CN207837847U - Semi-automatic cardio-pulmonary resuscitation machine - Google Patents

Abstract

The utility model is related to a kind of medical instruments field, disclose it is a kind of it is easy to operate, be easy to learn and use, the semi-automatic cardio-pulmonary resuscitation machine that respiratoring palpitating suddenly stopping patient can be rescued.It includes hoisting system, cardiopulmonary resuscitation system, cardiopulmonary resuscitation system includes cover, casing is equipped with below cover, center is equipped with hole in casing, pressing lever is installed in hole, the mechanism one that pumps is equipped with above pressing lever, the mechanism that pumps one is connect with axis one, axis one is set on casing and is located at pressing lever side, axis one is connect by transmission mechanism one with motor, axis one is connect by transmission mechanism two with axis two, axis two is connect by the mechanism two that pumps with pressing plate, pressing plate is arranged right below the breathing bag being fixed in casing, breathing bag is connect with pipe one end, the pipe other end is connect with mask；Hoisting system includes lifting device, protective shell, and lifting device is located in protective shell；Lifting device top is connect with casing lower part；Lifting device lower part is connect with plate.

Description

Semi-automatic cardio-pulmonary resuscitation machine

Technical field

The utility model is related to medical instruments fields, specifically, being about a kind of semi-automatic cardio-pulmonary resuscitation machine.

Background technology

Currently, when rescuing the patient of respiratoring palpitating suddenly stopping, on the one hand medical staff will manually carry out chest unfaithful intention to patient Dirty pressing, and several medical staff is needed to press in turn, since each one muscle power is different, cause frequency, the amplitude of pressing It is different, it is unfavorable for the CPR of patient；On the other hand mouth-to-mouth artificial respiration is carried out to patient, and some patients With communicable disease or other diseases so that medical staff has the possibility for causing hair infection；Meanwhile entirely rescuing process time Anxiety, great work intensity, medical staff's fatiguability.

In addition, for the patient of respiratoring palpitating suddenly stopping, rescue time is very of short duration, if patient AT STATION, market etc. Public place disease hair, in the case of no professional emergency staffs, one kind may be to miss rescue because that cannot rescue in time Time, loss of life；One kind may be to be rescued by amateur emergency staffs, and many amateur emergency staffs are to patient During being rescued, it cannot accomplish correct life-kiss and closed cardiac massage, to make patient lose life Life.

Utility model content

The utility model overcomes deficiency in the prior art, provides one kind and being applicable not only to hospital and be suitable for it His large-scale public place, easy to operate, be easy to learn and use, the semi-automatic cardiopulmonary that can be rescued to respiratoring palpitating suddenly stopping patient are multiple Soviet Union's machine.

In order to solve the above-mentioned technical problem, the utility model is achieved through the following technical solutions：Semi-automatic cardiopulmonary are multiple Soviet Union's machine, including hoisting system, cardiopulmonary resuscitation system, the cardiopulmonary resuscitation system include cover, and cover upper surface is equipped with operation and controls Panel processed, cover lower surface are equipped with control circuit board, and casing is equipped with below cover, and center is equipped with hole in casing, is worn in hole There is pressing lever, pressing lever top, which is installed with, restores spring one, is equipped with the mechanism one that pumps above pressing lever, up and down reciprocatingly transports Motivation structure one is connect with axis one, and axis one is set on casing and is located at pressing lever side, and axis one passes through transmission mechanism one and motor Connection, axis one are connect by transmission mechanism two with axis two, and axis two is connect by the mechanism two that pumps with pressing plate, pressing Plate is arranged right below the breathing bag being fixed in casing, and breathing bag is connect with pipe one end, and the pipe other end is connect with mask, face Cover is located at outside casing；It is additionally provided with below pressing plate and restores spring two；Hoisting system includes lifting device, protective shell, lifting dress Setting in protective shell；Lifting device top is connect with casing lower part；Lifting device lower part is connect with plate；Wherein：

The lifting device, motor are connect with control circuit board respectively；Control circuit board is connect with operation and control panel.

The mechanism one that pumps is rack and pinion mechanism, it includes rack one, half gear one, and rack one is located at Above pressing lever, half gear one is connected with axis one；

The mechanism two that pumps is rack and pinion mechanism, it includes rack two, half gear two, and rack two is located at Above pressing plate, half gear two is connect with axis two.

The mechanism one that pumps, the mechanism that pumps two are cam mechanism.

The transmission mechanism one, transmission mechanism two are chain sprocket decelerating mechanism.

The transmission mechanism one, transmission mechanism two are belt wheel deceleration mechanism.

The lifting device is two and is symmetrically arranged in below casing, on the inside of casing or so lateral surface and protective shell or so Face is connected by guide rail with guide groove.

The lifting device is fork hydraulic lifting device.

The reciprocating frequence of the mechanism one that pumps is 90~130 beats/min；The mechanism that pumps two Reciprocating frequence is 10~20 beats/min.

The reciprocating frequence of the mechanism one that pumps is 105 beats/min；The mechanism that pumps two it is reciprocal Frequency is 15 beats/min.

Compared with prior art, the utility model has the beneficial effects that：The utility model can imitate medical staff to suffering from Person carry out CPR rescue, and it is easy to operate, be easy to learn and use；It can not only realize closed cardiac massage frequency and amplitude one It causes, is conducive to the CPR of patient, and the labor intensity of emergency staffs can be reduced；Medical staff is avoided due to directly right Patient carry out mouth-to-mouth artificial respiration and caused by disease infect；The utility model is applicable not only to hospital and is suitable for it His large-scale public place can do the rescue of profession for respiratoring palpitating suddenly stopping patient, be without professional emergency staffs Patient strives for rescue time, improves patient's salvage success rate；The utility model can realize the operation and control of intelligent automation System.

Description of the drawings

Fig. 1 is the schematic diagram of semi-automatic cardio-pulmonary resuscitation machine；

Fig. 2 is the schematic diagram that semi-automatic cardio-pulmonary resuscitation machine removes cover；

Fig. 3 is the vertical view that semi-automatic cardio-pulmonary resuscitation machine removes cover；

Fig. 4 is the sectional view of A-A along Fig. 3；

Fig. 5 is the schematic diagram that semi-automatic cardio-pulmonary resuscitation machine removes cover, casing and motor；

Fig. 6 is the front view that semi-automatic cardio-pulmonary resuscitation machine removes cover, casing and motor；

Fig. 7 is the vertical view that semi-automatic cardio-pulmonary resuscitation machine removes cover, casing and motor；

Fig. 8 is semi-automatic cardio-pulmonary resuscitation machine casing and motor schematic diagram

Fig. 9 is the front view of semi-automatic cardio-pulmonary resuscitation machine casing and motor；

Figure 10 is the vertical view of semi-automatic cardio-pulmonary resuscitation machine casing and motor；

Figure 11 is the sectional view of B-B along Figure 10；

Figure 12 is the sectional view of C-C along Figure 10；

Figure 13 is the upward view of automatic cardio-pulmonary resuscitation machine casing and motor；

Figure 14 is the front view of cover；

Figure 15 is the vertical view of cover；

Figure 16 is the upward view of cover；

In figure, 1 cover, 2 operation and control panels, 3 control circuit boards, 4 casings, 401 holes, 5 pressing levers, 6 restore springs one, 7 pump mechanism one, 701 racks one, 702 half gears one, 8 axis one, 9 transmission mechanisms one, 10 motor, 11 drivers Structure two, 12 axis two, 13 pump mechanism two, 1301 racks two, 1,302 half gears two, 14 pressing plate, 15 breathing bags, 16 restore spring two, 17 lifting devices, 18 protective shells, 19 pipes, 20 masks, 21 plates.

Specific implementation mode

The utility model is described in further detail with specific implementation mode below in conjunction with the accompanying drawings：Semi-automatic CPR Machine, including hoisting system, cardiopulmonary resuscitation system, the cardiopulmonary resuscitation system include cover 1, and 1 upper surface of cover is equipped with operation and controls Panel 2 processed, 1 lower surface of cover are equipped with control circuit board 3, and 1 lower section of cover is equipped with casing 4, and center is equipped with hole in casing 4 401, pressing lever 5 is installed in hole 401,5 top of pressing lever, which is installed with, restores spring 1, and 5 top of pressing lever, which is equipped with, to pump Mechanism 1, the mechanism that pumps 1 are connect with axis 1, and axis 1 is set on casing 4 and is located at 5 side of pressing lever, axis one 8 are connect by transmission mechanism 1 with motor 10, and axis 1 is connect by transmission mechanism 2 11 with axis 2 12, and axis 2 12 is by upper Lower reciprocating mechanism 2 13 is connect with pressing plate 14, and pressing plate 14 is arranged right below the breathing bag 15 being fixed in casing 4, Breathing bag 15 is connect with 19 one end of pipe, and 19 other end of pipe is connect with mask 20, and mask 20 is located at outside casing 4；Pressing plate 14 Lower section, which is additionally provided with, restores spring 2 16；Hoisting system includes lifting device 17, protective shell 18, and lifting device 17 is located at protective shell 18 It is interior；17 top of lifting device is connect with 4 lower part of casing；17 lower part of lifting device is connect with plate 21；Wherein：

The lifting device 17, motor 10 are connect with control circuit board 3 respectively；Control circuit board 3 and operation and control face Plate 2 connects.

The mechanism 1 that pumps is rack and pinion mechanism, it includes rack 1, half gear 1, tooth Item 1 is located at 5 top of pressing lever, and half gear 1 is connected with axis 1；

The mechanism 2 13 that pumps is rack and pinion mechanism, it includes rack 2 1301, half gear 2 1302, Rack 2 1301 is located at 14 top of pressing plate, and half gear 2 1302 is connect with axis 2 12.

The mechanism 1 that pumps, the mechanism that pumps 2 13 are cam mechanism.

The transmission mechanism 1, transmission mechanism 2 11 are belt wheel deceleration mechanism.

The lifting device 17 is two and is symmetrically arranged in 4 lower section of casing, and 4 or so lateral surface of casing is left with protective shell 18 Right Inboard face is connected by guide rail with guide groove.

The lifting device 17 is fork hydraulic lifting device.

The reciprocating frequence of the mechanism 1 that pumps is 90~130 beats/min；The mechanism that pumps two 13 reciprocating frequence is 10~20 beats/min.

The reciprocating frequence of the mechanism 1 that pumps is 105 beats/min；The mechanism that pumps 2 13 Reciprocating frequence is 15 beats/min.

The control circuit board 3 is PLC control circuit boards；Motor 10 is stepper motor.

In the utility model, the mechanism that pumps 1 drives pressing lever 5 to move up and down, and can simulate medical staff couple Patient carries out the process of closed cardiac massage；The mechanism that pumps 2 13 drives pressing plate 14 to move up and down, pressing plate 14 Breathing bag 15 is pressed, human body is entered by pipe 19, mask 20 by the gas of capsule 15, to simulate medical staff to suffering from The process that person practices artificial respiration；

It, will be by when the utility model is used, be first put into patient in the space being made of cover 1, casing 4, plate 21 Compression bar 5 is placed in patient's corresponding position, and controlling pressing lever 5 by control panel 2 presses with needed for patient at a distance from position, by mask 20 are anchored on patient's mouth and nose, start the utility model, and medical care people can be simulated by starting closed cardiac massage and breathing bag pressing Member carries out patient the rescue process of CPR；In addition, the utility model can individually simulate medical staff carries out chest to patient The process of outer cardiac compression and artificial respiration.

In the present invention, lifting device 17 can be the hydraulic device of other forms or the mechanical lift dress of other forms Set, for example, helical structure or gear structure mechanical lift device；Plate 21 can be removed, idler wheel is installed below protective shell 18, The utility model is carried more convenient using meeting in this way；In order to increase the stability of the utility model when in use, can protect 18 lower section of protective case is installed by folding support leg；These can fall into the scope of protection of the utility model.

The utility model can simulate rescue process of the medical staff to breathing sudden cardiac arrest patient, closed cardiac massage Frequency and amplitude, which can be realized, to be precisely controlled, and is consistent, is beneficial to the raising of patient's salvage success rate；Alleviate medical care people The labor intensity of member's rescue work；Reduce risk of the medical staff by the infectious disease caused by artificial respiration.

The utility model is applicable not only to hospital, applies also for other large-scale public places, can rescue people without profession In the case of member, the rescue of profession is done for respiratoring palpitating suddenly stopping patient, is striven for rescue time for patient, is improved patient's successful rescue Rate.

In addition, the utility model is easy to operate, it is easy to learn and use, as long as carrying out letter to associated medical person or non-medical staff Single training can grasp application method, can realize automation and intelligentized control method.

Technical characteristic of the utility model without description can realize that details are not described herein by or using the prior art, Certainly, above-mentioned specific implementation mode is not limitations of the present invention, and the utility model is also not limited to above-mentioned specific Embodiment, variation that those skilled in the art are made in the essential scope of the utility model retrofit, add Add or replace, should also fall into the scope of protection of the utility model.

Claims (10)

1. semi-automatic cardio-pulmonary resuscitation machine, including hoisting system, cardiopulmonary resuscitation system, which is characterized in that the cardiopulmonary resuscitation system Including cover（1）, cover（1）Upper surface is equipped with operation and control panel（2）, cover（1）Lower surface is equipped with control circuit board（3）, Cover（1）Lower section is equipped with casing（4）, casing（4）Interior center is equipped with hole（401）, hole（401）Inside it is installed with pressing lever（5）, press Compression bar（5）Top, which is installed with, restores spring one（6）, pressing lever（5）Top is equipped with the mechanism one that pumps（7）, up and down reciprocatingly Motion one（7）With axis one（8）Connection, axis one（8）Set on casing（4）It goes up and is located at pressing lever（5）Side, axis one（8）It is logical Cross transmission mechanism one（9）With motor（10）Connection, axis one（8）Pass through transmission mechanism two（11）With axis two（12）Connection, axis two （12）Pass through the mechanism two that pumps（13）With pressing plate（14）Connection, pressing plate（14）It is arranged right below and is fixed on casing （4）Interior breathing bag（15）, breathing bag（15）With pipe（19）One end connects, pipe（19）The other end and mask（20）Connection, Mask（20）Positioned at casing（4）It is external；Pressing plate（14）Lower section, which is additionally provided with, restores spring two（16）；Hoisting system includes that lifting fills It sets（17）, protective shell（18）, lifting device（17）Positioned at protective shell（18）It is interior；Lifting device（17）Top and casing（4）Lower part Connection；Lifting device（17）Lower part and plate（21）Connection；Wherein：

The lifting device（17）, motor（10）Respectively with control circuit board（3）Connection；Control circuit board（3）It is controlled with operation Panel processed（2）Connection.

2. semi-automatic cardio-pulmonary resuscitation machine according to claim 1, which is characterized in that the mechanism one that pumps （7）For rack and pinion mechanism, it includes rack one（701）, half gear one（702）, rack one（701）Positioned at pressing lever（5）On Side, half gear one（702）With axis one（8）It is connected.

3. semi-automatic cardio-pulmonary resuscitation machine according to claim 1, which is characterized in that the mechanism two that pumps （13）For rack and pinion mechanism, it includes rack two（1301）, half gear two（1302）, rack two（1301）Positioned at pressing plate （14）Top, half gear two（1302）With axis two（12）Connection.

4. semi-automatic cardio-pulmonary resuscitation machine according to claim 1, which is characterized in that the mechanism one that pumps （7）, the mechanism that pumps two（13）For cam mechanism.

5. semi-automatic cardio-pulmonary resuscitation machine according to claim 1, which is characterized in that the transmission mechanism one（9）, driver Structure two（11）For chain sprocket decelerating mechanism.

6. semi-automatic cardio-pulmonary resuscitation machine according to claim 1, which is characterized in that the transmission mechanism one（9）, driver Structure two（11）For belt wheel deceleration mechanism.

7. semi-automatic cardio-pulmonary resuscitation machine according to any one of claims 1 to 6, which is characterized in that the lifting device （17）For two and it is symmetrically arranged in casing（4）Lower section, casing（4）Left and right lateral surface and protective shell（18）Left and right medial surface passes through Guide rail is connected with guide groove.

8. semi-automatic cardio-pulmonary resuscitation machine according to claim 7, which is characterized in that the lifting device（17）For scissor-type Hydraulic pressure lifting device.

9. semi-automatic cardio-pulmonary resuscitation machine according to claim 1, which is characterized in that the mechanism one that pumps （7）Reciprocating frequence be 90~130 beats/min；The mechanism that pumps two（13）Reciprocating frequence be 10~20 beats/min Clock.

10. semi-automatic cardio-pulmonary resuscitation machine according to claim 9, which is characterized in that the mechanism one that pumps （7）Reciprocating frequence be 105 beats/min；The mechanism that pumps two（13）Reciprocating frequence be 15 beats/min.