CN112874823A

CN112874823A - Be used for breathing type anaesthetic automatic filling equipment

Info

Publication number: CN112874823A
Application number: CN202110032972.9A
Authority: CN
Inventors: 马小芹
Original assignee: Individual
Current assignee: Individual
Priority date: 2021-01-12
Filing date: 2021-01-12
Publication date: 2021-06-01

Abstract

In order to solve the above-mentioned technical problems, an automatic filling device for breathing anesthetic drugs includes a fixed plate, a device for propelling a drug addition, a device for transferring a device, and a device for taking out a device. The utensils and the corresponding medicines are added to the utensils, the utensil transfer device removes the utensils containing the medicaments from the utensil pusher and the drug addition device, and the utensil removal device removes and discharges the utensils on the utensil transfer device. The medicine adding device is installed and fixed on the installation and fixed plate, the vessel transfer device is installed and fixed on the installation and fixed plate, and the vessel take-out device is installed and fixed on the installation and fixed plate.

Description

Be used for breathing type anaesthetic automatic filling equipment

Technical Field

The invention relates to a breathing type anesthetic filling device, in particular to an automatic breathing type anesthetic filling device.

Background

The patient needs to be anesthetized before some operations, the existing anesthesia comprises general anesthesia and local anesthesia, the general anesthesia also has different modes, and inhalation type anesthesia is one of the modes, so that the automatic filling equipment for the respiratory type anesthetic is invented.

Disclosure of Invention

The invention relates to automatic filling equipment for respiratory anesthetic drugs, in particular to automatic filling equipment for respiratory anesthetic drugs, which has the functions that a vessel filled with drugs is discharged to the outside and corresponding drugs are added into the vessel through a vessel propulsion drug adding device, a vessel delivery device pushes the vessel filled with drugs out of the vessel propulsion drug adding device, and a vessel taking device takes down and discharges the vessel on the vessel delivery device.

For solving above-mentioned technical problem, a be used for breathing type narcotic drugs automatic filling equipment, including the installation fixed plate, household utensils impel the medicine to add the device, household utensils transmission device, household utensils remove device, impel the household utensils that the medicine added the device and discharge the splendid attire medicine to the outside through household utensils and add corresponding medicine in to household utensils, household utensils transmission device will be equipped with the household utensils of medicine and impel the medicine from household utensils and add the device and take out, household utensils remove device takes off and discharges the function such as its characterized in that on with household utensils transmission device: the device for adding the propelling drugs to the vessel is fixedly arranged on the mounting fixing plate, the device for transferring the vessel is fixedly arranged on the mounting fixing plate, and the device for taking out the vessel is fixedly arranged on the mounting fixing plate.

As a further optimization of the technical scheme, the invention relates to automatic filling equipment for respiratory anesthetic, which comprises a support plate, an installation box, an installation plate, a fixed installation column, a pushing spring, a pushing plate, an inlet port, a connecting pipe, a matching baffle, an outlet port, a control baffle, a sliding matching groove, a pushing sliding bolt, a limiting sliding groove, a connecting installation column, a sliding connection plate, a medicine discharging matching block, a spring, a medicine discharging control pipe, a medicine inlet hole, a communicating groove and a medicine discharging connecting hole, wherein the support plate is installed and fixed on an installation fixing plate, the installation box is installed and fixed on the support plate, the installation plate is installed and fixed on the installation box, the fixed installation column is installed and fixed on the installation plate, the pushing spring is sleeved on the fixed installation column, the pushing plate is installed on the fixed installation column in a sliding manner, the pushing plate is installed inside the installation box, the inlet port sets up on the install bin, the connecting pipe installation is fixed on install bin inside and cooperation baffle, cooperation baffle installation is fixed inside the install bin, the discharge port sets up on the install bin, control baffle slidable mounting is inside the install bin, the sliding fit groove sets up on control baffle, promote sliding bolt slidable mounting inside the sliding fit groove, spacing sliding tray sets up on the install bin, connect the erection column installation to be fixed on the install bin, the sliding connection board installation is fixed on connecting the erection column, the cooperation piece of arranging medicine is got back to and is installed on sliding connection board, the spring mounting is inside the cooperation piece of arranging medicine, it is on the control pipe to arrange medicine cooperation piece slidable mounting on the control pipe, it fixes on the install bin to arrange medicine control pipe, it sets up on arranging medicine control pipe to advance the medicine hole, the UNICOM groove sets up inside the cooperation piece of arranging medicine, the setting of arranging medicine connecting hole is inside the cooperation.

As a further optimization of the technical scheme, the invention relates to automatic filling equipment for respiratory anesthetic, which comprises a fixed support rod, a fixed sliding rod, a sliding installation column, a sliding push groove, a sliding fit bolt, a rotating connection seat, a connection sleeve, a driving input shaft, a sliding connection column, a control installation block, a control fit inclined plane, a push installation seat, a push shaft, a push gear, a vessel installation groove, a vessel clamping groove plate, a reset spring, a movable lead screw and a rotating threaded barrel, wherein the fixed support rod is fixedly arranged on the installation fixing plate, the fixed sliding rod is fixedly arranged on the fixed support rod, the sliding installation column is slidably arranged on the fixed sliding rod, the sliding push groove is arranged on the sliding installation column, the sliding fit bolt is slidably arranged on the sliding push groove, the rotating connection seat is rotatably arranged on the sliding fit bolt, connect the sleeve installation to be fixed on rotating the connecting seat, sliding connection post slidable mounting connects inside the sleeve, sliding connection post installation is fixed on the initiative input shaft, control installation piece installation is fixed on the sliding installation post, control cooperation inclined plane sets up on control installation piece, promote the installation of mount pad and fix on control installation piece, it installs on promoting the mount pad to promote the axle rotation, it fixes on promoting the axle to promote gear installation, the household utensils mounting groove sets up on control installation piece, household utensils chucking frid slidable mounting is on control installation piece, reset spring installation is fixed on household utensils chucking frid, it fixes on household utensils chucking frid to remove the lead screw installation, it installs on control installation piece to rotate the screw section of thick bamboo, rotate the screw section of thick bamboo and remove lead screw thread fit.

As a further optimization of the technical scheme, the invention relates to automatic filling equipment for respiratory anesthetic, which comprises a support mounting fixed rod, a fixed chute, a fixed rack, a limit sliding column, a push reset spring, a push sliding rod, a movable rack, a first connecting sliding seat, a control sliding rod, a matching friction block, a second connecting sliding seat, a sliding connecting rod, a rotary mounting shaft, a mounting connecting rod, a first clamping jaw, a first pressurizing bent plate, a rotary connecting cylinder, a second clamping jaw, a second pressurizing bent plate and an arc-shaped spring, wherein the support mounting fixed rod is fixedly arranged on the mounting fixed rod, the fixed chute is fixedly arranged on the support mounting fixed rod, the limit sliding column is fixedly arranged in the fixed chute, the push reset spring is sleeved on the limit sliding column, and the push sliding rod is slidably arranged on the limit sliding column, the pushing sliding rod is arranged inside the fixed sliding chute in a sliding mode, the moving rack is arranged and fixed on the pushing sliding rod, the first connecting sliding seat is arranged and fixed on the pushing sliding rod, the control sliding rod is arranged and fixed inside the fixed sliding chute in a sliding mode, the matching friction block is arranged on the control sliding rod, the second connecting sliding seat is arranged and fixed on the control sliding rod, the sliding connecting column is arranged and fixed on the first connecting sliding seat and the second connecting sliding seat in a sliding mode, the rotating mounting shaft is arranged and fixed on the sliding connecting column in a rotating mode, the mounting connecting column is arranged and fixed on the rotating mounting shaft, the first clamping claw is arranged and fixed on the mounting connecting column, the first pressurizing bent plate is arranged and fixed on the mounting connecting column, the rotating connecting cylinder is arranged and mounted on the, the arc-shaped spring is fixedly arranged on the first pressurizing bending plate and the second pressurizing bending plate.

As a further optimization of the technical scheme, the automatic filling equipment for the respiratory anesthetic comprises four mounting plates of a vessel propelling drug adding device, two fixed mounting columns and two pushing springs, two connecting mounting columns, two sliding connecting plates and two springs, and a drug feeding device is arranged on a drug discharge control pipe.

As a further optimization of the technical scheme, the automatic filling equipment for the respiratory anesthetic comprises a vessel transfer device, wherein a driving input shaft is fixedly arranged on a driving output matching motor, and a matching motor is arranged on a pushing shaft.

The automatic filling equipment for the respiratory anesthetic has the beneficial effects that:

the invention relates to automatic filling equipment for respiratory anesthetic drugs, in particular to automatic filling equipment for respiratory anesthetic drugs, which realizes the functions of pulling the whole equipment to move on a cable by moving a mounting device, enabling a rotary feeding device to be sleeved on the cable and rotate around the cable in an annular manner, detecting the damage condition of the surface of the cable by a marking device, aligning and marking the cable, and the like.

Drawings

The invention is described in further detail below with reference to the accompanying drawings and specific embodiments.

Fig. 1 is a schematic view of the overall structure of the present invention.

Fig. 2 is a first structural schematic diagram of a vessel-propelled medicine adding device of the present invention.

Fig. 3 is a schematic structural view of a vessel propellant charge adding device of the present invention.

Fig. 4 is a third schematic structural view of the vessel-propelled medicine adding device of the present invention.

Fig. 5 is a fourth schematic structural view of the vessel-propelled medicine adding device of the present invention.

Fig. 6 is a first structural diagram of the vessel transfer device of the present invention.

Fig. 7 is a second structural schematic diagram of the vessel transfer device of the present invention.

Fig. 8 is a third structural schematic diagram of the vessel transfer device of the present invention.

Fig. 9 is a fourth structural schematic diagram of the vessel transfer device of the present invention.

FIG. 10 is a first schematic view of a vessel removing device according to the present invention.

FIG. 11 is a second schematic view of the mechanism of the device for removing utensils of the present invention.

FIG. 12 is a third schematic view of a vessel taking-out device according to the present invention

Fig. 13 is a fourth schematic view of the vessel removing device of the present invention.

Fig. 14 is a fifth schematic view of the vessel removing device of the present invention.

In the figure: the device comprises a mounting fixing plate 1, a vessel propellant adding device 2, a supporting plate 2-1, a mounting box 2-2, a mounting plate 2-3, a fixing mounting column 2-4, a pushing spring 2-5, a pushing plate 2-6, an inlet 2-7, a connecting pipe 2-8, a matching baffle 2-9, an outlet 2-10, a control baffle 2-11, a sliding matching groove 2-12, a pushing sliding bolt 2-13, a limiting sliding groove 2-14, a connecting mounting column 2-15, a sliding connecting plate 2-16, a pesticide discharging matching block 2-17, a spring 2-18, a pesticide discharging control pipe 2-19, a pesticide inlet hole 2-20, a communicating groove 2-21, a pesticide discharging connecting hole 2-22, a vessel transfer device 3 fixing supporting rod 3-1, a fixing sliding rod 3-2, a fixed mounting plate 2-4, 3-3 parts of sliding mounting columns, 3-4 parts of sliding pushing grooves, 3-5 parts of sliding fit bolts, 3-6 parts of rotating connecting seats, 3-7 parts of connecting sleeves, 3-8 parts of active input shafts, 3-9 parts of sliding connecting columns, 3-10 parts of control mounting blocks, 3-11 parts of control fit inclined planes, 3-12 parts of pushing mounting seats, 3-13 parts of pushing shafts, 3-14 parts of pushing gears, 3-15 parts of vessel mounting grooves, 3-16 parts of vessel clamping groove plates, 3-17 parts of reset springs, 3-18 parts of moving lead screws, 3-19 parts of rotating threaded cylinders, 4-1 parts of vessel taking-out devices, 4-2 parts of fixed sliding grooves, 4-3 parts of fixed sliding racks, 4-4 parts of limiting sliding columns, 4-5 parts of pushing reset springs, 4-6 parts of pushing sliding rods, 4-7 parts of a movable rack, 4-8 parts of a first connecting sliding seat, 4-9 parts of a control sliding rod, 4-10 parts of a matching friction block, 4-11 parts of a second connecting sliding seat, 4-12 parts of a sliding connecting column, 4-13 parts of a rotary mounting shaft, 4-14 parts of a mounting connecting column, 4-15 parts of a first clamping claw, 4-16 parts of a first pressurizing bent plate, 4-17 parts of a rotary connecting cylinder, 4-18 parts of a second clamping claw, 4-19 parts of a second pressurizing bent plate and 4-20 parts of an arc spring.

Detailed Description

The first embodiment is as follows:

in order to solve the technical problems, an automatic filling device for respiratory anesthetic comprises a movable mounting device 1, a rotary feeding device 2 and a marking device 3, wherein the movable mounting device pulls the whole device to move on a cable, the rotary feeding device can be sleeved on the cable and rotate around the cable in an annular manner, and the marking device detects the damage condition of the surface of the cable and then aligns for marking and the like, and is characterized in that: the rotary feeding device 2 is rotatably arranged on the movable mounting device 1, and the marking device 3 is fixedly arranged on the rotary feeding device 2.

The second embodiment is as follows:

the embodiment is described below with reference to fig. 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13 and 14, and the embodiment is further described, wherein the vessel-propelling drug adding device 2 comprises a support plate 2-1, a mounting box 2-2, a mounting plate 2-3, a fixed mounting column 2-4, a pushing spring 2-5, a pushing plate 2-6, an inlet port 2-7, a connecting pipe 2-8, a matching baffle 2-9, an outlet port 2-10, a control baffle 2-11, a sliding matching groove 2-12, a pushing sliding bolt 2-13, a limiting sliding groove 2-14, a connecting mounting column 2-15, a sliding connecting plate 2-16, a drug discharging matching block 2-17, a spring 2-18, a drug discharging control pipe 2-19, a drug discharging control pipe 2-13, a drug discharging control pipe 2-6, The empty vessel is placed in a mounting box 2-2 of a vessel pushing drug adding device 2, when the drug is added, a sliding bolt 2-13 is pushed to drive a control baffle plate 2-11 to slide in the mounting box 2-2 to block a discharge port 2-10, then the sliding bolt 2-13 is pushed to slide in a sliding matching groove 2-12 and a limiting sliding groove 2-14 to limit and fix the control baffle plate 2-11, then a pushing spring 2-5 pushes a pushing plate 2-6 and a mounting box 2-2 to clamp the vessel, the vessel drives a drug discharging matching block 2-17 to move upwards and compress the springs 2-18 in the pushing process, the drug inlet hole 2-20 and the communicating groove 2-21 of a drug discharging control pipe 2-19 are connected upwards in the moving process, and then the drug is connected Enter the communicating groove 2-21 through the medicine inlet hole 2-20 of the medicine discharge control pipe 2-19 and then discharge the medicine into the vessel from the medicine discharge connecting hole 2-22, then control the installation block 3-10 to move continuously to make the vessel filled with the medicine enter the vessel installation groove 3-15, at the same time, the medicine discharge matching block 2-17 returns to the original position through the spring 2-18 to make the medicine discharge control pipe 2-19 unable to discharge the medicine outwards through the medicine discharge matching block 2-17, and control the time of one end of the installation block 3-10 to make the medicine inside the medicine discharge matching block 2-17 clean, then control the installation block 3-10 to move in the direction far away from the installation box 2-2 under the action of the sliding installation column 3-3, the support plate 2-1 is installed and fixed on the installation fixing plate 1, the installation box 2-2 is installed and fixed on the support plate 2-1, the mounting plate 2-3 is fixedly arranged on the mounting box 2-2, the fixed mounting column 2-4 is fixedly arranged on the mounting plate 2-3, the pushing spring 2-5 is sleeved on the fixed mounting column 2-4, the pushing plate 2-6 is slidably arranged in the mounting box 2-2, the inlet port 2-7 is arranged on the mounting box 2-2, the connecting pipe 2-8 is fixedly arranged in the mounting box 2-2 and on the matching baffle 2-9, the matching baffle 2-9 is fixedly arranged in the mounting box 2-2, the outlet port 2-10 is arranged on the mounting box 2-2, the control baffle 2-11 is slidably arranged in the mounting box 2-2, and the sliding matching groove 2-12 is arranged on the control baffle 2-11, pushing sliding bolts 2-13 are slidably mounted inside sliding fit grooves 2-12, limiting sliding grooves 2-14 are arranged on a mounting box 2-2, connecting mounting columns 2-15 are fixedly mounted on a mounting box 2-2, sliding connecting plates 2-16 are fixedly mounted on connecting mounting columns 2-15, medicine discharging fit blocks 2-17 are mounted on the sliding connecting plates 2-16, springs 2-18 are mounted inside medicine discharging fit blocks 2-17, medicine discharging fit blocks 2-17 are slidably mounted on medicine discharging control pipes 2-19, medicine discharging control pipes 2-19 are fixedly mounted on the mounting box 2-2, medicine inlet holes 2-20 are arranged on the medicine discharging control pipes 2-19, communicating grooves 2-21 are arranged inside the medicine discharging fit blocks 2-17, and medicine discharging connecting holes 2-22 are arranged inside the medicine discharging fit blocks 2-17:

the embodiment is described below with reference to fig. 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, and 14. the embodiment further describes the embodiment, where the vessel transferring device 3 includes a fixed support rod 3-1, a fixed slide rod 3-2, a slide mounting post 3-3, a slide pushing groove 3-4, a slide fitting bolt 3-5, a rotary connecting seat 3-6, a connecting sleeve 3-7, a driving input shaft 3-8, a slide connecting post 3-9, a control mounting block 3-10, a control fitting inclined plane 3-11, a push mounting seat 3-12, a pushing shaft 3-13, a pushing gear 3-14, a vessel mounting groove 3-15, a vessel clamping groove plate 3-16, a return spring 3-17, a moving screw 3-18, and a slide connecting rod 3-4, a slide fitting bolt 3-5, a rotary connecting seat 3, The threaded cylinder 3-19 is rotated, then the active input shaft 3-8 of the vessel transfer device 3 rotates, the active input shaft 3-8 drives the sliding connection post 3-9 to rotate, the sliding connection post 3-9 drives the connection sleeve 3-7 to rotate, the rotating connection sleeve 3-7 can slide on the sliding connection post 3-9 to adapt to the length, the connection sleeve 3-7 drives the rotating connection seat 3-6 to change the position, the rotating connection seat 3-6 can slide in the sliding push groove 3-4 through the sliding matching bolt 3-5 to drive the sliding installation post 3-3 to move in a reciprocating manner, the sliding installation post 3-3 drives the control installation block 3-10 to move in a reciprocating manner, when the control installation block 3-10 moves towards the installation box 2-2, as the control matching inclined plane 3-11 of the control installation block 3-10 pushes the vessel upwards, then the control installation block 3-10 pulls the vessel out through the vessel installation groove 3-15 to move continuously, when the control installation block 3-10 brings the vessel moving channel to be in contact with the vessel taking-out device 4, the fixed rack 4-3 drives the rotary threaded cylinder 3-19 to rotate, the rotary threaded cylinder 3-19 pulls the movable lead screw 3-18 upwards, the movable lead screw 3-18 drives the vessel clamping groove plate 3-16 to move downwards, then one side of the vessel installation groove 3-15 is opened, when the control installation block 3-10 is in contact with the fixed sliding groove 4-2, the push gear 3-14 is meshed with the movable rack 4-7, and the fixed support rod 3-1 is installed and fixed on the installation fixing plate 1, a fixed sliding rod 3-2 is fixedly arranged on a fixed supporting rod 3-1, a sliding mounting column 3-3 is slidably arranged on the fixed sliding rod 3-2, a sliding pushing groove 3-4 is arranged on the sliding mounting column 3-3, a sliding fit bolt 3-5 is slidably arranged on the sliding pushing groove 3-4, a rotary connecting seat 3-6 is rotatably arranged on a connecting sliding fit bolt 3-5, a connecting sleeve 3-7 is fixedly arranged on the rotary connecting seat 3-6, a sliding connecting column 3-9 is slidably arranged in a connecting sleeve 3-7, the sliding connecting column 3-9 is fixedly arranged on a main input shaft 3-8, a control mounting block 3-10 is fixedly arranged on the sliding mounting column 3-3, and a control fit inclined plane 3-11 is arranged on a control mounting block 3-10, the pushing installation seat 3-12 is fixedly installed on the control installation block 3-10, the pushing shaft 3-13 is rotatably installed on the pushing installation seat 3-12, the pushing gear 3-14 is fixedly installed on the pushing shaft 3-13, the vessel installation groove 3-15 is arranged on the control installation block 3-10, the vessel clamping groove plate 3-16 is slidably installed on the control installation block 3-10, the reset spring 3-17 is fixedly installed on the vessel clamping groove plate 3-16, the moving screw rod 3-18 is fixedly installed on the vessel clamping groove plate 3-16, the rotating threaded cylinder 3-19 is rotatably installed on the control installation block 3-10, and the rotating threaded cylinder 3-19 is in threaded fit with the moving screw rod 3-18.

The fourth concrete implementation mode:

the embodiment is described below with reference to fig. 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13 and 14. the embodiment further describes the embodiment, and the vessel taking-out device 4 comprises a support mounting fixed rod 4-1, a fixed chute 4-2, a fixed rack 4-3, a limit sliding column 4-4, a push return spring 4-5, a push sliding rod 4-6, a moving rack 4-7, a connecting sliding seat I4-8, a control sliding rod 4-9, a matching friction block 4-10, a connecting sliding seat II 4-11, a sliding connecting column 4-12, a rotary mounting shaft 4-13, a mounting connecting column 4-14, a clamping claw I4-15, a pressurizing bent plate I4-16, a rotary connecting cylinder 4-17, a clamping jaw II 4-11, a sliding seat II 4-12, a rotary mounting shaft 4-13, a clamping connecting column I, A second clamping jaw 4-18, a second pressure bending plate 4-19 and an arc spring 4-20, then a push gear 3-14 rotates to drive a moving rack 4-7 to move, because a control sliding rod 4-9 is provided with a matching friction block 4-10 matched with a fixed sliding chute 4-2, the push sliding rod 4-6 moves firstly, the first pressure bending plate 4-16 is pushed to rotate around a rotating installation shaft 4-13 in the moving process, the first pressure bending plate 4-16 drives a first clamping jaw 4-15 to rotate around a rotating installation shaft 4-13 through an installation connecting column 4-14, then the first clamping jaw 4-15 and the second clamping jaw 4-18 clamp a vessel, then the movement is continued, and the control sliding rod 4-9 compresses a push return spring 4-5, when the vessel is pushed out of the control mounting block 3-10 by the first clamping jaw 4-15 and the second clamping jaw 4-18 and moved to a specific position, the control mounting block 3-10 moves towards the direction close to the mounting box 2-2 again and then the process is executed, meanwhile, the action of the matched friction block 4-10 enables the push sliding rod 4-6 to be preferentially reset under the action of the arc spring 4-20 and enables the first clamping jaw 4-15 and the second clamping jaw 4-18 to separate the vessel and fall down, then the reset spring 4-5 is pushed to push the control sliding rod 4-9 and the push sliding rod 4-6 to integrally move to the initial position, the support mounting fixing rod 4-1 is fixedly arranged on the mounting fixing plate 1, the fixing chute 4-2 is fixedly arranged on the support mounting fixing rod 4-1, a fixed rack 4-3 is fixedly arranged on a supporting and mounting fixed rod 4-1, a limiting sliding column 4-4 is fixedly arranged inside a fixed chute 4-2, a pushing reset spring 4-5 is sleeved on the limiting sliding column 4-4, a pushing sliding rod 4-6 is slidably arranged on the limiting sliding column 4-4, the pushing sliding rod 4-6 is slidably arranged inside the fixed chute 4-2, a moving rack 4-7 is fixedly arranged on the pushing sliding rod 4-6, a connecting sliding seat I4-8 is fixedly arranged on the pushing sliding rod 4-6, a control sliding rod 4-9 is fixedly arranged on the pushing sliding rod 4-6, the control sliding rod 4-9 is slidably arranged inside the fixed chute 4-2, and a matching friction block 4-10 is arranged on the control sliding rod 4-9, the connecting sliding seat II 4-11 is fixedly arranged on the control sliding rod 4-9, the sliding connecting column 4-12 is slidably arranged on the connecting sliding seat I4-8 and the connecting sliding seat II 4-11, the rotating installation shaft 4-13 is rotatably arranged on the sliding connecting column 4-12, the installation connecting column 4-14 is fixedly arranged on the rotating installation shaft 4-13, the clamping claw I4-15 is fixedly arranged on the installation connecting column 4-14, the pressurizing bent plate I4-16 is fixedly arranged on the installation connecting column 4-14, the rotating connecting cylinder 4-17 is rotatably arranged on the installation connecting column 4-14, the clamping claw II 4-18 is fixedly arranged on the rotating connecting cylinder 4-17, the pressurizing bent plate II 4-19 is fixedly arranged on the rotating connecting cylinder 4-17, the arc spring 4-20 is fixedly arranged on the pressurizing bent plate I4-16 and the pressurizing bent plate II 4-17 19, above.

The fifth concrete implementation mode:

the second embodiment is further described below with reference to fig. 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, and 14. the second embodiment is further described, the number of the mounting plates 2-3 of the vessel-propelling drug adding device 2 is four, the number of the fixed mounting posts 2-4 and the pushing springs 2-5 is two, the number of the connecting mounting posts 2-15, the sliding connecting plates 2-16, and the springs 2-18 is two, and the drug feeding device is arranged on the drug discharge control tube 2-19. The sixth specific implementation mode:

the third embodiment is further described below with reference to fig. 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, and 14, in which the vessel transfer device 3 includes a driving input shaft 3-8 fixed to a driving output matching motor, and a matching motor is disposed on the pushing shaft 3-13.

The working principle of the invention is as follows:

a working principle for automatic respiratory anesthetic filling equipment is that whether the connection condition between the devices meets requirements is checked before the automatic respiratory anesthetic filling equipment is used, firstly, an empty vessel is placed in a mounting box 2-2 of a vessel propelling drug adding device 2, when the device is added, a control baffle plate 2-11 is driven to slide in the mounting box 2-2 by pushing a sliding bolt 2-13 to block a discharge port 2-10, then the control baffle plate 2-11 is limited and fixed by pushing the sliding bolt 2-13 to slide in a sliding fit groove 2-12 and a limiting sliding groove 2-14, then a pushing spring 2-5 pushes a pushing plate 2-6 and the mounting box 2-2 to clamp the vessel, then a driving input shaft 3-8 of a vessel transfer device 3 rotates, the driving input shaft 3-8 drives a sliding connecting column 3-9 to rotate, the sliding connecting column 3-9 drives the connecting sleeve 3-7 to rotate, the rotating connecting sleeve 3-7 can slide on the sliding connecting column 3-9 to adapt to the length, the connecting sleeve 3-7 drives the rotating connecting seat 3-6 to change the position, the rotating connecting seat 3-6 can slide in the sliding pushing groove 3-4 through the sliding matching bolt 3-5 to drive the sliding mounting column 3-3 to move in a reciprocating way, the sliding mounting column 3-3 drives the control mounting block 3-10 to move in a reciprocating way, when the control mounting block 3-10 moves towards the mounting box 2-2, the vessel can drive the medicine discharging matching block 2-17 to move upwards and compress the spring 2-18 in the pushing process because the control matching inclined plane 3-11 of the control mounting block 3-10 can push the vessel upwards, in the moving process, the medicine inlet holes 2-20 of the medicine discharge control pipes 2-19 and the communication grooves 2-21 are connected in the opposite direction, then medicine enters the communication grooves 2-21 through the medicine inlet holes 2-20 of the medicine discharge control pipes 2-19 and is discharged into a vessel from the medicine discharge connecting holes 2-22, then the installation blocks 3-10 are controlled to move continuously, so that the vessel filled with the medicine enters the vessel installation grooves 3-15, meanwhile, the medicine discharge matching blocks 2-17 are restored to the original positions through the springs 2-18, so that the medicine discharge control pipes 2-19 cannot discharge the medicine outwards through the medicine discharge matching blocks 2-17, the time of one end of the installation block 3-10 is controlled, so that the medicine in the medicine discharge matching blocks 2-17 is discharged completely, then the installation blocks 3-10 are controlled to move towards the direction far away from the installation box 2-2 under the action of the sliding installation columns 3-3, then the control installation block 3-10 is pulled out through the vessel installation groove 3-15 to move continuously, when the control installation block 3-10 brings the vessel moving channel to be in contact with the vessel taking-out device 4 soon, the fixed rack 4-3 drives the rotary threaded cylinder 3-19 to rotate, the rotary threaded cylinder 3-19 pulls the movable lead screw 3-18 towards the direction, the movable lead screw 3-18 drives the vessel clamping groove plate 3-16 to move downwards, then one side of the vessel installation groove 3-15 is opened, when the control installation block 3-10 is in contact with the fixed chute 4-2, the gear 3-14 is pushed to be meshed with the movable rack 4-7, then the gear 3-14 is pushed to rotate to drive the movable rack 4-7 to move, because the control sliding rod 4-9 is provided with the matching friction block 4-10 to be matched with the fixed chute 4-2, therefore, the pushing sliding rod 4-6 moves first, the first pressing bending plate 4-16 is pushed to rotate around the rotating installation shaft 4-13 in the moving process, the first pressing bending plate 4-16 drives the first clamping claw 4-15 to rotate around the rotating installation shaft 4-13 through the installation connecting column 4-14, then the first clamping claw 4-15 and the second clamping claw 4-18 clamp the vessel, then the control sliding rod 4-9 is moved continuously to compress the pushing return spring 4-5, after the vessel is pushed out of the control installation block 3-10 by the first clamping claw 4-15 and the second clamping claw 4-18 and moved to a specific position, the control installation block 3-10 is moved to the direction close to the installation box 2-2 again to execute the process, and the pushing sliding rod 4-6 is enabled to act on the arc-shaped spring 4-20 due to the function of the matching friction block 4-10 The preferential reset is performed, the first clamping claw 4-15 and the second clamping claw 4-18 are separated from the vessel and fall, and then the reset spring 4-5 is pushed to push the control slide rod 4-9 and the push slide rod 4-6 to integrally move to the initial position.

It is to be understood that the above description is not intended to limit the present invention, and the present invention is not limited to the above examples, and that various changes, modifications, additions and substitutions which are within the spirit and scope of the present invention and which may be made by those skilled in the art are also within the scope of the present invention.

Claims

1. The utility model provides a be used for automatic filling equipment of respiratory anesthetic medicine, impels medicine adding device (2), household utensils transmission device (3), household utensils remove device (4) including installation fixed plate (1), household utensils, its characterized in that: the vessel propulsion medicine adding device (2) is fixedly installed on the installation fixing plate (1), the vessel transfer device (3) is fixedly installed on the installation fixing plate (1), and the vessel taking-out device (4) is fixedly installed on the installation fixing plate (1).

2. An automatic filling equipment for respiratory anesthetic drugs according to claim 1, characterized in that: the vessel propulsion drug adding device (2) comprises a supporting plate (2-1), an installation box (2-2), an installation plate (2-3), a fixed installation column (2-4), a pushing spring (2-5), a pushing plate (2-6), an inlet (2-7), a connecting pipe (2-8), a matching baffle plate (2-9), an outlet (2-10), a control baffle plate (2-11), a sliding matching groove (2-12), a pushing sliding bolt (2-13), a limiting sliding groove (2-14), a connecting installation column (2-15), a sliding connecting plate (2-16), a drug discharging matching block (2-17), a spring (2-18), a drug discharging control pipe (2-19), a drug inlet hole (2-20), a communicating groove (2-21), The medicine discharging device comprises medicine discharging connecting holes (2-22), a supporting plate (2-1) is fixedly arranged on a mounting fixing plate (1), a mounting box (2-2) is fixedly arranged on the supporting plate (2-1), a mounting plate (2-3) is fixedly arranged on the mounting box (2-2), a fixed mounting column (2-4) is fixedly arranged on the mounting plate (2-3), a pushing spring (2-5) is sleeved on the fixed mounting column (2-4), a pushing plate (2-6) is slidably arranged on the fixed mounting column (2-4), the pushing plate (2-6) is slidably arranged inside the mounting box (2-2), an inlet (2-7) is arranged on the mounting box (2-2), and a connecting pipe (2-8) is fixedly arranged inside the mounting box (2-2) and on a matched baffle (2-9), the matching baffle (2-9) is fixedly installed inside the installation box (2-2), the discharge port (2-10) is arranged on the installation box (2-2), the control baffle (2-11) is slidably installed inside the installation box (2-2), the sliding matching groove (2-12) is arranged on the control baffle (2-11), the sliding bolt (2-13) is pushed to be slidably installed inside the sliding matching groove (2-12), the limiting sliding groove (2-14) is arranged on the installation box (2-2), the connecting installation column (2-15) is fixedly installed on the installation box (2-2), the sliding connection plate (2-16) is fixedly installed on the connecting installation column (2-15), the medicine discharging matching block (2-17) returns to be installed on the sliding connection plate (2-16), the springs (2-18) are installed inside the medicine discharging matching blocks (2-17), the medicine discharging matching blocks (2-17) are installed on the medicine discharging control pipes (2-19) in a sliding mode, the medicine discharging control pipes (2-19) are installed and fixed on the installation box (2-2), the medicine inlet holes (2-20) are formed in the medicine discharging control pipes (2-19), the communicating grooves (2-21) are formed inside the medicine discharging matching blocks (2-17), and the medicine discharging connecting holes (2-22) are formed inside the medicine discharging matching blocks (2-17).

3. An automatic filling equipment for respiratory anesthetic drugs according to claim 1, characterized in that: the vessel transfer device (3) comprises a fixed support rod (3-1), a fixed sliding rod (3-2), a sliding installation column (3-3), a sliding push groove (3-4), a sliding fit bolt (3-5), a rotary connecting seat (3-6), a connecting sleeve (3-7), a driving input shaft (3-8), a sliding connecting column (3-9), a control installation block (3-10), a control fit inclined plane (3-11), a push installation seat (3-12), a push shaft (3-13), a push gear (3-14), a vessel installation groove (3-15), a vessel clamping groove plate (3-16), a reset spring (3-17), a movable lead screw (3-18) and a rotary threaded cylinder (3-19), a fixed supporting rod (3-1) is fixedly arranged on a mounting fixing plate (1), a fixed sliding rod (3-2) is fixedly arranged on the fixed supporting rod (3-1), a sliding mounting column (3-3) is slidably arranged on the fixed sliding rod (3-2), a sliding pushing groove (3-4) is arranged on the sliding mounting column (3-3), a sliding matching bolt (3-5) is slidably arranged on the sliding pushing groove (3-4), a rotating connecting seat (3-6) is rotatably arranged on a connecting sliding matching bolt (3-5), a connecting sleeve (3-7) is fixedly arranged on the rotating connecting seat (3-6), a sliding connecting column (3-9) is slidably arranged in the connecting sleeve (3-7), and the sliding connecting column (3-9) is fixedly arranged on a driving input shaft (3-8), the control installation block (3-10) is fixedly installed on the sliding installation column (3-3), the control matching inclined plane (3-11) is arranged on the control installation block (3-10), the pushing installation seat (3-12) is fixedly installed on the control installation block (3-10), the pushing shaft (3-13) is rotatably installed on the pushing installation seat (3-12), the pushing gear (3-14) is fixedly installed on the pushing shaft (3-13), the vessel installation groove (3-15) is arranged on the control installation block (3-10), the vessel clamping groove plate (3-16) is slidably installed on the control installation block (3-10), the reset spring (3-17) is fixedly installed on the vessel clamping groove plate (3-16), the movable lead screw (3-18) is fixedly installed on the vessel clamping groove plate (3-16), the rotary threaded cylinders (3-19) are rotatably arranged on the control mounting blocks (3-10), and the rotary threaded cylinders (3-19) are in threaded fit with the movable lead screws (3-18).

4. An automatic filling equipment for respiratory anesthetic drugs according to claim 1, characterized in that: the vessel taking-out device (4) comprises a supporting and mounting fixing rod (4-1), a fixing sliding groove (4-2), a fixing rack (4-3), a limiting sliding column (4-4), a pushing reset spring (4-5), a pushing sliding rod (4-6), a moving rack (4-7), a connecting sliding seat I (4-8), a control sliding rod (4-9), a matching friction block (4-10), a connecting sliding seat II (4-11), a sliding connecting column (4-12), a rotating mounting shaft (4-13), a mounting connecting column (4-14), a clamping claw I (4-15), a pressurizing bent plate I (4-16), a rotating connecting cylinder (4-17), a clamping claw II (4-18), a pressurizing bent plate II (4-19), An arc spring (4-20), a supporting and mounting fixed rod (4-1) is fixedly arranged on a mounting fixed plate (1), a fixed chute (4-2) is fixedly arranged on the supporting and mounting fixed rod (4-1), a fixed rack (4-3) is fixedly arranged on the supporting and mounting fixed rod (4-1), a limiting sliding column (4-4) is fixedly arranged inside the fixed chute (4-2), a pushing reset spring (4-5) is sleeved on the limiting sliding column (4-4), a pushing sliding rod (4-6) is slidably arranged on the limiting sliding column (4-4), the pushing sliding rod (4-6) is slidably arranged inside the fixed chute (4-2), a moving rack (4-7) is fixedly arranged on the pushing sliding rod (4-6), the connecting sliding seat I (4-8) is fixedly arranged on the pushing sliding rod (4-6), the control sliding rod (4-9) is slidably arranged in the fixed sliding chute (4-2), the matching friction block (4-10) is arranged on the control sliding rod (4-9), the connecting sliding seat II (4-11) is fixedly arranged on the control sliding rod (4-9), the sliding connecting column (4-12) is slidably arranged on the connecting sliding seat I (4-8) and the connecting sliding seat II (4-11), the rotating mounting shaft (4-13) is rotatably arranged on the sliding connecting column (4-12), and the mounting connecting column (4-14) is fixedly arranged on the rotating mounting shaft (4-13), the clamping jaw I (4-15) is fixedly arranged on the mounting connecting column (4-14), the pressurizing bent plate I (4-16) is fixedly arranged on the mounting connecting column (4-14), the rotating connecting cylinder (4-17) is rotatably arranged on the mounting connecting column (4-14), the clamping jaw II (4-18) is fixedly arranged on the rotating connecting cylinder (4-17), the pressurizing bent plate II (4-19) is fixedly arranged on the rotating connecting cylinder (4-17), and the arc-shaped spring (4-20) is fixedly arranged on the pressurizing bent plate I (4-16) and the pressurizing bent plate II (4-19).

5. An automatic filling equipment for respiratory anesthetic drugs according to claim 2, characterized in that: the device is characterized in that the number of the mounting plates (2-3) of the vessel propulsion medicine adding device (2) is four, the number of the fixed mounting columns (2-4) and the number of the pushing springs (2-5) are two, the number of the connecting mounting columns (2-15), the number of the sliding connecting plates (2-16) and the number of the springs (2-18) are two, and a medicine feeding device is arranged on the medicine discharging control pipe (2-19).

6. An automatic filling equipment for respiratory anesthetic drugs according to claim 3, characterized in that: the vessel transfer device (3) comprises a driving input shaft (3-8) which is fixedly arranged on a driving output matching motor, and a matching motor is arranged on a pushing shaft (3-13).