CN112934893B - Cleaning device for waste 75-degree disinfection alcohol bottle - Google Patents

Abstract

The invention relates to the field of disinfection alcohol, in particular to a cleaning device for waste 75-degree disinfection alcohol bottles. Can clean the waste 75-degree disinfection alcohol bottles, and can clean the waste 75-degree disinfection alcohol bottles with different specifications. The device comprises a brushing assembly, a transition assembly, a picking and placing assembly and a carrying assembly, wherein the bevel gear B rotates and drives the bevel gear shaft A to rotate, and then drives the transmission belt I; the second transmission belt moves to drive the first driving rotating rod to rotate through the first transmission belt, so that power output is performed, and meanwhile, the second transmission belt drives the first bevel gear shaft to rotate, so that power output is performed.

Description

Cleaning device for waste 75-degree disinfection alcohol bottle

Technical Field

The invention relates to the field of disinfection alcohol, in particular to a cleaning device for waste 75-degree disinfection alcohol bottles.

Background

The cleaning device for the waste 75-degree disinfection alcohol bottle is a common device in the field of disinfection alcohol, but the cleaning device for the common waste 75-degree disinfection alcohol bottle has a single function.

Disclosure of Invention

The invention aims to provide a cleaning device for waste 75-degree disinfection alcohol bottles, which can clean waste 75-degree disinfection alcohol bottles and can clean waste 75-degree disinfection alcohol bottles with different specifications.

The aim of the invention is achieved by the following technical scheme:

the cleaning device for the waste 75-degree disinfection alcohol bottle comprises a washing component, an excessive component, a picking and placing component and a carrying assembly body, wherein the washing component is connected with the carrying assembly body, the excessive component is connected with the carrying assembly body, and the picking and placing component is connected with the carrying assembly body.

As a further optimization of the technical scheme, the invention relates to a cleaning device for a waste 75-DEG disinfection alcohol bottle, which comprises a cleaning bracket, a first bevel gear shaft, a first bevel gear, a second bevel gear, a first eccentric wheel, an eccentric wheel terminal, a first inner spherical clamping groove, a driving bracket, a cross-shaped rotating rod, a cleaning terminal, a cleaning rod pushing spring, a second inner spherical clamping groove, a first inner spherical clamping rod pushing spring, a second bevel gear, a third bevel gear, wherein the first bevel gear shaft is rotationally connected with the cleaning bracket, the first bevel gear is fixedly connected with the first bevel gear shaft, the first bevel gear is in meshed transmission with the second bevel gear, the second bevel gear is rotationally connected with the cleaning bracket, the third bevel gear is fixedly connected with the first eccentric wheel, the third bevel gear is in meshed transmission with the second bevel gear, the first inner spherical clamping groove is arranged at the inner end of the eccentric wheel, the eccentric wheel terminal is in sliding connection with the eccentric wheel I, the inner end spherical clamping rod II is in matching connection with the inner end spherical clamping groove I, the inner end spherical clamping rod II is in sliding connection with the eccentric wheel terminal, the inner end spherical clamping rod pushing spring II is arranged between the two inner end spherical clamping rods II, the driving bracket is in matching connection with the eccentric wheel terminal, the driving bracket is in rotating connection with the cross rotating rod, the cross rotating rod is in sliding matching connection with the bevel gear II, the brushing terminal is in sliding connection with the cross rotating rod, the inner end spherical clamping groove II is arranged at the inner end of the cross rotating rod, the inner end spherical clamping rod I is in matching connection with the inner end spherical clamping groove II, the inner end spherical clamping rod pushing spring I is arranged between the two inner end spherical clamping rods I, the inner end spherical clamping rod I is in sliding connection with the brushing terminal, the brushing rod is in sliding connection with the brushing terminal, the scrubbing rod push spring is arranged between the scrubbing rod and the scrubbing terminal.

As a further optimization of the technical scheme, the cleaning device for the waste 75-DEG disinfection alcohol bottle comprises an excessive outer frame, a driving rotating wheel, an arc-shaped pushing rod pushing spring I, a notch II, an arc-shaped pushing rod pushing spring II, a driving rotating rod I, a driving bevel gear shaft I, a driving belt II, a bevel gear IV, a bevel gear V, a grooved pulley I, a grooved pulley bracket and a grooved pulley II, wherein the driving rotating wheel is in rotary connection with the excessive outer frame, the arc-shaped pushing rod is in sliding connection with the driving rotating wheel, the arc-shaped pushing rod pushing spring I is arranged between the arc-shaped pushing rod and the driving rotating wheel, the arc-shaped pushing rod pushing spring I is in rotary connection with the excessive outer frame, the driving rotating rod I is in fixed connection with the driving bevel gear shaft I, the belt I is in fixed connection with the driving bevel gear shaft I, the bevel gear IV is in meshed transmission with the bevel gear V, the bevel gear V is in rotary connection with the excessive outer frame, the grooved pulley I is in fixed connection with the bracket, the grooved pulley bracket is in fixed connection with the grooved pulley V is in sliding connection with the grooved pulley, the grooved pulley bracket is in fixed connection with the grooved pulley, and the grooved pulley is in fixed connection with the grooved pulley is adapted to the grooved pulley.

As a further optimization of the technical scheme, the cleaning device for the waste 75-degree disinfection alcohol bottle is characterized in that a semicircular limiting frame is arranged at the outer end of the first notch.

As a further optimization of the technical scheme, the invention relates to a cleaning device for a waste 75-DEG disinfection alcohol bottle, which comprises a taking and placing bracket, a notch bracket, a driving roller, an X arc groove, a driving rotating rod I, a driving rotating rod II, a driving belt II, a belt pulley III, a belt wheel axle I, an eccentric driving rod, an arc driving rod, a waist groove I, a driving rotating rod II, a carrying strut, a middle end driving sliding rod I, an adapting notch I, a pushing spring I, a mechanical claw, a matched roller, a lower end driving bracket, a limiting rod II, an inner end arc groove I, an inner end arc groove II, an annular rod, an inner end sliding rod II, a rectangular limiting groove II and an inner end driving rod III, wherein the notch bracket is fixedly connected with the taking and placing bracket, the driving roller is rotatably connected with the taking and placing bracket, the X arc groove II is arranged on the driving roller, the driving rotating rod I is fixedly connected with the driving rotating rod II, the driving belt II is connected between the belt pulley III and the driving rotating rod I, the belt pulley II is fixedly connected with the belt wheel bearing rod II, the belt wheel axle I is fixedly connected with the belt pulley I, the belt wheel axle I is fixedly connected with the belt pulley II, the inner end is fixedly connected with the belt pulley bearing rod II, the lower end is rotatably connected with the lower end of the driving rod, the driving rod is rotatably connected with the lower end of the arc-shaped limiting bracket, the upper end is rotatably connected with the lower end of the driving rod is rotatably connected with the driving rod A, and is rotatably connected with the lower end of the driving rod is rotatably connected with the upper end of the driving rod and is rotatably connected with the lower end of the driving rod and is rotatably connected with the upper end of the driving rod and is provided with the lower end of a drive support. The other end of the pushing spring I is connected to the carrying support rod, the rectangular limiting groove I is arranged on the middle-end driving slide rod I, the rectangular limiting groove II is arranged on the middle-end driving slide rod I, the inner-end arc-shaped groove I is arranged on the middle-end driving slide rod I, the annular rod is fixedly connected with the carrying support rod, the annular rod is in sliding connection with the rectangular limiting groove II, the rectangular limiting groove I is in sliding connection with the rectangular boss A arranged at the inner end of the carrying support rod, the inner-end arc-shaped groove II is arranged on the inner-end slide rod II, the inner-end driving rod III is in sliding connection with the annular rod, one end of the inner-end driving rod III is in sliding connection with the inner-end arc-shaped groove II, and the adapting notch I is arranged on the middle-end driving slide rod I and is fixedly connected with the belt wheel shaft I.

As a further optimization of the technical scheme, the cleaning device for the waste 75-degree disinfection alcohol bottle is characterized in that the notch bracket is provided with the second adapting notch, and the first adapting notch can be adapted to the second adapting notch.

As a further optimization of the technical scheme, the invention relates to a cleaning device for waste 75-DEG disinfection alcohol bottles, which comprises a middle-end connecting rod, a first carrying outer frame, a second carrying outer frame, a first straight-tooth shaft, a second straight-tooth shaft, a first carrying belt, a second carrying belt, a connecting bracket, a first taper tooth A, a taper tooth B, a taper tooth shaft A, a first driving belt, a second driving belt, a taper tooth C, an input motor, a first inner carrying roller, a second taper tooth shaft B and a third inner carrying roller, wherein the first carrying outer frame and the second carrying outer frame are fixedly connected through a middle-end connecting rod, the first straight-tooth shaft is rotationally connected with the first straight-tooth shaft, the first straight-tooth shaft is fixedly connected with the second straight-tooth shaft in meshed transmission, the second straight-tooth shaft is fixedly connected with the second straight-tooth shaft, the second straight-tooth shaft is rotationally connected with the second carrying outer frame, the first inner carrying roller is provided with two inner carrying rollers, one inner carrying roller is rotationally connected with the carrying outer frame, the other inner carrying roller is fixedly connected with the straight gear shaft A, the carrying belt I is connected between the two inner carrying rollers I, the second inner carrying roller is provided with two inner carrying rollers, the two inner carrying rollers are both rotationally connected with the carrying outer frame II, the carrying belt II is connected between the inner carrying roller II and the inner carrying roller III, the taper gear shaft B is fixedly connected with the inner carrying roller III, the taper gear shaft B is rotationally connected with the carrying outer frame II, the taper gear shaft B is fixedly connected with the taper gear A, the taper gear A is meshed and transmitted with the taper gear B, the taper gear shaft A is fixedly connected with the connecting bracket in a rotating way, the connecting bracket I is fixedly connected with the carrying outer frame II, the taper gear C is meshed and transmitted with the taper gear B, the taper gear C is fixedly connected with the output shaft of the input motor, the input motor is fixedly connected with a carrying outer frame II, the transmission belt I and the transmission belt II are both in fit connection with a bevel gear shaft A, the connecting support I is fixedly connected with the washing support, the bevel gear shaft I is in rotary connection with the connecting support, the bevel gear shaft I is in fit connection with the transmission belt II, the transmission belt I is in fit connection with a driving rotating rod I, the carrying outer frame I is in fixed connection with an excessive outer frame, the carrying outer frame I is communicated with the notch I, and the taking and placing support is fixedly connected with the carrying outer frame II.

The cleaning device for the waste 75-degree disinfection alcohol bottle has the beneficial effects that:

according to the cleaning device for the waste 75-degree disinfection alcohol bottles, the cleaned waste 75-degree disinfection alcohol bottles are taken out through the first notch, and the cleaned waste 75-degree disinfection alcohol bottles fall into the first carrier belt, so that the first carrier belt is transported out; simultaneously, the bevel gear B rotates and drives the bevel gear shaft A to rotate, so that the first transmission belt is driven; the second transmission belt moves to drive the first driving rotating rod to rotate through the first transmission belt, so that power output is performed, and meanwhile, the second transmission belt drives the first bevel gear shaft to rotate, so that power output is performed

Drawings

The invention will be described in further detail with reference to the accompanying drawings and detailed description.

FIG. 1 is a schematic diagram of the overall structure of the present invention;

FIG. 2 is a schematic diagram of the overall structure of the present invention;

FIG. 3 is a schematic diagram of the overall structure of the present invention;

FIG. 4 is a schematic view of the scrubbing assembly 1 of the present invention;

FIG. 5 is a second schematic view of the scrubbing assembly 1 of the present invention;

FIG. 6 is a schematic view of a scrubbing assembly 1 according to the present invention;

FIG. 7 is a schematic view of a scrubbing assembly 1 according to the present invention;

FIG. 8 is a schematic diagram of the transition assembly 2 of the present invention;

FIG. 9 is a schematic diagram of transition assembly 2 of the present invention;

FIG. 10 is a schematic diagram III of the transition assembly 2 of the present invention;

FIG. 11 is a schematic view of the pick-and-place assembly 3 of the present invention;

FIG. 12 is a second schematic view of the pick-and-place assembly 3 according to the present invention;

FIG. 13 is a schematic view of a pick-and-place assembly 3 according to the present invention;

FIG. 14 is a schematic diagram of a pick-and-place assembly 3 according to the present invention;

FIG. 15 is a schematic view of a pick-and-place assembly 3 according to the present invention;

fig. 16 is a schematic view of the carrying assembly 4 of the present invention;

fig. 17 is a second schematic structural view of the carrying assembly 4 of the present invention.

In the figure: a scrubbing assembly 1; a brushing bracket 1-1; 1-2 of bevel gear shafts; 1-3 of bevel teeth; 1-4 of bevel teeth II; eccentric wheel 1-5; eccentric wheel terminals 1-6; 1-7 of a spherical clamping groove at the inner end; driving the brackets 1-8; 1-9 of a cross rotating rod; 1-10 parts of a brushing terminal; 1-11 parts of a brushing rod; the brushing rod pushes the springs 1-12; the second inner end spherical clamping groove is 1-13; 1-14 of inner end spherical clamping rod; 1-15 of a pushing spring of a spherical clamping rod at the inner end; the second end of the spherical clamping rod is 1-16; the inner end spherical clamping rod pushes the second spring 1-17; bevel gears III 1-18; a transition assembly 2; 2-1 of transition outer frames; driving a rotating wheel 2-2; 2-3 of an arc push rod; 2-4 of an arc push rod push spring; notch I2-5; 2-6 parts of a notch II; 2-7 of an arc push rod push spring II; driving a rotating rod I2-8; driving a bevel gear shaft I2-9; pulley one 2-10; driving belt one 2-11; 2-12 of a belt wheel II; bevel gears IV 2-13; five conical teeth 2-14; 2-15 grooved wheels; 2-16 parts of sheave brackets; 2-17 parts of grooved wheels; a pick-and-place assembly 3; taking and placing a bracket 3-1; notch bracket 3-2; a driving roller 3-3; 3-4 of X arc grooves; driving a rotating rod I3-5; 3-6 of a driving rotating rod II; driving belt II 3-7; 3-8 of belt wheels; 3-9 of a pulley shaft; 3-10 parts of eccentric driving rod; 3-11 of arc-shaped driving rods; waist groove one 3-12; 3-13 of a driving rotating rod II; carrying struts 3-14; the middle end drives a slide bar I3-15; the first adapting notch is 3-16; 3-17 of push springs; 3-18 of mechanical claws; 3-19 of matched rollers; 3-20 parts of a lower end driving bracket; 3-21 of a second limiting rod; 3-22 of inner end arc-shaped grooves; 3-23 of an inner end arc-shaped groove II; 3-24 of annular rods; 3-25 of a second inner end sliding rod; 3-26 of rectangular limiting grooves; 3-27 of a rectangular limiting groove II; inner end driving rod III 3-28; a carrying assembly 4; a middle end connecting rod 4-1; carrying an outer frame I4-2; carrying an outer frame II 4-3; straight gear shaft one 4-4; straight tooth one 4-5; 4-6 parts of straight teeth II; 4-7 parts of a straight gear shaft II; carrier tape one 4-8; carrier tapes II 4-9; connecting the first bracket with 4-10; conical teeth A4-11; 4-12 of bevel teeth; conical tooth shaft A4-13; 4-14 parts of a transmission belt; 4-15 parts of a second transmission belt; conical teeth C4-16; inputting motors 4-17; inner end carrying roller one 4-18; inner end carrying roller II 4-19; 4-20 parts of bevel gear shaft B; the inner end carries rollers three 4-21.

Detailed Description

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

The fixed connection in the device means that the device is fixed by means of welding, thread fixing and the like, and different fixing modes are used by combining different use environments; the rotating connection means that the bearing is baked on the shaft, a spring retainer ring groove is arranged on the shaft or the shaft hole, and the axial fixation of the bearing is realized by clamping the spring retainer ring in the retainer ring groove, so that the rotation is realized; the sliding connection means connection through sliding of the sliding block in the sliding groove or the guide rail, and the sliding groove or the guide rail is generally in a ladder shape, so that the sliding block is prevented from falling off in the sliding groove or the guide rail; the hinge is a movable connection mode on the connecting parts such as a hinge, a pin shaft, a short shaft and the like; the sealing is realized by a sealing ring or an O-shaped ring at the required sealing positions.

The first embodiment is as follows:

the following describes the cleaning device of the waste 75-degree disinfection alcohol bottle with reference to fig. 1-17, which comprises a washing component 1, an excessive component 2, a picking and placing component 3 and a carrying assembly 4, wherein the washing component 1 is connected with the carrying assembly 4, the excessive component 2 is connected with the carrying assembly 4, and the picking and placing component 3 is connected with the carrying assembly 4.

The second embodiment is as follows:

the first embodiment will be further described with reference to fig. 1-17, in which the scrubbing assembly 1 includes a scrubbing support 1-1, a first bevel gear shaft 1-2, a first bevel gear 1-3, a second bevel gear 1-4, a first eccentric gear 1-5, an eccentric gear terminal 1-6, a first inner spherical clamping groove 1-7, a driving support 1-8, a cross-shaped rotating rod 1-9, a scrubbing terminal 1-10, a scrubbing rod 1-11, a scrubbing rod pushing spring 1-12, a second inner spherical clamping groove 1-13, a first inner spherical clamping rod 1-14, a first inner spherical clamping rod pushing spring 1-15, a second inner spherical clamping rod 1-16, a second inner spherical clamping rod pushing spring 1-17, and a third bevel gear 1-18, the first bevel gear shaft 1-2 is rotationally connected with the washing support 1-1, the first bevel gear 1-3 is fixedly connected with the first bevel gear shaft 1-2, the first bevel gear 1-3 is in meshed transmission with the second bevel gear 1-4, the second bevel gear 1-4 is rotationally connected with the washing support 1-1, the first eccentric wheel 1-5 is rotationally connected with the washing support 1-1, the third bevel gear 1-18 is fixedly connected with the first eccentric wheel 1-5, the third bevel gear 1-18 is in meshed transmission with the second bevel gear 1-4, the first inner spherical clamping groove 1-7 is arranged at the inner end of the first eccentric wheel 1-5, the first eccentric wheel terminal 1-6 is in sliding connection with the first eccentric wheel 1-5, the second inner spherical clamping rod 1-16 is in matched connection with the first inner spherical clamping groove 1-7, the second inner spherical clamping rod 1-16 is in sliding connection with the first eccentric wheel terminal 1-6, the inner end spherical clamping rod pushing springs II 1-17 are arranged between the two inner end spherical clamping rods II 1-16, the driving support 1-8 is in matched connection with the eccentric wheel terminal 1-6, the driving support 1-8 is in rotary connection with the cross rotary rod 1-9, the cross rotary rod 1-9 is in sliding fit connection with the bevel gear II 1-4, the brushing terminal 1-10 is in sliding connection with the cross rotary rod 1-9, the inner end spherical clamping grooves II 1-13 are arranged at the inner ends of the cross rotary rod 1-9, the inner end spherical clamping rods I1-14 are in matched connection with the inner end spherical clamping grooves II 1-13, the inner end spherical clamping rod pushing springs I1-15 are arranged between the two inner end spherical clamping rods I1-14, the inner end spherical clamping rods I-14 are in sliding connection with the brushing terminal 1-10, the inner end spherical clamping rods I-15 are arranged between the inner end spherical clamping rods 1-14 and the brushing terminal 1-10, the brushing rods 1-11 are in sliding connection with the brushing terminal 1-10, and the brushing rod pushing springs 1-12 are arranged between the brushing rods 1-11 and the brushing terminal 1-10.

And a third specific embodiment:

in the following description of the present embodiment with reference to fig. 1-17, the transition assembly 2 further includes a transition frame 2-1, a driving wheel 2-2, an arc push rod 2-3, an arc push rod push spring 1 2-4, a notch 1 2-5, a notch 2-6, an arc push rod push spring 2-7, a driving rotary rod 1-8, a driving bevel gear shaft 1-9, a pulley 1-10, a driving belt 1-11, a pulley 2-12, a bevel gear four 2-13, a bevel gear five 2-14, a sheave 1-15, a sheave bracket 2-16, and a sheave two 2-17, the driving wheel 2-2 is rotationally connected with the transition frame 2-1, the arc push rod 2-3 is slidingly connected with the driving wheel 2-2, the arc push rod pushing spring I2-4 is arranged between the arc push rod 2-3 and the driving rotating wheel 2-2, the arc push rod pushing spring II 2-7 is arranged between the arc push rod 2-3 and the driving rotating wheel 2-2, the driving bevel gear axle I2-9 is rotationally connected with the excessive outer frame 2-1, the driving rotary rod I2-8 is fixedly connected with the driving bevel gear axle I2-9, the belt wheel I2-10 is fixedly connected with the driving bevel gear axle I2-9, the belt wheel II 2-12 is connected between the belt wheel I2-10 and the driving belt I2-11, the bevel gear IV 2-13 is fixedly connected with the driving bevel gear axle I2-9, the bevel gear IV 2-13 is meshed with the bevel gear V2-14 for transmission, the bevel gear V2-14 is rotationally connected with the excessive outer frame 2-1, the first sheave 2-15 is fixedly connected with the sheave bracket 2-16, the sheave bracket 2-16 is fixedly connected with the bevel gear five 2-14, the second sheave 2-17 is fixedly connected with the driving rotating wheel 2-2, and the first sheave 2-15 is in direct adaptation with the second sheave 2-17.

The specific embodiment IV is as follows:

the following describes the present embodiment with reference to fig. 1 to 17, and further describes the first embodiment, in which a semicircular limiting frame is disposed at the outer end of the first notch 2 to 5.

Fifth embodiment:

in the following description of the present embodiment with reference to fig. 1-17, the picking and placing assembly 3 further includes a picking and placing bracket 3-1, a notch bracket 3-2, a driving roller 3-3, an X-arc groove 3-4, a driving rotating rod 3-5, a driving rotating rod two 3-6, a driving belt two 3-7, a belt pulley three 3-8, a belt wheel axle one 3-9, an eccentric driving rod 3-10, an arc driving rod 3-11, a waist groove one 3-12, a driving rotating rod two 3-13, a carrying strut 3-14, a middle end driving slide rod one 3-15, an adapting notch one 3-16, a pushing spring one 3-17, a mechanical claw 3-18, a mating roller 3-19, a lower end driving bracket 3-20, a limiting rod two 3-21, an inner end arc groove one 3-22, an inner end arc groove two 3-23, an annular rod 3-24, an inner end slide rod two 3-25, a rectangular limiting groove one 3-26, a rectangular limiting groove two 3-27, an inner end driving rod three-28, the notch bracket 3-2 is fixedly connected with the picking and placing bracket 3-1, the driving roller 3-3 is rotationally connected with the picking and placing bracket 3-1, the X-arc groove 3-4 is arranged on the driving roller 3-3, the driving rotating rod I3-5 is rotationally connected with the picking and placing bracket 3-1, the driving rotating rod II 3-6 is fixedly connected with the driving rotating rod I3-5, the driving rotating rod II 3-6 is slidingly connected with the X-arc groove 3-4, the driving belt II 3-7 is connected between the belt wheel III 3-8 and the driving rotating rod I3-5, the belt pulley III 3-8 is fixedly connected with the belt pulley axle I3-9, the belt pulley axle I3-9 is fixedly connected with the eccentric driving rod 3-10, the eccentric driving rod 3-10 is in sliding connection with the arc driving rod 3-11, the arc driving rod 3-11 is fixedly connected with the lower end driving support 3-20, the limiting rod II 3-21 is fixedly connected with the lower end driving support 3-20, the driving rotating rod II 3-13 is in sliding connection with the driving roller 3-3, the lower end driving support 3-20 is in rotating connection with the driving rotating rod II 3-13, the waist groove I3-12 is arranged on the taking and placing support 3-1, the limiting rod II 3-21 is in sliding connection with the waist groove I3-12, the carrying supporting rod 3-14 is fixedly connected with the driving rotating rod II 3-13, the inner end of the carrying supporting rod 3-14 is hollow, the inner end of the carrying strut 3-14 is provided with a rectangular boss A, the mechanical claw 3-18 is rotationally connected with the carrying strut 3-14, the matching roller 3-19 is rotationally connected with the mechanical claw 3-18, one end of the pushing spring I3-17 is connected with the mechanical claw 3-18, the other end of the pushing spring I3-17 is connected with the carrying strut 3-14, the rectangular limit groove I3-26 is arranged on the middle end driving slide bar I3-15, the rectangular limit groove II 3-27 is arranged on the middle end driving slide bar I3-15, the inner end arc groove I3-22 is arranged on the middle end driving slide bar I3-15, the annular rod 3-24 is fixedly connected with the carrying strut 3-14, the annular rod 3-24 is in sliding connection with the rectangular limit groove II 3-27, the first rectangular limiting groove 3-26 is in sliding connection with a rectangular boss A arranged at the inner end of the carrying strut 3-14, the second inner arc-shaped groove 3-23 is arranged on the second inner slide rod 3-25, the third inner driving rod 3-28 is in sliding connection with the annular rod 3-24, one end of the third inner driving rod 3-28 is in sliding connection with the second inner arc-shaped groove 3-23, the other end of the third inner driving rod 3-28 is in sliding connection with the first inner arc-shaped groove 3-22, the first adapting notch 3-16 is arranged on the first middle end driving slide rod 3-15, and the first pulley shaft 3-9 is fixedly connected with the second pulley 2-12.

Specific embodiment six:

in the following description of the present embodiment with reference to fig. 1 to 17, the first embodiment is further described, and the notch bracket 3-2 is provided with an adapting notch two, where the adapting notch one 3-16 can be adapted to the notch two.

Seventh embodiment:

in the following description of the present embodiment with reference to fig. 1-17, the carrying assembly 4 further includes a middle connecting rod 4-1, a carrying frame one 4-2, a carrying frame two 4-3, a straight gear shaft one 4-4, a straight gear one 4-5, a straight gear two 4-6, a straight gear shaft two 4-7, a carrying belt one 4-8, a carrying belt two 4-9, a connecting bracket one 4-10, a bevel gear A4-11, a bevel gear B4-12, a bevel gear shaft A4-13, a driving belt one 4-14, a driving belt two 4-15, a bevel gear C4-16, an input motor 4-17, an inner end carrying roller one 4-18, an inner end carrying roller two 4-19, a bevel gear shaft B4-20, and an inner end carrying roller three 4-21, the first carrying outer frame 4-2 and the second carrying outer frame 4-3 are fixedly connected through a middle end connecting rod 4-1, the straight gear shaft I4-4 is rotationally connected with the first carrying outer frame 4-2, the straight gear I4-5 is fixedly connected with the straight gear shaft I4-4, the straight gear I4-5 is meshed with the straight gear II 4-6 for transmission, the straight gear II 4-6 is fixedly connected with the straight gear shaft II 4-7, the straight gear shaft II 4-7 is rotationally connected with the second carrying outer frame 4-3, the first inner carrying roller I4-18 is provided with two, one inner carrying roller I4-18 is rotationally connected with the first carrying outer frame 4-2, the other inner carrying roller I4-18 is fixedly connected with the first straight gear shaft I4-4, the carrier belt one 4-8 is connected between two inner carrying rollers one 4-18, the inner carrying rollers two 4-19 are provided with two, the two inner carrying rollers two 4-19 are both in rotary connection with the carrying outer frame two 4-3, the carrier belt two 4-9 is connected between the inner carrying rollers two 4-19 and the inner carrying rollers three 4-21, the bevel gear shaft B4-20 is fixedly connected with the inner carrying rollers three 4-21, the bevel gear shaft B4-20 is in rotary connection with the carrying outer frame two 4-3, the bevel gear shaft B4-20 is fixedly connected with the bevel gear A4-11, the bevel gear A4-11 is in meshed transmission with the bevel gear B4-12, the bevel gear B4-12 is fixedly connected with the bevel gear shaft A4-13, the bevel gear shaft A4-13 is in rotary connection with the connecting bracket one 4-10, the first connecting bracket 4-10 is fixedly connected with the second carrying frame 4-3, the bevel gear C4-16 is meshed with the bevel gear B4-12 for transmission, the bevel gear C4-16 is fixedly connected with the output shaft of the input motor 4-17, the input motor 4-17 is fixedly connected with the second carrying frame 4-3, the first driving belt 4-14 and the second driving belt 4-15 are both matched and connected with the bevel gear shaft A4-13, the first connecting bracket 4-10 is fixedly connected with the brushing bracket 1-1, the first bevel gear shaft 1-2 is rotatably connected with the first connecting bracket 4-10, the first bevel gear shaft 1-2 is matched and connected with the second driving belt 4-15, the first driving belt 4-14 is matched and connected with the first driving rotating rod 2-8, the first carrying frame 4-2 is fixedly connected with the excessive frame 2-1, and the first carrying outer frame 4-2 is communicated with the first notch 2-5, and the picking and placing bracket 3-1 is fixedly connected with the second carrying outer frame 4-3.

The invention relates to a cleaning device for a waste 75-degree disinfection alcohol bottle, which has the following working principle:

when the disinfection bottle cleaning agent is used, the first bevel gear shaft 1-2 rotates, the first bevel gear 1-3 is driven by the first bevel gear shaft 1-2, the second bevel gear 1-4 is driven by the first bevel gear 1-3 to rotate, the cross rotary rod 1-9 is driven by the second bevel gear 1-4 to rotate, the brushing terminal 1-10 is driven by the cross rotary rod 1-9 to rotate, the brushing rod 1-11 is driven by the brushing terminal 1-10 to rotate, the third bevel gear 1-18 is driven by the second bevel gear 1-4 to rotate, the eccentric wheel 1-5 is driven by the third bevel gear 1-18 to rotate, the eccentric wheel terminal 1-6 is driven by the eccentric wheel 1-5 to move, the driving bracket 1-8 is driven by the eccentric wheel terminal 1-6 to move, the cross rotary rod 1-9 is driven by the driving bracket 1-8 to move along the axis of the second bevel gear 1-4, the terminal 1-10 is driven by the brushing terminal 1-10 to reciprocate, the waste bottle is driven by the terminal 1-10 to reciprocate and the terminal 1-10 to rotate, the alcohol bottle is driven by the terminal 1-10 to reciprocate, the bottle is driven by the alcohol bottle is disinfected and the alcohol bottle is disinfected by the alcohol bottle is in contact with the alcohol, and the bottle is disinfected by the alcohol, and the alcohol is in the disinfection bottle is disinfected and the disinfection bottle is 75 is washed; meanwhile, the relative sliding between the brushing rod 1-11 and the brushing terminal 1-10 is adopted, so that the alcohol bottle can be conveniently adapted to alcohol bottles with different specifications; simultaneously, the eccentric wheel terminal 1-6 and the eccentric wheel 1-5 are relatively slid, so that the motion track of the eccentric wheel terminal 1-6 is changed, the distance that the driving bracket 1-8 drives the cross rotating rod 1-9 to vertically reciprocate is changed, and the alcohol bottle with different depths is conveniently adapted; the method comprises the steps that a driving rotating rod I2-8 rotates, a driving bevel gear shaft I2-9 is driven to rotate through the driving rotating rod I2-8, a belt pulley I2-10 is driven to rotate through the driving bevel gear shaft I2-9, a driving belt I2-11 is driven to move through the belt pulley I2-10, a belt pulley II 2-12 is driven to move through the driving belt I2-11, meanwhile, a bevel gear IV 2-13 is driven to rotate through the driving bevel gear shaft I2-9, a bevel gear V2-14 is driven to rotate through the bevel gear IV 2-13, a grooved pulley I2-15 and a grooved pulley bracket 2-16 are driven to simultaneously move through the bevel gear V2-14, a grooved pulley II 2-17 is driven to rotate through the grooved pulley bracket 2-16, a driving rotating wheel 2-2 is driven to rotate through the grooved pulley II 2-17, a waste 75-degree alcohol bottle is driven to move through the driving belt II 2-3, 75-degree disinfection alcohol enters the driving wheel II 2-6, and is discharged from the driving rotating wheel II 2-5; simultaneously, the belt pulley II 2-12 drives the belt pulley II 3-9 to rotate, the belt pulley III 3-8 is driven by the belt pulley II 3-9 to rotate, the driving belt II 3-7 is driven by the belt pulley III 3-8 to move, the driving rotating rod I3-5 is driven by the driving belt II 3-7 to rotate, the driving rotating rod II 3-6 is driven by the driving rotating rod I3-5 to rotate, the driving roller 3-3 is driven to reciprocate within the 90-degree range by the matched connection of the driving rotating rod II 3-6 and the X arc groove 3-4, meanwhile, the driving roller 3-3 drives the driving rotating rod II 3-13 to reciprocate within the 90-degree range, the belt wheel shaft I3-9 drives the eccentric driving rod 3-10 to rotate, the eccentric driving rod 3-10 drives the arc driving rod 3-11 to move, the arc driving rod 3-11 drives the lower end driving support 3-20 to move, the lower end driving support 3-20 drives the limiting rod II 3-21 to reciprocate along the inner end of the waist groove I3-12, the waist groove I3-12 is not contacted with the X arc groove 3-4 in the initial position, the eccentric driving rod 3-10 is positioned at the right limit position of the arc driving rod 3-11, the arc driving rod 3-11 drives the lower end driving support 3-20 to move downwards along with the rotation of the belt wheel shaft I3-9, the lower end driving bracket 3-20 drives the driving rotating rod II 3-13 to move downwards along the axial direction of the driving rotating rod II 3-13, simultaneously drives the carrying supporting rod 3-14 to move downwards, simultaneously drives the mechanical claws 3-18 and the matched rollers 3-19 to move downwards, simultaneously enables the three mechanical claws 3-18 to move outwards through the contact between the matched rollers 3-19 and the outer wall of the waste 75-degree disinfection alcohol bottle, simultaneously compresses the push spring I3-17, simultaneously enables the matched rollers 3-19 to realize the grabbing of the waste 75-degree disinfection alcohol bottle after the cleaning by the reaction of the push spring I3-17, enables the matched rollers 3-19 to contact with the X arc-shaped groove 3-4, enables the driving rollers 3-3 to rotate 90 degrees, further enables the mechanical claws 3-18 of the cleaned 75-degree disinfection alcohol bottle and the matched rollers 3-19 to simultaneously rotate 90 degrees, simultaneously enables the matched notch I3-16 to contact with the matched notch I on the notch bracket 3-2, simultaneously enables the driving rod I3-10 to move downwards along the axial direction of the driving supporting rod II 3-19 along the lower end of the driving supporting rod II, simultaneously drives the driving supporting rod II 3-19 to move downwards along the axial direction of the driving supporting rod II 3-13 along the arc-13, simultaneously drives the lower end of the driving supporting rod II 3-9 to rotate along the arc-13, simultaneously drives the driving supporting rod II 3-9 to move downwards along the arc-shaped groove 3-9, and further drives the driving rod II to rotate along the arc-shaped groove 3-9, and the lower end of the driving supporting rod 3-9 is driven by the arc-shaped groove 3-9, when the first adapting notch 3-16 is contacted with the second adapting notch on the notch bracket 3-2, the first middle end driving sliding rod 3-15 moves upwards relative to the carrying supporting rod 3-14, the first middle end driving sliding rod 3-15 drives the first inner end arc-shaped groove 3-22 to move, the third inner end driving rod 3-28 is driven to slide along the first inner end arc-shaped groove 3-22, the third inner end driving rod 3-28 is simultaneously enabled to rotate along the annular rod 3-24, meanwhile, the second inner end sliding rod 3-25 moves downwards relative to the carrying supporting rod 3-14 under the action of the third inner end driving rod 3-28 and the second inner end arc-shaped groove 3-23, and meanwhile, the carrying supporting rod 3-14 moves downwards in the process of contacting with the upper port of the washed waste 75-degree disinfection alcohol bottle, the washed 75-degree disinfection alcohol bottle is further pushed to be separated from the matched roller 3-19 and falls down, and the process of taking and placing the washed waste 75-degree disinfection alcohol bottle is completed; simultaneously, placing unwashed waste 75-degree disinfection alcohol bottles on a carrier belt II 4-9, simultaneously, enabling the washed waste 75-degree disinfection alcohol bottles to fall on a carrier belt I4-8, simultaneously starting an input motor 4-17, driving a bevel gear C4-16 to rotate through the input motor 4-17, driving a bevel gear B4-12 to rotate through the bevel gear C4-16, driving a bevel gear A4-11 to rotate through the bevel gear B4-12, driving an inner end carrying roller III 4-21 to move through the bevel gear A4-11, driving the carrier belt II 4-9 to move through the inner end carrying roller III 4-21, enabling the unwashed waste 75-degree disinfection alcohol bottles to flow into a driving rotating wheel 2-2 through a notch II 2-6 through the carrier belt II 4-9, simultaneously, enabling the washed waste 75-degree disinfection alcohol bottles to be taken out through the notch I2-5, enabling the washed waste 75-degree disinfection alcohol bottles to fall into the carrier belt I4-8, and enabling the carrier belt I4-8 to be carried out; simultaneously, the bevel gear B4-12 rotates and drives the bevel gear shaft A4-13 to rotate, and then drives the transmission belt A4-14; the second transmission belt 4-15 moves to drive the first driving rotating rod 2-8 to rotate through the first transmission belt 4-14 so as to output power, and meanwhile, the second transmission belt 4-15 drives the first bevel gear shaft 1-2 to rotate so as to output power.

Of course, the above description is not intended to limit the invention, but rather the invention is not limited to the above examples, and variations, modifications, additions or substitutions within the spirit and scope of the invention will be within the scope of the invention.

Claims (3)

1. The utility model provides a belt cleaning device of old and useless 75 degrees disinfection alcohol bottle, includes washs subassembly (1), excessive subassembly (2), gets and puts subassembly (3), delivery assembly (4), its characterized in that: the washing component (1) is connected with the carrying assembly (4), the transition component (2) is connected with the carrying assembly (4), and the taking and placing component (3) is connected with the carrying assembly (4);

the washing component (1) comprises a washing bracket (1-1), a first conical gear shaft (1-2), a first conical gear (1-3), a second conical gear (1-4), a first eccentric gear (1-5), an eccentric gear terminal (1-6), a first inner spherical clamping groove (1-7), a driving bracket (1-8), a cross rotating rod (1-9), a washing terminal (1-10), a washing rod (1-11), a washing rod pushing spring (1-12), a second inner spherical clamping groove (1-13), a first inner spherical clamping rod (1-14), a first inner spherical clamping rod pushing spring (1-15), a second inner spherical clamping rod (1-16), a second inner spherical clamping rod pushing spring (1-17) and a third conical gear (1-18), wherein the first conical gear shaft (1-2) is in rotary connection with the bracket (1-1), the first conical gear (1-3) is fixedly connected with the first conical gear shaft (1-2), the first conical gear (1-3) is meshed with the second conical gear (1-4), the second conical gear (1-4) is in transmission with the second conical gear (1-4), the second conical gear (1-4) is in rotary connection with the first conical gear shaft (1-1, the third conical tooth (1-18) is fixedly connected with the first eccentric wheel (1-5), the third conical tooth (1-18) is meshed with the second conical tooth (1-4) for transmission, the first inner spherical clamping groove (1-7) is arranged at the inner end of the first eccentric wheel (1-5), the first eccentric wheel terminal (1-6) is in sliding connection with the first eccentric wheel (1-5), the second inner spherical clamping rod (1-16) is in sliding connection with the first inner spherical clamping groove (1-7), the second inner spherical clamping rod (1-16) is in sliding connection with the first eccentric wheel terminal (1-6), the second inner spherical clamping rod pushing spring (1-17) is arranged between the two second inner spherical clamping rods (1-16), the driving bracket (1-8) is in sliding connection with the first conical tooth (1-4), the second inner spherical clamping rod (1-9) is in sliding connection with the second conical tooth (1-9), the second inner spherical clamping rod (1-9) is in sliding connection with the second conical tooth (1-10), the second inner spherical clamping rod (1-13) is in sliding connection with the first spherical clamping rod (1-13), the inner end spherical clamping rod pushing springs I (1-15) are arranged between the two inner end spherical clamping rods I (1-14), the inner end spherical clamping rods I (1-14) are in sliding connection with the brushing terminals (1-10), the inner end spherical clamping rod pushing springs I (1-15) are arranged between the inner end spherical clamping rods I (1-14) and the brushing terminals (1-10), the brushing rods (1-11) are in sliding connection with the brushing terminals (1-10), and the brushing rod pushing springs (1-12) are arranged between the brushing rods (1-11) and the brushing terminals (1-10);

the transition assembly (2) comprises a transition outer frame (2-1), a driving rotating wheel (2-2), an arc-shaped push rod (2-3), an arc-shaped push rod push spring I (2-4), a notch I (2-5), a notch II (2-6), an arc-shaped push rod push spring II (2-7), a driving rotating rod I (2-8), a driving bevel gear shaft I (2-9), a belt wheel I (2-10), a driving belt I (2-11), a belt wheel II (2-12), a bevel gear IV (2-13), a bevel gear V (2-14), a grooved pulley I (2-15), a grooved pulley bracket (2-16) and a grooved pulley II (2-17), wherein the driving rotating wheel (2-2) is in rotary connection with the transition outer frame (2-1), the arc-shaped push rod (2-3) is in sliding connection with the driving rotating wheel (2-2), the arc-push rod push spring I (2-4) is arranged between the arc-shaped push rod (2-3) and the driving rotating wheel (2-2), the arc-shaped push spring II (2-7) is arranged between the arc-push rod (2-3) and the driving rotating wheel (2-2) and the bevel gear II (2-7) is in rotary connection with the transition outer frame (2-1), the driving rotating rod I (2-8) is fixedly connected with the driving bevel gear shaft I (2-9), the belt pulley I (2-10) is fixedly connected with the driving bevel gear shaft I (2-9), the belt pulley II (2-12) is connected between the belt pulley I (2-10) and the driving belt I (2-11), the bevel gear IV (2-13) is fixedly connected with the driving bevel gear shaft I (2-9), the bevel gear IV (2-13) is meshed with the bevel gear V (2-14) for transmission, the bevel gear V (2-14) is rotationally connected with the excessive outer frame (2-1), the grooved pulley I (2-15) is fixedly connected with the grooved pulley bracket (2-16), the grooved pulley II (2-17) is fixedly connected with the driving rotating wheel (2-2), and the grooved pulley I (2-15) is matched with the grooved pulley II (2-17) in the direction;

the picking and placing component (3) comprises a picking and placing bracket (3-1), a notch bracket (3-2), a driving roller (3-3), an X arc groove (3-4), a driving rotating rod I (3-5), a driving rotating rod II (3-6), a driving belt II (3-7), a belt wheel III (3-8), a belt wheel axle I (3-9), an eccentric driving rod (3-10), an arc driving rod (3-11), a waist groove I (3-12), a driving rotating rod II (3-13), a carrying strut (3-14), a middle end driving slide bar I (3-15), an adapting notch I (3-16), a pushing spring I (3-17), a mechanical claw (3-18), a matching roller (3-19), a lower end driving bracket (3-20), a limiting rod II (3-21), an inner end arc groove I (3-22), an inner end arc groove II (3-23), an annular rod (3-24), an inner end II (3-25), a rectangular limiting groove I (3-26), a rectangular limiting groove II (3-27) and an inner end driving rod III (3-28), the bracket (3-2) is fixedly connected with the notch I (3-2), the driving roller (3-3) is rotationally connected with the picking and placing support (3-1), the X-shaped arc groove (3-4) is arranged on the driving roller (3-3), the driving rotating rod I (3-5) is rotationally connected with the picking and placing support (3-1), the driving rotating rod II (3-6) is fixedly connected with the driving rotating rod I (3-5), the driving rotating rod II (3-6) is slidingly connected with the X-shaped arc groove (3-4), the driving belt II (3-7) is connected between the belt wheel III (3-8) and the driving rotating rod I (3-5), the belt wheel III (3-8) is fixedly connected with the belt wheel axle I (3-9), the belt wheel axle I (3-9) is fixedly connected with the eccentric driving rod (3-10), the eccentric driving rod (3-10) is slidingly connected with the arc driving rod (3-11), the arc driving rod II (3-11) is fixedly connected with the lower end driving support (3-20), the limiting rod II (3-21) is fixedly connected with the lower end driving support (3-20), the driving belt III (3-8) is fixedly connected with the lower end driving support (3-20), the driving belt II (3-9) is fixedly connected with the lower end driving support (3-20), the waist groove I (3-12) is arranged on the picking and placing bracket (3-1), the limit rod II (3-21) is in sliding connection with the waist groove I (3-12), the carrying support rod (3-14) is fixedly connected with the driving support rod II (3-13), the inner end of the carrying support rod (3-14) is hollowed out, the inner end of the carrying support rod (3-14) is provided with a rectangular boss A, the mechanical claw (3-18) is in rotating connection with the carrying support rod (3-14), the matching roller (3-19) is in rotating connection with the mechanical claw (3-18), one end of the pushing spring I (3-17) is connected with the mechanical claw (3-18), the other end of the pushing spring I (3-17) is connected with the carrying support rod (3-14), the rectangular limit groove I (3-26) is arranged on the middle end driving slide rod I (3-15), the rectangular limit groove II (3-27) is arranged on the middle end driving support rod I (3-15), the inner end arc groove I (3-22) is arranged on the middle end driving support rod I (3-15), the annular rod I (3-24) is fixedly connected with the annular rod II (3-24) in sliding connection with the annular rod II (3-14), the first rectangular limiting groove (3-26) is in sliding connection with a rectangular boss A arranged at the inner end of the carrying strut (3-14), the second inner arc-shaped groove (3-23) is arranged on the second inner slide rod (3-25), the third inner driving rod (3-28) is in sliding connection with the annular rod (3-24), one end of the third inner driving rod (3-28) is in sliding connection with the second inner arc-shaped groove (3-23), the other end of the third inner driving rod (3-28) is in sliding connection with the first inner arc-shaped groove (3-22), the first adapting notch (3-16) is arranged on the first middle end driving slide rod (3-15), and the first pulley shaft (3-9) is fixedly connected with the second pulley (2-12);

the carrying assembly (4) comprises a middle-end connecting rod (4-1), a carrying outer frame I (4-2), a carrying outer frame II (4-3), a straight-tooth shaft I (4-4), a straight-tooth roller II (4-5), a straight-tooth shaft II (4-6), a straight-tooth shaft II (4-7), a carrying belt I (4-8), a carrying belt II (4-9), a connecting bracket I (4-10), a bevel gear A (4-11), a bevel gear B (4-12), a bevel gear shaft A (4-13), a transmission belt I (4-14), a transmission belt II (4-15), a bevel gear C (4-16), an input motor (4-17), an inner-end carrying roller I (4-18), an inner-end carrying roller II (4-19), a bevel gear shaft B (4-20) and an inner-end carrying roller III (4-21), the carrying outer frame I (4-2) and the carrying outer frame II (4-3) are fixedly connected through the middle-end connecting rod (4-1), the gear shaft I (4-4) is rotatably connected with the carrying outer frame I (4-2), the bevel gear C (4-5) is fixedly meshed with the straight-tooth I (4-5) and the straight-tooth I (4-5), the straight-tooth second (4-6) is fixedly connected with the straight-tooth first (4-7), the straight-tooth first (4-7) is rotationally connected with the carrying outer frame second (4-3), the inner carrying roller first (4-18) is provided with two, one inner carrying roller first (4-18) is rotationally connected with the carrying outer frame first (4-2), the other inner carrying roller first (4-18) is fixedly connected with the straight-tooth first (4-4), the carrying belt first (4-8) is connected between the two inner carrying rollers first (4-18), the inner carrying roller second (4-19) is provided with two, the two inner carrying rollers second (4-19) are rotationally connected with the carrying outer frame second (4-3), the carrying belt second (4-9) is connected between the inner carrying roller second (4-19) and the inner carrying roller third (4-21), the bevel gear shaft B (4-20) is fixedly connected with the inner carrying roller third (4-21), the bevel gear shaft B (4-20) is fixedly meshed with the bevel gear B (4-3) and the bevel gear B (4-11) is fixedly meshed with the bevel gear A (4-11), the bevel gear B (4-12) is fixedly connected with the bevel gear shaft A (4-13), the bevel gear shaft A (4-13) is rotationally connected with the first connecting bracket (4-10), the first connecting bracket (4-10) is fixedly connected with the second connecting bracket (4-3), the bevel gear C (4-16) is meshed with the bevel gear B (4-12) for transmission, the bevel gear C (4-16) is fixedly connected with the output shaft of the input motor (4-17), the input motor (4-17) is fixedly connected with the second connecting bracket (4-3), the first driving belt (4-14) and the second driving belt (4-15) are both matched and connected with the bevel gear shaft A (4-13), the first connecting bracket (4-10) is fixedly connected with the first washing bracket (1-1), the first bevel gear shaft (1-2) is rotationally connected with the first connecting bracket (4-10), the first driving belt (1-2) is matched and connected with the second driving belt (4-15), the first driving belt (4-14) is matched and connected with the first driving motor (2-17) and is in communication with the first connecting bracket (2-5) and is fixedly connected with the first connecting bracket (4-2), the taking and placing bracket (3-1) is fixedly connected with the carrying outer frame II (4-3).

2. The cleaning device for a waste 75-degree disinfection alcohol bottle according to claim 1, wherein: the outer end of the first notch (2-5) is provided with a semicircular limit frame.

3. The cleaning device for a waste 75-degree disinfection alcohol bottle according to claim 1, wherein: the notch bracket (3-2) is provided with a second adapting notch, and the first adapting notch (3-16) can be adapted to the second adapting notch.

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