CN110548200A - Needle tube disinfecting equipment - Google Patents

Abstract

the invention relates to a disinfection device, in particular to a needle tube disinfection device which comprises a coarse crushing mechanism, a crushing cavity mechanism, a crushing mechanism, a disinfection stirring mechanism and a disinfection cavity mechanism, wherein the needle tube can be coarsely crushed by the device, the device can be secondarily crushed and crushed, the device can be stirred and disinfected, the device can be opened and closed and can adjust the opening angle of the opening and closing door, the coarse crushing mechanism is connected with the crushing cavity mechanism, the crushing cavity mechanism is connected with the crushing mechanism, the crushing mechanism is connected with the disinfection cavity mechanism, and the disinfection stirring mechanism is connected with the disinfection cavity mechanism.

Description

Needle tube disinfecting equipment

Technical Field

the invention relates to a disinfection device, in particular to a needle tube disinfection device.

Background

the needle cannula sterilization device is designed for the reason that a large number of needle cannulae are produced in hospital medical work, the recycling of the needle cannulae is very important and the consequences are very serious if the disposal is not good.

Disclosure of Invention

The invention mainly solves the technical problem of providing a needle tube disinfection device, the device can coarsely crush a needle tube, the device can perform secondary crushing and grinding, the device can stir and disinfect, and the device can open and close a door and can adjust the opening angle of the door.

In order to solve the technical problem, the invention relates to a disinfection device, and particularly relates to a needle tube disinfection device which comprises a coarse crushing mechanism, a crushing cavity mechanism, a crushing mechanism, a disinfection stirring mechanism and a disinfection cavity mechanism.

The coarse crushing mechanism is connected with the crushing cavity mechanism, the crushing cavity mechanism is connected with the crushing mechanism, the crushing mechanism is connected with the disinfection cavity mechanism, and the disinfection stirring mechanism is connected with the disinfection cavity mechanism.

as a further optimization of the technical scheme, the coarse crushing mechanism of the needle tube disinfection equipment comprises a shell mechanism, a coarse crushing driving mechanism, a passive coarse crushing mechanism and a feeding supporting mechanism, wherein the shell mechanism is connected with the coarse crushing driving mechanism, the passive coarse crushing mechanism is arranged in the shell mechanism, and the feeding supporting mechanism is connected with the coarse crushing driving mechanism; the shell mechanism comprises a material sliding pipe, a bearing seat, a shell body and a feeding hole, wherein the material sliding pipe is connected with the shell body, the bearing seat is connected with the shell body, and the feeding hole is formed in the upper end of the shell body; the coarse crushing driving mechanism comprises a coarse crushing motor, a coupler, a rotating body, coarse crushing teeth and a stepped hole, the coarse crushing motor is connected with the rotating body through the coupler, the coarse crushing teeth are connected with the rotating body, and the stepped hole is formed in the rotating body; the feeding supporting mechanism comprises a spring, a stepped sliding round seat, an umbrella-shaped wheel and a blade, the spring is connected with the stepped sliding round seat, the stepped sliding round seat is connected with the umbrella-shaped wheel, the umbrella-shaped wheel is connected with the blade, the spring is arranged in a stepped hole, and the stepped sliding round seat is connected with the stepped hole in a sliding mode.

As a further optimization of the technical scheme, the grinding cavity mechanism of the needle tube disinfection equipment comprises a discharge hole, support legs, a cavity, a bearing seat I, a feed inlet I and inner tooth blades, wherein the discharge hole is formed in the cavity, the support legs are connected with the cavity, the bearing seat I is connected with the cavity, the feed inlet I is arranged above the cavity, the inner tooth blades are arranged on the inner wall of the cavity, and the cavity is connected with a material sliding pipe.

As a further optimization of the technical scheme, the grinding mechanism of the needle tube disinfection equipment comprises a grinding wheel mechanism, an eccentric wheel mechanism, a belt pulley and a motor, wherein the grinding wheel mechanism is connected with the eccentric wheel mechanism, the eccentric wheel mechanism is connected with the belt, the belt is connected with the belt pulley, and the belt pulley is connected with the motor; the grinding wheel mechanism comprises a grooved grinding wheel body, a support and a spring I, wherein the grooved grinding wheel body is connected with the support in a bearing manner, and the spring I is sleeved on the support; the eccentric wheel mechanism comprises a stepped hole A, a wheel body, a shaft, a flywheel, a counterweight and a driving belt pulley, wherein the stepped hole A is formed in the wheel body, the wheel body is connected with the shaft, the flywheel is connected with the shaft, the counterweight is connected with the flywheel through a screw, the driving belt pulley is connected with the shaft, the stepped hole A is in sliding connection with a support, a spring I is arranged in the stepped hole A, the shaft is connected with a bearing in a bearing connection mode, and the driving belt pulley is connected with a belt.

As a further optimization of the technical scheme, the disinfection and stirring mechanism of the needle tube disinfection equipment comprises a stirring shaft with a fixing plate, a blade with a hole, a coupler A and a stirring motor, wherein the stirring shaft with the fixing plate is connected with the blade with the hole, and the stirring shaft with the fixing plate is connected with the stirring motor through the coupler A.

As a further optimization of the technical scheme, the disinfection cavity mechanism of the needle tube disinfection equipment comprises a press head mechanism, a sliding seat mechanism, a limiting mechanism, a door opening and closing mechanism, a stirring box mechanism, a door opening and closing motor gear, a transmission shaft I, a door opening and closing gear, a bearing seat B and an opening and closing drive servo motor, wherein the press head mechanism is connected with the sliding seat mechanism, the sliding seat mechanism is connected with the limiting mechanism, the limiting mechanism is connected with the door opening and closing mechanism, the door opening and closing mechanism is connected with the stirring box mechanism, the sliding seat mechanism is connected with the stirring box mechanism, the door opening and closing motor gear is meshed with the transmission gear, the transmission gear is connected with the transmission shaft I, the transmission shaft I is connected with the bearing seat B in a bearing connection mode, the bearing seat B is connected with the stirring box mechanism, the opening and closing gear is connected with the door opening and closing drive servo motor gear, the opening and closing driving servo motor is connected with the stirring box mechanism; the pressing head mechanism comprises a pressing head body, a sliding rod, a stepped sliding seat I and a hinge rod, wherein the pressing head body is connected with the sliding rod, the sliding rod is connected with the stepped sliding seat I, and the stepped sliding seat I is hinged with the hinge rod; the sliding seat mechanism comprises a sliding rod matching hole, a stepped sliding seat I matching groove, an unthreaded hole and a sliding seat body A, wherein the sliding rod matching hole is formed in the sliding seat body A; the limiting mechanism comprises a clamping seat, a clamping seat rod, a middle boss, a clamping spring and a hinge seat II, the clamping seat is connected with the clamping seat rod, the clamping seat rod is connected with the middle boss, the clamping spring is sleeved on the clamping seat rod, the clamping spring abuts against the middle boss, the clamping spring abuts against the sliding seat body A, the clamping seat rod is connected with the unthreaded hole in a sliding mode, the hinge seat II is connected with the clamping seat rod, and the hinge seat II is hinged with the hinge rod; the door opening and closing mechanism comprises a matching gear, a door body and a ratchet, wherein the matching gear is welded with the door body, the door body is connected with the ratchet, and the ratchet is matched with the clamping seat; stirring box mechanism includes the agitator tank support, stirring axle bearing I, the under shed, go up the entry, the agitator tank body, the feed liquor hole, the agitator tank support links to each other with the agitator tank body, stirring axle bearing I links to each other with the agitator tank body, the under shed is opened on the lower terminal surface of agitator tank body, it opens on the up end of agitator tank body to go up the entry, the feed liquor hole is opened on the up end of agitator tank body, the door body is articulated mutually with the agitator tank body, the landing leg links to each other with the agitator tank body, the connected mode of taking fixed plate stirring axis and stirring axle bearing I is connected for the bearing.

as a further optimization of the technical scheme, the inner tooth blade of the needle tube sterilizing equipment is matched with the groove of the grooved grinding wheel body.

As a further optimization of the technical scheme, the door body of the needle tube disinfection equipment is provided with the sealing strip.

The needle tube disinfection equipment has the beneficial effects that:

According to the needle tube disinfection equipment, the needle tube can be coarsely crushed, the needle tube can be secondarily crushed and crushed, the needle tube can be stirred and disinfected, the needle tube can be opened and closed, and the opening angle of the opening and closing door can be adjusted.

Drawings

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

FIG. 1 is a schematic cross-sectional view of a needle cannula sterilizing apparatus according to the present invention.

Figure 2 is a schematic structural view of a needle cannula sterilizing apparatus of the present invention.

Figure 3 is a schematic plan view of a needle cannula sterilizing apparatus according to the present invention.

Fig. 4 is a schematic structural diagram of the coarse crushing mechanism 1 of the needle tube sterilizing device of the invention.

Fig. 5 is a schematic plan view of the coarse crushing mechanism 1 of the needle sterilizing apparatus of the present invention.

Fig. 6 is a schematic structural view of a housing mechanism 1-1 of a needle cannula sterilizing device of the present invention.

Fig. 7 is a schematic structural diagram of a coarse crushing driving mechanism 1-2 of the needle tube sterilizing device of the invention.

Fig. 8 is a schematic structural view of a passive coarse crushing mechanism 1-3 of the needle sterilizing device of the invention.

Figure 9 is a schematic structural view of a feed support mechanism 1-4 of the needle tube sterilizing device of the present invention.

Figure 10 is a schematic structural view of a grinding chamber mechanism 2 of the needle cannula sterilizing device of the invention.

figure 11 is a schematic plan view of the grinding chamber mechanism 2 of the needle cannula sterilizing apparatus of the present invention.

Fig. 12 is a schematic structural diagram of a grinding mechanism 3 of the needle cannula sterilizing device of the present invention.

Figure 13 is a schematic view of the grinding wheel mechanism 3-1 of the needle cannula sterilizing device according to the invention.

Fig. 14 is a schematic structural view of an eccentric wheel mechanism 3-2 of the needle tube sterilizing device of the invention.

Figure 15 is a schematic plan view of an eccentric wheel mechanism 3-2 of the needle tube sterilizing device according to the present invention.

FIG. 16 is a schematic structural view of a sterilizing and stirring mechanism 4 of the needle cannula sterilizing apparatus of the present invention.

Figure 17 is a schematic structural view of a disinfection chamber mechanism 5 of the needle tube disinfection device.

FIG. 18 is a schematic view of the connection relationship between the pressing head mechanism 5-1, the sliding seat mechanism 5-2 and the limiting mechanism 5-3 of the needle tube sterilizing apparatus of the present invention.

FIG. 19 is a schematic structural view of a pressing head mechanism 5-1 of the needle sterilizing apparatus according to the present invention.

Figure 20 is a schematic structural view of a sliding seat mechanism 5-2 of the needle cannula sterilizing device of the present invention.

Figure 21 is a schematic plan view of a sliding seat mechanism 5-2 of a needle cannula sterilizing device according to the present invention.

FIG. 22 is a schematic structural diagram of a limiting mechanism 5-3 of the needle tube disinfecting device of the present invention.

Figure 23 is a schematic structural view of a door opening and closing mechanism 5-4 of the needle tube sterilizing device of the invention.

Figure 24 is a schematic structural view of the agitator tank mechanism 5-5 of a needle cannula sterilizing apparatus of the present invention.

In the figure: a coarse crushing mechanism 1; a housing mechanism 1-1; a material sliding pipe 1-1-1; 1-1-2 of a bearing seat; a housing body 1-1-3; 1-1-4 of a feed inlet; a coarse crushing driving mechanism 1-2; a coarse crushing motor 1-2-1; 1-2-2 of a coupler; 1-2-3 of a rotating body; 1-2-4 of coarse crushing teeth; 1-2-5 of a stepped hole; a passive coarse crushing mechanism 1-3; a feeding support mechanism 1-4; 1-4-1 of a spring; 1-4-2 of a stepped sliding round seat; 1-4-3 parts of umbrella-shaped wheel; 1-4-4 parts of blades; a grinding chamber mechanism 2; a discharge hole 2-1; 2-2 parts of supporting legs; 2-3 of a cavity; bearing seat I2-4; feed port I2-5; 2-6 parts of inner tooth blade; a crushing mechanism 3; a grinding wheel mechanism 3-1; a grinding wheel body 3-1-1 with grooves; support 3-1-2; spring I3-1-3; an eccentric wheel mechanism 3-2; a stepped hole A3-2-1; a wheel body 3-2-2; shaft 3-2-3; 3-2-4 of a flywheel; 3-2-5 of balance weight; a driving belt pulley 3-2-6; 3-3 of a belt; 3-4 of a belt pulley; 3-5 of a motor; a disinfection stirring mechanism 4; a stirring shaft 4-1 with a fixed plate; 4-2 of perforated blades; a coupler A4-3; 4-4 parts of a stirring motor; a disinfection chamber mechanism 5; a pressing head mechanism 5-1; pressing head body 5-1-1; a slide bar 5-1-2; a step sliding seat I5-1-3; hinge rods 5-1-4; a slide mount mechanism 5-2; a slide bar matching hole 5-2-1; the step sliding seat I is matched with the groove 5-2-2; 5-2-3 of a light hole; a sliding seat body A5-2-4; 5-3 of a limiting mechanism; a clamping seat 5-3-1; 5-3-2 parts of a clamping seat rod; 5-3-3 of a middle boss; 5-3-4 parts of a clamping spring; the hinged seat II 5-3-5; 5-4 of a door opening and closing mechanism; a matching gear 5-4-1; a door body 5-4-2; 5-4-3 parts of ratchets; 5-5 parts of a stirring box mechanism; 5-5-1 of stirring box support; a stirring shaft bearing seat I5-5-2; 5-5-3 of a lower opening; an upper inlet 5-5-4; 5-5-5 parts of a stirring box body; 5-5-6 parts of liquid inlet hole; 5-6 parts of a door opening and closing motor gear; 5-7 of a transmission gear; a transmission shaft I5-8; 5-9 parts of an opening and closing gear; bearing seat B5-10; the opening and closing drive servo motors 5-11.

Detailed Description

The first embodiment is as follows:

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, fig. 19, fig. 20, fig. 21, fig. 22, fig. 23, and fig. 24, and the present invention relates to a sterilizing apparatus, and more specifically, to a needle tube sterilizing apparatus including a coarse crushing mechanism 1, a crushing chamber mechanism 2, a crushing mechanism 3, a sterilizing and stirring mechanism 4, and a sterilizing chamber mechanism 5, the apparatus being capable of coarsely crushing needle tubes, the apparatus being capable of secondarily crushing and crushing, the apparatus being capable of stirring and sterilizing, the apparatus being capable of opening and closing a door and being adjustable in the opening and closing.

the coarse crushing mechanism 1 is connected with the crushing cavity mechanism 2, the crushing cavity mechanism 2 is connected with the crushing mechanism 3, the crushing mechanism 3 is connected with the disinfection cavity mechanism 5, and the disinfection stirring mechanism 4 is connected with the disinfection cavity mechanism 5.

The second embodiment is as follows:

The embodiment will be further described 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, fig. 23, and fig. 24, wherein the coarse crushing mechanism 1 includes a housing mechanism 1-1, a coarse crushing driving mechanism 1-2, a passive coarse crushing mechanism 1-3, and a feeding support mechanism 1-4, the housing mechanism 1-1 is connected with the coarse crushing driving mechanism 1-2, the passive coarse crushing mechanism 1-3 is disposed in the housing mechanism 1-1, and the feeding support mechanism 1-4 is connected with the coarse crushing driving mechanism 1-2; the shell mechanism 1-1 comprises a material sliding pipe 1-1-1, a bearing seat 1-1-2, a shell body 1-1-3 and a feeding port 1-1-4, wherein the material sliding pipe 1-1-1 is connected with the shell body 1-1-3, the bearing seat 1-1-2 is connected with the shell body 1-1-3, and the feeding port 1-1-4 is arranged at the upper end of the shell body 1-1-3; the coarse crushing driving mechanism 1-2 comprises a coarse crushing motor 1-2-1, a coupler 1-2-2, a rotating body 1-2-3, coarse crushing teeth 1-2-4 and stepped holes 1-2-5, the coarse crushing motor 1-2-1 is connected with the rotating body 1-2-3 through the coupler 1-2-2, the coarse crushing teeth 1-2-4 are connected with the rotating body 1-2-3, and the stepped holes 1-2-5 are formed in the rotating body 1-2-3; the feeding supporting mechanism 1-4 comprises a spring 1-4-1, a stepped sliding round seat 1-4-2, an umbrella-shaped wheel 1-4-3 and a blade 1-4-4, the spring 1-4-1 is connected with the stepped sliding round seat 1-4-2, the stepped sliding round seat 1-4-2 is connected with the umbrella-shaped wheel 1-4-3, the umbrella-shaped wheel 1-4-3 is connected with the blade 1-4-4, the spring 1-4-1 is arranged in a stepped hole 1-2-5, the stepped sliding round seat 1-4-2 is connected with the stepped hole 1-2-5 in a sliding way, a coupler 1-2-2 is driven to rotate by the operation of a coarse crushing motor 1-2-1, a rotating body 1-2-2 is driven to rotate by the rotation of the coupler 1-2-2, the rotating body 1-2-3 rotates to drive the coarse crushing teeth 1-2-4 to rotate, the coarse crushing teeth 1-2-4 rotate to stir the needle tube entering from the feeding hole 1-1-4, meanwhile, the coarse crushing teeth 1-2-4 move relative to the driven coarse crushing mechanism 1-3 in the process of circumferential rotation, the needle tube is cut up secondarily in the relative movement of the coarse crushing teeth 1-2-4 and the driven coarse crushing mechanism 1-3, when feeding, the needle tube enters from the feeding hole 1-1-4 and is thrown to the periphery along with the rotating body 1-2-3 and the rotating feeding supporting mechanism 1-4, so that material blockage can be prevented, and meanwhile, the arrangement of the spring 1-4-1 can reduce impact on the umbrella-shaped wheel 1-4-3, Damage of the leaves 1-4-4.

The third concrete implementation mode:

The embodiment is further explained by referring to the following figures 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, 19, 20, 21, 22, 23 and 24. the embodiment is further explained by referring to figures 2, 3, 4, 5, 6, 7, 8, 9, 22, 23 and 24. the grinding chamber mechanism 2 comprises a discharge hole 2-1, a leg 2-2, a chamber 2-3, a bearing seat I2-4, a feed inlet I2-5 and an inner tooth edge 2-6, the discharge hole 2-1 is opened on the chamber 2-3, the leg 2-2 is connected with the chamber 2-3, the bearing seat I2-4 is connected with the chamber 2-3, the feed inlet I2-5 is arranged above the chamber 2-3, the inner tooth edge 2-6 is arranged on the inner wall of the chamber 2-3, the cavity 2-3 is connected with the material sliding pipe 1-1-1.

The fourth concrete implementation mode:

The present embodiment will be further explained 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, fig. 23, fig. 24, wherein the grinding mechanism 3 includes a grinding wheel mechanism 3-1, an eccentric wheel mechanism 3-2, a belt 3-3, a belt pulley 3-4, a motor 3-5, the grinding wheel mechanism 3-1 is connected to the eccentric wheel mechanism 3-2, the eccentric wheel mechanism 3-2 is connected to the belt 3-3, the belt 3-3 is connected to the belt pulley 3-4, and the belt pulley 3-4 is connected to the motor 3-5; the grinding wheel mechanism 3-1 comprises a grooved grinding wheel body 3-1-1, a support 3-1-2 and a spring I3-1-3, the grooved grinding wheel body 3-1-1 and the support 3-1-2 are connected in a bearing mode, and the spring I3-1-3 is sleeved on the support 3-1-2; the eccentric wheel mechanism 3-2 comprises a stepped hole A3-2-1, a wheel body 3-2-2, a shaft 3-2-3, a flywheel 3-2-4, a counterweight 3-2-5 and a driving belt pulley 3-2-6, wherein the stepped hole A3-2-1 is arranged on the wheel body 3-2-2, the wheel body 3-2-2 is connected with the shaft 3-2-3, the flywheel 3-2-4 is connected with the shaft 3-2-3, the counterweight 3-2-5 is connected with the flywheel 3-2-4 through a screw, the driving belt pulley 3-2-6 is connected with the shaft 3-2-3, the stepped hole A3-2-1 is connected with a support 3-1-2 in a sliding manner, a spring I3-1-3 is arranged in the stepped hole A3-2-1, the shaft 3-2-3 is connected with the bearing seat I2-4 by a bearing, the driving belt pulley 3-2-6 is connected with the belt 3-3, the coarsely crushed fragments enter the material sliding pipe 1-1-1 and enter the cavity 2-3, the motor 3-5 is operated, the motor 3-5 drives the belt pulley 3-4 to rotate, the belt pulley 3-4 rotates and drives the driving belt pulley 3-2-6 to rotate through the belt 3-3, the driving belt pulley 3-2-6 rotates and drives the shaft 3-2-3 to rotate, the shaft 3-2-3 rotates and drives the wheel body 3-2-2 to eccentrically rotate, the wheel body 3-2-2 eccentrically rotates and drives the grinding wheel mechanism 3-1 to eccentrically rotate, the eccentric rotation of the grinding wheel mechanism 3-1 can grind and grind the fragments through the matching with the inner wall of the cavity 2-3, meanwhile, the grooved grinding wheel body 3-1-1 can cut the fragments for the second time through the matching with the inner tooth edge 2-6, which is more beneficial to grinding, in the process, when the shaft 3-2-3 rotates, the flywheel 3-2-4 can be driven to rotate, the flywheel 3-2-4 can store energy through rotating, kinetic energy can be effectively saved, the number and the weight of the counterweight 3-2-5 can be adjusted, so that the energy saving power can be adjusted, when the grooved grinding wheel body 3-1-1 is ground, if iron and other hard substances are carelessly mixed in the raw materials, the arrangement of the spring I3-1-3 can ensure that the grooved grinding wheel body 3-1-1 has certain compression In such a way that a rigid collision of the grooved grinding wheel body 3-1-1 with hard objects is prevented, thereby protecting the grooved grinding wheel body 3-1-1.

The fifth concrete implementation mode:

The present embodiment will be further described 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, fig. 23, and fig. 24, wherein the disinfecting and stirring mechanism 4 includes a stirring shaft with a fixing plate 4-1, a perforated blade 4-2, a coupling a4-3, and a stirring motor 4-4, the stirring shaft with a fixing plate 4-1 is connected to the perforated blade 4-2, and the stirring shaft with a fixing plate 4-1 is connected to the stirring motor 4-4 through the coupling a 4-3.

The sixth specific implementation mode:

The present embodiment will be further described with reference to fig. 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, 19, 20, 21, 22, 23, 24, wherein the sterilization chamber mechanism 5 includes a pressing head mechanism 5-1, a sliding seat mechanism 5-2, a limiting mechanism 5-3, an opening and closing door mechanism 5-4, a stirring box mechanism 5-5, an opening and closing door motor gear 5-6, a transmission gear 5-7, a transmission shaft I5-8, an opening and closing gear 5-9, a bearing seat B5-10, an opening and closing driving servo motor 5-11, the pressing head mechanism 5-1 is connected with the sliding seat mechanism 5-2, the sliding seat mechanism 5-2 is connected with the limiting mechanism 5-3, the limiting mechanism 5-3 is connected with a door opening and closing mechanism 5-4, the door opening and closing mechanism 5-4 is connected with a stirring box mechanism 5-5, the sliding seat mechanism 5-2 is connected with the stirring box mechanism 5-5, a door opening and closing motor gear 5-6 is meshed with a transmission gear 5-7, the transmission gear 5-7 is connected with a transmission shaft I5-8, the transmission shaft I5-8 is connected with a bearing seat B5-10 in a bearing mode, the bearing seat B5-10 is connected with the stirring box mechanism 5-5, the door opening and closing gear 5-9 is connected with a transmission shaft I5-8, the door opening and closing gear 5-9 is connected with the door opening and closing mechanism 5-4, the door opening and closing driving servo motor 5-11 is connected with the door opening and closing motor gear 5-6, and the opening and closing driving servo motor 5-11 is connected with the stirring box mechanism 5-5; the pressing head mechanism 5-1 comprises a pressing head body 5-1-1, a sliding rod 5-1-2, a stepped sliding seat I5-1-3 and a hinge rod 5-1-4, wherein the pressing head body 5-1-1 is connected with the sliding rod 5-1-2, the sliding rod 5-1-2 is connected with the stepped sliding seat I5-1-3, and the stepped sliding seat I5-1-3 is hinged with the hinge rod 5-1-4; the sliding seat mechanism 5-2 comprises a sliding rod matching hole 5-2-1, a stepped sliding seat I matching groove 5-2-2, a unthreaded hole 5-2-3 and a sliding seat body A5-2-4, wherein the sliding rod matching hole 5-2-1 is formed in the sliding seat body A5-2-4, the stepped sliding seat I matching groove 5-2-2 is formed in the sliding seat body A5-2-4, the unthreaded hole 5-2-3 is formed in the sliding seat body A5-2-4, the sliding rod matching hole 5-2-1 is in sliding connection with the sliding rod 5-1-2, and the stepped sliding seat I5-1-3 is in sliding connection with the stepped sliding seat I matching groove 5-2-2; the limiting mechanism 5-3 comprises a clamping seat 5-3-1, a clamping seat rod 5-3-2, a middle boss 5-3-3, a clamping spring 5-3-4 and a hinged seat II5-3-5, the clamping seat 5-3-1 is connected with the clamping seat rod 5-3-2, the clamping seat rod 5-3-2 is connected with the middle boss 5-3-3, the clamping spring 5-3-4 is sleeved on the clamping seat rod 5-3-2, the clamping spring 5-3-4 is abutted on the middle boss 5-3-3, the clamping spring 5-3-4 is abutted on the sliding seat body A5-2-4, the clamping seat rod 5-3-2 is slidably connected with the unthreaded hole 5-2-3, the hinged seat II5-3-5 is connected with the clamping seat rod 5-3-2, and the hinged seat II5-3-5 is hinged with the hinged rod 5-1-4; the door opening and closing mechanism 5-4 comprises a matching gear 5-4-1, a door body 5-4-2 and a ratchet 5-4-3, the matching gear 5-4-1 is welded with the door body 5-4-2, the door body 5-4-2 is connected with the ratchet 5-4-3, the ratchet 5-4-3 is matched with a clamping seat 5-3-1, after disinfection is finished, an opening and closing driving servo motor 5-11 can be operated to drive an opening and closing motor gear 5-6 to rotate, the opening and closing motor gear 5-6 can drive a transmission gear 5-7 to rotate, the transmission gear 5-7 can drive an opening and closing gear 5-9 to rotate through a transmission shaft I5-8, the opening and closing gear 5-9 can drive the matching gear 5-4-1 to rotate clockwise, at the moment, the pressing head body 5-1-1 is pressed downwards, the pressing head body 5-1-1 can drive the step sliding seat I5-1-3 to move downwards through the sliding rod 5-1-2, the step sliding seat I5-1-3 to move downwards can drive the hinged seat II5-3-5 to move rightwards through the hinged rod 5-1-4, so that the clamping seat 5-3-1 can move towards the direction of compressing the clamping spring 5-3-4, the clamping seat 5-3-1 can not clamp the ratchet 5-4-3, the door body 5-4-2 can be opened along with the driving of the opening and closing driving servo motor 5-11, the sterilized fragments can be poured out, and then the pressing head body 5-1-1 is loosened, the servo motor 5-11 is driven to open and close in a reverse operation mode, the door body 5-4-2 is gradually closed, the clamping seat 5-3-1 limits the ratchets 5-4-3 one by one in the process, so that the opening and closing of the servo motor 5-11 can be stopped at any time, the ratchets 5-4-3 are limited by the clamping seat 5-3-1, the door body 5-4-2 is fixed, and the stopping angle of the door body 5-4-2 can be controlled; the stirring box mechanism 5-5 comprises a stirring box support 5-5-1, a stirring shaft bearing seat I5-5-2, a lower opening 5-5-3, an upper inlet 5-5-4, a stirring box body 5-5-5 and a liquid inlet hole 5-5-6, wherein the stirring box support 5-5-1 is connected with the stirring box body 5-5-5, the stirring shaft bearing seat I5-5-2 is connected with the stirring box body 5-5-5, the lower opening 5-5-3 is arranged on the lower end face of the stirring box body 5-5-5, the upper inlet 5-5-4 is arranged on the upper end face of the stirring box body 5-5-5, and the liquid inlet hole 5-5-6 is arranged on the upper end face of the stirring box body 5-5-5, the door body 5-4-2 is hinged with the stirring box body 5-5-5, the supporting leg 2-2 is connected with the stirring box body 5-5-5, the stirring shaft 4-1 with the fixing plate and the stirring shaft seat I5-5-2 are connected in a bearing mode, after the crushing is finished, needle tube fragments fall down from the discharge hole 2-1 and enter the lower opening 5-5-3 from the upper inlet 5-5-4, disinfectant is added from the liquid inlet 5-5-6, then the stirring motor 4-4 is operated to drive the coupler A4-3 to rotate, the coupler A4-3 rotates to drive the stirring shaft 4-1 with the fixing plate to rotate, the stirring shaft 4-1 with the fixing plate rotates to drive the perforated blade 4-2 to rotate, the perforated blade 4-2 rotates to accelerate the contact efficiency of the fragments and the sterilizing liquid, and the perforated blade 4-2 filters some impurities.

The seventh embodiment:

The embodiment will be further explained by referring 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, fig. 23 and fig. 24, and the inner tooth edges 2-6 are engaged with the grooves of the grooved grinding wheel body 3-1-1.

The specific implementation mode is eight:

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, fig. 19, fig. 20, fig. 21, fig. 22, fig. 23, and fig. 24, and the first embodiment will be further described in the present embodiment, in which the door body 5-4-2 is provided with a weather strip.

The working principle of the device is as follows: the device can coarsely crush the needle tube, the coupler 1-2-2 is driven to rotate by the operation of the coarsely crushed motor 1-2-1, the rotator 1-2-3 is driven to rotate by the rotation of the coupler 1-2-2, the rotator 1-2-3 drives the coarsely crushed teeth 1-2-4 to rotate, the coarsely crushed teeth 1-2-4 can crush the needle tube entering from the feed port 1-1-4 by the rotation of the coarsely crushed teeth 1-2-4, meanwhile, the coarsely crushed teeth 1-2-4 can move relative to the driven coarsely crushed mechanism 1-3 in the process of circumferential rotation, the coarsely crushed teeth 1-2-4 and the driven coarsely crushed mechanism 1-3 can be secondarily crushed in the relative motion of the coarsely crushed teeth 1-2-4 and the driven coarsely crushed mechanism 1-3, and during feeding, the needle tube enters from the feed port 1-1-4 and can be secondarily crushed by, The rotary feeding supporting mechanism 1-4 is thrown to the periphery, so that material blockage can be prevented, and meanwhile, the arrangement of the spring 1-4-1 can reduce the damage of impact on the umbrella-shaped wheel 1-4-3 and the blade 1-4-4; the equipment can be used for secondary cutting and crushing, coarsely crushed fragments enter the material sliding pipe 1-1-1 and enter the cavity 2-3, the motor 3-5 is operated, the motor 3-5 can drive the belt pulley 3-4 to rotate, the belt pulley 3-4 can drive the driving belt pulley 3-2-6 to rotate through the belt 3-3, the driving belt pulley 3-2-6 can drive the shaft 3-2-3 to rotate through rotation, the shaft 3-2-3 can drive the wheel body 3-2-2 to eccentrically rotate, the wheel body 3-2-2 can drive the crushing wheel mechanism 3-1 to eccentrically rotate through eccentric rotation, the crushing wheel mechanism 3-1 can roll and grind the fragments through matching with the inner wall of the cavity 2-3, meanwhile, the grooved grinding wheel body 3-1-1 cuts the fragments for the second time through the matching with the inner tooth blades 2-6, which is more beneficial to grinding, in the process, when the shaft 3-2-3 rotates, the flywheel 3-2-4 is driven to rotate, the flywheel 3-2-4 rotates to store energy, so that kinetic energy can be effectively saved, the number and the weight of the balance weight 3-2-5 can be adjusted, so that the energy-saving force can be adjusted, when the grooved grinding wheel body 3-1-1 grinds, if iron and other hard substances are carelessly mixed in a raw material needle tube, the arrangement of the spring I3-1-3 can ensure that the grooved grinding wheel body 3-1-1 has a certain compression amount, so that the grooved grinding wheel body 3-1-1 can be prevented from rigidly colliding with the hard objects, thereby protecting the grooved grinding wheel body 3-1-1; the device can be used for stirring and disinfecting, after the needle tube fragments are crushed, the needle tube fragments fall from the discharge hole 2-1 and enter the lower opening 5-5-3 from the upper inlet 5-5-4, disinfectant is added from the liquid inlet 5-5-6, then the stirring motor 4-4 is operated to drive the coupler A4-3 to rotate, the coupler A4-3 rotates to drive the stirring shaft with the fixing plate 4-1 to rotate, the stirring shaft with the fixing plate 4-1 rotates to drive the perforated blade 4-2 to rotate, the perforated blade 4-2 rotates to accelerate the contact efficiency of the fragments and the disinfectant, and meanwhile, the perforated blade 4-2 filters some impurities; the equipment can open and close the door and can adjust the opening angle of the opening and closing door, after disinfection is finished, the equipment can operate to open and close the driving servo motor 5-11 to drive the opening and closing door motor gear 5-6 to rotate, the opening and closing door motor gear 5-6 rotates to drive the transmission gear 5-7 to rotate, the transmission gear 5-7 rotates to drive the opening and closing gear 5-9 to rotate through the transmission shaft I5-8, the opening and closing gear 5-9 rotates to drive the matching gear 5-4-1 to rotate clockwise, at the moment, the pressing head body 5-1-1 is pressed downwards, the pressing head body 5-1-1 can drive the stepped sliding seat I5-1-3 to move downwards through the sliding rod 5-1-2, the stepped sliding seat I5-1-3 to move downwards and can drive the hinged seat II5-3 through the hinged rod 5-1-4 5 moves rightwards, so that the clamping seat 5-3-1 moves towards the direction of compressing the clamping spring 5-3-4, the clamping seat 5-3-1 cannot clamp the ratchet 5-4-3, the door body 5-4-2 can be opened along with the driving of the opening and closing driving servo motor 5-11, sterilized fragments can be poured, then the pressing head body 5-1-1 is loosened, the opening and closing driving servo motor 5-11 is operated reversely, the door body 5-4-2 can be gradually closed, the ratchet 5-3-1 of the clamping seat can limit the ratchet 5-4-3 one by one in the process, the opening and closing driving servo motor 5-11 can be stopped at any time, the ratchet 5-4-3 can be limited by the clamping seat 5-3-1, thus, the door body 5-4-2 is fixed, and the angle of stopping the door body 5-4-2 can be controlled.

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 (8)

1. the utility model provides a needle tubing disinfecting equipment, includes coarse crushing mechanism (1), pulverizes chamber mechanism (2), pulverizes mechanism (3), disinfection rabbling mechanism (4), disinfection chamber mechanism (5), its characterized in that: the coarse crushing mechanism (1) is connected with the crushing cavity mechanism (2), the crushing cavity mechanism (2) is connected with the crushing mechanism (3), the crushing mechanism (3) is connected with the disinfection cavity mechanism (5), and the disinfection stirring mechanism (4) is connected with the disinfection cavity mechanism (5).

2. A needle cannula disinfecting device as claimed in claim 1, characterized in that: the coarse crushing mechanism (1) comprises a shell mechanism (1-1), a coarse crushing driving mechanism (1-2), a passive coarse crushing mechanism (1-3) and a feeding supporting mechanism (1-4), wherein the shell mechanism (1-1) is connected with the coarse crushing driving mechanism (1-2), the passive coarse crushing mechanism (1-3) is arranged in the shell mechanism (1-1), and the feeding supporting mechanism (1-4) is connected with the coarse crushing driving mechanism (1-2); the shell mechanism (1-1) comprises a material sliding pipe (1-1-1), a bearing seat (1-1-2), a shell body (1-1-3) and a feeding hole (1-1-4), wherein the material sliding pipe (1-1-1) is connected with the shell body (1-1-3), the bearing seat (1-1-2) is connected with the shell body (1-1-3), and the feeding hole (1-1-4) is formed in the upper end of the shell body (1-1-3); the coarse crushing driving mechanism (1-2) comprises a coarse crushing motor (1-2-1), a coupler (1-2-2), a rotating body (1-2-3), coarse crushing teeth (1-2-4) and a stepped hole (1-2-5), the coarse crushing motor (1-2-1) is connected with the rotating body (1-2-3) through the coupler (1-2-2), the coarse crushing teeth (1-2-4) are connected with the rotating body (1-2-3), and the stepped hole (1-2-5) is formed in the rotating body (1-2-3); the feeding supporting mechanism (1-4) comprises a spring (1-4-1), a stepped sliding round seat (1-4-2), an umbrella-shaped wheel (1-4-3) and a blade (1-4-4), the spring (1-4-1) is connected with the stepped sliding round seat (1-4-2), the stepped sliding round seat (1-4-2) is connected with the umbrella-shaped wheel (1-4-3), the umbrella-shaped wheel (1-4-3) is connected with the blade (1-4-4), the spring (1-4-1) is arranged in a stepped hole (1-2-5), and the stepped sliding round seat (1-4-2) is connected with the stepped hole (1-2-5) in a sliding mode.

3. A needle cannula disinfecting device as claimed in claim 1, characterized in that: the crushing cavity mechanism (2) comprises a discharge hole (2-1), supporting legs (2-2), a cavity (2-3), a bearing seat I (2-4), a feed port I (2-5) and inner toothed edges (2-6), wherein the discharge hole (2-1) is formed in the cavity (2-3), the supporting legs (2-2) are connected with the cavity (2-3), the bearing seat I (2-4) is connected with the cavity (2-3), the feed port I (2-5) is arranged above the cavity (2-3), the inner toothed edges (2-6) are arranged on the inner wall of the cavity (2-3), and the cavity (2-3) is connected with the material sliding pipe (1-1-1).

4. A needle cannula disinfecting device as claimed in claim 1, characterized in that: the grinding mechanism (3) comprises a grinding wheel mechanism (3-1), an eccentric wheel mechanism (3-2), a belt (3-3), a belt pulley (3-4) and a motor (3-5), wherein the grinding wheel mechanism (3-1) is connected with the eccentric wheel mechanism (3-2), the eccentric wheel mechanism (3-2) is connected with the belt (3-3), the belt (3-3) is connected with the belt pulley (3-4), and the belt pulley (3-4) is connected with the motor (3-5); the grinding wheel mechanism (3-1) comprises a grooved grinding wheel body (3-1-1), a support (3-1-2) and a spring I (3-1-3), the grooved grinding wheel body (3-1-1) is connected with the support (3-1-2) in a bearing mode, and the spring I (3-1-3) is sleeved on the support (3-1-2); the eccentric wheel mechanism (3-2) comprises a stepped hole A (3-2-1), a wheel body (3-2-2), a shaft (3-2-3), a flywheel (3-2-4), a counterweight (3-2-5) and a driving belt pulley (3-2-6), wherein the stepped hole A (3-2-1) is formed on the wheel body (3-2-2), the wheel body (3-2-2) is connected with the shaft (3-2-3), the flywheel (3-2-4) is connected with the shaft (3-2-3), the counterweight (3-2-5) is connected with the flywheel (3-2-4) through a screw, the driving belt pulley (3-2-6) is connected with the shaft (3-2-3), the stepped hole A (3-2-1) is connected with the support (3-1-2) in a sliding mode, the spring I (3-1-3) is arranged in the stepped hole A (3-2-1), the shaft (3-2-3) is connected with the bearing seat I (2-4) in a bearing mode, and the driving belt pulley (3-2-6) is connected with the belt (3-3).

5. A needle cannula disinfecting device as claimed in claim 1, characterized in that: the disinfection stirring mechanism (4) comprises a stirring shaft with a fixing plate (4-1), a perforated blade (4-2), a coupler A (4-3) and a stirring motor (4-4), wherein the stirring shaft with the fixing plate (4-1) is connected with the perforated blade (4-2), and the stirring shaft with the fixing plate (4-1) is connected with the stirring motor (4-4) through the coupler A (4-3).

6. A needle cannula disinfecting device as claimed in claim 1, characterized in that: the disinfection cavity mechanism (5) comprises a pressing head mechanism (5-1), a sliding seat mechanism (5-2), a limiting mechanism (5-3), a door opening and closing mechanism (5-4), a stirring box mechanism (5-5), a door opening and closing motor gear (5-6), a transmission gear (5-7), a transmission shaft I (5-8), an opening and closing gear (5-9), a bearing seat B (5-10) and an opening and closing driving servo motor (5-11), wherein the pressing head mechanism (5-1) is connected with the sliding seat mechanism (5-2), the sliding seat mechanism (5-2) is connected with the limiting mechanism (5-3), the limiting mechanism (5-3) is connected with the door opening and closing mechanism (5-4), the door opening and closing mechanism (5-4) is connected with the stirring box mechanism (5-5), the sliding seat mechanism (5-2) is connected with the stirring box mechanism (5-5), the opening and closing door motor gear (5-6) is meshed with the transmission gear (5-7), the transmission gear (5-7) is connected with the transmission shaft I (5-8), the transmission shaft I (5-8) is connected with the bearing seat B (5-10) in a bearing connection mode, the bearing seat B (5-10) is connected with the stirring box mechanism (5-5), the opening and closing gear (5-9) is connected with the transmission shaft I (5-8), the opening and closing gear (5-9) is connected with the opening and closing door mechanism (5-4), the opening and closing driving servo motor (5-11) is connected with the opening and closing door motor gear (5-6), and the opening and closing driving servo motor (5-11) is connected with the stirring box mechanism (5-5); the pressing head mechanism (5-1) comprises a pressing head body (5-1-1), a sliding rod (5-1-2), a stepped sliding seat I (5-1-3) and a hinge rod (5-1-4), wherein the pressing head body (5-1-1) is connected with the sliding rod (5-1-2), the sliding rod (5-1-2) is connected with the stepped sliding seat I (5-1-3), and the stepped sliding seat I (5-1-3) is hinged with the hinge rod (5-1-4); the sliding seat mechanism (5-2) comprises a sliding rod matching hole (5-2-1) and a stepped sliding seat I matching groove (5-2-2), the sliding seat comprises a unthreaded hole (5-2-3) and a sliding seat body A (5-2-4), wherein a sliding rod matching hole (5-2-1) is formed in the sliding seat body A (5-2-4), a stepped sliding seat I matching groove (5-2-2) is formed in the sliding seat body A (5-2-4), the unthreaded hole (5-2-3) is formed in the sliding seat body A (5-2-4), the sliding rod matching hole (5-2-1) is in sliding connection with a sliding rod (5-1-2), and the stepped sliding seat I (5-1-3) is in sliding connection with the stepped sliding seat I matching groove (5-2-2); the limiting mechanism (5-3) comprises a clamping seat (5-3-1), a clamping seat rod (5-3-2), a middle boss (5-3-3), a clamping spring (5-3-4) and a hinged seat II (5-3-5), the clamping seat (5-3-1) is connected with the clamping seat rod (5-3-2), the clamping seat rod (5-3-2) is connected with the middle boss (5-3-3), the clamping spring (5-3-4) is sleeved on the clamping seat rod (5-3-2), the clamping spring (5-3-4) is abutted on the middle boss (5-3-3), the clamping spring (5-3-4) is abutted on the sliding seat body A (5-2-4), the clamping seat rod (5-3-2) is connected with the unthreaded hole (5-2-3) in a sliding manner, the hinge seat II (5-3-5) is connected with the clamping seat rod (5-3-2), and the hinge seat II (5-3-5) is hinged with the hinge rod (5-1-4); the door opening and closing mechanism (5-4) comprises a matching gear (5-4-1), a door body (5-4-2) and a ratchet (5-4-3), the matching gear (5-4-1) is welded with the door body (5-4-2), the door body (5-4-2) is connected with the ratchet (5-4-3), and the ratchet (5-4-3) is matched with the clamping seat (5-3-1); the stirring box mechanism (5-5) comprises a stirring box support (5-5-1), a stirring shaft bearing seat I (5-5-2), a lower opening (5-5-3), an upper inlet (5-5-4), a stirring box body (5-5-5) and a liquid inlet hole (5-5-6), wherein the stirring box support (5-5-1) is connected with the stirring box body (5-5-5), the stirring shaft bearing seat I (5-5-2) is connected with the stirring box body (5-5-5), the lower opening (5-5-3) is opened on the lower end face of the stirring box body (5-5-5), the upper inlet (5-5-4) is opened on the upper end face of the stirring box body (5-5-5), the liquid inlet hole (5-5-6) is arranged on the upper end surface of the stirring box body (5-5-5), the door body (5-4-2) is hinged with the stirring box body (5-5-5), the supporting leg (2-2) is connected with the stirring box body (5-5-5), and the stirring shaft (4-1) with the fixing plate is connected with the stirring shaft bearing seat I (5-5-2) in a bearing way.

7. A needle cannula sterilisation apparatus according to claim 3 or 4, characterised in that: the inner tooth blades (2-6) are matched with grooves of the grinding wheel body (3-1-1) with grooves.

8. A needle cannula disinfecting device as claimed in claim 6, characterized in that: and the door body (5-4-2) is provided with a sealing strip.