Medical disinfection treatment facility
Technical Field
The invention relates to a disinfection device, in particular to a medical disinfection treatment device.
Background
In the use of medical appliances, particularly surgical appliances, disinfection is carried out, and the traditional disinfection of disinfectant generates a large amount of waste liquid and is high in cost, so that the medical disinfection treatment equipment is designed.
Disclosure of Invention
The invention mainly solves the technical problem of providing medical disinfection treatment equipment, the equipment can be used for conveniently pulling out or resetting a drawing box, the equipment can be used for heating and disinfecting, the equipment can be used for balancing internal air pressure, the safety is ensured, and the equipment can be used for discharging water vapor.
In order to solve the technical problems, the invention relates to a disinfection device, and particularly relates to a medical disinfection treatment device which comprises a disinfection movable box mechanism, a machine body mechanism, a rotary heat production mechanism, an air pressure balancing mechanism and a movable pipe mechanism.
The movable box sterilizing mechanism comprises a box drawing mechanism and a drawing driving mechanism, and the box drawing mechanism is connected with the drawing driving mechanism; the drawing box mechanism comprises a limiting table, a drawing box body, an opening and a connecting seat, wherein the limiting table is connected with the drawing box body, the opening is formed in the drawing box body, and the connecting seat is connected with the drawing box body; the drawing driving mechanism comprises a hinged seat, a grooved hinged arm, a hinged block, a hydraulic rod, a hydraulic cylinder hinged support and a secondary hinged arm, wherein the hinged seat is hinged to the grooved hinged arm, the grooved hinged arm is hinged to the hinged block, the hinged block is connected with the hydraulic rod, the hydraulic rod is connected with the hydraulic cylinder, the hydraulic cylinder is hinged to the hydraulic cylinder hinged support, the secondary hinged arm is hinged to the grooved hinged arm, and the secondary hinged arm is hinged to the connecting seat.
Fuselage mechanism include the bearing frame, the fuselage body, the dysmorphism groove, trompil I, the check valve, circle type liquid collection chamber, a pedestal, the exhaust hole, the delivery port, disinfection chamber, the bearing frame sets up on the fuselage body, the fuselage body links to each other with articulated seat, the articulated support of pneumatic cylinder links to each other with the fuselage body, dysmorphism groove is opened on the fuselage body, spacing platform and dysmorphism groove sliding connection, pull case body and dysmorphism groove sliding connection, trompil I is opened on the fuselage body, trompil I is linked together with the dysmorphism groove, trompil I is linked together with disinfection chamber, disinfection chamber sets up at the fuselage body, the exhaust hole is opened on the fuselage body, the exhaust hole is linked together disinfection chamber and circle type liquid collection chamber, circle type liquid collection chamber links to each other with the fuselage body, the base links to each other with the fuselage body, the check valve links to each.
The rotary heat generating mechanism comprises a rotary mechanism, a rotary air distribution mechanism and a heat generating mechanism, wherein the rotary mechanism is connected with the rotary air distribution mechanism, and the heat generating mechanism is connected with the rotary mechanism; the rotating mechanism comprises a rotating driving motor, a coupler, a connecting shaft, a rotating box, an air outlet pipe and an inner bearing seat, the rotating driving motor is connected with the connecting shaft through the coupler, the rotating driving motor is connected with the machine body, the connecting shaft is connected with the bearing seat in a bearing mode, the connecting shaft is connected with the rotating box, the rotating box is connected with the air outlet pipe, and the inner bearing seat is connected with the rotating box; the rotary gas distribution mechanism comprises a gas distribution pipe, a rotary arm, a driving pulley, a transfer gas hole, a bearing seat I and a transfer gas hole I, wherein the gas distribution pipe is connected with the rotary arm, the rotary arm is connected with the driving pulley, the transfer gas hole is formed in the rotary arm, the bearing seat I is connected with the rotary arm, the transfer gas hole I is formed in the rotary arm, the transfer gas hole is communicated with the gas distribution pipe through the transfer gas hole I, and the rotary arm is connected with a gas outlet pipe; the heat production mechanism includes rotation axis, electric plate, shaft coupling I, rotation driving motor, and the rotation axis links to each other with the electric plate, and the rotation axis passes through shaft coupling I with rotation driving motor and links to each other, and the connected mode of rotation axis and inner bearing frame is the bearing connection, and rotation driving motor links to each other with the rotation case.
The air pressure balance mechanism comprises a fixed support column, an upper hinged disc, a lower pressing arm mechanism, a support arm mechanism and a lower hinged disc, the fixed support column is connected with the upper hinged disc, the upper hinged disc is hinged with the lower pressing arm mechanism, the lower pressing arm mechanism is connected with the support arm mechanism, the support arm is hinged with the lower hinged disc, the lower hinged disc is connected with the fixed support column, the fixed support column is connected with the machine body, and the fixed support column is connected with the bearing seat I in a bearing connection mode; the lower pressing arm mechanism comprises a lower pressing arm body, a special-shaped bulge, a lower pressing pulley, a stepped groove, a sliding rod and a supporting spring, wherein the lower pressing arm body is connected with the special-shaped bulge, the lower pressing arm body is hinged with the upper hinge disc, the lower pressing pulley is connected with the lower pressing arm body in a bearing mode, the stepped groove is formed in the lower pressing arm body, the sliding rod is arranged in the stepped groove, the sliding rod is connected with the lower pressing arm body, and the supporting spring is sleeved on the sliding rod; the support arm mechanism comprises a step sliding block, a sliding hole I and a support arm body, wherein the sliding hole I is formed in the step sliding block, the step sliding block is hinged to the support arm body, the support arm body is hinged to a lower hinge plate, the step sliding block is connected with a step groove in a sliding mode, the sliding hole I is connected with a sliding rod in a sliding mode, and a support spring abuts against the step sliding block.
The movable pipe mechanism comprises an upper movable sleeve mechanism and a fixed pipe mechanism, and the upper movable sleeve mechanism is connected with the fixed pipe mechanism; the upper movable sleeve mechanism comprises a pipe body, a connecting groove I, a stepped sliding rod, a sliding spring and an inner sliding groove, wherein the connecting groove I is formed in the pipe body, the pipe body is connected with the stepped sliding rod, the sliding spring is sleeved on the stepped sliding rod, the inner sliding groove is formed in the pipe body, the inner sliding groove is communicated with the connecting groove I, and the pipe body is in contact fit with the lower pressing pulley; the fixed pipe mechanism comprises an inner channel, a fixed pipe body, a sliding hole A and a connecting groove II, wherein the inner channel is arranged on the fixed pipe body, the fixed pipe body is connected with the machine body, the inner channel is communicated with an exhaust hole, the inner channel is communicated with the connecting groove II, the connecting groove II is arranged on the fixed pipe body, the sliding hole A is arranged on the fixed pipe body, a stepped sliding rod is connected with the sliding hole A in a sliding mode, and a sliding spring is abutted to the fixed pipe body.
The movable sterilizing box mechanism is connected with the machine body mechanism, the machine body mechanism is connected with the rotary heat production mechanism, the rotary heat production mechanism is connected with the air pressure balance mechanism, the air pressure balance mechanism is connected with the machine body mechanism, the movable pipe mechanism is connected with the machine body mechanism, and the movable pipe mechanism is in contact fit with the air pressure balance mechanism.
As a further optimization of the technical scheme, when the special-shaped protrusion of the medical disinfection treatment equipment is pressed down by the driving pulley which moves circularly, the pressing pulley can press the pipe body downwards, and the pipe body moves downwards to enable the connecting groove I to be connected with the connecting groove II.
The medical disinfection treatment equipment has the beneficial effects that:
according to the medical disinfection treatment equipment, the equipment can be used for conveniently pulling out or resetting the drawing box, the equipment can be used for heating and disinfecting, the internal air pressure of the equipment can be balanced, the safety is ensured, and the equipment can be used for discharging water vapor.
Drawings
The invention is described in further detail below with reference to the accompanying drawings and specific embodiments.
FIG. 1 is a first schematic structural view of a medical disinfecting apparatus according to the present invention.
FIG. 2 is a schematic structural diagram of a medical disinfection treatment apparatus according to the present invention.
Fig. 3 is a schematic structural view of a movable sterilization box mechanism 1 of a medical sterilization treatment apparatus of the present invention.
Fig. 4 is a schematic structural diagram of a drawing box mechanism 1-1 of the medical disinfection treatment equipment.
Fig. 5 is a schematic structural view of a drawing drive mechanism 1-2 of a medical sterilization treatment apparatus according to the present invention.
Fig. 6 is a first structural schematic diagram of the body mechanism 2 of the medical disinfection treatment equipment.
Fig. 7 is a second structural schematic diagram of the body mechanism 2 of the medical disinfection treatment device of the invention.
Fig. 8 is a third structural schematic diagram of the body mechanism 2 of the medical disinfection treatment device of the invention.
Fig. 9 is a fourth structural schematic diagram of the body mechanism 2 of the medical disinfection treatment device of the invention.
Fig. 10 is a first structural schematic view of a rotary heat generating mechanism 3 of a medical disinfection processing device of the invention.
Fig. 11 is a second structural schematic diagram of the rotary heat generating mechanism 3 of the medical disinfection treatment equipment of the invention.
Fig. 12 is a schematic structural view of a rotating mechanism 3-1 of a medical disinfection treatment device of the present invention.
Fig. 13 is a first structural schematic diagram of a rotary gas distribution mechanism 3-2 of a medical disinfection treatment device of the invention.
FIG. 14 is a second schematic structural view of a rotary air distribution mechanism 3-2 of a medical disinfection treatment apparatus according to the present invention.
Fig. 15 is a schematic structural view of a heat generating mechanism 3-3 of a medical sterilization treatment apparatus of the present invention.
Fig. 16 is a first structural schematic diagram of the air pressure balancing mechanism 4 of the medical disinfection treatment device of the invention.
Fig. 17 is a second schematic structural view of the air pressure balance mechanism 4 of the medical disinfection processing apparatus of the present invention.
Fig. 18 is a schematic structural view of a pressing arm mechanism 4-3 of a medical sterilization treatment apparatus of the present invention.
Fig. 19 is a schematic structural view of a support arm mechanism 4-4 of a medical sterilization treatment apparatus of the present invention.
Fig. 20 is a first structural schematic diagram of the movable tube mechanism 5 of the medical disinfection treatment device of the invention.
Fig. 21 is a second schematic structural view of the movable tube mechanism 5 of the medical disinfection processing apparatus of the present invention.
FIG. 22 is a schematic structural view of an upper movable sleeve mechanism 5-1 of a medical sterilization treatment apparatus according to the present invention.
Fig. 23 is a schematic structural view of a fixed tube mechanism 5-2 of a medical sterilization treatment apparatus of the present invention.
In the figure: a movable disinfection box mechanism 1; a box pulling mechanism 1-1; a limiting table 1-1-1; a drawing box body 1-1-2; 1-1-3 of an opening; connecting seats 1-1-4; a pull drive mechanism 1-2; a hinge base 1-2-1; a grooved articulated arm 1-2-2; a hinge block 1-2-3; 1-2-4 of a hydraulic rod; 1-2-5 of a hydraulic cylinder; the hydraulic cylinder is hinged with 1-2-6; secondary articulated arms 1-2-7; a body mechanism 2; a bearing seat 2-1; a body 2-2; 2-3 of special-shaped grooves; opening I2-4; 2-5 of a one-way valve; a ring-shaped liquid collection chamber 2-6; 2-7 of a base; 2-8 of exhaust holes; 2-9 parts of a water outlet; 2-10 parts of a disinfection cavity; rotating the heat generating mechanism 3; a rotating mechanism 3-1; a rotary driving motor 3-1-1; a coupler 3-1-2; connecting shafts 3-1-3; 3-1-4 of a rotating box; 3-1-5 parts of an air outlet pipe; 3-1-6 parts of an inner bearing seat; rotating the gas distribution mechanism 3-2; 3-2-1 of a gas distribution pipe; a rotating arm 3-2-2; a driving pulley 3-2-3; 3-2-4 of a transfer air hole; bearing seat I3-2-5; a transfer air hole I3-2-6; 3-3 of a heat generating mechanism; a rotating shaft 3-3-1; 3-3-2 parts of an electric heating plate; a coupler I3-3-3; 3-3-4 of a rotary driving motor; an air pressure balancing mechanism 4; a fixed support 4-1; an upper hinged disk 4-2; a pressing arm mechanism 4-3; 4-3-1 of a lower pressing arm body; 4-3-2 of special-shaped bulges; pressing down a pulley 4-3-3; 4-3-4 parts of a stepped groove; 4-3-5 slide bars; 4-3-6 of a supporting spring; a support arm mechanism 4-4; 4-4-1 of a step sliding block; a slide hole I4-4-2; a support arm body 4-4-3; lower hinged discs 4-5; a movable tube mechanism 5; an upper movable sleeve mechanism 5-1; 5-1-1 of a pipe body; connecting the groove I5-1-2; 5-1-3 of a stepped slide bar; a sliding spring 5-1-4; 5-1-5 of an inner chute; a fixed pipe mechanism 5-2; an inner channel 5-2-1; fixing the tube body 5-2-2; a slide hole A5-2-3; connecting the groove II 5-2-4.
Detailed Description
The first embodiment is as follows:
the present embodiment is described below with reference to fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6, fig. 7, fig. 8, fig. 9, fig. 10, fig. 11, fig. 12, fig. 13, fig. 14, fig. 15, fig. 16, fig. 17, fig. 18, fig. 19, fig. 20, fig. 21, fig. 22, and fig. 23, and the present invention relates to a sterilization apparatus, and more specifically, to a medical sterilization treatment apparatus, including a movable sterilization box mechanism 1, a body mechanism 2, a rotary heat generating mechanism 3, an air pressure balancing mechanism 4, and a movable tube mechanism 5, which can conveniently pull out or reset a drawer box, can perform heat sterilization, can balance internal air pressure, ensure safety, and can discharge water vapor.
The movable disinfection box mechanism 1 comprises a drawing box mechanism 1-1 and a drawing driving mechanism 1-2, and the drawing box mechanism 1-1 is connected with the drawing driving mechanism 1-2; the drawing box mechanism 1-1 comprises a limiting table 1-1-1, a drawing box body 1-1-2, an opening 1-1-3 and a connecting seat 1-1-4, wherein the limiting table 1-1-1 is connected with the drawing box body 1-1-2, the opening 1-1-3 is formed in the drawing box body 1-1-2, and the connecting seat 1-1-4 is connected with the drawing box body 1-1-2; the drawing driving mechanism 1-2 comprises a hinged seat 1-2-1, a grooved hinged arm 1-2-2, a hinged block 1-2-3, a hydraulic rod 1-2-4, a hydraulic cylinder 1-2-5, a hydraulic cylinder hinged support 1-2-6 and a secondary hinged arm 1-2-7, wherein the hinged seat 1-2-1 is hinged with the grooved hinged arm 1-2-2, the grooved hinged arm 1-2-2 is hinged with the hinged block 1-2-3, the hinged block 1-2-3 is connected with the hydraulic rod 1-2-4, the hydraulic rod 1-2-4 is connected with the hydraulic cylinder 1-2-5, the hydraulic cylinder 1-2-5 is hinged with the hydraulic cylinder hinged support 1-2-6, the secondary articulated arm 1-2-7 is articulated with the grooved articulated arm 1-2-2, the secondary articulated arm 1-2-7 is articulated with the connecting seat 1-1-4, hydraulic oil is injected into the hydraulic cylinder 1-2-5, the hydraulic rod 1-2-4 moves towards the retraction hydraulic cylinder 1-2-5 under the driving of the hydraulic oil pressure, the hydraulic rod 1-2-4 drives the articulated block 1-2-3 to move, the articulated block 1-2-3 moves to drive the grooved articulated arm 1-2-2 to move, the grooved articulated arm 1-2-2 drives the secondary articulated arm 1-2-7 to move, the secondary articulated arm 1-2-7 pushes the connecting seat 1-1-4, the connecting seat 1-1-4 can drive the drawing box body 1-1-2 to move, so that the drawing box body 1-1-2 can slide out of the special-shaped groove 2-3, then appliances to be disinfected are placed into the drawing box body 1-1-2, and then hydraulic oil is reversely injected into the hydraulic cylinder 1-2-5 to drive the drawing box body 1-1-2 to reset.
The machine body mechanism 2 comprises a bearing seat 2-1, a machine body 2-2, a special-shaped groove 2-3, an opening I2-4, a one-way valve 2-5, a ring-shaped liquid collecting cavity 2-6, a base 2-7, an exhaust hole 2-8, a water outlet 2-9 and a disinfection cavity 2-10, wherein the bearing seat 2-1 is arranged on the machine body 2-2, the machine body 2-2 is connected with a hinged seat 1-2-1, a hydraulic cylinder hinged support 1-2-6 is connected with the machine body 2-2, the special-shaped groove 2-3 is arranged on the machine body 2-2, a limit table 1-1-1 is in sliding connection with the special-shaped groove 2-3, a drawing box body 1-1-2 is in sliding connection with the special-shaped groove 2-3, an opening I2-4 is arranged on the machine body 2-2, the opening I2-4 is communicated with the special-shaped groove 2-3, the opening I2-4 is communicated with the disinfection cavity 2-10, the disinfection cavity 2-10 is arranged in the machine body 2-2, the exhaust hole 2-8 is arranged on the machine body 2-2, the disinfection cavity 2-10 is communicated with the ring-shaped liquid collecting cavity 2-6 through the exhaust hole 2-8, the ring-shaped liquid collecting cavity 2-6 is connected with the machine body 2-2, the base 2-7 is connected with the machine body 2-2, the one-way valve 2-5 is connected with the water outlet 2-9, the water outlet 2-9 is arranged on the ring-shaped liquid collecting cavity 2-6, the one-way valve 2-5 can be opened by excessive air pressure, and liquefied water vapor can be discharged while the air pressure is discharged.
The rotary heat generating mechanism 3 comprises a rotary mechanism 3-1, a rotary air distribution mechanism 3-2 and a heat generating mechanism 3-3, wherein the rotary mechanism 3-1 is connected with the rotary air distribution mechanism 3-2, and the heat generating mechanism 3-3 is connected with the rotary mechanism 3-1; the rotating mechanism 3-1 comprises a rotating driving motor 3-1-1, a coupling 3-1-2, a connecting shaft 3-1-3, a rotating box 3-1-4, an air outlet pipe 3-1-5 and an inner bearing seat 3-1-6, the rotary driving motor 3-1-1 is connected with the connecting shaft 3-1-3 through the coupler 3-1-2, the rotary driving motor 3-1-1 is connected with the machine body 2-2, the connecting shaft 3-1-3 is connected with the bearing seat 2-1 through a bearing, the connecting shaft 3-1-3 is connected with the rotary box 3-1-4, the rotary box 3-1-4 is connected with the air outlet pipe 3-1-5, and the inner bearing seat 3-1-6 is connected with the rotary box 3-1-4; the rotary air distribution mechanism 3-2 comprises an air distribution pipe 3-2-1, a rotary arm 3-2-2, a driving pulley 3-2-3, a transfer air hole 3-2-4, a bearing seat I3-2-5 and a transfer air hole I3-2-6, the air distribution pipe 3-2-1 is connected with the rotary arm 3-2-2, the rotary arm 3-2-2 is connected with the driving pulley 3-2-3, the transfer air hole 3-2-4 is arranged on the rotary arm 3-2-2, the bearing seat I3-2-5 is connected with the rotary arm 3-2-2, the transfer air hole I3-2-6 is arranged in the rotary arm 3-2-2, the transfer air hole I3-2-6 is used for communicating the transfer air hole 3-2-4 with the air distribution pipe 3-2-1, the rotating arm 3-2-2 is connected with the air outlet pipe 3-1-5; the heat generating mechanism 3-3 comprises a rotating shaft 3-3-1, an electric heating plate 3-3-2, a coupler I3-3-3 and a rotary driving motor 3-3-4, wherein the rotating shaft 3-3-1 is connected with the electric heating plate 3-3-2, the rotating shaft 3-3-1 is connected with the rotary driving motor 3-3-4 through a coupler I3-3-3, the rotating shaft 3-3-1 is connected with an inner bearing seat 3-1-6 through a bearing, the rotary driving motor 3-3-4 is connected with a rotating box 3-1-4 to electrify the electric heating plate 3-3-2 to generate heat, and then the rotary driving motor 3-3-4 is operated to drive the coupler I3-3-3 to rotate, the coupler I3-3-3 rotates to drive the rotating shaft 3-3-1 to rotate, the rotating shaft 3-3-1 rotates to drive the electric heating plate 3-3-2 to rotate, the electric heating plate 3-3-2 rotates to form hot air, the hot air is blown into the transfer air hole 3-2-4 from the air outlet pipe 3-1-5, then is transferred into the air distribution pipe 3-2-1 through the transfer air hole I3-2-6 and is blown out from the air distribution pipe 3-2-1, the air flow moves upwards, the air flow enters the drawing box body 1-1-2 from the opening I2-4 through the opening 1-1-3 to carry out high-temperature disinfection on the appliance, the rotating driving motor 3-3-4 operates and the rotating driving motor 3-1-1 at the same time, the rotary driving motor 3-1-1 can drive the connecting shaft 3-1-3 to rotate through the coupler 3-1-2, and the connecting shaft 3-1-3 can drive the rotary air distribution mechanism 3-2 to rotate, so that the hot airflow can form an upward vortex, and the disinfection is facilitated.
The air pressure balance mechanism 4 comprises a fixed support column 4-1, an upper hinged disk 4-2, a lower press arm mechanism 4-3, a support arm mechanism 4-4 and a lower hinged disk 4-5, wherein the fixed support column 4-1 is connected with the upper hinged disk 4-2, the upper hinged disk 4-2 is hinged with the lower press arm mechanism 4-3, the lower press arm mechanism 4-3 is connected with the support arm mechanism 4-4, the support arm 4-4 is hinged with the lower hinged disk 4-5, the lower hinged disk 4-5 is connected with the fixed support column 4-1, the fixed support column 4-1 is connected with the machine body 2-2, and the fixed support column 4-1 is connected with a bearing seat I3-2-5 in a bearing connection mode; the lower pressure arm mechanism 4-3 comprises a lower pressure arm body 4-3-1, a special-shaped bulge 4-3-2, a lower pressure pulley 4-3-3, a step groove 4-3-4, a slide rod 4-3-5 and a support spring 4-3-6, the lower pressure arm body 4-3-1 is connected with the special-shaped bulge 4-3-2, the lower pressure arm body 4-3-1 is hinged with an upper hinged disc 4-2, the lower pressure pulley 4-3-3 is connected with the lower pressure arm body 4-3-1 through a bearing, the step groove 4-3-4 is opened on the lower pressure arm body 4-3-1, the slide rod 4-3-5 is arranged in the step groove 4-3-4, the slide rod 4-3-5 is connected with the lower pressure arm body 4-3-1, the support spring 4-3-6 is sleeved on the sliding rod 4-3-5; the support arm mechanism 4-4 comprises a step sliding block 4-4-1, a sliding hole I4-4-2 and a support arm body 4-4-3, wherein the sliding hole I4-4-2 is formed in the step sliding block 4-4-1, the step sliding block 4-4-1 is hinged with the support arm body 4-4-3, the support arm body 4-4-3 is hinged with a lower hinged disc 4-5, the step sliding block 4-4-1 is connected with a step groove 4-3-4 in a sliding mode, the sliding hole I4-4-2 is connected with the sliding rod 4-3-5 in a sliding mode, and a support spring 4-3-6 abuts against the step sliding block 4-4-1.
The movable pipe mechanism 5 comprises an upper movable sleeve mechanism 5-1 and a fixed pipe mechanism 5-2, and the upper movable sleeve mechanism 5-1 is connected with the fixed pipe mechanism 5-2; the upper movable sleeve mechanism 5-1 comprises a pipe body 5-1-1, a connecting groove I5-1-2, a stepped sliding rod 5-1-3, a sliding spring 5-1-4 and an inner sliding groove 5-1-5, wherein the connecting groove I5-1-2 is formed in the pipe body 5-1-1, the pipe body 5-1-1 is connected with the stepped sliding rod 5-1-3, the sliding spring 5-1-4 is sleeved on the stepped sliding rod 5-1-3, the inner sliding groove 5-1-5 is formed in the pipe body 5-1-1, the inner sliding groove 5-1-5 is communicated with the connecting groove I5-1-2, and the pipe body 5-1-1 is in contact fit with a lower pressing pulley 4-3-3; the fixed pipe mechanism 5-2 comprises an inner channel 5-2-1, a fixed pipe body 5-2-2, a sliding hole A5-2-3 and a connecting groove II5-2-4, wherein the inner channel 5-2-1 is arranged on the fixed pipe body 5-2-2, the fixed pipe body 5-2-2 is connected with a machine body 2-2, the inner channel 5-2-1 is communicated with an exhaust hole 2-8, the inner channel 5-2-1 is communicated with the connecting groove II5-2-4, the connecting groove II5-2-4 is arranged on the fixed pipe body 5-2-2, a sliding hole A5-2-3 is arranged on the fixed pipe body 5-2-2, a stepped sliding rod 5-1-3 is connected with the sliding hole A5-2-3 in a sliding manner, the sliding spring 5-1-4 is abutted against the fixed pipe body 5-2-2, when the rotary air distribution mechanism 3-2 rotates, the rotary arm 3-2-2 can drive the driving pulley 3-2-3 to rotate, the rotation direction of the driving pulley 3-2-3 is anticlockwise, the rotating driving pulley 3-2-3 can continuously press the special-shaped protrusion 4-3-2 downwards, the special-shaped protrusion 4-3-2 can press the pipe body 5-1-1 downwards through the pressing pulley 4-3-3, the pipe body 5-1-1 moves downwards to enable the connecting groove I5-1-2 to be connected with the connecting groove II5-2-4, and part of high-pressure air in the pipe body can be communicated from the connecting groove I5-1-2, The connecting through groove II5-2-4 enters the ring-shaped liquid collecting cavity 2-6 through the exhaust hole 2-8, hot gas can be liquefied when meeting the ring-shaped liquid collecting cavity 2-6, the one-way valve 2-5 can be flushed by excessive air pressure to be discharged out of the device, the safe operation of the device is ensured, when the driving pulley 3-2-3 is separated from the pressing special-shaped protrusion 4-3-2, the compressed sliding spring 5-1-4 can rebound to drive the pipe body 5-1-1 to reset when the pipe body 5-1-1 moves downwards, the compressed supporting spring 4-3-6 can drive the step sliding block 4-4-1 to reset, and the step sliding block 4-4-1 can drive the lower pressing arm body 4-3-1 to reset.
The movable sterilization box mechanism 1 is connected with the machine body mechanism 2, the machine body mechanism 2 is connected with the rotary heat production mechanism 3, the rotary heat production mechanism 3 is connected with the air pressure balance mechanism 4, the air pressure balance mechanism 4 is connected with the machine body mechanism 2, the movable pipe mechanism 5 is connected with the machine body mechanism 2, and the movable pipe mechanism 5 is in contact fit with the air pressure balance mechanism 4.
The second embodiment is as follows:
referring to fig. 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, 19, 20, 21, 22 and 23, the present embodiment will be further described, wherein when the irregular protrusion 4-3-2 is pressed down by the driving pulley 3-2-3 moving circumferentially, the pressing pulley 4-3-3 presses the pipe body 5-1-1 downwards, and the pipe body 5-1-1 moves downwards to connect the connecting groove I5-1-2 with the connecting groove II 5-2-4.
The working principle of the device is as follows: the equipment can conveniently pull out or reset the drawing box, the hydraulic oil is injected into the hydraulic cylinder 1-2-5, the hydraulic rod 1-2-4 moves towards the retraction hydraulic cylinder 1-2-5 under the driving of the hydraulic oil pressure, the hydraulic rod 1-2-4 drives the hinge block 1-2-3 to move, the hinge block 1-2-3 moves to drive the grooved hinge arm 1-2-2 to move, the grooved hinge arm 1-2-2 drives the secondary hinge arm 1-2-7 to move, the secondary hinge arm 1-2-7 pushes the connecting seat 1-1-4, the connecting seat 1-1-4 drives the drawing box body 1-1-2 to move, so that the drawing box body 1-1-2 slides out of the special-shaped groove 2-3, then putting the appliance to be disinfected into the drawing box body 1-1-2, and then reversely injecting hydraulic oil into the hydraulic cylinder 1-2-5 to drive the drawing box body 1-1-2 to reset; the equipment can be heated and disinfected to electrify the electric heating plate 3-3-2 to generate heat, then the rotary driving motor 3-3-4 is operated to drive the coupler I3-3-3 to rotate, the coupler I3-3-3 rotates to drive the rotary shaft 3-3-1 to rotate, the rotary shaft 3-3-1 rotates to drive the electric heating plate 3-3-2 to rotate, the electric heating plate 3-3-2 rotates to form hot air, the hot air is blown into the transfer air holes 3-2-4 from the air outlet pipe 3-1-5 and then is transferred into the air distribution pipe 3-2-1 through the transfer air holes I3-2-6, the air is blown out from the air distribution pipe 3-2-1 and moves upwards, and the air enters the drawing box body 1 through the holes 1-1-3 from the opening I2-4 1-2, sterilizing the appliance at high temperature, operating the rotary driving motor 3-3-4 and the rotary driving motor 3-1-1 at the same time, driving the connecting shaft 3-1-3 to rotate by the rotary driving motor 3-1-1 through the coupling 3-1-2, and driving the rotary air distribution mechanism 3-2 to rotate by the rotation of the connecting shaft 3-1-3, so that the hot airflow can form an upward vortex and is more beneficial to sterilization; the equipment can balance the internal air pressure and ensure safety, when the rotary air distribution mechanism 3-2 rotates, the rotary arm 3-2-2 can drive the driving pulley 3-2-3 to rotate, the rotation direction of the driving pulley 3-2-3 is anticlockwise, the rotary driving pulley 3-2-3 can continuously press the special-shaped bulge 4-3-2 downwards, the special-shaped bulge 4-3-2 can downwards press the pipe body 5-1-1 through the pressing pulley 4-3-3, the pipe body 5-1-1 downwards moves to enable the connecting groove I5-1-2 to be connected with the connecting groove II5-2-4, so that part of high-pressure air in the equipment enters the ring-shaped liquid collecting cavity 2-6 through the exhaust hole 2-8 from the connecting groove I5-1-2 and the connecting groove II5-2-4, when the hot gas meets the ring-shaped liquid collecting cavity 2-6, the hot gas is liquefied, the excessive air pressure can burst the one-way valve 2-5 to be discharged out of the equipment, the safe operation of the device is ensured, when the driving pulley 3-2-3 is separated from the pressing special-shaped bulge 4-3-2, the compressed sliding spring 5-1-4 can rebound to drive the pipe body 5-1-1 to reset when the pipe body 5-1-1 moves downwards, the compressed supporting spring 4-3-6 can drive the step sliding block 4-4-1 to reset, and the step sliding block 4-4-1 can drive the pressing arm body 4-3-1 to reset; the device can discharge water vapor, the excessive air pressure can open the one-way valves 2-5, and liquefied water vapor can be discharged while the air pressure is discharged.
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.