuscitation Set (8)；

The mechanical compression device (8) includes the U-shaped framework (801) for being fixedly mounted on transverse slat (7) bottom, the U-shaped framework (801) a movable cross bar (808) is slidably fitted between two sides inner wall along the vertical direction, the activity cross bar (808) Top is provided with hinged seat (807), is rotatablely hinged with swing rod (806) on the hinged seat (807), the activity cross bar (808) Top rotation be equipped with U-shaped crankshaft (804), the two sides of the U-shaped crankshaft (804) be respectively fixedly connected with shaft (816) and pass Moving axis (803), and the right end rotation of transmission shaft (803) is through to the outsides of U-shaped framework (801), on the U-shaped crankshaft (804) Turning set is equipped with rotation pipe (805), and the top of swing rod (806) is fixedly connected with rotation pipe (805), the U-shaped framework (801) Right side be provided with mounting plate, be fixedly installed on mounting plate driving motor (802), and driving motor (802) passes through shaft coupling It is fixedly connected with the right end of transmission shaft (803), the bottom of the activity cross bar (808) is fixedly welded with the compression bar being vertically arranged (809), the compression bar (809) bottom end sliding be through to U-shaped framework (801) lower section and be fixedly connected with rubber material by Pressure head (810), the press head (810) are internally provided with pressure sensor (812)；

The upper surface of the left bottom plate (1) is additionally provided with ventilator (11), is connected with soft air-guide pipe on the ventilator (11) (12), one end of the soft air-guide pipe (12) is provided with respirator (13).

2. a kind of Emergence Cardiopulmonary Cerebrovascular buoyant apparatus according to claim 1, which is characterized in that the left column (3) it being equipped with sliding slot (10) with right column (4) side close to each other, the both ends of the transverse slat (7) are equipped with sliding block (9), and Sliding block (9) is slidably mounted on along the vertical direction in sliding slot (10).

3. a kind of Emergence Cardiopulmonary Cerebrovascular buoyant apparatus according to claim 1, which is characterized in that the crossbeam (5) through hole (15) are equipped at the half of length, the electric telescopic rod (6) is described electronic through through hole (15) The two sides of telescopic rod (6) are fixedly welded with connecting plate (16), and connecting plate (16) is bolted on the bottom of crossbeam (5) Portion.

4. a kind of Emergence Cardiopulmonary Cerebrovascular buoyant apparatus according to claim 1, which is characterized in that the left column (3) it is provided with L shape hanger (14) on, and soft air-guide pipe (12) is hung up on L shape hanger (14), is also set on the respirator (13) There is the elastic fixing belt (20) for wearing.

5. a kind of Emergence Cardiopulmonary Cerebrovascular buoyant apparatus according to claim 1, which is characterized in that the U-shaped frame It is equipped on the two sides inner wall of frame (801) guide rail (815), the both ends of the activity cross bar (808) are equipped with guide runner (814), and guide runner (814) is slidably mounted on guide rail (815).

6. a kind of Emergence Cardiopulmonary Cerebrovascular buoyant apparatus according to claim 1, which is characterized in that the U-shaped frame The bottom interior wall of frame (801) is equipped with mounting hole, and fixing sleeve is connected to sliding sleeve (813) in mounting hole, and compression bar (809) sliding runs through Sliding sleeve (813).

7. a kind of Emergence Cardiopulmonary Cerebrovascular buoyant apparatus according to claim 1, which is characterized in that the U-shaped frame It is equipped in the inner left wall of frame (801) rotation seat (817), the left end of the shaft (816) is rotatably installed in rotation seat (817) On；The right side inner wall of the U-shaped framework (801) is equipped with sleeve joint hole, and fixing sleeve is connected to bearing race (811) in sleeve joint hole, and passes Moving axis (803) runs through the inner ring of bearing race (811) and is fixedly connected with the inner ring of bearing race (811).

8. a kind of Emergence Cardiopulmonary Cerebrovascular buoyant apparatus according to claim 1, which is characterized in that the right bottom plate (2) upper surface is equipped with electric cabinet (17), and battery (18) and controller (19), the electric power storage are equipped in the electric cabinet (17) Pond (18), driving motor (802), pressure sensor (812), electric telescopic rod (6) and ventilator (11) respectively with controller (19) it is electrically connected.