Disclosure of Invention
In order to solve the problems, the embodiment designs a medical orthopedic dressing change auxiliary support, which comprises a support main body, wherein a lifting connecting cavity with an upward opening is arranged in the support main body, a lifting support plate capable of moving up and down is arranged in the lifting connecting cavity, a lifting threaded shaft is rotatably arranged on the lower wall in the lifting connecting cavity, the lifting threaded shaft is in threaded connection with the lower end of the lifting support plate, a damping plate is fixedly arranged in the lifting support plate, a shock absorbing cavity with an upward opening is arranged in the damping plate, a supporting working plate capable of moving up and down is arranged in the shock absorbing cavity, a supporting and placing plate with certain elasticity is fixedly arranged at the upper end in the supporting working plate, a supporting cavity with an upward opening and in a circular arc shape is arranged in the supporting and placing plate, support plates are arranged on the lower end surface of the shock absorbing cavity in a matrix from left to right, the device comprises a plurality of support plates, a plurality of turnover support plates, a plurality of illuminating lamps, a plurality of working chambers and a plurality of working lifting chambers, wherein the support plates are internally provided with connecting chambers with upward openings, the connecting chambers are internally provided with connecting shock-absorbing plates capable of moving up and down, a support connecting rod is fixedly connected between the upper end surface of each connecting shock-absorbing plate and the lower end surface of each support working plate, the left and right sides of each shock-absorbing plate are internally provided with turnover chambers with upward openings and symmetrical to the left and right of the shock-absorbing plate, a turnover rotating shaft is rotatably arranged between the front wall and the rear wall of each turnover chamber and close to one side of the shock-absorbing plate, the outer circular surface of each turnover rotating shaft and the end surface far away from one side of the shock-absorbing plate are fixedly connected with the turnover support plate, the turnover support plate is internally provided with an illuminating lamp for illuminating, the lower wall of each lifting connecting chamber is internally provided with a working chamber with a forward opening, the working chambers capable of moving back and forth are arranged in the working chambers, and forth are internally provided with upward openings, a lifting working plate capable of moving up and down is arranged in the working lifting cavity, a working storage plate is fixedly arranged on the upper end surface of the lifting working plate, a separation supporting plate is fixedly arranged in the working storage plate, storage cavities which are bilaterally symmetrical relative to the separation supporting plate and have upward openings are arranged in the working storage plate, a telescopic connecting rod group which can be telescopic is arranged in the working lifting cavity and is positioned at the lower side of the lifting working plate, the upper end of the telescopic connecting rod group is hinged with the middle position of the lower end surface of the lifting working plate, a sterilizer is fixedly arranged on the upper wall of the working cavity, the upper end of the sterilizer is communicated with a connecting pipeline, a movable threaded shaft is rotatably arranged on the lower side of the rear wall in the working cavity, remove the threaded shaft with deposit work box lower extreme threaded connection, the wall internal fixation is equipped with the removal energy supply motor behind the working chamber, remove threaded shaft rear end power connect in remove the energy supply motor.
Preferably, the left side be equipped with the ascending upset of opening in the upset backup pad and connect the chamber, the upset is connected and is rotated between the intracavity front and back two walls and be equipped with from a left side to the connection pivot that the matrix arrangement distributes right, all connect the upset closed plate that the outer disc fixedly connected with of pivot can overturn, be equipped with the sprocket chamber in the upset connected cavity antetheca, all connect pivot front end face and extend forward to sprocket intracavity and fixedly connected with rotate the sprocket, all around being equipped with same drive chain between the rotation sprocket, the fixed rotation motor that is equipped with in sprocket intracavity antetheca right side, the rightmost side rotate sprocket front end face axle center power connect in rotate the motor.
Preferably, the upset is connected chamber lower wall intercommunication and is equipped with the connection chamber of ventilating, it is equipped with the telescopic flexible pipeline to connect the chamber lower wall intercommunication of ventilating, flexible pipeline downside connection is equipped with the connecting tube, just be located in the support main part lift connection chamber left side wall internal fixation is equipped with antiseptic solution device and is used for saving the antiseptic solution and exports the antiseptic solution, the connecting tube upside with antiseptic solution device upper end is connected, antiseptic solution device lower extreme intercommunication is equipped with out the liquid pipeline, go out the liquid pipeline with the connecting tube is connected.
But preferably, the left and right sides be equipped with the gear chamber in the upset chamber back wall, the left and right sides upset pivot rear end face extends to backward gear intracavity and fixedly connected with driven bevel gear, the gear intracavity is close to rotate between shock attenuation board a side end wall be equipped with driven bevel gear engaged with drive bevel gear, the left and right sides drive bevel gear is close to shock attenuation board a side end face axle center fixedly connected with initiative pivot, the left and right sides the gear chamber is close to shock attenuation board a side wall internal fixation is equipped with energy supply motor, the left and right sides the initiative pivot is close to shock attenuation board one end power connect in energy supply motor.
Preferably, the support working plate is internally provided with a support placing plate below which a right end opening is upward and is a circular arc-shaped turnover cavity, the turnover cavity is internally provided with a clamping arc plate capable of rotating and turning over, the clamping arc plate is internally provided with a clamping inflation cavity, the inner wall of the clamping arc plate is fixedly provided with an elastic leather hose with certain elasticity, the upper end of the right side of the clamping arc plate is communicated with an air inlet, the right wall of the turnover cavity is communicated with a power cavity, a power rotating shaft is arranged between the front wall and the rear wall of the power cavity in a rotating manner, a friction rotating drum is fixedly connected with the outer surface of the power rotating shaft, the outer surface of the friction rotating drum is in friction connection with the lower end surface of the clamping arc plate, a power motor is fixedly arranged on the front wall of the power cavity, and the front end of the power rotating shaft is connected with the power motor.
Preferably, be equipped with the ascending and convex chamber of aerifing that is of opening in the upset chamber left wall, aerify the fixed connecting plate that aerifys that is equipped with of intracavity lower wall, aerify the fixed connection air cock that is equipped with of connecting plate left end face, it is equipped with the pipeline of giving vent to anger to connect air cock lower extreme intercommunication, aerify the chamber lower wall internal fixation and be equipped with the air pump, the pipeline downside of giving vent to anger with air pump upper end intercommunication.
Preferably, all the supporting plates are fixedly connected with supporting springs between the upper end faces of the supporting plates and the lower end faces of the supporting working plates, the lower end faces of the inflation cavities are fixedly connected with connecting springs between the lower walls of the connecting cavities, friction supporting plates with rough surfaces are fixedly arranged on the left wall and the right wall of the connecting cavities, and the left end faces and the right end faces of the inflation cavities are abutted to the friction supporting plates.
Preferably, the lower wall of the lifting connecting cavity is communicated with a lifting detection cavity which is symmetrical left and right, the lifting detection cavities on the left and right sides are internally provided with a detection support plate which can move up and down, a pressure contact plate is fixedly arranged on the upper end surface of the detection supporting plate, the upper end surface of the pressure contact plate is abutted against the lower end surface of the lifting supporting plate, the lower walls in the lifting detection cavities on the left side and the right side are rotatably provided with rotating threaded shafts, a belt wheel cavity is arranged in the lower wall of the lifting detection cavity, the lower end surfaces of the rotating threaded shafts on the left side and the right side extend downwards into the belt wheel cavity and are fixedly connected with a driven belt wheel, a driving belt wheel is rotatably arranged in the middle position in the belt wheel cavity, the same transmission belt is wound between the driving belt wheel and the driven belt wheels on the left side and the right side, the middle position in the upper wall of the belt wheel cavity is fixedly provided with a lifting motor, and the axial cardiac force of the upper end face of the driving belt wheel is connected with the lifting motor.
Preferably, an opening leftward overturning supporting cavity is formed in the separating supporting plate, a supporting rotating shaft is arranged between the front wall and the rear wall of the overturning supporting cavity in a rotating mode, a overturning closing plate is fixedly connected to the outer circular surface of the supporting rotating shaft, the left side of the overturning closing plate is closed when the overturning closing plate overturns horizontally, and an overturning handrail is fixedly connected to the left side of the upper end face of the overturning closing plate.
But preferably, work lift intracavity lower wall intercommunication is equipped with bilateral symmetry's removal connection chamber, remove the connection intracavity and be equipped with the removal connecting plate that removes about can, the left and right sides remove the connecting plate upper end upwards extend to work lift intracavity and with telescopic link group lower extreme left and right sides hinged joint, it is equipped with the screw thread pivot to remove to rotate between the connection intracavity left and right sides wall, the screw thread pivot with remove connecting plate threaded connection, the left and right sides be equipped with the decurrent friction drive chamber of opening in the removal connection chamber left and right sides wall, the left and right sides screw thread pivot is kept away from the symmetry center one side and is extended friction drive intracavity and fixedly connected with friction rotation wheel, the friction rotation wheel disc with the working chamber lower wall offsets.
The invention has the beneficial effects that: the invention has the advantages that the legs of the patient are comfortably placed and clamped in the dressing change process, so that the medical staff has better dressing change effect in the subsequent dressing change process, the vibration caused by the collision of the bracket to the legs of the patient is reduced by the shock absorption device, and the dressing change tool is more sanitary and can well recover the bandage changed by the patient by lifting and sealing the workbench in the dressing change process, so that the propagation and breeding of bacteria are reduced.
Detailed Description
The invention will now be described in detail with reference to fig. 1-6, for convenience of description, the following orientations will now be defined: the up, down, left, right, and front-back directions described below correspond to the up, down, left, right, and front-back directions in the projection relationship of fig. 1 itself.
The invention relates to a medical orthopedics dressing change auxiliary support which comprises a support main body 11, wherein a lifting connecting cavity 89 with an upward opening is arranged in the support main body 11, a lifting support plate 42 capable of moving up and down is arranged in the lifting connecting cavity 89, a lifting threaded shaft 41 is rotatably arranged at the lower wall in the lifting connecting cavity 89, the lifting threaded shaft 41 is in threaded connection with the lower end of the lifting support plate 42, a damping plate 43 is fixedly arranged in the lifting support plate 42, a shock absorbing cavity 84 with an upward opening is arranged in the damping plate 43, a supporting working plate 50 capable of moving up and down is arranged in the shock absorbing cavity 84, a supporting and placing plate 48 with certain elasticity is fixedly arranged at the upper end in the supporting working plate 50, a supporting cavity 49 with an upward opening and a circular arc shape is arranged in the supporting and placing plate 48, supporting plates 85 are arranged on the lower end face of the shock absorbing cavity 84 in a matrix from left to right, a connecting cavity 87 with an upward opening is arranged in all the supporting plates 85, a connecting shock-absorbing plate 93 capable of moving up and down is arranged in the connecting cavity 87, a supporting connecting rod 82 is fixedly connected between the upper end surface of all the connecting shock-absorbing plates 93 and the lower end surface of the supporting working plate 50, overturning cavities 55 with upward openings and symmetrical left and right relative to the shock-absorbing plate 43 are arranged in the left and right sides of the shock-absorbing plate 43 and positioned in the lifting supporting plate 42, an overturning rotating shaft 58 is rotatably arranged between the front wall and the rear wall in the overturning cavity 55 at the side close to the shock-absorbing plate 43, an overturning supporting plate 57 is fixedly connected on the outer circular surface of the overturning rotating shaft 58 and far away from one side end surface of the shock-absorbing plate 43, a lighting lamp 56 for lighting is fixedly arranged in the overturning supporting plate 57 at the right side, a working cavity 34 with a forward opening is arranged in the lower wall of the lifting connecting cavity 89, and a storage working box 18 capable of moving back and forth is arranged in the working cavity 34, the work lifting cavity 75 with an upward opening is arranged in the storage work box 18, the work lifting cavity 75 is internally provided with a lifting work plate 32 capable of moving up and down, the upper end face of the lifting work plate 32 is fixedly provided with a work storage plate 21, the work storage plate 21 is internally fixedly provided with a separation support plate 33, the work storage plate 21 is internally provided with a storage cavity 20 which is bilaterally symmetrical and has an upward opening relative to the separation support plate 33, the work lifting cavity 75 is internally provided with a telescopic connecting rod group 31 capable of extending and retracting and is positioned at the lower side of the lifting work plate 32, the upper end of the telescopic connecting rod group 31 is hinged with the middle position of the lower end face of the lifting work plate 32, the upper wall of the work cavity 34 is fixedly provided with a sterilizer 16, the upper end of the sterilizer 16 is communicated with a connecting pipeline 15, the lower side of the rear wall in the work cavity 34 is rotatably provided with a movable threaded shaft 29, the movable threaded shaft 29 is in threaded connection with the lower end of the storage work box 18, the rear wall of the working cavity 34 is internally and fixedly provided with a movable energy supply motor 92, and the rear end of the movable threaded shaft 29 is in power connection with the movable energy supply motor 92.
Beneficially, a turnover connecting cavity 64 with an upward opening is formed in the turnover supporting plate 57 on the left side, a connecting rotating shaft 65 distributed from left to right in a matrix arrangement is arranged between the front wall and the rear wall in the turnover connecting cavity 64 in a rotating mode, all turnover closing plates 66 capable of being turned over are fixedly connected to the outer circular surface of the connecting rotating shaft 65, a chain wheel cavity 68 is formed in the front wall of the turnover connecting cavity 64, all the front end surfaces of the connecting rotating shaft 65 extend forwards into the chain wheel cavity 68 and are fixedly connected with rotating chain wheels 67, all the rotating chain wheels 67 are wound with the same transmission chain 69, a rotating motor 70 is fixedly arranged on the right side in the front wall of the chain wheel cavity 68, and the rightmost front end surface axis of the rotating chain wheels 67 is in dynamic connection with the rotating motor 70.
Beneficially, upset connection chamber 64 lower wall intercommunication is equipped with connects the chamber 90 of ventilating, it is equipped with telescopic flexible pipeline 51 to connect the chamber 90 lower wall intercommunication of ventilating, flexible pipeline 51 downside connection is equipped with connecting tube 52, just be located in support main part 11 lift connection chamber 89 left side wall internal fixation is equipped with antiseptic solution device 53 and is used for saving the antiseptic solution and exports the antiseptic solution, connecting tube 52 upside with antiseptic solution device 53 upper end is connected, antiseptic solution device 53 lower extreme intercommunication is equipped with out liquid pipeline 54, go out liquid pipeline 54 with connecting tube 15 connects.
Beneficially, the left and right sides be equipped with gear chamber 62 in the upset chamber 55 back wall, the left and right sides upset pivot 58 rear end face extend backward to gear chamber 62 is interior and fixedly connected with driven bevel gear 63, be close to in the gear chamber 62 rotate between the shock attenuation board 43 a side end wall be equipped with driven bevel gear 63 engaged with drive bevel gear 61, the left and right sides drive bevel gear 61 is close to shock attenuation board 43 a side end face axle center fixedly connected with initiative pivot 60, the left and right sides gear chamber 62 is close to shock attenuation board 43 a side wall internal fixation is equipped with energy supply motor 59, the left and right sides drive pivot 60 be close to shock attenuation board 43 one end power connect in energy supply motor 59.
Advantageously, an overturning cavity 78 with an upward opening at the right end and a circular arc shape is arranged in the supporting working plate 50 and below the supporting and placing plate 48, a clamping arc-shaped plate 44 capable of rotating and overturning is arranged in the overturning cavity 78, a clamping inflatable cavity 45 is arranged in the clamping arc-shaped plate 44, an elastic leather hose 47 with certain elasticity is fixedly arranged on the inner circular wall of the clamping arc-shaped plate 44, the upper end of the right side of the clamping arc-shaped plate 44 is communicated with an air inlet 46, the right wall of the turning cavity 78 is communicated with a power cavity 73, a power rotating shaft 72 is rotatably arranged between the front wall and the rear wall in the power cavity 73, the outer circular surface of the power rotating shaft 72 is fixedly connected with a friction rotating drum 74, the outer circular surface of the friction rotating drum 74 is in friction connection with the lower end surface of the clamping arc-shaped plate 44, a power motor 71 is fixedly arranged in the front wall of the power cavity 73, and the front end of the power rotating shaft 72 is in power connection with the power motor 71.
Beneficially, be equipped with in the upset chamber 78 left wall and open and upwards just be convex inflation chamber 81, the fixed connecting plate 79 that aerifys that is equipped with of lower wall in the inflation chamber 81, the fixed connection air cock 80 that is equipped with of inflation connecting plate 79 left end face, it is equipped with air outlet pipe 76 to connect the lower extreme intercommunication of air cock 80, inflation chamber 81 lower wall internal fixation is equipped with air pump 77, air outlet pipe 76 downside with air pump 77 upper end intercommunication.
Beneficially, a supporting spring 83 is fixedly connected between the upper end face of all the supporting plates 85 and the lower end face of the supporting working plate 50, a connecting spring 86 is fixedly connected between the lower end face of the inflating cavity 81 and the lower wall of the connecting cavity 87, friction supporting plates 88 with rough surfaces are fixedly arranged on the left wall and the right wall in the connecting cavity 87, and the left end face and the right end face of the inflating cavity 81 are abutted to the friction supporting plates 88.
Beneficially, the lower wall of the lifting connection cavity 89 is communicated with a bilaterally symmetrical lifting detection cavity 13, the lifting detection cavity 13 on the left side and the right side is internally provided with a detection support plate 39 capable of moving up and down, the upper end surface of the detection support plate 39 is fixedly provided with a pressure contact plate 40, the upper end surface of the pressure contact plate 40 is abutted against the lower end surface of the lifting support plate 42, the lower wall of the lifting detection cavity 13 on the left side and the right side is rotatably provided with a rotating threaded shaft 38, the lower wall of the lifting detection cavity 13 is internally provided with a pulley cavity 14, the lower end surfaces of the rotating threaded shafts 38 on the left side and the right side extend downwards into the pulley cavity 14 and are fixedly connected with a driven pulley 36, the middle position of the pulley cavity 14 is rotatably provided with a driving pulley 37, the same transmission belt 91 is wound between the driving pulley 37 and the driven pulley 36 on the left side and the right side, and the middle position of the upper wall of the pulley cavity 14 is fixedly provided with a lifting motor 12, the upper end surface of the driving pulley 37 is axially connected with the lifting motor 12.
Beneficially, an overturning supporting cavity 35 with a leftward opening is formed in the partition supporting plate 33, a supporting rotating shaft 22 is rotatably arranged between the front wall and the rear wall in the overturning supporting cavity 35, an overturning closing plate 19 is fixedly connected to the outer circular surface of the supporting rotating shaft 22, the overturning closing plate 19 closes the upper side of the overturning closing plate 19 on the left side when the overturning closing plate 19 is overturned horizontally, and an overturning handrail 17 is fixedly connected to the left side of the upper end surface of the overturning closing plate 19.
Beneficially, the lower wall in the working lifting cavity 75 is communicated with a mobile connection cavity 28 which is bilaterally symmetrical, a mobile connection plate 27 which can move left and right is arranged in the mobile connection cavity 28, the upper end of the mobile connection plate 27 extends upwards into the working lifting cavity 75 and is hinged with the left side and the right side of the lower end of the telescopic connecting rod group 31, a threaded rotating shaft 26 is rotatably arranged between the left wall and the right wall in the mobile connection cavity 28, the threaded rotating shaft 26 is in threaded connection with the mobile connection plate 27, friction transmission cavities 24 with downward openings are arranged in the left side wall and the right side wall of the mobile connection cavity 28, the left side and the right side of the threaded rotating shaft 26 are far away from the symmetrical center and extend into the friction transmission cavities 24 and are fixedly connected with friction rotating wheels 25, and the outer circular surface of the friction rotating wheels 25 abuts against the lower wall of the working cavity 34.
The use steps herein are described in detail below with reference to fig. 1-6:
in the initial operating state, the storage operating box 18 is at the rear limit position, the flip closing plate 19 is at the flip horizontal position, the detection support plate 39 is at the lower limit position, the lifting support plate 42 is at the lower limit position, and the left and right flip support plates 57 are at the flip horizontal position.
During operation, tools such as medicine bottles and bandages for dressing change of the wounded are placed in the right storage cavity 20, the support main body 11 is pushed to the position near the dressing change work or the proper position of a sick bed of the wounded, the proper position of the legs of the wounded is moved to the supporting cavity 49 above the supporting placing plate 48 according to needs, the legs of the wounded are supported to a certain degree through the soft and elastic supporting placing plate 48, the power motor 71 is started to drive the power rotating shaft 72 to rotate, the power rotating shaft 72 drives the friction rotating drum 74 to rotate, the friction rotating drum 74 drives the clamping arc 44 to overturn through friction connection and finally enables the upper end of the clamping arc 44 to overturn and move into the inflating cavity 81, the connecting air nozzle 80 is connected with the air inlet 46, the air pump 77 is started to charge air into the inflating cavity 81 through the air outlet pipeline 76, and the volume of the inflating cavity 81 is expanded due to the increase of the air, the upper surface of the leg of the patient is clamped by an elastic leather hose 47 with certain elasticity, at the moment, the lifting motor 12 rotates to drive the lifting threaded shaft 41 to rotate, at the moment, the lifting threaded shaft 41 drives the lifting support plate 42 to move upwards through threaded connection and adjust a proper medicine changing angle, at the same time, the lifting support plate 42 drives the damping plate 43 to move upwards in the process of moving upwards, at the moment, the damping plate 43 moves to drive the support plate 85 to move upwards, the support plate 85 is elastically connected with the damping plate 93 to move upwards through a connecting spring 86, the support working plate 50 is lifted through a support connecting rod 82 to drive to move upwards, meanwhile, the supporting spring 83 is used for damping to a certain degree, stable lifting and damping to a certain degree are achieved when the medicine changing position of the leg of the patient is adjusted, further, if the subsequent support main body 11 encounters slight impact, the vibration degree can be reduced, and the patient is more comfortable in the medicine changing process, meanwhile, the lifting motor 12 drives the driving pulley 37 to rotate, the driving pulley 37 drives the left and right driven pulleys 36 to rotate through the transmission belt 91, at this time, the driven pulleys 36 rotate to drive the rotating threaded shaft 38 to rotate, the rotating threaded shaft 38 drives the detection support plate 39 to move upwards through threaded connection and supports the pressure contact plate 40 to move upwards, so that the pressure contact plate 40 is kept against the lower end surface of the lifting support plate 42, at this time, the energy supply motor 59 is started to drive the left and right driving rotating shafts 60 to rotate, at this time, the driving rotating shaft 60 rotates to drive the driving bevel gear 61 to rotate, the driving bevel gear 61 drives the driven bevel gear 63 to rotate through gear engagement, at this time, the driven bevel gear 63 drives the left and right overturning support plates 57 to overturn to a vertical position through the overturning rotating shaft 58 and then stops, at this time, the illuminating lamp 56 is started and irradiates the legs of a certain degree of light source, which is convenient for the doctor to confirm the position of changing the medicine for the legs of the patient, at this moment, the mobile energy supply motor 92 is started to drive the mobile threaded shaft 29 to rotate, the mobile threaded shaft 29 drives the storage work box 18 to move forwards through threaded connection, in the process, the storage work box 18 moves forwards and is in frictional contact with the lower wall of the work cavity 34 through the outer circular surface of the friction rotating wheel 25 to start rotating, the friction rotating wheels 25 on the left and right sides rotate and drive the threaded rotating shaft 26 to rotate, the threaded rotating shafts 26 on the left and right sides drive the mobile connecting plate 27 to move towards one side close to the symmetry center through threaded connection, the mobile connecting plates 27 on the left and right sides move to drive the telescopic connecting rod group 31 to extend and move upwards through hinged connection, the telescopic connecting rod group 31 drives the lifting work plate 32 to move upwards through hinged connection, the lifting work plate 32 is pushed upwards while the storage work box 18 is moved forwards, and the medical staff overturn the sealing plate 19 through the overturning handrail 17, the bandage replaced by the patient leg is placed in the left storage cavity 20, the used bandage is sealed and stored to a certain extent through the turnover sealing plate 19, then the patient leg is changed through the dressing change tool stored in the right storage cavity 20, after the dressing change is completed, the power motor 71 rotates reversely and moves the air inlet 46 to the initial working position, the patient leg is moved back to the sickbed from the supporting cavity 49, the pressure of the lifting supporting plate 42 on the upper surface of the pressure contact plate 40 is reduced, the energy supply motor 92 is moved to drive the storage working box 18 to move back to the initial working position, the rotating motor 70 is started to drive the rightmost rotating chain wheel 67 to rotate, all the rotating chain wheels 67 are driven and rotated through the same driving chain 69, all the rotating chain wheels 67 rotate to drive the connecting rotating shaft 65 to rotate, the connecting rotating shaft 65 drives the turnover sealing plate 66 to rotate through fixed connection, upset closure plate 66 reversal and make the upset connect the chamber 64 left and right sides intercommunication this moment, antiseptic solution device 53 starts to export the telescopic line 51 that the antiseptic solution passes through connecting tube 52 and connects to connect in ventilating chamber 90 this moment, and connect chamber 64 output and place board 48 upper surface to supporting and disinfect through the upset, make things convenient for next patient to change dressings and use, antiseptic solution device 53 exports the antiseptic solution to sterilizer 16 in through the connecting tube 15 that goes out liquid pipeline 54 and connect and carry out the disinfection of certain initial degree to working chamber 34 inside simultaneously, make the inside instrument of changing dressings of depositing keep sanitary, make things convenient for medical personnel to carry out the work of changing dressings next time.
The invention has the beneficial effects that: the invention has the advantages that the legs of the patient are comfortably placed and clamped in the dressing change process, so that the medical staff has better dressing change effect in the subsequent dressing change process, the vibration caused by the collision of the bracket to the legs of the patient is reduced by the shock absorption device, and the dressing change tool is more sanitary and can well recover the bandage changed by the patient by lifting and sealing the workbench in the dressing change process, so that the propagation and breeding of bacteria are reduced.
The above embodiments are merely illustrative of the technical ideas and features of the present invention, and the purpose thereof is to enable those skilled in the art to understand the contents of the present invention and implement the present invention, and not to limit the protection scope of the present invention. All equivalent changes and modifications made according to the spirit of the present invention should be covered within the protection scope of the present invention.