CN109718388B - Cleaning device for operating room appliances - Google Patents

Abstract

The invention relates to a disinfection device, in particular to an operating room appliance cleaning device which comprises a moving wheel mechanism, a disinfection cavity mechanism, a clamping mechanism, an anti-collision mechanism, a stirring mechanism, a water pipe clamping mechanism and a vibration feeding mechanism, wherein the device can switch two modes of moving and parking, can clamp a water inlet pipe, can automatically add a disinfection block, can stir disinfectant, can automatically discharge disinfectant, can prevent collision, can clamp a cutter to be disinfected, can disinfect the cutter, can ensure longer service life, is positioned below the disinfection cavity mechanism, the clamping mechanism is arranged inside the disinfection cavity mechanism, the anti-collision mechanism is positioned at two sides of the stirring mechanism, the stirring mechanism is positioned above the disinfection cavity mechanism, the water pipe clamping mechanism is positioned above the stirring mechanism, and the vibration feeding mechanism is positioned above the stirring mechanism, the vibration feeding mechanism is positioned on the right side of the water pipe clamping mechanism.

Description

Cleaning device for operating room appliances

Technical Field

The invention relates to a disinfection device, in particular to an operating room appliance cleaning device.

Background

In the operating room, all can use various cutters to carry out the operation at every turn, and the disinfection work of cutter is very onerous, has consumed disinfection personnel's bold time, wastes time and energy, and traditional disinfection all relies on the manual work to accomplish, and is very inconvenient, so designed this kind of operating room apparatus belt cleaning device.

Disclosure of Invention

The technical problem mainly solved by the invention is to provide an operating room appliance cleaning device, which can switch a moving mode and a parking mode, can clamp a water inlet pipe, can automatically add a disinfection block, can stir a disinfectant, can automatically discharge the disinfectant, can prevent collision, can clamp a cutter to be disinfected, can disinfect the cutter, and can ensure a long service life.

In order to solve the technical problem, the invention relates to a disinfection device, and particularly relates to an operating room appliance cleaning device which comprises a moving wheel mechanism, a disinfection cavity mechanism, a clamping mechanism, an anti-collision mechanism, a stirring mechanism, a water pipe clamping mechanism and a vibration feeding mechanism.

The movable wheel mechanism comprises a movable wheel, a parking hole, a wheel seat, a threaded hole, a parking screw, a parking rod, a wheel shaft, a wheel seat, a damping spring, an upper seat and a magnet, the movable wheel is connected with the wheel shaft, the wheel shaft is connected with the wheel seat, the parking hole is formed in the movable wheel, the threaded hole is matched with the parking screw, the threaded hole is tapped on the parking rod, the parking rod is hinged with the upper seat, the damping spring is welded between the wheel seat and the upper seat, and the magnet is connected with the upper seat;

the disinfection cavity mechanism comprises a disinfection cavity body, a dumping screw, a matching threaded hole, a left bearing seat, a left shaft, a right bearing seat, a belt pulley, a right shaft, a triangular belt, a motor belt pulley and a disinfection motor, wherein the dumping screw is matched with the matching threaded hole, the matching threaded hole is tapped on the disinfection cavity body, the left bearing seat is connected with the left wall of the disinfection cavity body, the left shaft is connected with the left bearing seat in a bearing mode, the right bearing seat is connected with the right wall of the disinfection cavity body, the right shaft is connected with the right bearing seat in a bearing mode, the belt pulley is connected with the right shaft in an expansion sleeve mode, the triangular belt is connected with the belt pulley in a flexible mode, the triangular belt is connected with the motor belt pulley in a flexible mode, and the disinfection motor is connected with the motor belt pulley in an expansion sleeve mode;

the clamping mechanism comprises a lower clamping seat, a through hole, a reset rod mechanism, a slide rod groove, a movable stop block mechanism, a stop block groove, a motor cavity, an upper clamping seat and an upper through hole, wherein the through hole is formed in the lower clamping seat;

the reset rod mechanism comprises a lower connecting rod, a hinge joint, a tension spring, an upper connecting rod and an upper hinge joint, the hinge joint is hinged with the lower connecting rod, the tension spring is welded between the lower connecting rod and the upper connecting rod, and the upper hinge joint is hinged with the upper connecting rod;

the movable stop block mechanism comprises a stop block body, a hinge rod, a disc and a disc motor, wherein the stop block body is hinged with the hinge rod, the hinge rod is hinged with the disc, and the disc motor is connected with the disc in an expansion sleeve manner;

the anti-collision mechanism comprises an anti-collision plate, an anti-collision hinge rod, an anti-collision spring, an anti-collision sliding cavity mechanism and a spring seat, the anti-collision plate is hinged with the anti-collision hinge rod, the anti-collision hinge rod is hinged with the anti-collision sliding cavity mechanism, and the anti-collision spring is welded between the anti-collision plate and the spring seat;

the anti-collision sliding cavity mechanism comprises an anti-collision sliding block, a hinge buckle A, a secondary buffer spring and a sliding cavity body, wherein the anti-collision sliding block is hinged with the hinge buckle A, the anti-collision sliding block is matched with the sliding cavity body, and the buffer spring is connected with the sliding cavity body;

the stirring mechanism comprises a stirring rod mechanism, a door pulling mechanism, a stirring cavity mechanism and supporting legs, the stirring rod mechanism is connected with the stirring cavity mechanism, the door pulling mechanism is arranged in the stirring cavity mechanism, and the supporting legs are positioned below the stirring cavity mechanism;

the stirring rod mechanism comprises a stirring lug, a resistance reducing hole, a stirring rod body, a multi-section shaft and a shaft motor, wherein the stirring lug is connected with the stirring rod body;

the door pulling mechanism comprises a wire pulling disc, a wire pulling motor, a steel wire rope, a door movable cavity, a return spring A and a door, wherein the wire pulling disc is connected with the wire pulling motor, the steel wire rope is connected with the wire pulling disc, the door movable cavity is matched with the door, the steel wire rope is connected with the door, the return spring A is connected with the door in a welding mode, and the return spring A is arranged in the door movable cavity;

the stirring cavity mechanism comprises a stirring cavity body, an internal irregular cavity, a liquid storage cavity, a water pipe port, a bearing seat A, a disinfection block inlet port, an intermediate cavity and a liquid outlet, wherein the internal irregular cavity is arranged inside the stirring cavity body and communicated with the liquid outlet;

the water pipe clamping mechanism comprises a support, a limiting mechanism, a rotating arm mechanism and a cam, wherein the support is connected with the limiting mechanism, the rotating arm mechanism is connected with the support, and the cam is connected with the rotating arm mechanism;

the limiting mechanism comprises a limiting cavity, a limiting spring A, a groove, a holding rod, a connecting block, an upper end hole and a limiting rod A, the limiting spring A is arranged in the limiting cavity, the groove is formed in two sides of the limiting cavity, the holding rod is welded on two sides of the connecting block, the holding rod is matched with the groove, the connecting block is arranged in the limiting cavity, the limiting rod A is connected with the connecting block, the limiting rod A is matched with the upper end hole, and the upper end hole is formed in a top plate of the limiting cavity;

the rotating arm mechanism comprises a rotating handle, a rotating arm body, a limiting wheel hole, a limiting wheel and a limiting wheel shaft, wherein the rotating handle is connected with the rotating arm body, the rotating arm body is connected with the limiting wheel shaft, the hole is formed in the limiting wheel, and the limiting wheel is connected with the limiting wheel shaft;

the vibration feeding mechanism comprises a feeding hopper mechanism and a vibration supporting leg mechanism, and the feeding hopper mechanism is positioned above the vibration supporting leg mechanism;

the feeding hopper mechanism comprises a feeding hopper body, an eccentric wheel, a connecting belt pulley, a belt A, a feeding motor and a feeding motor wheel, wherein the eccentric wheel is hinged with the feeding hopper body;

the vibration support leg mechanism comprises a support leg A, a vibration sliding groove, a vibration sliding rod and a vibration spring A, wherein the vibration sliding groove is formed in the two sides of the support leg A, the vibration sliding rod is matched with the vibration sliding groove, and the vibration spring A is connected with the support leg A;

the movable wheel mechanism is located below the disinfection chamber mechanism, the clamping mechanism is arranged inside the disinfection chamber mechanism, the anti-collision mechanisms are located on two sides of the stirring mechanism, the stirring mechanism is located above the disinfection chamber mechanism, the water pipe clamping mechanism is located above the stirring mechanism, the vibration feeding mechanism is located above the stirring mechanism, and the vibration feeding mechanism is located on the right side of the water pipe clamping mechanism.

As a further optimization of the technical solution, the number of the moving wheel mechanisms of the cleaning device for the operating room instrument is four.

As a further optimization of the technical scheme, the lower clamping seat and the upper clamping seat of the cleaning device for the operating room appliances are made of stainless steel.

As a further optimization of the technical scheme, the anti-collision plate of the cleaning device for the operating room appliances is made of high manganese steel.

The cleaning device for the operating room appliances has the beneficial effects that:

according to the cleaning device for the operating room tools, the device can be switched between a moving mode and a parking mode, the device can clamp the water inlet pipe, the device can automatically add the disinfection block, the device can stir disinfection liquid, the device can automatically discharge the disinfection liquid, the device can be prevented from collision, the device can clamp the tools to be disinfected, the device can disinfect the tools, and the device can guarantee long service life.

Drawings

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

FIG. 1 is a schematic structural diagram of an operating room instrument cleaning device according to the present invention.

Fig. 2 is a structural diagram of a parking state of a moving wheel mechanism 1 of the cleaning device for the operating room tools of the invention.

Fig. 3 is a schematic structural view of a traveling state of the moving wheel mechanism 1 of the cleaning device for operating room instruments of the present invention.

Fig. 4 is a schematic structural diagram of a disinfection chamber mechanism 2 of the cleaning device for operating room tools.

Fig. 5 is a schematic structural view of a clamping mechanism 3 of the cleaning device for operating room instruments of the present invention.

Fig. 6 is a schematic structural view of a reset lever mechanism 3-3 of the cleaning device for the operating room instruments of the present invention.

Fig. 7 is a schematic structural view of a movable stopper mechanism 3-6 of the cleaning device for operating room instruments of the present invention.

Fig. 8 is a schematic structural diagram of the anti-collision mechanism 4 of the cleaning device for the operating room tools.

Fig. 9 is a schematic structural view of an anti-collision sliding cavity mechanism 4-4 of the cleaning device for the operating room appliances.

Fig. 10 is a schematic structural view of the stirring mechanism 5 of the cleaning device for operating room instruments of the present invention.

FIG. 11 is a schematic structural view of a stirring rod mechanism 5-1 of the cleaning device for operating room instruments of the present invention.

Fig. 12 is a schematic structural view of a door pulling mechanism 5-2 of the cleaning device for operating room instruments of the present invention.

FIG. 13 is a schematic structural view of a stir chamber mechanism 5-3 of an operating room instrument cleaning device according to the present invention.

Fig. 14 is a schematic structural view of a water pipe clamping mechanism 6 of the cleaning device for operating room instruments of the present invention.

FIG. 15 is a schematic structural view of a limiting mechanism 6-2 of the cleaning device for operating room instruments of the present invention.

FIG. 16 is a schematic view of the rotating arm mechanism 6-3 of the cleaning device for operating room instruments of the present invention.

Fig. 17 is a schematic structural diagram of a vibratory feeding mechanism 7 of the cleaning device for the operating room instruments of the present invention.

FIG. 18 is a schematic view of a hopper mechanism 7-1 of the cleaning apparatus for operating room instruments according to the present invention.

Fig. 19 is a schematic structural view of a vibration leg mechanism 7-2 of the cleaning device for operating room instruments of the present invention.

In the figure: a moving wheel mechanism 1; a moving wheel 1-1; 1-2 of parking holes; 1-3 of a wheel seat; 1-4 of a threaded hole; 1-5 of a parking screw; parking rods 1-6; 1-7 of a wheel shaft; 1-8 of a wheel seat; 1-9 of a damping spring; 1-10 of an upper seat; 1-11 parts of magnet; a disinfection chamber mechanism 2; 2-1 of a disinfection cavity body; dumping screws 2-2; matching with the threaded hole 2-3; 2-4 of a left bearing seat; a left shaft 2-5; 2-6 of a right bearing seat; 2-7 of belt pulleys; a right shaft 2-8; 2-9 parts of a V-belt; 2-10 parts of a motor belt pulley; 2-11 parts of a disinfection motor; a clamping mechanism 3; a lower clamping seat 3-1; a through hole 3-2; a reset rod mechanism 3-3; 3-3-1 of a lower connecting rod; 3-3-2 of hinge joint buckle; 3-3-3 of a tension spring; 3-3-4 of an upper connecting rod; 3-3-5 parts of upper hinge buckle; 3-4 of a slide bar; 3-5 parts of a sliding rod groove; a movable stop block mechanism 3-6; 3-6-1 of a block body; a hinge rod 3-6-2; 3-6-3 of a disc; 3-6-4 parts of a disc motor; 3-7 parts of a block groove; 3-8 parts of a motor cavity; 3-9 parts of an upper clamping seat; 3-10 parts of an upper through hole; an anti-collision mechanism 4; 4-1 of an anti-collision plate; the anti-collision hinged rod 4-2; 4-3 of an anti-collision spring; an anti-collision sliding cavity mechanism 4-4; 4-4-1 of an anti-collision sliding block; hinge joint A4-4-2; 4-4-3 of a secondary buffer spring; 4-4-4 of a sliding cavity body; spring seats 4-5; a stirring mechanism 5; a stirring rod mechanism 5-1; stirring the bump 5-1-1; 5-1-2 of a drag reduction hole; 5-1-3 of a stirring rod body; 5-1-4 of a multi-section shaft; 5-1-5 of a shaft motor; a door pulling mechanism 5-2; 5-2-1 of a wire drawing disc; a pull wire motor 5-2-2; 5-2-3 parts of a steel wire rope; a door movable cavity 5-2-4; a return spring A5-2-5; doors 5-2-6; a stirring cavity mechanism 5-3; 5-3-1 of a stirring cavity body; an internal irregular cavity 5-3-2; 5-3-3 of a liquid storage cavity; 5-3-4 of a water pipe opening; bearing seat A5-3-5; the inlet of the disinfection block is 5-3-6; 5-3-7 of the middle cavity; 5-3-8 parts of a liquid outlet; 5-4 of supporting legs; a water pipe clamping mechanism 6; 6-1 of support; a limiting mechanism 6-2; a limiting cavity 6-2-1; a limit spring A6-2-2; 6-2-3 of grooving; 6-2-4 of a holding rod; 6-2-5 parts of a connecting block; upper end holes 6-2-6; a limiting rod A6-2-7; a rotating arm mechanism 6-3; rotating the handle 6-3-1; a rotating arm body 6-3-2; 6-3-3 of a limiting wheel hole; 6-3-4 parts of a limiting wheel; 6-3-5 parts of a limiting wheel shaft; 6-4 of a cam; a vibration feeding mechanism 7; a hopper mechanism 7-1; a hopper body 7-1-1; an eccentric wheel 7-1-2; connecting belt pulleys 7-1-3; belt A7-1-4; a feeding motor 7-1-5; a feed motor wheel 7-1-6; a vibration support leg mechanism 7-2; leg A7-2-1; a vibration chute 7-2-2; vibrating the sliding rod 7-2-3; vibrating spring a 7-2-4.

Detailed Description

The first 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, fig. 16, fig. 17, fig. 18, and fig. 19, the invention relates to a disinfection device, and more specifically, to an operating room tool cleaning device, which includes a moving wheel mechanism 1, a disinfection chamber mechanism 2, a clamping mechanism 3, an anti-collision mechanism 4, a stirring mechanism 5, a water pipe clamping mechanism 6, and two modes of switching movement and parking of the device, wherein the device can clamp a water inlet pipe, the device can automatically add a disinfection block, the device can stir disinfection solution, the device can automatically discharge disinfection solution, the device can prevent collision, the device can clamp a tool to be disinfected, the device can disinfect the tool, and the device can ensure a.

The movable wheel mechanism 1 comprises a movable wheel 1-1, a parking hole 1-2, a wheel seat 1-3, a threaded hole 1-4, a parking screw 1-5, a parking rod 1-6, a wheel shaft 1-7, a wheel seat 1-8, a damping spring 1-9, an upper seat 1-10 and a magnet 1-11, wherein the movable wheel 1-1 is connected with the wheel shaft 1-7, the wheel shaft 1-7 is connected with the wheel seat 1-3, the parking hole 1-2 is formed on the movable wheel 1-1, the threaded hole 1-4 is matched with the parking screw 1-5, the threaded hole 1-4 is tapped on the parking rod 1-6, the parking rod 1-6 is hinged with the upper seat 1-10, the damping spring 1-9 is welded between the wheel seat 1-8 and the upper seat 1-10, the magnet 1-11 is connected with the upper seat 1-10, a moving wheel 1-1 is arranged below the device and can rotate relative to the ground to realize a moving function, when parking is needed, a parking rod 1-6 is rotated, the parking rod 1-6 is not attracted by a magnet 1-11 any more, and when the parking rod 1-6 rotates to be vertically downward, a parking screw 1-5 is screwed down, so that the parking screw 1-5 is screwed into a parking hole 1-2, the rotation of the moving wheel 1-1 can be limited, and the parking function is realized;

the disinfection cavity mechanism 2 comprises a disinfection cavity body 2-1, a dumping screw 2-2, a matching threaded hole 2-3, a left bearing seat 2-4, a left side shaft 2-5, a right bearing seat 2-6, a belt pulley 2-7, a right side shaft 2-8, a triangular belt 2-9, a motor belt pulley 2-10 and a disinfection motor 2-11, wherein the dumping screw 2-2 is matched with the matching threaded hole 2-3, the matching threaded hole 2-3 is tapped on the disinfection cavity body 2-1, the left bearing seat 2-4 is connected with the left wall of the disinfection cavity body 2-1, the left side shaft 2-5 is connected with the left bearing seat 2-4 through a bearing, the right bearing seat 2-6 is connected with the right wall of the disinfection cavity body 2-1, the right side shaft 2-8 is connected with the right bearing seat 2-6 through a bearing, the belt pulley 2-7 is connected with the right side shaft 2-8 in an expansion sleeve mode, the triangular belt 2-9 is connected with the belt pulley 2-7 in a flexible mode, the triangular belt 2-9 is connected with the motor belt pulley 2-10 in a flexible mode, the disinfection motor 2-11 is connected with the motor belt pulley 2-10 in an expansion sleeve mode, the disinfection motor 2-11 is operated after a cutter is clamped, the disinfection motor 2-11 can drive the motor belt pulley 2-10 to rotate, the motor belt pulley 2-10 can drive the belt pulley 2-7 to rotate through the triangular belt 2-9, the belt pulley 2-7 can drive the right side shaft 2-8 to rotate when the belt pulley 2-7 rotates, the right side shaft 2-8 can drive the clamping mechanism 3 to rotate when the right side shaft 2-8 rotates, and therefore the clamped cutter can repeatedly enter disinfectant to be disinfected;

the clamping mechanism 3 comprises a lower clamping seat 3-1, a through hole 3-2, a reset rod mechanism 3-3, a slide rod 3-4, a slide rod groove 3-5, a movable stop block mechanism 3-6, a stop block groove 3-7, a motor cavity 3-8, an upper clamping seat 3-9 and an upper through hole 3-10, wherein the through hole 3-2 is formed in the lower clamping seat 3-1, the reset rod mechanism 3-3 is connected with the upper clamping seat 3-9, the slide rod 3-4 is connected with the lower clamping seat 3-1, the slide rod 3-4 is matched with the slide rod groove 3-5, the slide rod groove 3-5 is formed in the upper clamping seat 3-9, the movable stop block mechanism 3-6 is matched with the stop block groove 3-7, the stop block groove 3-7 is communicated with the motor cavity 3-8, the upper through hole 3-10 is arranged on the upper clamping seat 3-9;

the reset rod mechanism 3-3 comprises a lower connecting rod 3-3-1, a hinge joint buckle 3-3-2, a tension spring 3-3-3, an upper connecting rod 3-3-4 and an upper hinge joint buckle 3-3-5, the hinge joint buckle 3-3-2 is hinged with the lower connecting rod 3-3-1, the tension spring 3-3-3 is welded between the lower connecting rod 3-3-1 and the upper connecting rod 3-3-4, and the upper hinge joint buckle 3-3-5 is hinged with the upper connecting rod 3-3-4;

the movable stop block mechanism 3-6 comprises a stop block body 3-6-1, a hinge rod 3-6-2, a disc 3-6-3 and a disc motor 3-6-4, wherein the stop block body 3-6-1 is hinged with the hinge rod 3-6-2, the hinge rod 3-6-2 is hinged with the disc 3-6-3, the disc motor 3-6-4 is connected with the disc 3-6-3 in an expansion sleeve mode, an upper clamping seat 3-9 is pressed by hands, the disc motor 3-6-4 is operated after the clamping is completed, the disc motor 3-6-4 can drive the disc 3-6-3 to rotate, the disc 3-6-3 can drive the hinge rod 3-6-2 to move, the hinged rod 3-6-2 moves to drive the block body 3-6-1 to move towards the slide bar groove 3-5, so that the block body 3-6-1 supports the slide bar 3-4, and the clamping of the cutter is completed;

the anti-collision mechanism 4 comprises an anti-collision plate 4-1, an anti-collision hinged rod 4-2, an anti-collision spring 4-3, an anti-collision sliding cavity mechanism 4-4 and a spring seat 4-5, the anti-collision plate 4-1 is hinged with the anti-collision hinged rod 4-2, the anti-collision hinged rod 4-2 is hinged with the anti-collision sliding cavity mechanism 4-4, and the anti-collision spring 4-3 is welded between the anti-collision plate 4-1 and the spring seat 4-5;

the anti-collision sliding cavity mechanism 4-4 comprises an anti-collision sliding block 4-4-1, a hinge buckle A4-4-2, a secondary buffer spring 4-4-3 and a sliding cavity body 4-4-4, wherein the anti-collision sliding block 4-4-1 is hinged with the hinge buckle A4-4-2, the anti-collision sliding block 4-4-1 is matched with the sliding cavity body 4-4-4, and the buffer spring 4-4-3 is connected with the sliding cavity body 4-4-4;

the stirring mechanism 5 comprises a stirring rod mechanism 5-1, a door pulling mechanism 5-2, a stirring cavity mechanism 5-3 and supporting legs 5-4, the stirring rod mechanism 5-1 is connected with the stirring cavity mechanism 5-3, the door pulling mechanism 5-2 is arranged inside the stirring cavity mechanism 5-3, and the supporting legs 5-4 are positioned below the stirring cavity mechanism 5-3;

the stirring rod mechanism 5-1 comprises a stirring lug 5-1-1, a resistance reducing hole 5-1-2, a stirring rod body 5-1-3, a multi-section shaft 5-1-4 and a shaft motor 5-1-5, the stirring lug 5-1-1 is connected with the stirring rod body 5-1-3, the resistance reducing hole 5-1-2 is arranged on the stirring rod body 5-1-3, the stirring rod body 5-1-3 is connected with the multi-section shaft 5-1-4, the shaft motor 5-1-5 is connected with the multi-section shaft 5-1-4, after the disinfection block falls into the stirring cavity body 5-3-1, the shaft motor 5-1-5 is operated, and the shaft motor 5-1-5 can drive the multi-section shaft 5-1-4 to rotate, the multi-section shaft 5-1-4 can drive the stirring rod body 5-1-3 to rotate, so that the disinfection block can be fully contacted with water to form a disinfectant, and the resistance reducing holes 5-1-2 can reduce the resistance of the water;

the door pulling mechanism 5-2 comprises a wire drawing disc 5-2-1, a wire drawing motor 5-2-2, a steel wire rope 5-2-3, a door movable cavity 5-2-4, a return spring A5-2-5 and a door 5-2-6, wherein the wire drawing disc 5-2-1 is connected with the wire drawing motor 5-2-2, the steel wire rope 5-2-3 is connected with the wire drawing disc 5-2-1, the door movable cavity 5-2-4 is matched with the door 5-2-6, the steel wire rope 5-2-3 is connected with the door 5-2-6, the return spring A5-2-5 is welded with the door 5-2-6, the return spring A5-2-5 is arranged in the door movable cavity 5-2-4, after the disinfection block is fully contacted with water to form a disinfection solution, operating the wire pulling motor 5-2-2 to drive the wire pulling disc 5-2-1 to rotate, moving the door 5-2-6 through the steel wire rope 5-2-3 when the wire pulling disc 5-2-1 rotates, and separating the door 5-2-6 from the liquid outlet 5-3-8 when the door 5-2-6 moves, so that the disinfection solution flows out of the liquid outlet 5-3-8;

the stirring cavity mechanism 5-3 comprises a stirring cavity body 5-3-1, an internal irregular cavity 5-3-2, a liquid storage cavity 5-3-3, a water pipe port 5-3-4, a bearing seat A5-3-5, a disinfection block inlet port 5-3-6, an intermediate cavity 5-3-7 and a liquid outlet 5-3-8, wherein the internal irregular cavity 5-3-2 is arranged inside the stirring cavity body 5-3-1, the internal irregular cavity 5-3-2 is communicated with the liquid outlet 5-3-8, the liquid outlet 5-3-8 is arranged on a bottom plate of the stirring cavity body 5-3-1, the liquid storage cavity 5-3-3 is arranged inside the stirring cavity body 5-3-1, the water pipe port 5-3-4 is arranged on the top plate of the stirring cavity body 5-3-1, the bearing seat A5-3-5 is connected with the stirring cavity body 5-3-1, the disinfection block inlet port 5-3-6 is arranged on the top plate of the stirring cavity body 5-3-1, and the middle cavity 5-3-7 is arranged in the bottom plate of the stirring cavity body 5-3-1;

the water pipe clamping mechanism 6 comprises a support 6-1, a limiting mechanism 6-2, a rotating arm mechanism 6-3 and a cam 6-4, wherein the support 6-1 is connected with the limiting mechanism 6-2, the rotating arm mechanism 6-3 is connected with the support 6-1, and the cam 6-4 is connected with the rotating arm mechanism 6-3;

the limiting mechanism 6-2 comprises a limiting cavity 6-2-1, a limiting spring A6-2-2, a slot 6-2-3, a holding rod 6-2-4, a connecting block 6-2-5, an upper end hole 6-2-6 and a limiting rod A6-2-7, wherein the limiting spring A6-2-2-2 is arranged in the limiting cavity 6-2-1, the slot 6-2-3 is arranged at two sides of the limiting cavity 6-2-1, the holding rod 6-2-4 is welded at two sides of the connecting block 6-2-5, the holding rod 6-2-4 is matched with the slot 6-2-3, the connecting block 6-2-5 is arranged in the limiting cavity 6-2-1, the limiting rod A6-2-7 is connected with the connecting block 6-2-5, the limiting rod A6-2-7 is matched with the upper end hole 6-2-6, and the upper end hole 6-2-6 is arranged on the top plate of the limiting cavity 6-2-1;

the rotating arm mechanism 6-3 comprises a rotating handle 6-3-1, a rotating arm body 6-3-2, a limiting wheel hole 6-3-3, a limiting wheel 6-3-4 and a limiting wheel shaft 6-3-5, the rotating handle 6-3-1 is connected with the rotating arm body 6-3-2, the rotating arm body 6-3-2 is connected with the limiting wheel shaft 6-3-5, the hole 6-3-3 is formed in the limiting wheel 6-3-4, the limiting wheel 6-3-4 is connected with the limiting wheel shaft 6-3-5, the holding rod 6-2-4 is pulled downwards at first, the holding rod 6-2-4 moves downwards to drive the connecting block 6-2-5 to move downwards, and the connecting block 6-2-5 moves downwards to drive the limiting rod A6-2-7 to be separated from the limiting wheel The holes 6-3-3 are matched, the rotating handle 6-3-1 is held to rotate at the moment, the rotating handle 6-3-1 rotates to drive the cam 6-4 to rotate, so that the two cams can clamp the water pipe in the middle, the holding rod 6-2-4 is loosened at the moment, the limiting rod A6-2-7 moves upwards to be matched with the limiting wheel holes 6-3-3 again under the rebounding action of the limiting spring A6-2-2, the limiting wheel 6-3-4 cannot rotate, and the cam 6-4 connected with the limiting wheel 6-3-4 cannot rotate any more, so that clamping is finished;

the vibration feeding mechanism 7 comprises a feeding hopper mechanism 7-1 and a vibration supporting leg mechanism 7-2, and the feeding hopper mechanism 7-1 is positioned above the vibration supporting leg mechanism 7-2;

the feeding hopper mechanism 7-1 comprises a feeding hopper body 7-1-1, an eccentric wheel 7-1-2, a connecting belt pulley 7-1-3, a belt A7-1-4, a feeding motor 7-1-5 and a feeding motor wheel 7-1-6, wherein the eccentric wheel 7-1-2 is hinged with the feeding hopper body 7-1-1, the eccentric wheel 7-1-2 is connected with the connecting belt pulley 7-1-3, the connecting belt pulley 7-1-3 is flexibly connected with the belt A7-1-4, the connecting belt pulley 7-1-3 is flexibly connected with the feeding motor wheel 7-1-6, the feeding motor wheel 7-1-6 is connected with the feeding motor wheel 7-1-5 in an expansion sleeve manner, the feeding motor 7-1-5 is connected with the feeding hopper body 7-1-1, the feeding motor wheel 7-1-6 is driven to rotate by the operation of the feeding motor 7-1-5, the feeding motor wheel 7-1-6 rotates to drive the connecting belt pulley 7-1-3 to rotate through the belt A7-1-4, the connecting belt pulley 7-1-3 rotates to drive the eccentric wheel 7-1-2 to rotate, the eccentric wheel 7-1-2 rotates to form a bias vibration force, the feeding hopper body 7-1-1 continuously vibrates under the action of the bias vibration force and the elastic force of the vibration spring A7-2-4, so that the disinfection block in the feeding hopper body 7-1-1 moves forwards, completing automatic feeding;

the vibration support leg mechanism 7-2 comprises a support leg A7-2-1, a vibration sliding groove 7-2-2, a vibration sliding rod 7-2-3 and a vibration spring A7-2-4, wherein the vibration sliding groove 7-2-2 is arranged on two sides of the support leg A7-2-1, the vibration sliding rod 7-2-3 is matched with the vibration sliding groove 7-2-2, and the vibration spring A7-2-4 is connected with the support leg A7-2-1;

the movable wheel mechanism 1 is located below the disinfection chamber mechanism 2, the clamping mechanism 3 is arranged inside the disinfection chamber mechanism 2, the anti-collision mechanism 4 is located on two sides of the stirring mechanism 5, the stirring mechanism 5 is located above the disinfection chamber mechanism 2, the water pipe clamping mechanism 6 is located above the stirring mechanism 5, the vibration feeding mechanism 7 is located above the stirring mechanism 5, and the vibration feeding mechanism 7 is located on the right side of the water pipe clamping mechanism 6.

The second 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, 15, 16, 17, 18, and 19, and the present embodiment further describes the first embodiment in which the number of the moving wheel mechanisms 1 is four.

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, 15, 16, 17, 18, and 19, and the present embodiment further describes a first embodiment in which the lower clamp holder 3-1 and the upper clamp holder 3-9 are made of stainless steel.

The fourth concrete implementation mode:

the present embodiment will be 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, and fig. 19, and the present embodiment further describes a first embodiment in which the material of the crashproof plate 4-1 is high manganese steel.

The device can switch a moving mode and a parking mode, a moving wheel 1-1 is arranged below the device and can rotate relative to the ground to realize a moving function, when parking is needed, a parking rod 1-6 is rotated to enable the parking rod 1-6 not to be attracted by a magnet 1-11, when the parking rod 1-6 rotates to be vertical and downward, a parking screw 1-5 is screwed, and the parking screw 1-5 is screwed into a parking hole 1-2, so that the rotation of the moving wheel 1-1 can be limited, and the parking function is realized; the device can clamp a water inlet pipe, firstly, the holding rod 6-2-4 is pulled downwards, the holding rod 6-2-4 moves downwards to drive the connecting block 6-2-5 to move downwards, the connecting block 6-2-5 moves downwards to drive the limiting rod A6-2-7 to be separated from the matching with the limiting wheel hole 6-3-3, at the moment, the rotating handle 6-3-1 is held to rotate, the rotating handle 6-3-1 rotates to drive the cam 6-4 to rotate, so that the two cams can clamp the water pipe in the middle, at the moment, the holding rod 6-2-4 is loosened, under the rebounding action of the limiting spring A6-2-2, the limiting rod A6-2-7 moves upwards to match with the limiting wheel hole 6-3-3 again, thus, the limiting wheel 6-3-4 can not rotate, and the cam 6-4 connected with the limiting wheel 6-3-4 can not rotate any more, thus completing clamping; the device can automatically add disinfection blocks, the feeding motor wheel 7-1-6 is driven to rotate by the operation of the feeding motor 7-1-5, the feeding motor wheel 7-1-6 rotates to drive the connecting belt pulley 7-1-3 to rotate through the belt A7-1-4, the connecting belt pulley 7-1-3 rotates to drive the eccentric wheel 7-1-2 to rotate, the eccentric wheel 7-1-2 rotates to form a bias force, and the feeding hopper body 7-1-1 continuously vibrates under the action of the bias force and the elastic force of the vibration spring A7-2-4, so that the disinfection blocks in the feeding hopper body 7-1-1 move forwards to finish automatic feeding; the device can stir disinfectant, after the disinfection block falls into the stirring cavity body 5-3-1, the shaft motor 5-1-5 is operated, the shaft motor 5-1-5 can drive the multi-section shaft 5-1-4 to rotate, and the multi-section shaft 5-1-4 can drive the stirring rod body 5-1-3 to rotate, so that the disinfection block can be fully contacted with water to form the disinfectant, and the resistance reducing holes 5-1-2 can reduce the resistance of the water; the device can automatically discharge disinfectant, after the disinfectant block is fully contacted with water to form the disinfectant, the pull wire motor 5-2-2 is operated to drive the pull wire disc 5-2-1 to rotate, the pull wire disc 5-2-1 rotates to move the door 5-2-6 through the steel wire rope 5-2-3, and the door 5-2-6 moves to be separated from the matching with the liquid outlet 5-3-8, so that the disinfectant can flow out of the liquid outlet 5-3-8; the device can prevent collision, the device is provided with a collision-prevention mechanism 4, and when an external object collides on the collision-prevention plate 4-1, the collision-prevention spring 4-3 can absorb kinetic energy to prevent the device from being damaged; the device can clamp a cutter to be disinfected, an upper clamping seat 3-9 is pressed by a hand, after the cutter is pressed to be clamped, a disc motor 3-6-4 is operated, the disc motor 3-6-4 can drive a disc 3-6-3 to rotate, the disc 3-6-3 can drive a hinge rod 3-6-2 to move, the hinge rod 3-6-2 can drive a block body 3-6-1 to move towards a slide bar groove 3-5, and thus the block body 3-6-1 can support the slide bar 3-4, and the cutter is clamped; the device can disinfect a cutter, the disinfection motor 2-11 is operated after the cutter is clamped, the disinfection motor 2-11 can drive the motor belt pulley 2-10 to rotate, the motor belt pulley 2-10 can drive the belt pulley 2-7 to rotate through the triangular belt 2-9, the belt pulley 2-7 can drive the right shaft 2-8 to rotate when rotating, the right shaft 2-8 can drive the clamping mechanism 3 to rotate when rotating, and thus the clamped cutter can repeatedly enter disinfectant for disinfection; the device can ensure that the lower clamping seat 3-1 and the upper clamping seat 3-9 are made of stainless steel, can prevent corrosion and prolong the service life.

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 (2)

1. The utility model provides an operating room apparatus belt cleaning device, includes moving wheel mechanism (1), disinfection chamber mechanism (2), clamping mechanism (3), anticollision institution (4), rabbling mechanism (5), water pipe clamping mechanism (6), vibration feed mechanism (7), its characterized in that: the movable wheel mechanism (1) comprises a movable wheel (1-1), a parking hole (1-2), a wheel seat (1-3), a threaded hole (1-4), a parking screw (1-5), a parking rod (1-6), a wheel shaft (1-7), a wheel seat (1-8), a damping spring (1-9), an upper seat (1-10) and a magnet (1-11), wherein the movable wheel (1-1) is connected with the wheel shaft (1-7), the wheel shaft (1-7) is connected with the wheel seat (1-3), the parking hole (1-2) is formed in the movable wheel (1-1), the threaded hole (1-4) is matched with the parking screw (1-5), the threaded hole (1-4) is tapped on the parking rod (1-6), the parking rod (1-6) is hinged with the upper seat (1-10), the damping springs (1-9) are welded between the wheel seats (1-8) and the upper seats (1-10), and the magnets (1-11) are connected with the upper seats (1-10);

the disinfection cavity mechanism (2) comprises a disinfection cavity body (2-1), a dumping screw (2-2), a matching threaded hole (2-3), a left bearing seat (2-4), a left shaft (2-5), a right bearing seat (2-6), a belt pulley (2-7), a right shaft (2-8), a triangular belt (2-9), a motor belt pulley (2-10) and a disinfection motor (2-11), wherein the dumping screw (2-2) is matched with the matching threaded hole (2-3), the matching threaded hole (2-3) is tapped on the disinfection cavity body (2-1), the left bearing seat (2-4) is connected with the left wall of the disinfection cavity body (2-1), the left shaft (2-5) is connected with the left bearing seat (2-4) in a bearing connection mode, the right bearing seat (2-6) is connected with the right wall of the disinfection cavity body (2-1), the connection mode of the right shaft (2-8) and the right bearing seat (2-6) is bearing connection, the connection mode of the belt pulley (2-7) and the right shaft (2-8) is expansion sleeve connection, the connection mode of the triangular belt (2-9) and the belt pulley (2-7) is flexible connection, the connection mode of the triangular belt (2-9) and the motor belt pulley (2-10) is flexible connection, and the connection mode of the disinfection motor (2-11) and the motor belt pulley (2-10) is expansion sleeve connection;

the clamping mechanism (3) comprises a lower clamping seat (3-1), a through hole (3-2), a reset rod mechanism (3-3), a slide rod (3-4), a slide rod groove (3-5), a movable stop block mechanism (3-6), a stop block groove (3-7), a motor cavity (3-8), an upper clamping seat (3-9) and an upper through hole (3-10), wherein the through hole (3-2) is formed in the lower clamping seat (3-1), the reset rod mechanism (3-3) is connected with the upper clamping seat (3-9), the slide rod (3-4) is connected with the lower clamping seat (3-1), the slide rod (3-4) is matched with the slide rod groove (3-5), the slide rod groove (3-5) is formed in the upper clamping seat (3-9), the movable stop block mechanism (3-6) is matched with the stop block groove (3-7), the stop block groove (3-7) is communicated with the motor cavity (3-8), and the upper through hole (3-10) is formed in the upper clamping seat (3-9);

the reset rod mechanism (3-3) comprises a lower connecting rod (3-3-1), a hinge joint buckle (3-3-2), a tension spring (3-3-3), an upper connecting rod (3-3-4) and an upper hinge joint buckle (3-3-5), the hinge joint buckle (3-3-2) is hinged with the lower connecting rod (3-3-1), the tension spring (3-3-3) is welded between the lower connecting rod (3-3-1) and the upper connecting rod (3-3-4), and the upper hinge joint buckle (3-3-5) is hinged with the upper connecting rod (3-3-4);

the movable stop block mechanism (3-6) comprises a stop block body (3-6-1), a hinge rod (3-6-2), a disc (3-6-3) and a disc motor (3-6-4), wherein the stop block body (3-6-1) is hinged with the hinge rod (3-6-2), the hinge rod (3-6-2) is hinged with the disc (3-6-3), and the disc motor (3-6-4) is connected with the disc (3-6-3) in an expanding sleeve manner;

the anti-collision mechanism (4) comprises an anti-collision plate (4-1), an anti-collision hinged rod (4-2), an anti-collision spring (4-3), an anti-collision sliding cavity mechanism (4-4) and a spring seat (4-5), the anti-collision plate (4-1) is hinged with the anti-collision hinged rod (4-2), the anti-collision hinged rod (4-2) is hinged with the anti-collision sliding cavity mechanism (4-4), and the anti-collision spring (4-3) is welded between the anti-collision plate (4-1) and the spring seat (4-5);

the anti-collision sliding cavity mechanism (4-4) comprises an anti-collision sliding block (4-4-1), a hinged buckle A (4-4-2), a secondary buffer spring (4-4-3) and a sliding cavity body (4-4-4), the anti-collision sliding block (4-4-1) is hinged with the hinged buckle A (4-4-2), the anti-collision sliding block (4-4-1) is matched with the sliding cavity body (4-4-4), and the buffer spring (4-4-3) is connected with the sliding cavity body (4-4-4); the stirring mechanism (5) comprises a stirring rod mechanism (5-1), a door pulling mechanism (5-2), a stirring cavity mechanism (5-3) and supporting legs (5-4), the stirring rod mechanism (5-1) is connected with the stirring cavity mechanism (5-3), the door pulling mechanism (5-2) is arranged inside the stirring cavity mechanism (5-3), and the supporting legs (5-4) are positioned below the stirring cavity mechanism (5-3);

the stirring rod mechanism (5-1) comprises a stirring lug (5-1-1), a resistance reducing hole (5-1-2), a stirring rod body (5-1-3), a multi-section shaft (5-1-4) and a shaft motor (5-1-5), wherein the stirring lug (5-1-1) is connected with the stirring rod body (5-1-3), the resistance reducing hole (5-1-2) is formed in the stirring rod body (5-1-3), the stirring rod body (5-1-3) is connected with the multi-section shaft (5-1-4), and the shaft motor (5-1-5) is connected with the multi-section shaft (5-1-4);

the door pulling mechanism (5-2) comprises a wire pulling disc (5-2-1), a wire pulling motor (5-2-2), a steel wire rope (5-2-3), a door movable cavity (5-2-4), a return spring A (5-2-5) and a door (5-2-6), wherein the wire pulling disc (5-2-1) is connected with the wire pulling motor (5-2-2), the steel wire rope (5-2-3) is connected with the wire pulling disc (5-2-1), the door movable cavity (5-2-4) is matched with the door (5-2-6), the steel wire rope (5-2-3) is connected with the door (5-2-6), and the return spring A (5-2-5) is welded with the door (5-2-6), the return spring A (5-2-5) is arranged in the door movable cavity (5-2-4);

the stirring cavity mechanism (5-3) comprises a stirring cavity body (5-3-1), an internal irregular cavity (5-3-2), a liquid storage cavity (5-3-3), a water pipe port (5-3-4), a bearing seat A (5-3-5), a disinfection block inlet port (5-3-6), a middle cavity (5-3-7) and a liquid outlet (5-3-8), wherein the internal irregular cavity (5-3-2) is arranged inside the stirring cavity body (5-3-1), the internal irregular cavity (5-3-2) is communicated with the liquid outlet (5-3-8), the liquid outlet (5-3-8) is arranged on a bottom plate of the stirring cavity body (5-3-1), and the liquid storage cavity (5-3-3) is arranged on the stirring cavity body (5-3-1) Inside, a water pipe port (5-3-4) is arranged on the top plate of the stirring cavity body (5-3-1), a bearing seat A (5-3-5) is connected with the stirring cavity body (5-3-1), a disinfection block inlet port (5-3-6) is arranged on the top plate of the stirring cavity body (5-3-1), and an intermediate cavity (5-3-7) is arranged in the bottom plate of the stirring cavity body (5-3-1); the water pipe clamping mechanism (6) comprises a support (6-1), a limiting mechanism (6-2), a rotating arm mechanism (6-3) and a cam (6-4), the support (6-1) is connected with the limiting mechanism (6-2), the rotating arm mechanism (6-3) is connected with the support (6-1), and the cam (6-4) is connected with the rotating arm mechanism (6-3);

the limiting mechanism (6-2) comprises a limiting cavity (6-2-1), a limiting spring A (6-2-2), a groove (6-2-3), a holding rod (6-2-4), a connecting block (6-2-5), an upper end hole (6-2-6) and a limiting rod A (6-2-7), the limiting spring A (6-2-2) is arranged in the limiting cavity (6-2-1), the groove (6-2-3) is formed in two sides of the limiting cavity (6-2-1), the holding rod (6-2-4) is welded on two sides of the connecting block (6-2-5), the holding rod (6-2-4) is matched with the groove (6-2-3), and the connecting block (6-2-5) is arranged in the limiting cavity (6-2-1), the limiting rod A (6-2-7) is connected with the connecting block (6-2-5), the limiting rod A (6-2-7) is matched with the upper end hole (6-2-6), and the upper end hole (6-2-6) is formed in a top plate of the limiting cavity (6-2-1);

the rotating arm mechanism (6-3) comprises a rotating handle (6-3-1), a rotating arm body (6-3-2), a limiting wheel hole (6-3-3), a limiting wheel (6-3-4) and a limiting wheel shaft (6-3-5), the rotating handle (6-3-1) is connected with the rotating arm body (6-3-2), the rotating arm body (6-3-2) is connected with the limiting wheel shaft (6-3-5), the hole (6-3-3) is formed in the limiting wheel (6-3-4), and the limiting wheel (6-3-4) is connected with the limiting wheel shaft (6-3-5);

the vibration feeding mechanism (7) comprises a feeding hopper mechanism (7-1) and a vibration supporting leg mechanism (7-2), and the feeding hopper mechanism (7-1) is positioned above the vibration supporting leg mechanism (7-2);

the feeding hopper mechanism (7-1) comprises a feeding hopper body (7-1-1), an eccentric wheel (7-1-2), a connecting belt wheel (7-1-3), a belt A (7-1-4), a feeding motor (7-1-5) and a feeding motor wheel (7-1-6), wherein the eccentric wheel (7-1-2) is hinged with the feeding hopper body (7-1-1), the eccentric wheel (7-1-2) is connected with the connecting belt wheel (7-1-3), the connecting belt wheel (7-1-3) is in flexible connection with the belt A (7-1-4), the connecting belt wheel (7-1-3) is in flexible connection with the feeding motor wheel (7-1-6), the feeding motor wheel (7-1-6) is connected with the feeding motor (7-1-5) in an expansion sleeve mode, and the feeding motor (7-1-5) is connected with the feeding hopper body (7-1-1);

the vibration supporting leg mechanism (7-2) comprises a supporting leg A (7-2-1), a vibration sliding groove (7-2-2), a vibration sliding rod (7-2-3) and a vibration spring A (7-2-4), wherein the vibration sliding groove (7-2-2) is formed in the two sides of the supporting leg A (7-2-1), the vibration sliding rod (7-2-3) is matched with the vibration sliding groove (7-2-2), and the vibration spring A (7-2-4) is connected with the supporting leg A (7-2-1);

the moving wheel mechanism (1) is located below the disinfection cavity mechanism (2), the clamping mechanism (3) is arranged inside the disinfection cavity mechanism (2), the anti-collision mechanisms (4) are located on two sides of the stirring mechanism (5), the stirring mechanism (5) is located above the disinfection cavity mechanism (2), the water pipe clamping mechanism (6) is located above the stirring mechanism (5), the vibration feeding mechanism (7) is located above the stirring mechanism (5), and the vibration feeding mechanism (7) is located on the right side of the water pipe clamping mechanism (6); the number of the moving wheel mechanisms (1) is four; the lower clamping seat (3-1) and the upper clamping seat (3-9) are made of stainless steel.

2. The operating room instrument cleaning device of claim 1, wherein: the material of the anti-collision plate (4-1) is high manganese steel.

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