CN111939477B

CN111939477B - Full-automatic cardiac pacemaker

Info

Publication number: CN111939477B
Application number: CN202010976225.6A
Authority: CN
Inventors: 赵永红; 亓玉心; 杨振富
Original assignee: Individual
Current assignee: Zhao Yonghong
Priority date: 2020-09-16
Filing date: 2020-09-16
Publication date: 2021-03-16
Anticipated expiration: 2040-09-16
Also published as: CN111939477A

Abstract

The invention discloses a full-automatic cardiac pacemaker, which comprises a wiping system, an electrode placing system, a drying system, a conversion system and a base, wherein the base is an installation platform of each device of the device and a platform placed on the ground, the wiping system can automatically wipe and disinfect heart parts and blood vessel parts of a body, the device can automatically soak alcohol, the electrode placing system can suck up the electrode tray and assist in placing the electrode on a required part, the tray is placed on the surface of a required body to complete the pacing action of the heart, the drying system can dry the part after being wiped and disinfected and quickly dry moisture, and can maintain a proper temperature at which the pacing system can operate, the switching system can switch the various functional modules, and converting each module according to the program, and keeping corresponding function time so that each module can complete the corresponding function.

Description

Full-automatic cardiac pacemaker

Technical Field

The invention relates to the technical field of medical care instruments, in particular to a full-automatic cardiac pacemaker.

Background

In the emergency rescue process, the installation of the external temporary cardiac pacemaker is an indispensable ring, but the installation process is too complicated, the equipment is too heavy, the experience of installation personnel is uneven, and the optimal rescue time is often missed. To solve such a problem, application No.: CN20140642489.8 discloses an external cardiac pacemaker, which uses a battery to provide a current power supply for cardiac pacing, but the device itself and the existing cardiac pacemaker do not have much functional upgrade, which is helpful for reducing the labor intensity of medical staff, and the battery is not stable in power supply, so that it is dangerous to power off easily.

Disclosure of Invention

Aiming at the problems, the invention provides a full-automatic cardiac pacemaker, which comprises a wiping system, an electrode placing system, a drying system, a conversion system and a base.

The base is a mounting platform of the wiping system, the electrode placing system, the drying system and the conversion system, and the wiping system, the electrode placing system and the drying system are mounted on three cross rods of the conversion system.

The wiping system comprises: the sanitary cotton sleeve comprises a sanitary cotton sleeve, a cotton sleeve support column, a sliding block, a sliding rail support plate, an extension cylinder support, an extension cylinder extension shaft connecting block, a movable sliding block, a reinforced upper sliding rail, a reinforced lower sliding rail, a motor sliding block connecting block, a jacking cylinder upper back connecting block, a jacking cylinder sleeve plate, a lower jacking plate, a linear bearing, a linear shaft, an alcohol groove support claw, an alcohol groove and a lower reinforcing block, wherein the sanitary cotton sleeve support is sleeved on the cotton sleeve support to form sliding fit, the cotton sleeve support is arranged at the lower end of the cotton sleeve support column to form threaded fit, the sliding block and the sliding rail form sliding fit, the sliding rail support plate is fixedly arranged on the upper surface of the sliding rail support plate, the sliding rail support plate and the jacking cylinder sleeve plate form sliding fit, the extension cylinder is fixedly arranged in the extension cylinder support groove, extension cylinder extension axle connecting block fixed mounting is on extension axle in extension cylinder the place ahead, the activity slider forms sliding fit with reinforcing last slide rail, it forms sliding fit with reinforcing lower slide rail to reinforce the upper slide rail, motor fixed mounting is on motor slider connecting block upper surface, motor slider connecting block fixed mounting is on the slider upper surface, back connecting block fixed mounting is on conversion tripod horizontal pole on the jacking cylinder, jacking cylinder fixed mounting is on jacking cylinder back connecting block lower surface, jacking cylinder lagging fixed mounting is at slide rail layer board front end, lower jacking board fixed mounting is at jacking cylinder front end, linear bearing fixed mounting is at lower jacking board both ends upper surface, linear shaft and linear bearing form sliding fit, alcohol groove support claw fixed mounting is on conversion tripod, the alcohol groove forms sliding fit with alcohol groove support claw, lower reinforcing block fixed mounting is on slide rail layer board lower surface.

The electrode placement system comprises: electric cabinet, electric cabinet groove, cylinder promote piece, vacuum ware support, vacuum chuck, electrode tray, electrode, guide pulley, leading wheel axle, wire, electric cabinet and electric cabinet inslot form sliding fit, electric cabinet groove fixed mounting is on the conversion tripod, cylinder promotes piece fixed mounting and holds in the palm at the vacuum ware, vacuum chuck fixed mounting holds in the palm the lower surface at the vacuum ware, the electrode tray is held under the surface by vacuum chuck, electrode fixed mounting is at the wire front end, the guide pulley forms normal running fit with the leading wheel axle, the leading wheel axle forms normal running fit with the electrode tray, wire fixed mounting is at the electrode rear end.

The drying system includes: heating rod, heating rod hold in the palm connecting block, flabellum, motor anchor block, motor ring cover, cutting knife, heating rod and heating rod hold in the palm and form normal running fit, heating rod holds in the palm fixed mounting and holds in the palm connecting block lower surface at the heating rod, heating rod holds in the palm connecting block fixed mounting in motor ring cover both sides, flabellum fixed mounting is in the motor rotation axis, motor anchor block fixed mounting is in motor ring cover upper end, motor ring cover fixed mounting is at the motor lower extreme, cutting knife fixed mounting is on the conversion tripod.

The conversion system comprises: axis, conversion reinforcing frame, conversion tripod, motor support, straight-teeth gear, internal gear, the axis form normal running fit with the conversion tripod, conversion reinforcing frame forms normal running fit with the axis, the conversion tripod forms normal running fit with the axis, motor support fixed mounting is at the motor lower surface, straight-teeth gear fixed mounting is on the motor rotation axis, internal gear fixed mounting is at the epaxial surface in.

The base include: bottom plate, angle steel, health layer board, bandage picture peg, bandage collude board, bandage, hook, bottom plate fixed mounting at the angle steel upper surface, angle steel fixed mounting is at the bottom plate lower surface, health layer board fixed mounting is on the bottom plate upper surface, bandage picture peg fixed mounting is in health layer board left side, bandage colludes board fixed mounting on health layer board right side, the bandage forms sliding fit with the bandage picture peg, hook fixed mounting is at the bandage front end.

Furthermore, the conversion reinforcing frame is fixedly arranged on the lower surface of the conversion tripod extension frame.

Further, the motor support is fixedly arranged on the conversion tripod.

Further, the straight gear and the internal gear form threaded fit.

Furthermore, the middle shaft and the bottom plate form a rotating fit.

Furthermore, the cotton sleeve supporting column and the sliding rail supporting plate form sliding fit.

Furthermore, the jacking cylinder sleeve plate and the linear shaft form sliding fit.

Furthermore, the cylinder lifting block and the jacking cylinder form threaded fit.

Due to the adoption of the technical scheme, the invention has the following advantages:

(1) the invention can use the conversion system to realize the quick conversion of each function.

(2) The present invention enables automatic scrubbing and sanitizing using a scrubbing system.

(3) The invention can use the motor placing system to automatically place the electrodes at the corresponding positions.

(4) The invention has light volume and flexible transportation.

Drawings

FIG. 1 is an overall schematic view of the present invention.

FIG. 2 is a schematic view of a wiping system of the present invention.

FIG. 3 is a schematic view of an electrode placement system of the present invention.

Fig. 4 is a schematic view of a drying system according to the present invention.

FIG. 5 is a schematic diagram of a conversion system according to the present invention.

FIG. 6 is a schematic view of a base of the present invention.

Reference numerals: 1-a wiping system; 2-an electrode placement system; 3-a drying system; 4-a conversion system; 5-a base; 101-a sanitary cotton sleeve; 102-a cotton sleeve holder; 103-cotton sleeve supporting columns; 104-a slide block; 105-a slide rail; 106-a slide rail pallet; 107-extension cylinder; 108-extend cylinder holder; 109-extending cylinder extension shaft connecting block; 110-a movable slider; 111-reinforcing the upper sliding rail; 112-reinforcing the lower sliding rail; 113-a motor; 114-motor slide block connection block; 115-jacking cylinder upper back connecting block; 116-a jacking cylinder; 117-jacking cylinder sleeve plates; 118-a lower jacking plate; 119-linear bearings; 120-linear axis; 121-alcohol trough holding claw; 122-alcohol tank; 123-lower reinforcing blocks; 201-an electric cabinet; 202-electric control box slot; 203-cylinder lifting block; 204-vacuum holder; 205-vacuum chuck; 206-electrode tray; 207-electrodes; 208-a guide wheel; 209-guide wheel shaft; 210-a wire; 301-a heating rod; 302-heating rod holder; 303-heating rod support connecting block; 304-fan blades; 305-motor reinforcement block; 306-a motor collar; 307-cutting knife; 401-medial axis; 402-converting a reinforcing frame; 403-conversion tripod; 404-a motor support; 405-a spur gear; 406-internal gear; 501-a bottom plate; 502-angle steel; 503-body support plate; 504-strap insert plate; 505-a strap hook plate; 506-a strap; 507-claw hook.

Detailed Description

The present invention will be further described with reference to specific examples, which are illustrative of the invention and are not to be construed as limiting the invention.

Example (b): a fully automatic cardiac pacemaker as shown in fig. 1, fig. 2, fig. 3, fig. 4, fig. 5 and fig. 6. The base 5 is a mounting platform for the wiping system 1, the electrode placing system 2, the drying system 3 and the conversion system 4, and the wiping system 1, the electrode placing system 2 and the drying system 3 are mounted on three cross bars of the conversion system 4.

Specifically, as shown in fig. 2, a specific structural diagram of the wiping system 1 is shown, wherein a sanitary cotton cover 101 is sleeved on a cotton cover support 102 to form a sliding fit, the cotton cover support 102 is installed at the lower end of a cotton cover support post 103 to form a threaded fit, the cotton cover support post 103 is formed a threaded fit with a rotating shaft of a motor 113, a slide block 104 is formed a sliding fit with a slide rail 105, the slide rail 105 is fixedly installed on the upper surface of a slide rail support plate 106, the slide rail support plate 106 is formed a sliding fit with a jacking cylinder cover plate 117, an extension cylinder 107 is fixedly installed in a slot of an extension cylinder support 108, the extension cylinder support 108 is fixedly installed on a lower reinforcing block 123, an extension cylinder extension shaft connecting block 109 is fixedly installed on an extension shaft in front of the extension cylinder 107, a movable slide block 110 is formed a sliding fit with a reinforcing upper slide rail 111, the reinforcing upper slide rail 111 is formed, motor slider connecting block 114 fixed mounting is on slider 104 upper surface, back connecting block 115 fixed mounting is on the cross bar of conversion tripod 403 on the jacking cylinder, jacking cylinder 116 fixed mounting is on the back connecting block 115 lower surface on the jacking cylinder, jacking cylinder lagging 117 fixed mounting is in slide rail layer board 106 front end, lower jacking board 118 fixed mounting is in jacking cylinder 116 front end, linear bearing 119 fixed mounting is on jacking board 118 both ends upper surface down, linear shaft 120 forms sliding fit with linear bearing 119, alcohol groove support claw 121 fixed mounting is on conversion tripod 403, alcohol groove 122 forms sliding fit with alcohol groove support claw 121, lower reinforcing block 123 fixed mounting is on slide rail layer board 106 lower surface. The rotation shaft of the motor 113 rotates to drive the cotton sleeve supporting column 103 to rotate and indirectly drive the cotton sleeve supporting column 103 to wipe, the jacking cylinder 116 can control the vertical distance, and the extension cylinder 107 can enable the sanitary cotton sleeve 101 to be stained with alcohol by controlling the front-back distance, so that the wiping action is completed.

Specifically, as shown in fig. 3, a specific structural schematic diagram of the electrode placement system 2 is shown, wherein the electric cabinet 201 and the electric cabinet groove 202 form a sliding fit, the electric cabinet groove 202 is fixedly installed on the conversion tripod 403, the cylinder lifting block 203 is fixedly installed on the vacuum holder 204, the vacuum chuck 205 is fixedly installed on the lower surface of the vacuum holder 204, the electrode tray 206 is sucked on the lower surface by the vacuum chuck 205, the electrode 207 is fixedly installed at the front end of the lead wire 210, the guide wheel 208 and the guide wheel shaft 209 form a rotating fit, the guide wheel shaft 209 and the electrode tray 206 form a rotating fit, and the lead wire 210 is fixedly installed at the rear end of the electrode 207. The vacuum chuck 205 picks up the electrode tray 206 and places it in the desired position, and the electrode 207 is placed into the vein using guide pulley 208 to complete the cardiac pacing.

Specifically, as shown in fig. 4, a specific structural schematic diagram of the drying system 3 is shown, wherein the heating rod 301 and the heating rod holder 302 form a rotating fit, the heating rod holder 302 is fixedly installed on the lower surface of the heating rod holder connecting block 303, the heating rod holder connecting block 303 is fixedly installed on both sides of the motor ring sleeve 306, the fan blades 304 are fixedly installed on the rotating shaft of the motor 113, the motor reinforcing block 305 is fixedly installed on the upper end of the motor ring sleeve 306, the motor ring sleeve 306 is fixedly installed on the lower end of the motor 113, and the cutting knife 307 is fixedly installed on the conversion tripod 403. The motor 113 drives the fan blades 304 to rotate to generate wind power, the heating rod 301 is heated to a certain temperature, and the body moisture is dried by the wind power.

Specifically, as shown in fig. 5, a specific structural diagram of the conversion system 4 is shown, wherein a middle shaft 401 forms a rotation fit with a conversion tripod 403, a conversion reinforcing frame 402 forms a rotation fit with the middle shaft 401, the conversion tripod 403 forms a rotation fit with the middle shaft 401, a motor support 404 is fixedly installed on the lower surface of the motor 113, a spur gear 405 is fixedly installed on the rotation shaft of the motor 113, and an internal gear 406 is fixedly installed on the upper surface of the middle shaft 401. The motor 113 rotates to drive the spur gear 405 to rotate, and indirectly drives the middle shaft 401 to rotate by using the gear cooperation, so that the function conversion is completed by using the tripod 403.

Specifically, as shown in fig. 6, a specific structural diagram of the base 5 is shown, wherein a bottom plate 501 is fixedly mounted on an upper surface of an angle iron 502, the angle iron 502 is fixedly mounted on a lower surface of the bottom plate 501, a body supporting plate 503 is fixedly mounted on an upper surface of the bottom plate 501, a strap inserting plate 504 is fixedly mounted on a left side of the body supporting plate 503, a strap hooking plate 505 is fixedly mounted on a right side of the body supporting plate 503, a strap 506 forms a sliding fit with the strap inserting plate 504, and a hook 507 is fixedly mounted at a. The bottom plate 501 is placed on the angle iron 502, the middle shaft 401 is placed in the shaft groove of the bottom plate 501, the body of a person can be fixed through the binding belt 506, the hook claws 507 are hooked on the hook of the binding belt hook plate 505, and then the binding belt 506 can be fixed, so that the human body is fixed.

When the invention is used for cardiac pacing, a human body is placed on a body supporting plate 503, then a bandage 506 is tied on the body, a hook claw 507 is placed on a bandage hook plate 505 to complete fixation, a conversion system 4 is started, a wiping system 1 is rotated to the position right below the body, a device is started, a sanitary cotton sleeve 101 is placed in an alcohol tank 122 to be stained with alcohol through the matching of an extension cylinder 107 and a slide rail 105, then a motor 113 is used for providing rotation, a jacking cylinder 116 provides the position in the up-down direction, the wiping and disinfecting action is completed, the conversion system 4 continues to rotate after the wiping action is completed, a drying system 3 is adjusted, the motor 113 is started to drive a fan blade 304 to rotate, hot air is blown out by a heating rod 301 to dry water, the conversion system 4 is continuously started after the rotation is completed, a cutter 307 cuts off veins when the rotating, meanwhile, the device is adjusted to the position of an electrode placing system 2, a vacuum, the lead 210 is advanced by rotation of the guide pulley 208, which places the electrode 207 into the vein and maintains motion to complete the cardiac pacing.

Claims

1. The utility model provides a full-automatic cardiac pacemaker, includes wiping system (1), electrode placement system (2), drying system (3), conversion system (4), base (5), its characterized in that:

the base (5) is an installation platform of the wiping system (1), the electrode placing system (2), the drying system (3) and the conversion system (4), and the wiping system (1), the electrode placing system (2) and the drying system (3) are arranged on three cross rods of the conversion system (4) at the same time;

the wiping system (1) comprises: the sanitary cotton sleeve comprises a sanitary cotton sleeve (101), a cotton sleeve support (102), a cotton sleeve support column (103), a sliding block (104), a sliding rail (105), a sliding rail supporting plate (106), an extension cylinder (107), an extension cylinder support (108), an extension cylinder extension shaft connecting block (109), a movable sliding block (110), a reinforced upper sliding rail (111), a reinforced lower sliding rail (112), a motor (113), a motor sliding block connecting block (114), a jacking cylinder upper back connecting block (115), a jacking cylinder (116), a jacking cylinder sleeve plate (117), a lower jacking plate (118), a linear bearing (119), a linear shaft (120), an alcohol tank supporting claw (121), an alcohol tank (122) and a lower reinforcing block (123), wherein the sanitary cotton sleeve (101) is sleeved on the cotton sleeve support (102) to form sliding fit, the cotton sleeve support (102) is arranged at the lower end of the cotton sleeve support column (103) to form threaded fit, and the cotton sleeve support column (103) and a rotating shaft of the motor (11), the sliding block (104) is in sliding fit with the sliding rail (105), the sliding rail (105) is fixedly installed on the upper surface of a sliding rail supporting plate (106), the sliding rail supporting plate (106) is in sliding fit with a jacking cylinder sleeve plate (117), the extension cylinder (107) is fixedly installed in a groove of an extension cylinder support (108), the extension cylinder support (108) is fixedly installed on a lower reinforcing block (123), an extension cylinder extension shaft connecting block (109) is fixedly installed on an extension shaft in front of the extension cylinder (107), the movable sliding block (110) is in sliding fit with an upper reinforcing sliding rail (111), the upper reinforcing sliding rail (111) is in sliding fit with a lower reinforcing sliding rail (112), the motor (113) is fixedly installed on the upper surface of a motor sliding block connecting block (114), a motor sliding block connecting block (114) is fixedly installed on the upper surface of the sliding block (104), an upper back connecting block (115) of the jacking cylinder is fixedly installed on a cross bar of a, a jacking cylinder (116) is fixedly arranged on the lower surface of an upper back connecting block (115) of the jacking cylinder, a jacking cylinder sleeve plate (117) is fixedly arranged at the front end of a sliding rail supporting plate (106), a lower jacking plate (118) is fixedly arranged at the front end of the jacking cylinder (116), linear bearings (119) are fixedly arranged on the upper surfaces of two ends of the lower jacking plate (118), a linear shaft (120) and the linear bearings (119) form sliding fit, an alcohol groove supporting claw (121) is fixedly arranged on a conversion tripod (403), an alcohol groove (122) and the alcohol groove supporting claw (121) form sliding fit, and a lower reinforcing block (123) is fixedly arranged on the lower surface of the sliding rail supporting plate (106);

the electrode placement system (2) comprises: an electric control box (201), an electric control box groove (202), an air cylinder lifting block (203), a vacuum device support (204), a vacuum suction cup (205), an electrode support plate (206), an electrode (207), a guide wheel (208), a guide wheel shaft (209) and a lead (210), the electric control box (201) and the electric control box groove (202) form sliding fit, the electric control box groove (202) is fixedly installed on a conversion tripod (403), an air cylinder lifting block (203) is fixedly installed on a vacuum device support (204), a vacuum sucker (205) is fixedly installed on the lower surface of the vacuum device support (204), an electrode tray (206) is sucked on the lower surface by the vacuum sucker (205), an electrode (207) is fixedly installed at the front end of a lead (210), a guide wheel (208) and a guide wheel shaft (209) form rotating fit, the guide wheel shaft (209) and the electrode tray (206) form rotating fit, and the lead (210) is fixedly installed at the rear end of the electrode (207);

the drying system (3) comprises: the heating rod supporting device comprises a heating rod (301), a heating rod supporting block (302), a heating rod supporting connecting block (303), fan blades (304), a motor reinforcing block (305), a motor ring sleeve (306) and a cutting knife (307), wherein the heating rod (301) and the heating rod supporting block (302) form rotating fit, the heating rod supporting block (302) is fixedly installed on the lower surface of the heating rod supporting connecting block (303), the heating rod supporting connecting block (303) is fixedly installed on two sides of the motor ring sleeve (306), the fan blades (304) are fixedly installed on a rotating shaft of a motor (113), the motor reinforcing block (305) is fixedly installed at the upper end of the motor ring sleeve (306), the motor ring sleeve (306) is fixedly installed at the lower end of the motor (113), and the cutting knife (307) is fixedly installed on a conversion;

the conversion system (4) comprises: the middle shaft (401), the conversion reinforcing frame (402), the conversion tripod (403), the motor support (404), the spur gear (405) and the internal gear (406), wherein the middle shaft (401) and the conversion tripod (403) form rotating fit, the conversion reinforcing frame (402) and the middle shaft (401) form rotating fit, the conversion tripod (403) and the middle shaft (401) form rotating fit, the motor support (404) is fixedly installed on the lower surface of the motor (113), the spur gear (405) is fixedly installed on the rotating shaft of the motor (113), and the internal gear (406) is fixedly installed on the upper surface of the middle shaft (401);

the base (5) comprises: bottom plate (501), angle steel (502), health layer board (503), bandage picture peg (504), bandage collude board (505), bandage (506), hook (507), bottom plate (501) fixed mounting at angle steel (502) upper surface, angle steel (502) fixed mounting at bottom plate (501) lower surface, health layer board (503) fixed mounting at bottom plate (501) upper surface, bandage picture peg (504) fixed mounting is in health layer board (503) left side, bandage collude board (505) fixed mounting on health layer board (503) right side, bandage (506) and bandage picture peg (504) form sliding fit, hook (507) fixed mounting is at bandage (506) front end.

2. A fully automatic cardiac pacemaker as claimed in claim 1 wherein: the conversion reinforcing frame (402) is fixedly arranged on the lower surface of the extension frame of the conversion tripod (403).

3. A fully automatic cardiac pacemaker as claimed in claim 1 wherein: the motor support (404) is fixedly arranged on the conversion tripod (403).

4. A fully automatic cardiac pacemaker as claimed in claim 1 wherein: the straight gear (405) and the internal gear (406) form threaded fit.

5. A fully automatic cardiac pacemaker as claimed in claim 1 wherein: the middle shaft (401) and the bottom plate (501) form a rotating fit.

6. A fully automatic cardiac pacemaker as claimed in claim 1 wherein: the cotton sleeve supporting column (103) is in sliding fit with the sliding rail supporting plate (106).

7. A fully automatic cardiac pacemaker as claimed in claim 1 wherein: the jacking cylinder sleeve plate (117) and the linear shaft (120) form sliding fit.

8. A fully automatic cardiac pacemaker as claimed in claim 1 wherein: the cylinder lifting block (203) and the jacking cylinder (116) form threaded fit.