CN113350542A - Surgical instrument disinfection treatment recovery plant - Google Patents

Abstract

The invention relates to a sterilizing device, in particular to a surgical instrument sterilizing and recycling device which comprises a sterilizing mechanism, a box body mechanism and a garbage processing mechanism, wherein the sterilizing mechanism can ensure that disinfectant is sprayed out, the sterilizing mechanism can ensure that the disinfectant is uniformly sprayed out, the device can select the purpose of discharging waste liquid, the device can process medical garbage, the sterilizing mechanism is connected with the box body mechanism, and the sterilizing mechanism is connected with the garbage processing mechanism.

Description

Surgical instrument disinfection treatment recovery plant

Technical Field

The invention relates to a disinfection device, in particular to a device for disinfecting, treating and recycling surgical instruments.

Background

During the operation of surgical operation, a large amount of surgical tools are generated to be disinfected, medical wastes are treated, and most of the traditional treatment means adopts disinfectant to continuously spray and disinfect, so that great waste is caused;

the application publication is CN 206660163U's chinese utility model patent, including disinfection soaking case, seal cap, pivot and couple, disinfection soaking case's articulated seal cap in top one side, seal cap establishes to hollow structure, seal cap's inside sets up the motor, disinfection soaking incasement portion is stretched into in the pivot of motor, the elliptical wheel is connected to the bottom of pivot, the lateral wall of elliptical wheel encircles and sets up the elasticity sawtooth that is the slope form, the axis body bilateral symmetry of pivot sets up the stirring board, seal cap's downside is located the both sides of pivot and is equipped with the ring, hang the couple on the ring, the gib head of couple is the half limit of hook operation scissors respectively. The utility model discloses an improve present disinfection and soak and use the container, utilize the rotation of elliptical wheel to make the operation scissors open and shut, solved the disinfection of operation scissors overlap position and soaked a difficult problem, improve and soak efficiency, make disinfectant and antiseptic solution fully contact, make antiseptic solution intensive mixing, but this kind of disinfection mode has utilized more antiseptic solution to accomplish the disinfection, and economic nature is poor, so designed this kind of operation surgical instruments disinfection and treatment recovery plant.

Disclosure of Invention

The invention mainly solves the technical problem of providing a surgical instrument disinfection treatment and recovery device, which can ensure that disinfectant is sprayed out, the device can ensure that the disinfectant is sprayed out uniformly, the device can select the purpose of discharging waste liquid, and the device can treat medical waste.

In order to solve the technical problems, the invention relates to a disinfection device, and particularly relates to a surgical instrument disinfection treatment recovery device which comprises a disinfection mechanism, a box body mechanism and a garbage treatment mechanism.

The disinfection mechanism is connected with the box body mechanism, and the disinfection mechanism is connected with the garbage disposal mechanism.

As a further optimization of the technical scheme, the disinfection mechanism of the disinfection treatment and recovery equipment for the surgical instruments comprises an output pipe, a rotary supporting seat, a motor, a coupler, an air box, a connecting pipe, a rotary disinfection seat, a soaking cavity, a chute, a rotary shaft, a driven disc, a driven groove, an inlet pipe, a disc with a bulge, a mixing box, a cam driving motor, a motor seat, a coupler I, a pressure change pipe, a piston rod, a spring, a matching seat, a cam with a shaft, a transfer box, a motor I, an auxiliary support, a coupler II, a stirring wheel with a shaft, a liquid inlet one-way valve, a piston, a liquid outlet one-way valve, an opening, a plug, a pouring cavity, a wind wheel with a shaft and an ejection pipe, wherein the output pipe is connected with the rotary supporting seat, the rotary supporting seat is connected with the motor, the motor is connected with the wind wheel with the shaft through the coupler, and the wind wheel with the shaft is rotatably connected with the air box, the rotary disinfection seat is connected with a rotary support seat in a rotating way, four soaking cavities are uniformly arranged on the rotary disinfection seat, a chute is arranged on the rotary disinfection seat, the chute is communicated with the soaking cavities, the rotary disinfection seat is connected with a rotating shaft, the rotating shaft is connected with the rotary support seat in a rotating way, the rotating shaft is connected with a driven disk, four driven grooves are arranged on the driven disk, a disk with a bulge is connected with a stirring wheel with a shaft, the stirring wheel with the shaft is connected with a mixing box in a rotating way, a cam driving motor is connected with a motor seat, the cam driving motor is connected with a coupling I, the coupling I is connected with a cam with the shaft, the cam with the shaft is connected with the motor seat in a rotating way, the cam with the shaft is contacted with a matching seat, the matching seat is connected with a piston rod, the piston rod is connected with a pressure change pipe in a sliding way, a spring is sleeved on the piston rod, two ends of the spring are respectively connected with the pressure change pipe and the matching seat, the pressure change pipe is connected with a transit box and communicated with the transit box, transfer case links to each other with the rotation supporting seat, motor I links to each other with shaft coupling II, shaft coupling II links to each other with the band-tape shaft stirring wheel, auxiliary stay one end is connected on the end cap, the auxiliary stay other end is connected on the rotation supporting seat, the feed liquor check valve sets up at the transfer incasement, the transfer case links to each other and communicates with bellows, piston sliding connection is intraductal at pressure variation, it sets up intraductal at the blowout, the blowout pipe links to each other and communicates with the transfer case, the blowout pipe passes and rotates the directional one of supporting seat and soak the chamber, the several trompil sets up on rotating the disinfection seat, the trompil is linked together with the chute, the end cap rotates with the rotation disinfection seat and is connected, be equipped with the chamber of running down on the end cap, the chamber of running down is linked together with the trompil.

As a further optimization of the technical scheme, the box body mechanism of the surgical instrument disinfection treatment recovery equipment comprises a hole I, a lower box body, an inlet, an upper box body and a hole II, wherein the hole I is formed in the lower box body, the inlet is formed in the lower box body, the upper box body is connected with the lower box body, the hole II is formed in the upper box body, a rotary supporting seat is connected with the lower box body, an inlet pipe is arranged in the hole II, and an outlet pipe is arranged in the hole I.

As a further optimization of the technical scheme, the garbage disposal mechanism of the disinfection treatment and recovery equipment for surgical instruments comprises a base, a discharge hole, a conveying box, a crushing motor, a coupling III, a treatment feed hopper, a motor II, a conversion box, a conversion pipe, a single liquid pipe, a feeding motor, a connecting bent pipe, a gear, a driving crushing wheel with a shaft, a spiral shaft, a driven crushing wheel with a shaft, a rotating head, a connecting port and a connecting port I, wherein the base is connected with the conveying box, the conveying box is provided with the discharge hole, the crushing motor is connected with the treatment feed hopper, the crushing motor is connected with the coupling III, the coupling III is connected with the driving crushing wheel with the shaft, the driving crushing wheel with the shaft is rotatably connected with the treatment feed hopper, the motor II is connected with the conversion box, the conversion pipe and the single liquid pipe are arranged on the conversion box, the feeding motor is connected with the conveying box, the feeding motor is connected with the spiral shaft, and the spiral shaft is rotatably connected with the conveying box, the connecting bent pipe communicates the conveying box and the conversion box, the belt shaft driving crushing wheel is rotatably connected with the processing feed hopper, the belt shaft driving crushing wheel and the belt shaft driven crushing wheel are both connected with the gears, the two gears are meshed with each other, the rotating head is connected with the motor II, the rotating head is rotatably connected with the conversion box, a connecting port and a connecting port I are arranged on the rotating head, the connecting port is communicated with the conversion pipe, the connecting port I is communicated with the single liquid pipe, and the output pipe is connected with and communicated with the conversion pipe.

As a further optimization of the technical scheme, the disk with the protrusion rotates for a circle, slides into and slides out of the driven groove once, and drives the driven disk to rotate for a quarter of a circle.

As a further optimization of the technical scheme, a rotary seal is arranged between the rotary head and the conversion box of the surgical instrument disinfection treatment recycling device.

The surgical instrument disinfection treatment recovery equipment has the beneficial effects that:

the surgical instrument disinfection treatment recovery equipment can ensure that disinfectant is sprayed out uniformly, can select the purpose of discharging waste liquid, and can treat medical waste.

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 surgical instrument disinfection and recovery apparatus according to the present invention.

FIG. 2 is a schematic structural diagram of a second apparatus for sterilizing and recycling surgical instruments according to the present invention.

FIG. 3 is a third schematic structural view of the surgical instrument disinfection treatment recycling device of the present invention.

Fig. 4 is a first structural schematic diagram of a disinfection mechanism 1 of the surgical instrument disinfection treatment recycling device of the invention.

Fig. 5 is a schematic structural diagram of a disinfection mechanism 1 of the surgical instrument disinfection treatment recycling device of the invention.

Fig. 6 is a schematic structural diagram three of a disinfection mechanism 1 of a surgical instrument disinfection treatment recycling device of the invention.

Fig. 7 is a fourth schematic structural diagram of the disinfection mechanism 1 of the surgical instrument disinfection treatment recycling device of the invention.

Fig. 8 is a first structural schematic diagram of the box mechanism 2 of the surgical instrument disinfection treatment recycling device of the invention.

Fig. 9 is a second structural schematic diagram of the box mechanism 2 of the surgical instrument disinfection treatment recycling device of the invention.

Fig. 10 is a first structural schematic diagram of a waste disposal mechanism 3 of the surgical tool disinfecting and recycling device of the invention.

Fig. 11 is a second structural schematic diagram of the waste disposal mechanism 3 of the surgical instrument disinfecting and recycling device of the present invention.

Fig. 12 is a third schematic structural view of a waste disposal mechanism 3 of the surgical instrument disinfecting and recycling apparatus of the present invention.

Fig. 13 is a fourth schematic structural view of the waste disposal mechanism 3 of the surgical instrument disinfecting and recycling apparatus of the present invention.

Fig. 14 is a fifth schematic structural view of the waste disposal mechanism 3 of the surgical instrument disinfecting and recycling apparatus of the present invention.

Fig. 15 is a sixth schematic structural view of the waste disposal mechanism 3 of the surgical instrument disinfecting and recycling apparatus of the present invention.

In the figure: a sterilizing mechanism 1; an output pipe 1-1; rotating the support seat 1-2; 1-3 of a motor; 1-4 of a coupler; 1-5 of an air box; connecting pipes 1-6; rotating the disinfection seat by 1-7; 1-8 parts of a soaking cavity; chute 1-9; 1-10 of a rotating shaft; driven disks 1-11; passive tanks 1-12; inlet pipes 1 to 13; 1-14 with convex disc; 1-15 parts of a mixing box; cam drive motors 1-16; 1-17 of a motor base; a coupler I1-18; pressure change tubes 1-19; 1-20 parts of a piston rod; springs 1-21; 1-22 of a matching seat; cam with shaft 1-23; 1-24 of a transfer case; motors I1-25; auxiliary supports 1-26; a coupler II 1-27; 1-28 parts of a stirring wheel with a shaft; 1-29 parts of liquid inlet one-way valve; 1-30 parts of a piston; liquid outlet one-way valve 1-31; 1-32 of open pore; 1-33 parts of plug; a pour chamber 1-34; 1-35 of wind wheel with shaft; an ejection pipe 1-36; a box body mechanism 2; opening I2-1; a lower box body 2-2; 2-3 of a discharge port; 2-4 of an upper box body; opening II 2-5; a garbage disposal mechanism 3; a base 3-1; 3-2 of a discharge port; 3-3 of a conveying box; 3-4 parts of a crushing motor; a coupler III 3-5; 3-6 parts of a treatment feed hopper; motor II 3-7; 3-8 of a conversion box; 3-9 of a switching tube; 3-10 parts of a single liquid pipe; 3-11 parts of a feeding motor; connecting bent pipes 3-12; 3-13 parts of gear; the belt shaft initiative crushing wheel 3-14; 3-15 parts of a spiral shaft; driven crushing wheels with shafts 3-16; 3-17 of a rotating head; connecting ports 3 to 18; and a connecting port I3-19.

Detailed Description

The first embodiment is as follows:

the present embodiment will be described below with reference to fig. 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, and 15. the present invention relates to a disinfecting apparatus, and more specifically, to a surgical instrument disinfecting recovery apparatus, which includes a disinfecting mechanism 1, a case mechanism 2, and a waste disposal mechanism 3, and which can ensure the spraying of a disinfecting liquid, the spraying of a disinfecting liquid can be ensured uniformly, the use of the apparatus for discharging a waste liquid can be selected, and the apparatus can perform medical waste disposal.

The disinfection mechanism 1 is connected with the box body mechanism 2, and the disinfection mechanism 1 is connected with the garbage disposal mechanism 3.

The second embodiment is as follows:

the 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, and the embodiment further describes the embodiment, where the sterilization mechanism 1 includes an output pipe 1-1, a rotary support 1-2, a motor 1-3, a coupling 1-4, a bellows 1-5, a connecting pipe 1-6, a rotary sterilization seat 1-7, a soaking chamber 1-8, a chute 1-9, a rotating shaft 1-10, a driven disk 1-11, a driven tank 1-12, an inlet pipe 1-13, a disk with a protrusion 1-14, a mixing box 1-15, a cam driving motor 1-16, a motor seat 1-17, a coupling I1-18, a pressure change pipe 1-19, a pressure change pipe 1-12, and a pressure change pipe 1-15, 1-20 parts of piston rod, 1-21 parts of spring, 1-22 parts of matching seat, 1-23 parts of cam with shaft, 1-24 parts of transfer box, 1-25 parts of motor I1, 1-26 parts of auxiliary support, 1-27 parts of coupling II1-27 parts of stirring wheel with shaft, 1-28 parts of liquid inlet one-way valve, 1-30 parts of piston, 1-31 parts of liquid outlet one-way valve, 1-32 parts of opening, 1-33 parts of plug, 1-34 parts of pouring cavity, 1-35 parts of wind wheel with shaft and 1-36 parts of ejection pipe, 1-1 parts of output pipe is connected with 1-2 parts of rotary supporting seat, 1-1 parts of output pipe is connected and communicated with 1-5 parts of wind box, 1-2 parts of rotary supporting seat is connected with 1-3 parts of motor, 1-3 parts of motor is connected with 1-35 parts of wind wheel with shaft through 1-4 parts of coupling, 1-35 parts of wind wheel with shaft is connected with 1-5 parts of wind box in a rotary mode, an air box 1-5 is connected and communicated with a connecting pipe 1-6, a rotary disinfection seat 1-7 is rotatably connected with a rotary supporting seat 1-2, four soaking cavities 1-8 are uniformly arranged on the rotary disinfection seat 1-7, a chute 1-9 is arranged on the rotary disinfection seat 1-7, the chute 1-9 is communicated with the soaking cavity 1-8, the rotary disinfection seat 1-7 is connected with a rotating shaft 1-10, the rotating shaft 1-10 is rotatably connected with the rotary supporting seat 1-2, the rotating shaft 1-10 is connected with a driven disc 1-11, four driven grooves 1-12 are arranged on the driven disc 1-11, a disc 1-14 with a bulge is connected with a stirring wheel 1-28 with a shaft, the stirring wheel 1-28 with the shaft is rotatably connected with a mixing box 1-15, a cam driving motor 1-16 is connected with a motor seat 1-17, the cam driving motor 1-16 is connected with the shaft coupling I1-18, the shaft coupling I1-18 is connected with the cam with shaft 1-23, the cam with shaft 1-23 is rotationally connected with the motor base 1-17, the cam with shaft 1-23 is contacted with the matching base 1-22, the matching base 1-22 is connected with the piston rod 1-20, the piston rod 1-20 is connected with the pressure change tube 1-19 in a sliding way, the spring 1-21 is sleeved on the piston rod 1-20, two ends of the spring 1-21 are respectively connected with the pressure change tube 1-19 and the matching base 1-22, the pressure change tube 1-19 is connected and communicated with the transfer case 1-24, the transfer case 1-24 is connected with the rotational support base 1-2, the motor I1-25 is connected with the rotational support base 1-2, the motor I1-25 is connected with the shaft coupling II1-27, the coupler II1-27 is connected with a stirring wheel 1-28 with a shaft, one end of an auxiliary support 1-26 is connected with a plug 1-33, the other end of the auxiliary support 1-26 is connected with a rotary supporting seat 1-2, a liquid inlet one-way valve 1-29 is arranged in a transfer box 1-24, the transfer box 1-24 is connected and communicated with an air box 1-5, a piston 1-30 is connected in a pressure change pipe 1-19 in a sliding way, a liquid outlet one-way valve 1-31 is arranged in a spraying pipe 1-36, the spraying pipe 1-36 is connected and communicated with the transfer box 1-24, the spraying pipe 1-36 points to a soaking cavity 1-8 through the rotary supporting seat 1-2, a plurality of openings 1-32 are arranged on a rotary disinfection seat 1-7, the openings 1-32 are communicated with a chute 1-9, the plug 1-33 is rotationally connected with the rotary disinfection seat 1-7, the plug 1-33 is provided with a pouring cavity 1-34, the pouring cavity 1-34 is communicated with the opening 1-32, the state of the device before use is that the position under the inlet 2-3 is aligned with one soaking cavity 1-8, the inlet pipe 1-13 is respectively connected with different disinfectant stock solution replenishing pipes, the single liquid pipe 3-10 is externally connected with a discharge pipeline, a cutter needing to be disinfected is put into the soaking cavity 1-8 from the inlet 2-3, then the motor I1-25 is operated to drive the coupler II1-27 to rotate, the coupler II1-27 drives the stirring wheel 1-28 with the shaft to rotate, when the stirring wheel 1-28 with the shaft rotates, the two stock solutions added into the mixing box 1-15 from the inlet pipe 1-13 are stirred, so as to ensure that the subsequently sprayed disinfectant is uniformly mixed, the rotation of the stirring wheel with a shaft 1-28 can drive the disk with a protrusion 1-14 to rotate, the rotation of the disk with a protrusion 1-14 can slide into and out of the passive groove 1-12 once to drive the passive disk 1-11 to rotate for a quarter of a circle, when the soaking cavity 1-8 with a cutter rotates for a half of a circle and is aligned with the spraying pipe 1-36, the cam driving motor 1-16 operates to drive the coupler I1-18 to rotate, the coupler I1-18 drives the cam with a shaft 1-23 to rotate, the cam with a shaft 1-23 can drive the matching seat 1-22 to reciprocate by matching with the spring 1-21, the matching seat 1-22 can drive the piston 1-30 to reciprocate by the piston rod 1-20, and the piston 1-30 can cause the pressure difference change in the pressure change pipe 1-19, so that the uniform disinfection mixed liquid in the mixing box 1-15 is sucked into the transfer box 1-24 from the liquid inlet one-way valve 1-29, the liquid outlet one-way valve 1-31 is flushed after pressurization, the disinfection liquid enters the soaking cavity 1-8, the soaking cavity 1-8 is in a state of less disinfection liquid soaking and disinfection before rotating to the initial position, when the soaking cavity 1-8 returns to the initial position, the opening 1-32 corresponding to the soaking cavity 1-8 is communicated with the pouring cavity 1-34, the disinfection liquid is discharged, the cutter is taken out, the motor 1-3 rotates to drive the coupler 1-4 to rotate, the coupler 1-4 drives the wind wheel 1-35 with the shaft to rotate, thereby forming an air flow from top to bottom, the air flow forms a negative pressure in the soaking cavity 1-8, and is helpful for the disinfection liquid to move downwards along with the air flow, can prevent the occurrence of blockage and simultaneously prevent germs from being discharged to the outside of the equipment, and disinfectant can enter the air box 1-5 from the connecting pipe 1-6 and then be discharged from the output pipe 1-1.

The third concrete implementation mode:

the present embodiment will be described below with reference to fig. 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14 and 15, and the first embodiment will be further described, the box body mechanism 2 comprises an opening I2-1, a lower box body 2-2, a placing opening 2-3, an upper box body 2-4 and an opening II2-5, wherein the opening I2-1 is arranged on the lower box body 2-2, the placing opening 2-3 is arranged on the lower box body 2-2, the upper box body 2-4 is connected with the lower box body 2-2, the opening II2-5 is arranged on the upper box body 2-4, a rotary supporting seat 1-2 is connected with the lower box body 2-2, an inlet pipe 1-13 is arranged in the opening II2-5, and an outlet pipe 1-1 is arranged in the opening I2-1.

The fourth concrete implementation mode:

the present embodiment will be described with reference to fig. 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15. the present embodiment further describes the present embodiment, wherein the garbage disposal mechanism 3 comprises a base 3-1, a discharge port 3-2, a conveying box 3-3, a grinding motor 3-4, a coupling III3-5, a disposal feed hopper 3-6, a motor II3-7, a conversion box 3-8, a conversion pipe 3-9, a single liquid pipe 3-10, a feed motor 3-11, a connection elbow 3-12, a gear 3-13, a shaft-carrying active grinding wheel 3-14, a screw shaft 3-15, a shaft-carrying passive grinding wheel 3-16, a rotating head 3-17, and a connection port 3-18, A connecting port I3-19, a base 3-1 is connected with a conveying box 3-3, a discharge port 3-2 is arranged on the conveying box 3-3, a crushing motor 3-4 is connected with a processing feed hopper 3-6, the crushing motor 3-4 is connected with a coupling III3-5, the coupling III3-5 is connected with a driving crushing wheel 3-14 with a shaft, the driving crushing wheel 3-14 with the shaft is rotationally connected with the processing feed hopper 3-6, a motor II3-7 is connected with a conversion box 3-8, the conversion box 3-8 is provided with a conversion pipe 3-9 and a single liquid pipe 3-10, a feeding motor 3-11 is connected with the conveying box 3-3, a feeding motor 3-11 is connected with a spiral shaft 3-15, the spiral shaft 3-15 is rotationally connected with the conveying box 3-3, a connecting bent pipe 3-12 is used for connecting the conveying box 3-3 with the conversion box 3-8, the shaft-carrying active crushing wheel 3-14 is rotationally connected with a processing feed hopper 3-6, the shaft-carrying active crushing wheel 3-14 and the shaft-carrying passive crushing wheel 3-16 are both connected with a gear 3-13, the two gears 3-13 are mutually meshed, a rotating head 3-17 is connected with a motor II3-7, the rotating head 3-17 is rotationally connected with a conversion box 3-8, a connecting port 3-18 and a connecting port I3-19 are arranged on the rotating head 3-17, the connecting port 3-18 is communicated with a conversion pipe 3-9, the connecting port I3-19 is communicated with a single liquid pipe 3-10, an output pipe 1-1 is connected and communicated with the conversion pipe 3-9, the disinfection waste liquid in the output pipe 1-1 can enter the connecting port 3-18 from the conversion pipe 3-9 and then is discharged from the single liquid pipe 3-10 through the connecting port I3-19, the rotating head 3-17 is driven to rotate by the operation of the motor II3-7, the rotating head 3-17 rotates to enable the connecting port I3-19 to be communicated with the switching tube 3-9, and the connecting port 3-18 is communicated with the connecting bent tube 3-12, so that the disinfection waste liquid is discharged into the conveying box 3-3 through the connecting bent tube 3-12 to disinfect the medical waste; the equipment can process medical garbage, synchronously operate a crushing motor 3-4 and a feeding motor 3-11, the crushing motor 3-4 can drive a coupler III3-5 to rotate, the coupler III3-5 can drive a belt shaft driving crushing wheel 3-14 to rotate, the belt shaft driving crushing wheel 3-14 can drive the belt shaft driving crushing wheel 3-14 to rotate through the driving of two gears 3-13 and a belt shaft driven crushing wheel 3-16, the rotation directions of the belt shaft driven crushing wheel 3-16 and the belt shaft driving crushing wheel 3-14 are the direction of middle meshing, thereby crushing the medical garbage added from a processing feed hopper 3-6, then mixing the medical garbage with disinfection waste liquid to achieve the purpose of disinfection, the feeding motor 3-11 can drive a spiral shaft 3-15 to rotate, the rotation of the screw shaft 3-15 can push the waste material to the direction of the discharge opening 3-2, thereby achieving the effect of discharging.

The fifth concrete implementation mode:

the following describes the present embodiment 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, and fig. 15, and the present embodiment further describes the present embodiment, in which the raised disks 1 to 14 slide into and out of the passive slots 1 to 12 once per rotation cycle, and drive the passive disks 1 to 11 to rotate for a quarter of a cycle.

The sixth specific implementation mode:

the present embodiment will be described below with reference to fig. 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, and 15, and the present embodiment further describes the first embodiment in which a rotary seal is provided between the rotary head 3-17 and the switching box 3-8.

The working principle of the device is as follows: the device can ensure that the disinfectant is sprayed out uniformly, the device is in a state of being aligned with one soaking cavity 1-8 under the inlet 2-3 before being used, the inlet pipes 1-13 are respectively connected with different disinfectant stock solution replenishing pipes, the single liquid pipe 3-10 is externally connected with a discharge pipeline, a cutter to be disinfected is put into the soaking cavity 1-8 from the inlet 2-3, then the motor I1-25 is operated to drive the coupler II1-27 to rotate, the coupler II1-27 drives the stirring wheel with a shaft 1-28 to rotate, the two stock solutions added into the mixing box 1-15 from the inlet pipes 1-13 are stirred when the stirring wheel with the shaft 1-28 rotates, so that the subsequent sprayed disinfectant is ensured to be uniformly mixed, and the stirring wheel with the shaft 1-28 rotates to drive the disk with the protrusion 1-14 to rotate, the disc 1-14 with the convex area rotates for one circle and slides into and out of the passive groove 1-12 once to drive the passive disc 1-11 to rotate for a quarter circle, when the soaking cavity 1-8 with the cutter rotates for a half circle and is aligned with the ejection pipe 1-36, the cam driving motor 1-16 operates to drive the coupling I1-18 to rotate, the coupling I1-18 drives the cam 1-23 with the shaft to rotate, the cam 1-23 with the shaft drives the matching seat 1-22 to reciprocate through the matching of the spring 1-21, the matching seat 1-22 drives the piston 1-30 to reciprocate through the piston rod 1-20, the piston 1-30 can cause the pressure difference change in the pressure change pipe 1-19, so that the uniform disinfection mixed liquid in the mixing box 1-15 is sucked into the transfer box 1-24 from the liquid inlet one-way valve 1-29, after pressurization, the one-way valve 1-31 of the liquid outlet is flushed to make the disinfectant enter the soaking cavity 1-8, before the soaking cavity 1-8 rotates back to the initial position, is in a state of soaking and disinfecting with less disinfectant, when the infusion chamber 1-8 returns to the initial position, the corresponding opening 1-32 of this infusion chamber 1-8 will be connected to the pouring chamber 1-34, thereby discharging the disinfectant, taking out the cutter, driving the shaft coupling 1-4 to rotate by the operation of the motor 1-3, driving the wind wheel 1-35 with the shaft to rotate by the shaft coupling 1-4, thereby forming airflow from top to bottom, the airflow forms negative pressure in the soaking cavities 1-8, which is helpful for the disinfectant to move downwards along with the airflow and can prevent blockage, meanwhile, the germ is prevented from being discharged to the outside of the equipment, and the disinfectant can enter the air box 1-5 from the connecting pipe 1-6 and then is discharged from the output pipe 1-1; the device can select the purpose of discharging the discharged waste liquid, the disinfection waste liquid in the output pipe 1-1 enters the connecting port 3-18 from the conversion pipe 3-9 and then is discharged from the single liquid pipe 3-10 through the connecting port I3-19, the rotating head 3-17 is driven to rotate by the operation of the motor II3-7, the rotating head 3-17 rotates to enable the connecting port I3-19 to be communicated with the conversion pipe 3-9, and the connecting port 3-18 is communicated with the connecting bent pipe 3-12, so that the disinfection waste liquid can be discharged into the conveying box 3-3 through the connecting bent pipe 3-12 to disinfect the medical waste; the equipment can process medical garbage, synchronously operate a crushing motor 3-4 and a feeding motor 3-11, the crushing motor 3-4 can drive a coupler III3-5 to rotate, the coupler III3-5 can drive a belt shaft driving crushing wheel 3-14 to rotate, the belt shaft driving crushing wheel 3-14 can drive the belt shaft driving crushing wheel 3-14 to rotate through the driving of two gears 3-13 and a belt shaft driven crushing wheel 3-16, the rotation directions of the belt shaft driven crushing wheel 3-16 and the belt shaft driving crushing wheel 3-14 are the direction of middle meshing, thereby crushing the medical garbage added from a processing feed hopper 3-6, then mixing the medical garbage with disinfection waste liquid to achieve the purpose of disinfection, the feeding motor 3-11 can drive a spiral shaft 3-15 to rotate, the rotation of the screw shaft 3-15 can push the waste material to the direction of the discharge opening 3-2, thereby achieving the effect of discharging.

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

Claims (6)

1. The utility model provides a surgical instruments disinfection recovery plant, includes disinfection mechanism (1), box mechanism (2), refuse treatment mechanism (3), its characterized in that: the disinfection mechanism (1) is connected with the box body mechanism (2), and the disinfection mechanism (1) is connected with the garbage disposal mechanism (3).

2. A surgical instrument disinfecting treatment recovery apparatus as claimed in claim 1, wherein: the disinfection mechanism (1) comprises an output pipe (1-1), a rotary supporting seat (1-2), a motor (1-3), a coupling (1-4), an air box (1-5), a connecting pipe (1-6), a rotary disinfection seat (1-7), a soaking cavity (1-8), a chute (1-9), a rotating shaft (1-10), a driven disc (1-11), a driven groove (1-12), an inlet pipe (1-13), a disc with a bulge (1-14), a mixing box (1-15), a cam driving motor (1-16), a motor seat (1-17), a coupling I (1-18), a pressure change pipe (1-19), a piston rod (1-20), a spring (1-21), a matching seat (1-22), A cam with a shaft (1-23), a transfer case (1-24), a motor I (1-25), an auxiliary support (1-26), a coupling II (1-27), a stirring wheel with a shaft (1-28), a liquid inlet one-way valve (1-29), a piston (1-30), a liquid outlet one-way valve (1-31), an opening (1-32), a plug (1-33), a pouring cavity (1-34), a wind wheel with a shaft (1-35) and a spraying pipe (1-36), wherein the output pipe (1-1) is connected with a rotary support seat (1-2), the output pipe (1-1) is connected and communicated with a wind box (1-5), the rotary support seat (1-2) is connected with the motor (1-3), the motor (1-3) is connected with the wind wheel with a shaft (1-35) through the coupling (1-4), the wind wheel (1-35) with the shaft is rotationally connected with an air box (1-5), the air box (1-5) is connected and communicated with a connecting pipe (1-6), a rotary disinfection seat (1-7) is rotationally connected with a rotary supporting seat (1-2), four soaking cavities (1-8) are uniformly arranged on the rotary disinfection seat (1-7), a chute (1-9) is arranged on the rotary disinfection seat (1-7), the chute (1-9) is communicated with the soaking cavities (1-8), the rotary disinfection seat (1-7) is connected with a rotating shaft (1-10), the rotating shaft (1-10) is rotationally connected with the rotary supporting seat (1-2), the rotating shaft (1-10) is connected with a driven disk (1-11), four driven disks (1-12) are arranged on the driven disk (1-11), the belt shaft stirring wheel (1-14) is connected with a belt shaft stirring wheel (1-28), the belt shaft stirring wheel (1-28) is rotationally connected with a mixing box (1-15), a cam driving motor (1-16) is connected with a motor base (1-17), the cam driving motor (1-16) is connected with a coupler I (1-18), the coupler I (1-18) is connected with a belt shaft cam (1-23), the belt shaft cam (1-23) is rotationally connected with the motor base (1-17), the belt shaft cam (1-23) is contacted with a matching base (1-22), the matching base (1-22) is connected with a piston rod (1-20), the piston rod (1-20) is slidably connected with a pressure change pipe (1-19), a spring (1-21) is sleeved on the piston rod (1-20), two ends of a spring (1-21) are respectively connected to a pressure change pipe (1-19) and a matching seat (1-22), the pressure change pipe (1-19) is connected and communicated with a transfer case (1-24), the transfer case (1-24) is connected with a rotating supporting seat (1-2), a motor I (1-25) is connected with the rotating supporting seat (1-2), the motor I (1-25) is connected with a coupler II (1-27), the coupler II (1-27) is connected with a stirring wheel (1-28) with a shaft, one end of an auxiliary support (1-26) is connected to a plug (1-33), the other end of the auxiliary support (1-26) is connected to the rotating supporting seat (1-2), and a liquid inlet one-way valve (1-29) is arranged in the transfer case (1-24), the transfer box (1-24) is connected and communicated with the air box (1-5), the piston (1-30) is connected in the pressure change pipe (1-19) in a sliding manner, the liquid outlet one-way valve (1-31) is arranged in the ejection pipe (1-36), the ejection pipe (1-36) is connected and communicated with the transfer box (1-24), the ejection pipe (1-36) passes through the rotary supporting seat (1-2) and points to one soaking cavity (1-8), a plurality of openings (1-32) are arranged on the rotary sterilizing seat (1-7), the openings (1-32) are communicated with the chute (1-9), the plug (1-33) is rotationally connected with the rotary sterilizing seat (1-7), the plug (1-33) is provided with the dumping cavity (1-34), and the dumping cavity (1-34) is communicated with the openings (1-32).

3. A surgical instrument disinfecting treatment recovery apparatus as claimed in claim 2, wherein: the box mechanism (2) comprises a hole I (2-1), a lower box (2-2), a placing opening (2-3), an upper box (2-4) and a hole II (2-5), wherein the hole I (2-1) is arranged on the lower box (2-2), the placing opening (2-3) is arranged on the lower box (2-2), the upper box (2-4) is connected with the lower box (2-2), the hole II (2-5) is arranged on the upper box (2-4), a rotary supporting seat (1-2) is connected with the lower box (2-2), an inlet pipe (1-13) is arranged in the hole II (2-5), and an outlet pipe (1-1) is arranged in the hole I (2-1).

4. A surgical instrument disinfecting treatment recovery apparatus as claimed in claim 2, wherein: the garbage treatment mechanism (3) comprises a base (3-1), a discharge port (3-2), a conveying box (3-3), a crushing motor (3-4), a coupler III (3-5), a treatment feed hopper (3-6), a motor II (3-7), a conversion box (3-8), a conversion pipe (3-9), a single liquid pipe (3-10), a feeding motor (3-11), a connecting bent pipe (3-12), a gear (3-13), a driving crushing wheel (3-14) with a shaft, a spiral shaft (3-15), a driven crushing wheel (3-16) with a shaft, a rotating head (3-17), a connecting port (3-18) and a connecting port I (3-19), wherein the base (3-1) is connected with the conveying box (3-3), a discharge opening (3-2) is arranged on the conveying box (3-3), a crushing motor (3-4) is connected with a processing feed hopper (3-6), the crushing motor (3-4) is connected with a coupling III (3-5), the coupling III (3-5) is connected with a driving crushing wheel (3-14) with a shaft, the driving crushing wheel (3-14) with the shaft is rotatably connected with the processing feed hopper (3-6), a motor II (3-7) is connected with a conversion box (3-8), the conversion box (3-8) is provided with a conversion pipe (3-9) and a single liquid pipe (3-10), a feeding motor (3-11) is connected with the conveying box (3-3), the feeding motor (3-11) is connected with a screw shaft (3-15), the screw shaft (3-15) is rotatably connected with the conveying box (3-3), a connecting bent pipe (3-12) connects the conveying box (3-3) and the conversion box (3-8), a driving grinding wheel (3-14) with a shaft is rotationally connected with the processing feed hopper (3-6), the driving grinding wheel (3-14) with the shaft and a driven grinding wheel (3-16) with the shaft are both connected with gears (3-13), the two gears (3-13) are mutually meshed, a rotating head (3-17) is connected with a motor II (3-7), the rotating head (3-17) is rotationally connected with the conversion box (3-8), a connecting port (3-18) and a connecting port I (3-19) are arranged on the rotating head (3-17), the connecting port (3-18) is communicated with the conversion pipe (3-9), the connecting port I (3-19) is communicated with a single liquid pipe (3-10), the output pipe (1-1) is connected and communicated with the conversion pipe (3-9).

5. A surgical instrument disinfecting treatment recovery apparatus as claimed in claim 2, wherein: the plate (1-14) with the protrusions slides into and out of the passive groove (1-12) once when rotating for one circle, and drives the passive plate (1-11) to rotate for a quarter of a circle.

6. A surgical instrument disinfecting treatment recovery apparatus as claimed in claim 4, wherein: and a rotary seal is arranged between the rotary head (3-17) and the conversion box (3-8).

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