CN111956894A

CN111956894A - Portable anesthesia combined device

Info

Publication number: CN111956894A
Application number: CN202010978737.6A
Authority: CN
Inventors: 赵彦芬; 毛轲; 高誉华
Original assignee: Henan Hospital Traditional Chinese Medicine Second Affiliated Hospital of Henan University of Traditional Chinese Medicine TCM
Current assignee: Henan Hospital Traditional Chinese Medicine Second Affiliated Hospital of Henan University of Traditional Chinese Medicine TCM
Priority date: 2020-09-17
Filing date: 2020-09-17
Publication date: 2020-11-20

Abstract

The invention relates to a portable anesthesia combination device, which effectively solves the problem that doctors help patients to inject local anesthetic one by one to influence the treatment efficiency; the automatic medicine feeding device comprises a shell, wherein an annular medicine feeding track is fixedly connected inside the shell, a plurality of medicine racks are slidably connected inside the annular medicine feeding track, the medicine racks are rotatably connected with a conveying belt, the conveying belt is matched with a driving belt pulley, the driving belt pulley is connected with a driven belt pulley, the bottom of the driving belt pulley is coaxially and fixedly connected with a grooved pulley, the grooved pulley is matched with a cam, the cam is coaxially and fixedly connected with a cam driven bevel gear, the cam driven bevel gear is meshed with a driving gear shaft, the driving gear shaft is connected to the bottom of the shell in a left-right sliding manner, the annular medicine feeding track is vertically and slidably connected with a syringe fixing frame, a syringe sliding plate is slidably connected inside the syringe fixing frame in a left-right; the effect of improving the working efficiency is achieved.

Description

Portable anesthesia combined device

Technical Field

The invention relates to the technical field of medical instruments, in particular to a portable anesthesia combination device.

Background

Anesthesia, an indispensable drug in the medical field, is administered before surgery to reduce the pain of surgery, and is generally considered to be a reversible functional inhibition of the central and/or peripheral nervous system, mainly characterized by loss of sensation, particularly pain, by medication or other means. Mainly comprises general anesthesia and local anesthesia.

Local anesthetics are those that temporarily completely and reversibly block nerve conduction within a defined area of the human body, i.e., cause a portion of the body to lose sensation without loss of consciousness, to facilitate surgical procedures. Is commonly applied in stomatology, ophthalmology, gynecology and some small surgical operations for temporarily relieving pain. The fundamental differences between local and general anesthetics are: after the local anesthetic is combined with certain specific parts on a sodium ion channel on a nerve membrane, sodium ions passing through the sodium ion channel are reduced, so that the potential of the nerve membrane is changed, the conduction of nerve impulses is blocked, and the anesthetic effect is finally realized; general anesthetics exert their anesthetic effect by affecting the physical properties of the nerve membrane, such as the fluid properties and permeability of the membrane.

The existing local anesthesia is generally used for injecting local anesthetic to patients through doctors, and when an earthquake occurs or an accident occurs in a construction site or a mine field and emergency treatment is needed, the following problems exist:

1. when a doctor walks to a place needing rescue, a large amount of medical materials need to be carried, and the doctor is inconvenient to move and carry during treatment.

2. The emergency treatment is needed when an earthquake or an accident occurs in a construction site or a mine, the number of patients is large, the patients are inconvenient to move, and doctors need to take out the medicament in the medicine bottle to the inside of the injector again at each time, so that the treatment efficiency is extremely influenced, and the patients cannot be relieved quickly.

3. When doctors help patients to inject local anesthetic, medical waste is generated, and the environment is polluted.

The present invention thus provides a portable anesthesia assembly that solves the above-described problems.

Disclosure of Invention

Aiming at the situation, the invention provides the portable anesthesia combination device for overcoming the defects of the prior art, and the portable anesthesia combination device effectively solves the problems that the carrying is inconvenient, a doctor helps a patient to inject local anesthetic one by one, the treatment efficiency is extremely influenced, the patient cannot be quickly relieved by using the local anesthetic, and the used injector and a medicine bottle can generate medical wastes and cause environmental pollution.

The invention relates to a portable anesthesia combination device, which comprises a shell and is characterized in that an annular medicine feeding track is fixedly connected inside the shell, a plurality of medicine racks are slidably connected inside the annular medicine feeding track, the bottom of each medicine rack is rotatably connected with a medicine feeding rack telescopic connecting rod, the shell is rotatably connected with a driving belt wheel, the driving belt wheel is matched with a driving belt, the driving belt wheel is rotatably connected with a driving telescopic rack, the driving telescopic rack and the medicine feeding rack telescopic connecting rod are coaxially and slidably connected, the driving belt wheel is connected with a driven belt wheel through the driving belt, the bottom of the driving belt wheel is coaxially and fixedly connected with a grooved wheel, the grooved wheel is matched with a cam, the cam is coaxially and fixedly connected with a cam driven bevel gear, a cam driving bevel gear is meshed beside the cam driven bevel gear, and the cam driving bevel gear is coaxially and fixedly connected with a driving gear shaft, the driving gear shaft is connected to the bottom of the shell in a left-right sliding mode and meshed with a driving motor;

the annular medicine feeding track is close to one end of the driven belt pulley and is fixedly connected with a grinding wheel, the upper end of the grinding wheel is fixedly connected with a bottle opening block, the annular medicine feeding track is vertically and slidably connected with an injector fixing frame, an injector sliding plate is horizontally and slidably connected inside the injector fixing frame and is horizontally and slidably connected with an injector medicine drawing sliding block, a medicine feeding needle fixing shaft is rotatably connected to the injector fixing frame, and a medicine feeding needle is fixedly connected to the medicine feeding needle fixing shaft.

Preferably, the annular medicine feeding track is rotatably connected with a reciprocating screw rod, the reciprocating screw rod is vertically and slidably connected with the injector fixing frame through threads, the bottom of the reciprocating screw rod is fixedly connected with a reciprocating screw rod driving gear, the reciprocating screw rod driving gear is meshed with a reciprocating screw rod auxiliary gear which is slidably connected with the annular medicine feeding track in a front-back manner, the reciprocating screw rod auxiliary gear is meshed with a driving gear which is rotatably connected with the annular medicine feeding track, the driving gear is meshed with a driving bevel gear which is fixedly connected with a driving gear shaft through a gear mechanism, the reciprocating screw rod auxiliary gear is fixedly connected with a medicine pumping slide block auxiliary gear through a connecting rod, the medicine pumping slide block auxiliary gear is slidably connected with the annular medicine feeding track in a front-back manner, the medicine pumping slide block auxiliary gear is meshed with a driving rack which is fixedly connected with the injector medicine pumping, the reciprocating screw rod auxiliary gear is rotationally connected with a gear positioning shaft which is in sliding connection with the annular medicine feeding track in a front-back manner, the gear positioning shaft is fixedly connected with a reciprocating screw rod auxiliary gear control inclined block, a rod auxiliary gear control connecting rod is in sliding connection with the inside of the injector fixing frame in a left-right manner, the left end of the rod auxiliary gear control connecting rod is fixedly connected with a connecting rod control inclined block matched with the reciprocating screw rod auxiliary gear control inclined block, the right end of the auxiliary gear control connecting rod is fixedly connected with a connecting rod control sliding block matched with the injector medicine pumping sliding block, the medicine pumping sliding block auxiliary gear is rotationally connected with a medicine pumping sliding block auxiliary gear positioning shaft in sliding connection with the annular medicine feeding track in a front-back manner, the medicine pumping sliding block auxiliary gear positioning shaft is fixedly connected with an auxiliary gear stretching spring, and the other end of the auxiliary gear, the bottom of the injector sliding plate is fixedly connected with a pushing inclined block, the pushing inclined block is matched with a pushing inclined block matched with the annular medicine feeding rail, the pushing inclined block is fixedly connected with the annular medicine feeding rail, the injector sliding plate is fixedly connected with an injector sliding plate extension spring, and the other end of the injector sliding plate extension spring is fixedly connected to the injector fixing frame.

Preferably, it is connected with the disinfection control connecting rod to rotate medicine feeding syringe needle fixed axle upper end, disinfection control connecting rod sliding connection from top to bottom with shell fixed connection's mount limiting plate, fixedly connected with medicine feeding syringe needle stopper on the mount limiting plate, the syringe needle switching-over groove has been seted up on the medicine feeding syringe needle fixed axle, medicine feeding syringe needle stopper with syringe needle switching-over groove cooperatees, disinfection control connecting rod below fixedly connected with shell fixed connection's sterilizer, sliding connection has the sealed lid of sterilizer around on the sterilizer, the inside fixedly connected with disinfection compression spring of the sealed lid of sterilizer, disinfection compression spring other end fixed connection be in on the sterilizer.

Preferably, fixedly connected with medicine rack on the track is gone up to the annular medicine of going up, it is connected with a plurality of medicine bottle control clamps to go up the rotation of medicine rack lower extreme, the medicine bottle control clamps inside and rotates and be connected with spacing torsional spring, the cooperation of medicine bottle control clamp have with medicine rack fixed connection's lower medicine control block.

Preferably, a plurality of waste recovery boxes are connected to the housing in a sliding manner.

Preferably, the shell is rotatably connected with a cover plate, the cover plate is fixedly connected with a plurality of injection needle fixing frames and an injector placing frame, the cover plate is fixedly connected with a string, and the string is connected to the driving gear shaft through a pulley block.

Preferably, the bottom of the medicine rack is connected with a medicine bottle supporting plate in a rotating mode, the medicine bottle supporting plate is fixedly connected with a supporting plate stretching spring, the other end of the supporting plate stretching spring is fixedly connected onto the medicine rack, a medicine bottle conveying groove is formed in the medicine rack, the medicine rack is connected with a driven guide wheel in a rotating mode, the medicine rack is connected with a guide support in a rotating mode, the guide support is connected with a guide wheel in a rotating mode, the annular medicine feeding track is fixedly connected with a medicine bottle supporting plate control block, the annular medicine feeding track is provided with a waste material discharge hole, and the guide support is fixedly connected with a medicine discharging control block.

Preferably, a plurality of balls are rotatably connected to the driven guide wheel and the guide wheel.

Drawings

Fig. 1 is a perspective view of the present invention.

FIG. 2 is a schematic view of the internal structure of the present invention.

Fig. 3 is a schematic view of the driving mechanism of the present invention.

Fig. 4 is a schematic view of the medicine feeding transmission structure of the injector.

Fig. 5 is a schematic view of the medicine feeding structure of the injector of the invention.

Fig. 6 is a schematic view of the annular feeding track of the present invention.

Fig. 7 is a schematic view of the driving mechanism of the medicine rack of the present invention.

Fig. 8 is a schematic view of the medicine feeding rack of the present invention.

Fig. 9 is a front schematic view of the medicine rack of the present invention.

Fig. 10 is a back view of the drug rack of the present invention.

FIG. 11 is a schematic view of the reciprocating mechanism of the syringe holder of the present invention.

Fig. 12 is a schematic view of the direction change of the needle for administering the medicine of the present invention.

Fig. 13 is a schematic view of the drug drawing mechanism of the syringe of the present invention.

Detailed Description

The foregoing and other aspects, features and advantages of the invention will be apparent from the following more particular description of embodiments of the invention, as illustrated in the accompanying drawings in which reference is made to figures 1 to 13. The structural contents mentioned in the following embodiments are all referred to the attached drawings of the specification.

Exemplary embodiments of the present invention will be described below with reference to the accompanying drawings.

The embodiment I is a portable anesthesia combination device, which comprises a shell 1, and is characterized in that an annular medicine feeding track 2 is fixedly connected inside the shell 1, as shown in figure 5, the annular medicine feeding track 2 is used for adjusting a medicine bottle from a horizontal state to a vertical state, a medicine rack sliding limiting groove is formed in the middle of the annular medicine feeding track 2, a plurality of medicine racks 3 are slidably connected inside the annular medicine feeding track 2, medicine rack driving blocks are fixedly connected with the medicine rack driving blocks, the medicine rack driving blocks are rotatably connected with medicine rack telescopic connecting rods 4, a driving belt pulley 7 is rotatably connected with the shell 1, a driving belt 6 is matched with the driving belt pulley 7, a driving telescopic rack 5 is rotatably connected with the driving belt 6, the driving telescopic rack 5 and the medicine rack telescopic connecting rods 4 are coaxially and slidably connected, the driving belt pulley 7 is connected with a driven belt pulley 8 through the driving belt 6, the bottom of the driving belt pulley 7 is coaxially and fixedly connected with a grooved pulley 9, the grooved pulley 9 is matched with a cam 10, four grooves are equidistantly formed in the grooved pulley 9, the cam 10 rotates for a circle to drive the grooved pulley 9 to rotate for a quarter of a circle, the grooved pulley 9 rotates a quarter circle to drive the driving belt pulley 7 to rotate a quarter circle, the driving belt pulley 7 rotates a quarter circle to drive the transmission belt 6 to perform equidistant intermittent transmission, when the medicine rack 3 is driven by the conveying belt 6 to move and the medicine rack 3 slides on the annular medicine feeding track 2 from horizontal to vertical, the medicine rack driving block is farther away from the conveying belt 6, and the medicine loading rack telescopic connecting rod 4 and the transmission telescopic rack 5 can be extended and retracted to effectively solve the problem that the medicine rack 3 is not driven when the distance from the medicine bottle to the conveying belt 6 is different when the medicine bottle moves from a horizontal state to a vertical state; the cam 10 is used for controlling equidistant intermittent transmission of the grooved pulley 9, the grooved pulley 9 can drive the driven pulley 8 to perform equidistant intermittent transmission, the driven pulley 8 drives the conveying belt 6 to perform equidistant intermittent transmission, the driven pulley 8 drives the medicine rack 3 to perform equidistant intermittent transmission, the cam 10 is coaxially and fixedly connected with a cam driven bevel gear 11, a cam driven bevel gear 12 is meshed beside the cam driven bevel gear 11, the cam driven bevel gear 12 is coaxially and fixedly connected with a driving gear shaft 13, the driving gear shaft 13 is connected to the bottom of the shell 1 in a left-right sliding manner, and the driving gear shaft 13 is meshed with a driving motor 14;

a grinding wheel 15 is fixedly connected to one end of the annular medicine feeding track 2 close to the driven belt pulley 8, the grinding wheel 15 is used for cutting open a bottle opening at the top of a medicine bottle, a rubber pad is fixedly installed at the bottom of the annular medicine feeding track 2, the rubber pad is used for enabling the medicine bottle to start rotating through friction force when passing through the grinding wheel 15, when the medicine bottle passes through the grinding wheel 15, the grinding wheel 15 uniformly cuts open the top of the medicine bottle, a bottle opening block 16 is fixedly connected to the upper end of the grinding wheel 15, when the medicine bottle cut by the grinding wheel 15 passes through the bottle opening block 16, the bottle opening block 16 pushes the bottle opening at the top of the medicine bottle, an injector fixing frame 17 is slidably connected to the upper and lower parts of the annular medicine feeding track 2, a threaded rod is slidably connected to the upper and lower parts of the interior of the injector fixing frame 17, the threaded rod is externally connected with a driving device, the medicine bottle filling device is characterized in that a reciprocating push rod is fixedly connected to the bottom of the injector sliding plate 18, an injector fixing plate is fixedly connected to the injector sliding plate 18, an injector is fixedly connected to the inside of the injector fixing plate, an injector medicine drawing sliding block 19 is connected to the injector sliding plate 18 in a left-right sliding mode, a reciprocating push rod telescopic end is fixedly connected to the bottom of the injector medicine drawing sliding block 19, an injector medicine drawing fixing clamp is fixedly connected to the injector medicine drawing sliding block 19, an injector is fixedly connected to the inside of the injector medicine drawing fixing clamp, a medicine feeding needle fixing shaft 20 is connected to the injector fixing frame 17 in a rotating mode, a medicine feeding needle 21 is fixedly connected to the medicine feeding needle fixing shaft 20, and the medicine feeding needle 21 is used.

In the specific implementation of the embodiment, an injector is mounted on the injector fixing frame 17, the injector sliding plate 18 is pushed leftwards, the injector is connected with the medicine feeding needle 21, a medicine bottle is mounted inside the medicine rack 3, the device is started, the driving motor 14 drives the driving gear shaft 13 to rotate, the driving gear shaft 13 rotates to drive the cam driving bevel gear 12 to rotate, the cam driving bevel gear 12 rotates to drive the grooved pulley 9 to perform intermittent transmission, the grooved pulley 9 performs intermittent transmission to drive the driving pulley 7 to perform equidistant intermittent transmission, the driving pulley 7 performs equidistant intermittent transmission to drive the conveying belt 6 to perform equidistant intermittent transmission, the conveying belt 6 performs equidistant intermittent transmission to drive the medicine rack 3 to perform equidistant intermittent transmission, when the medicine rack 3 moves to be close to the driven pulley 8, the grinding wheel 15 cuts the bottle mouth of the medicine bottle, the bottle opening block 16 pushes the bottle mouth of the medicine bottle off, the medicine rack 3 drives the opened medicine bottle to move to the position below the medicine feeding needle 21, the injector fixing rack 17 drives the injector and the medicine feeding needle 21 to slide downwards, the medicine feeding needle 21 slides downwards and is inserted into the medicine bottle, and then the electric push rod is started to draw the medicine in the medicine bottle into the injector;

after the medicine is pumped out from the injector, the injector fixing frame 17 drives the injector and the medicine feeding needle head 21 to slide upwards, the injector sliding plate 18 is pushed rightwards, and the injector is taken out and provided with the injection needle head.

In the second embodiment, on the basis of the first embodiment, precise manual operation is required during the use process, which is very inconvenient and time-consuming, so this embodiment provides a gear transmission mechanism to solve the above problems, specifically, a reciprocating screw 22 is rotatably connected to the annular medicine feeding track 2, the reciprocating screw 22 and the injector fixing frame 17 are vertically slidably connected through a screw thread, the injector fixing frame 17 vertically and reciprocally slides on the reciprocating screw 22, a reciprocating screw driving gear 23 is fixedly connected to the bottom of the reciprocating screw 22, a reciprocating screw auxiliary gear 24 slidably connected to the annular medicine feeding track 2 is engaged with the reciprocating screw driving gear 23, a driving gear 25 rotatably connected to the annular medicine feeding track 2 is engaged with the reciprocating screw auxiliary gear 24, and a fixing frame driven bevel gear rotatably connected to the housing 1 is coaxially and fixedly connected to the driving gear 25, the driven bevel gear of the fixing frame is engaged with a driving bevel gear 30 fixedly connected with the driving gear shaft 13, the reciprocating screw rod auxiliary gear 24 is fixedly connected with a medicine pumping slide block auxiliary gear 26 through a connecting rod, the medicine pumping slide block auxiliary gear 26 is connected on the annular medicine feeding track 2 in a front-back sliding manner, when the reciprocating screw rod auxiliary gear 24 slides up and down, the medicine pumping slide block auxiliary gear 26 slides back and forth together, the medicine pumping slide block auxiliary gear 26 is engaged with a transfer gear, the transfer gear is engaged with a rack driving gear, when the reciprocating screw rod auxiliary gear 24 is simultaneously engaged with the reciprocating screw rod driving gear 23 and the driving gear 25, the medicine pumping slide block auxiliary gear 26 is disengaged from the driving gear 25 and the rack driving gear, and the rack driving gear is engaged with a driving rack 29 fixedly connected with the syringe medicine pumping slide block 19, when the injector fixing frame 17 slides downwards to the limit position of the lower end of the reciprocating screw rod 22, the driving rack 29 is meshed with the rack driving gear, the reciprocating screw rod auxiliary gear 24 is rotatably connected with a gear positioning shaft 31 which is in front-back sliding connection with the annular medicine feeding track 2, the gear positioning shaft 31 is fixedly connected with a reciprocating screw rod auxiliary gear control inclined block 32, an auxiliary gear control connecting rod 33 is in left-right sliding connection inside the injector fixing frame 17, the left end of the rod auxiliary gear control connecting rod 33 is fixedly connected with a connecting rod control inclined block 34 which is matched with the reciprocating screw rod auxiliary gear control inclined block 32, the connecting rod control inclined block 34 is arranged above the reciprocating screw rod auxiliary gear control inclined block 32, the medicine pumping slide block auxiliary gear 26 is rotatably connected with a medicine pumping slide block auxiliary gear positioning shaft 36 which is in front-back sliding connection with the annular medicine feeding track 2, the auxiliary gear positioning shaft 36 of the medicine extracting slide block is fixedly connected with an auxiliary gear extension spring 37, the other end of the auxiliary gear extension spring 37 is fixedly connected to the annular medicine feeding track 2, when the injector fixing frame 17 slides downwards to a limit position, the reciprocating screw rod auxiliary gear control inclined block 32 pushes the reciprocating screw rod auxiliary gear 24 forwards, the reciprocating screw rod auxiliary gear 24 is disengaged from the reciprocating screw rod driving gear 23 and the driving gear 25, the medicine extracting slide block auxiliary gear 26 is engaged with the driving gear 25 and the rack driving gear, the reciprocating screw rod 22 stops rotating, the rack driving gear drives the driving rack 29 to slide left and right to extract medicine into the injector, the right end of the auxiliary gear control connecting rod 33 is fixedly connected with a connecting rod control slide block 35 matched with the injector medicine extracting slide block 19, when the injector drug-drawing slider 19 slides rightwards to contact the connecting rod control slider 35, the connecting rod control slider 35 is driven to slide rightwards, the connecting rod control slider 35 slides rightwards to drive the connecting rod control inclined block 34 to be disengaged from the reciprocating screw rod auxiliary gear control inclined block 32, the auxiliary gear extension spring 37 pulls the drug-drawing slider auxiliary gear 26 backwards, and the drug-drawing slider auxiliary gear 26 drives the reciprocating screw rod auxiliary gear 24 to be meshed with the reciprocating screw rod driving gear 23 and the driving gear 25; the bottom of the injector sliding plate 18 is fixedly connected with a pushing inclined block 38, the pushing inclined block 38 is matched with a pushing inclined block matching inclined block 39 fixedly connected with the annular medicine feeding track 2, an injector sliding plate extension spring 40 is fixedly connected with the injector sliding plate 18, the other end of the injector sliding plate extension spring 40 is fixedly connected with the injector fixing frame 17, when the injector fixing frame 17 slides downwards to the limit position, the pushing inclined block 38 is matched with the pushing inclined block matching inclined block 39, the injector sliding plate 18 is pushed leftwards to enable an injector to be installed with the medicine feeding needle 21, and when the injector fixing frame 17 slides upwards, the injector sliding plate extension spring 40 pulls the injector sliding plate 18 rightwards to enable the injector to be separated from the medicine feeding needle 21.

When the injector is used specifically, the injector is mounted on the injector fixing frame 17, the device is started, the driving motor 14 drives the driving gear shaft 13 to rotate, the driving gear shaft 13 rotates to drive the driving bevel gear 30 to rotate, the driving bevel gear 30 rotates to drive the fixing frame driven bevel gear to rotate, the fixing frame driven bevel gear rotates to drive the driving gear 25 to rotate, the driving gear 25 rotates to drive the reciprocating screw rod 22 to rotate, and the reciprocating screw rod 22 rotates to drive the injector fixing frame 17 to slide downwards;

when the injector fixing frame 17 slides downwards to the limit position, the pushing inclined block 38 is matched with the pushing inclined block matching inclined block 39, the injector sliding plate 18 is pushed leftwards to enable the injector and the medicine feeding needle 21 to be installed together, the reciprocating screw rod auxiliary gear control inclined block 32 pushes the reciprocating screw rod auxiliary gear 24 forwards, the reciprocating screw rod auxiliary gear 24 is disengaged from the reciprocating screw rod driving gear 23 and the driving gear 25, the medicine drawing slide block auxiliary gear 26 is engaged with the driving gear 25 and the rack driving gear, the reciprocating screw rod 22 stops rotating, the rack driving gear drives the driving rack 29 to slide leftwards and rightwards to draw the medicine into the injector, the right end of the auxiliary gear control connecting rod 33 is fixedly connected with a connecting rod control sliding block 35 matched with the injector medicine drawing slide block 19, when the injector drug-drawing slider 19 slides rightwards to contact the connecting rod control slider 35, the connecting rod control slider 35 is driven to slide rightwards, the connecting rod control slider 35 slides rightwards to drive the connecting rod control inclined block 34 to be disengaged from the reciprocating screw rod auxiliary gear control inclined block 32, the auxiliary gear extension spring 37 pulls the drug-drawing slider auxiliary gear 26 backwards, the drug-drawing slider auxiliary gear 26 drives the reciprocating screw rod auxiliary gear 24 to be meshed with the reciprocating screw rod driving gear 23 and the driving gear 25, and the injector sliding plate extension spring 40 pulls the injector sliding plate 18 rightwards to separate the injector from the drug-loading needle head 21;

when the syringe holder 17 is slid up to the limit position the device stops and the syringe is removed and the needle is mounted.

In the third embodiment, on the basis of the second embodiment, after use or when a medicament needs to be replaced, an adverse reaction is generated, and the medicine feeding needle 21 needs to be sterilized, so that the present embodiment provides a sterilization apparatus, specifically, the upper end of the medicine feeding needle fixing shaft 20 is rotatably connected with a sterilization control connecting rod 41, the bottom end of the sterilization control connecting rod 41 is cut to have an oblique angle, the sterilization control connecting rod 41 is vertically and slidably connected with a fixing frame limiting plate 42 fixedly connected with the housing 1, a travel switch is installed on the lower side of the fixing frame limiting plate 42, when the syringe fixing frame 17 slides on a line to contact with the travel switch installed on the lower side of the fixing frame limiting plate 42, the driving motor 14 stops rotating, a medicine feeding needle limiting block 43 is fixedly connected to the fixing frame limiting plate 42, and a needle reversing groove 44 is formed on the medicine feeding needle fixing shaft 20, the medicine feeding needle head limiting block 43 is matched with the needle head reversing groove 44, the medicine feeding needle head limiting block 43 slides in the needle head reversing groove 44, an arc-shaped groove is formed at the bottom of the needle head reversing groove 44, when the syringe fixing frame 17 slides upwards, the medicine feeding needle head fixing shaft 20 slides upwards, the medicine feeding needle head limiting block 43 slides along the arc-shaped groove, when the medicine feeding needle head limiting block 43 slides upwards and passes through the arc-shaped groove, the medicine feeding needle head fixing shaft 20 rotates for a half circle to change the medicine feeding needle head 21 used last time to the other side, when the syringe fixing frame 17 slides downwards, the medicine feeding needle head fixing shaft 20 slides downwards, the medicine feeding needle head limiting block 43 slides along the needle head reversing groove 44 to achieve the purpose of fixing the medicine feeding needle head 21, the disinfection cabinet 45 fixedly connected with the shell 1 is fixedly connected below the disinfection control connecting rod 41, the disinfection cabinet 45 is filled with disinfection alcohol, the disinfection cabinet 45 is connected with a disinfection cabinet sealing cover 46 in a front-back sliding manner, a curved surface sliding groove is formed in the middle of the disinfection cabinet sealing cover 46, the curved surface sliding groove is matched with an oblique angle formed by cutting the bottom end of the disinfection control connecting rod 41, a disinfection compression spring 47 is fixedly connected inside the disinfection cabinet sealing cover 46, and the other end of the disinfection compression spring 47 is fixedly connected onto the disinfection cabinet 45.

In this embodiment, when the syringe holder 17 slides downward, the disinfection control link 41 pushes the disinfection cabinet sealing cover 46 away from both sides, the last used dispensing needle 21 enters the disinfection cabinet 45 for disinfection, and when the syringe holder 17 slides upward to the arc-shaped groove at the bottom of the needle reversing groove 44, the dispensing needle fixing shaft 20 rotates half a turn to replace the last used dispensing needle 21 for disinfection.

Fourth embodiment, on the basis of the first embodiment, the present apparatus needs to manually install the medicine bottles filled with the medicine on the medicine rack 3, which is inconvenient to operate, wastes time and affects work efficiency, so this embodiment provides an automatic medicine feeding apparatus, specifically, the annular medicine feeding track 2 is fixedly connected with a medicine feeding rack 48, a plurality of medicine bottles filled with the medicine are placed in the medicine feeding rack 48, a rubber rod is placed above the medicine bottles after the medicine bottles are placed in the medicine feeding rack 48, the rubber rod is used for pressing the medicine bottles to prevent oscillation, so that the medicine bottles slide out of the medicine feeding rack 48, the lower end of the medicine feeding rack 48 is rotatably connected with a plurality of medicine bottle control clips 49, the medicine bottle control clips 49 are used for controlling the falling of the medicine bottles, the inside of the medicine bottle control clips 49 is rotatably connected with a limit torsion spring 50, the medicine bottle control clips 49 are matched with a medicine discharge control block 51 fixedly connected with the medicine rack 3, work as medicine frame 3 slides to when going up medicine frame 48 below, lower medicine control block 51 with the contact of medicine bottle control clamp 49 promotes medicine bottle control clamp 49, medicine bottle control clamp 49 rotates go up the inside downward landing of medicine bottle of medicine frame 48, work as medicine frame 3 slides go up after medicine frame 48, lower medicine control block 51 with medicine bottle control clamp 49 breaks away from, medicine bottle control clamp 49 resets through spacing torsional spring 50, will go up the inside medicine bottle of medicine frame 48 and block.

In the fifth embodiment, on the basis of the first embodiment, medical wastes are generated by medical medicines which need to be used when a patient goes out for anesthesia treatment, and the environment is polluted, so the present embodiment provides a medical waste recycling device, specifically, a plurality of waste recycling boxes 52 are connected to the housing 1 in a sliding manner, and the waste recycling boxes 52 are used for accommodating used medicine bottles and syringes.

Sixth embodiment, on the basis of the first embodiment, the device needs to manually push the driving gear shaft 13 to the right after performing one round of operation to engage the cam driven bevel gear 11 with the cam driven bevel gear 12, which is very inconvenient to operate in the operation process, the device has many internal mechanical structures, and manually pushing the driving gear shaft 13 easily causes hand injury, so the present embodiment provides a resetting device, specifically, a cover plate 53 is rotatably connected to the housing 1, a plurality of syringe needle holders 54 and syringe racks 55 are fixedly connected to the cover plate 53, a plurality of syringe needles and syringes are placed inside the syringe needle holders 54 and the syringe racks 55, a string 54 is fixedly connected to the cover plate 53, the string is connected to the driving gear shaft 13 through a pulley block, and a gear shaft pushing plate is rotatably connected to the driving gear shaft 13, the gear shaft pushing plate is connected with a pushing plate limiting sleeve in a left-right sliding mode, the pushing plate limiting sleeve is fixedly connected to the bottom of the shell 1, a conical inclined surface is fixedly connected to the top of the gear shaft pushing plate and matched with the cam 10, when the cam 10 rotates to the position of the gear shaft pushing plate, the driving gear shaft 13 is pushed leftwards, the fixed frame driven bevel gear is meshed with the driving bevel gear 30, and the cam driven bevel gear 11 is disengaged from the cam driving bevel gear 12; the rotary pulley is rotatably connected to the shell 1, a string is fixedly connected to the gear shaft pushing plate through the other end of the rotary pulley, when the cover plate 53 is opened, the cover plate 53 drives the driving gear shaft 13 to slide rightwards through the string, so that the cam driven bevel gear 11 is meshed with the cam driven bevel gear 12, a starting switch is fixedly connected to the shell 1, the starting switch is matched with the cover plate 53, and when the cover plate 53 is closed, the starting switch is started.

Seventh embodiment, on the basis of the first embodiment, after the medicine bottles are used, empty medicine bottles need to be manually taken down from the medicine rack 3, and in this operation process, the hands of the medicine bottles are easily scratched by the medicine bottles, so this embodiment provides a medicine bottle disengaging device, specifically, the medicine rack 3 is rotatably connected to a medicine bottle supporting plate 56 at the bottom, the medicine bottle supporting plate 56 is fixedly connected to a supporting plate extension spring 57, the other end of the supporting plate extension spring 57 is fixedly connected to the medicine rack 3, the medicine rack 3 is provided with a medicine bottle conveying groove 58, medicine bottles are placed inside the medicine bottle conveying groove 58, the medicine rack 3 is made of a smooth plastic material, the medicine rack 3 is rotatably connected to a driven guide wheel 59, the medicine rack 3 is rotatably connected to a guide bracket 60, the guide bracket 60 is used for preventing the medicine rack 3 from being stuck when the medicine rack 3 is rotated on the annular medicine feeding rail 2, the medicine feeding device is characterized in that a guide wheel 61 is rotatably connected to the guide support 60, a medicine bottle supporting plate control block 63 is fixedly connected to the annular medicine feeding rail 2, a waste material discharging hole 64 is formed in the annular medicine feeding rail 2, the waste material discharging hole 64 is used for enabling medicine bottles to slide out of the medicine rack 3 to the waste material recovery box 52, and the medicine feeding control block 51 is fixedly connected to the guide support 60.

In this embodiment, when the medicine rack 3 with the medicine bottles passes through the medicine bottle supporting plate control block 63, the medicine bottle supporting plate control block 63 is matched with the medicine bottle supporting plate 56, and the medicine bottle supporting plate control block 63 pushes the medicine bottle supporting plate 56 to rotate, so that the medicine bottles can slide out from the inside of the medicine rack 3 and fall out from the waste material outlet 64 to the waste material recycling box 52.

In the eighth embodiment, in addition to the seventh embodiment, the medicine rack 3 is likely to generate friction when sliding on the annular medicine feeding rail 2, which causes the medicine bottles to vibrate on the medicine rack 3, which is likely to damage the medicine bottles, so that the present embodiment provides a ball guide wheel, and specifically, a plurality of balls 62 are rotatably connected to the driven guide wheel 59 and the guide wheel 61.

When the injector is implemented, the cover plate 53 is opened, the injector is installed on the injector fixing frame 17, the cover plate 53 is closed to start the switch, the driving motor 14 drives the driving gear shaft 13 to rotate, the driving gear shaft 13 rotates to drive the cam to drive the bevel gear 12 to rotate, the cam drives the bevel gear 12 to rotate to drive the grooved pulley 9 to perform intermittent transmission, the grooved pulley 9 performs intermittent transmission to drive the driving belt pulley 7 to perform equidistant intermittent transmission, the driving belt pulley 7 performs equidistant intermittent transmission to drive the conveying belt 6 to perform equidistant intermittent transmission, and the conveying belt 6 performs equidistant intermittent transmission to drive the medicine rack 3 to perform equidistant intermittent;

when the medicine rack 3 slides to the lower part of the upper medicine rack 48, the medicine discharging control block 51 and the medicine bottle control clamp 49 are contacted to push the medicine bottle control clamp 49, the medicine bottle control clamp 49 rotates the medicine bottles in the upper medicine rack 48 to slide downwards to fall onto the medicine bottle delivery groove 58 in the medicine rack 3, after the medicine rack 3 slides over the upper medicine rack 48, the medicine discharging control block 51 and the medicine bottle control clamp 49 are separated, the medicine bottle control clamp 49 is reset through the limiting torsion spring 50, and the medicine bottles in the upper medicine rack 48 are clamped;

after the cam 10 and the grooved wheel 9 are matched and intermittently rotated once, the cam 10 rotates to the position of a gear shaft pushing plate, and the driving gear shaft 13 is pushed leftwards, so that the driven bevel gear of the fixed frame is meshed with the driving bevel gear 30, and the cam driven bevel gear 11 is disengaged from the cam driving bevel gear 12;

when the medicine rack 3 moves to be close to the driven belt pulley 8, the grinding wheel 15 cuts the bottle mouth of the medicine bottle, the bottle opening block 16 pushes the bottle mouth of the medicine bottle off, and the medicine rack 3 drives the opened medicine bottle to move to the position below the medicine feeding needle 21;

the driving motor 14 drives the driving gear shaft 13 to rotate, the driving gear shaft 13 drives the driving bevel gear 30 to rotate, the driving bevel gear 30 drives the fixing frame driven bevel gear to rotate, the fixing frame driven bevel gear rotates to drive the driving gear 25 to rotate, the driving gear 25 rotates to drive the reciprocating screw rod 22 to rotate, and the reciprocating screw rod 22 rotates to drive the injector fixing frame 17 to slide downwards;

when the ejector fixing frame 17 slides downwards, the injector fixing frame 17 drives the injector and the medicine feeding needle 21 to slide downwards, the medicine feeding needle 21 slides downwards and is inserted into the medicine bottle, the pushing sloping block 38 is matched with the pushing sloping block 39, the injector sliding plate 18 is pushed leftwards to enable the injector and the medicine feeding needle 21 to be installed together, the reciprocating screw rod auxiliary gear control sloping block 32 pushes the reciprocating screw rod auxiliary gear 24 forwards, when the ejector fixing frame 17 slides downwards to a limit position, the disinfection control connecting rod 41 pushes the disinfection cabinet sealing cover 46 away towards two sides, the medicine feeding needle 21 used last time enters the disinfection cabinet 45 to be disinfected, the reciprocating screw rod auxiliary gear 24 is disengaged with the reciprocating screw rod driving gear 23 and the driving gear 25, the medicine drawing slide block auxiliary gear 26 is engaged with the driving gear 25 and the rack driving gear, the reciprocating screw rod 22 stops rotating, the rack driving gear drives the driving rack 29 to slide right, when the injector medicine drawing slide block 19 slides rightwards to contact the connecting rod control slide block 35, the connecting rod control slide block 35 is driven to slide rightwards, the connecting rod control slide block 35 slides rightwards to drive the connecting rod control inclined block 34 to be disengaged from the reciprocating screw rod auxiliary gear control inclined block 32, the auxiliary gear stretching spring 37 pulls the medicine drawing slide block auxiliary gear 26 backwards, the medicine drawing slide block auxiliary gear 26 drives the reciprocating screw rod auxiliary gear 24 to be meshed with the reciprocating screw rod driving gear 23 and the driving gear 25, the reciprocating screw rod 22 continues to rotate to drive the injector fixing frame 17 to slide upwards, the injector sliding plate stretching spring 40 pulls the injector sliding plate 18 rightwards to separate the injector from the medicine feeding needle head 21, when the injector fixing frame 17 slides upwards to an arc-shaped groove at the bottom of the needle head reversing groove 44, the medicine feeding needle head fixing shaft 20 rotates half a circle to change the medicine feeding needle head 21 used last time to wait, when the syringe fixing frame 17 slides on the line to be contacted with a travel switch arranged on the lower side of the fixing frame limiting plate 42, the driving motor 14 stops rotating;

the cover plate 53 is opened, the cover plate 53 drives the driving gear shaft 13 to slide rightwards through a string, so that the cam driven bevel gear 11 is meshed with the cam driven bevel gear 12, the injector with the extracted medicament is taken out from the injector fixing frame 17, the injection needle is taken out from the injection needle fixing frame 54 on the cover plate 53 and is installed on the injector with the extracted medicament, the auxiliary gear control connecting rod 33 and the injector medicament extraction sliding block 19 are reset, the unused injector is taken out from the injector placing frame 55 and is placed on the injector fixing frame 17, the used injector is placed in the waste recovery box 52, the starting switch is started after the cover plate 53 is closed, and the medical waste in the waste recovery box 52 is taken out and recovered after the use is finished.

The invention improves the existing portable anesthesia combination device, and realizes the drug feeding operation of the injector by adding the annular drug feeding track, the drug rack and the injector fixing rack, thereby solving the problems that the number of patients is large and the patients are inconvenient to move, and doctors help the patients to inject local anesthetic one by one, which extremely affects the treatment efficiency and can not use the patients to be quickly relieved; the problems that a large amount of medical materials need to be carried, the medical injector needs to be moved conveniently during treatment and is inconvenient to carry are solved by adding the shell, the cover plate and the injector placing rack; the problem that medical waste can cause environmental pollution when the local anesthetic is injected is solved by adding the waste recovery box; the invention greatly improves the working efficiency, is convenient to operate and has stable structure.

Claims

1. The portable anesthesia combination device comprises a shell (1) and is characterized in that an annular medicine feeding track (2) is fixedly connected inside the shell (1), a plurality of medicine racks (3) are slidably connected inside the annular medicine feeding track (2), a medicine feeding rack telescopic connecting rod (4) is rotatably connected to the bottom of each medicine rack (3), a driving belt pulley (7) is rotatably connected to the shell (1), a driving belt (6) is matched on the driving belt pulley (7), a transmission telescopic rack (5) is rotatably connected on the driving belt (6), the transmission telescopic rack (5) and the medicine feeding rack telescopic connecting rod (4) are coaxially and slidably connected, the driving belt pulley (7) is connected with a driven belt pulley (8) through the driving belt (6), a grooved pulley (9) is coaxially and fixedly connected to the bottom of the driving belt pulley (7), and a cam (10) is matched with the grooved pulley (9), the cam (10) is coaxially and fixedly connected with a cam driven bevel gear (11), a cam driven bevel gear (12) is meshed beside the cam driven bevel gear (11), the cam driven bevel gear (12) is coaxially and fixedly connected with a driving gear shaft (13), the driving gear shaft (13) is connected to the bottom of the shell (1) in a left-right sliding mode, and the driving gear shaft (13) is meshed with a driving motor (14);

annular medicine feed track (2) are close to driven pulley (8) one end fixedly connected with emery wheel (15), emery wheel (15) upper end fixedly connected with uncork piece (16), annular medicine feed track (2) go up the lower sliding connection have syringe mount (17), the inside horizontal sliding connection of syringe mount (17) has syringe sliding plate (18), syringe sliding plate (18) horizontal sliding connection has syringe to draw medicine slider (19), rotating connection has medicine feed needle fixed axle (20) on syringe mount (17), medicine feed needle fixed axle (20) fixedly connected with medicine feed needle (21).

2. The portable anesthesia combination apparatus of claim 1, wherein a reciprocating screw rod (22) is rotatably connected to the annular medicine feeding track (2), the reciprocating screw rod (22) and the injector fixing frame (17) are vertically and slidably connected through a screw thread, a reciprocating screw rod driving gear (23) is fixedly connected to the bottom of the reciprocating screw rod (22), a reciprocating screw rod auxiliary gear (24) which is slidably connected to the annular medicine feeding track (2) in the front-rear direction is engaged with the reciprocating screw rod driving gear (23), a driving gear (25) which is rotatably connected to the annular medicine feeding track (2) is engaged with the reciprocating screw rod auxiliary gear (24), a driving bevel gear (30) which is fixedly connected to the driving gear shaft (13) is engaged with the driving gear (25) through a gear mechanism, and a medicine drawing slider auxiliary gear (26) is fixedly connected to the reciprocating screw rod auxiliary gear (24) through a connecting rod, draw medicine slider auxiliary gear (26) front and back sliding connection be in on annular medicine feeding track (2), draw medicine slider auxiliary gear (26) have through the gear train meshing with syringe draws medicine slider (19) fixed connection's drive rack (29), reciprocal lead screw auxiliary gear (24) rotate be connected with annular medicine feeding track (2) front and back sliding connection's gear location axle (31), gear location axle (31) fixedly connected with reciprocal lead screw auxiliary gear control sloping block (32), syringe mount (17) inside left and right sliding connection has pole auxiliary gear control connecting rod (33), pole auxiliary gear control connecting rod (33) left end fixedly connected with reciprocal lead screw auxiliary gear control sloping block (32) matched with connecting rod control sloping block (34), auxiliary gear control connecting rod (33) right-hand member fixedly connected with syringe draws medicine slider (19) matched with connecting rod control slider (35) The auxiliary gear (26) of the medicine drawing sliding block is rotatably connected with an auxiliary gear positioning shaft (36) of the medicine drawing sliding block, the auxiliary gear positioning shaft (36) of the medicine drawing sliding block is fixedly connected with an auxiliary gear extension spring (37), the other end of the auxiliary gear extension spring (37) is fixedly connected to the annular medicine feeding track (2), the bottom of the injector sliding plate (18) is fixedly connected with a pushing inclined block (38), the pushing inclined block (38) is matched with a pushing inclined block matching inclined block (39) fixedly connected to the annular medicine feeding track (2), the injector sliding plate (18) is fixedly connected with an injector sliding plate extension spring (40), and the other end of the injector sliding plate extension spring (40) is fixedly connected to the injector fixing frame (17).

3. The portable anesthesia combination apparatus of claim 2, wherein the upper end of the feeding needle fixing shaft (20) is rotatably connected with a disinfection control connecting rod (41), the disinfection control connecting rod (41) is vertically and slidably connected with a fixing frame limiting plate (42) fixedly connected with the housing (1), the fixing frame limiting plate (42) is fixedly connected with a feeding needle limiting block (43), the feeding needle fixing shaft (20) is provided with a needle reversing groove (44), the feeding needle limiting block (43) is matched with the needle reversing groove (44), the lower part of the disinfection control connecting rod (41) is fixedly connected with a disinfection cabinet (45) fixedly connected with the housing (1), the disinfection cabinet (45) is longitudinally and slidably connected with a disinfection cabinet sealing cover (46), and a disinfection compression spring (47) is fixedly connected in the disinfection cabinet sealing cover (46), the other end of the disinfection compression spring (47) is fixedly connected to the disinfection cabinet (45).

4. The portable anesthesia combination of claim 1, wherein a drug loading frame (48) is fixedly connected to said annular drug loading track (2), a plurality of drug bottle control clips (49) are rotatably connected to the lower end of said drug loading frame (48), a limiting torsion spring (50) is rotatably connected to the interior of said drug bottle control clips (49), and a drug discharge control block (51) fixedly connected to said drug loading frame (3) is engaged with said drug bottle control clips (49).

5. A portable anaesthetic combination according to claim 1 characterised in that a plurality of waste recovery cassettes (52) are slidably attached to the housing (1) back and forth.

6. The portable anesthesia combination of claim 1, wherein a cover plate (53) is rotatably connected to said housing (1), a plurality of injection needle holders (54) and syringe racks (55) are fixedly connected to said cover plate (53), and a string (54) is fixedly connected to said cover plate (53), said string being connected to said drive gear shaft (13) by means of a pulley and block arrangement.

7. The portable anesthesia combination of claim 1, wherein a vial pallet (56) is rotatably attached to the bottom of said drug rack (3), the medicine bottle supporting plate (56) is fixedly connected with a supporting plate extension spring (57), the other end of the supporting plate extension spring (57) is fixedly connected on the medicine rack (3), a medicine bottle delivery groove (58) is arranged on the medicine rack (3), a driven guide wheel (59) is rotatably connected on the medicine rack (3), the medicine rack (3) is rotatably connected with a guide bracket (60), the guide bracket (60) is rotatably connected with a guide wheel (61), the annular medicine feeding track (2) is fixedly connected with a medicine bottle supporting plate control block (63), a waste material discharge hole (64) is formed in the annular medicine feeding rail (2), and the guide support (60) is fixedly connected with the medicine discharging control block (51).

8. The portable anesthesia combination of claim 7, wherein a plurality of balls (62) are rotatably attached to said driven guide wheels (59) and guide wheels (61).