CN211685396U - Logistics appliance chassis system suitable for AGV logistics distribution - Google Patents

Abstract

The utility model relates to a commodity circulation utensil chassis system suitable for AGV logistics distribution, its characterized in that: the bottom hanging buckle mounting plate is fixed below the chassis frame, the bottom hanging buckle comprises a front hanging buckle and a rear hanging buckle, the front part of the chassis frame is fixed by front traction, the rear part of the chassis frame is fixed by rear traction, and the caster fixed universal automatic switching mechanism is symmetrically arranged on a caster bracket of a rear wheel of the chassis frame. It can satisfy the various requirements of commodity circulation AGV to the commodity circulation utensil, carry and break away from between AGV and the utensil, link into a string through drive mechanism between the utensil and steadily pull by the tractor, and the automation of string utensil is unhook, and each functional unit highly integrates in the utensil chassis, can according to actual need, builds upper frame on this kind of utensil chassis for put all kinds of parts, do not influence its each side functional requirement when making things convenient for the transformation of utensil.

Description

Logistics appliance chassis system suitable for AGV logistics distribution

Technical Field

The utility model relates to a commodity circulation utensil chassis system suitable for AGV logistics distribution belongs to be used for specially with commodity circulation AGV matched with commodity circulation utensil chassis system.

Background

Red new H of flag is assembled the workshop and is reformed transform the project and adopt AGV comprehensively to be used for logistics distribution, and logistics AGV hangs the knot through two lifting pin and logistics apparatus bottom around and is connected, drives the utensil operation, specifically is: after the lifting pin of the AGV rises, the AGV enters the bottom of the appliance, the lifting pin is connected with the bottom of the appliance in a hanging and buckling mode to realize the fixed connection between the lifting pin and the bottom of the appliance, when the AGV drives the appliance to run to an appointed place, the lifting pin of the AGV descends and is separated from the appliance, then the AGV is started and drives away from the bottom of the appliance;

the corridor is transferred by adopting an AGV (automatic guided vehicle) hanging mode, the front appliance and the rear appliance are connected through an automatic unhooking mechanism, when the AGV drives the two appliances to run on the corridor at the end period and passes through a stop iron protruding from the ground, the unhooking mechanism is automatically triggered, and the two appliances hung in the front and the rear are separated;

in order to avoid the tail flicking phenomenon of the rear vehicle when the apparatus runs in a string, a fixed universal switching mechanism capable of realizing automatic switching of the caster of the apparatus between the directional wheel and the universal wheel is adopted, so that automatic switching between fixed universal of the rear wheel of the apparatus is realized.

The key components meeting the three functions are integrated on the appliance chassis, and do not interfere with the structure for placing parts on the ground.

Disclosure of Invention

The utility model aims to provide a logistics appliance chassis system suitable for AGV logistics distribution, which meets the requirements of AGV on logistics appliances, covers the front and back traction of the appliances and is used for realizing the automatic unhooking of the appliances; is a bottom hanging buckle matched with an AGV lifting pin; the automatic conversion of the fixed direction of the caster wheels caused by the swing of the device is avoided.

The technical scheme of the utility model is realized like this: a logistics apparatus chassis system adapted for AGV logistics distribution, comprising: chassis, bottom are hung and are detained, pull around, universal auto-switching mechanism is decided to truckle, its characterized in that: the chassis comprises a cross beam, a longitudinal beam and caster brackets, wherein the four caster brackets are respectively fixed on four corners consisting of the cross beam and the longitudinal beam;

the bottom hanging buckle comprises a front hanging buckle and a rear hanging buckle, and the front hanging buckle consists of a concave limiting stop iron and a pair of triangular irons; the concave limiting stop iron is fixed on the front hanging buckle mounting plate, the pair of triangular irons are symmetrically arranged in front of a concave opening of the concave limiting stop iron, and the pair of triangular irons are hinged on the front hanging buckle mounting plate through a rotating shaft; a return spring is sleeved on the rotating shaft, and the end part of the return spring is connected to the triangular iron; the rear hanging buckle is an open groove-shaped stop iron, the middle distance is 20-25mm, and the rear hanging buckle is fixed on the rear hanging buckle mounting plate through bolts;

the front traction device comprises a front swing rod, a front traction support and a front traction plate, wherein the front traction plate is connected in two waist holes of the front traction support through a shaft, the lower part of the front traction plate is connected with a cover plate, a turning plate is fixed on the front swing rod, and the turning plate is positioned at the lower part of the cover plate of the front traction plate;

the rear traction plate comprises a rear swing rod, a rear traction support and a cross traction pin, wherein a rear turning plate is fixed on the rear swing rod, the top of the cross traction pin is arranged on the rear turning plate and is 5-8mm higher than the upper plane of the rear turning plate, and the cross traction pin is connected to the rear traction seat through a shaft; a guide plate is fixed on the rear traction seat, a waist hole is formed in the guide plate, and the bottom of the cross traction pin can move in the waist hole of the guide plate when the cross traction pin rotates;

the caster fixed universal automatic switching mechanism comprises a transverse plate, a nylon wheel and a lever, wherein the transverse plate is fixedly connected with a caster bracket, the lever is hinged with the transverse plate at a fulcrum, a fork opening at the front end of the lever is hinged with the nylon wheel, and a fork opening inserted at the tail end of the lever is hinged with a caster pin; one end of the transverse plate is provided with a rotating shaft hole which is connected to the lever fulcrum through a rotating shaft, the rotating shaft is positioned on the inner side of the caster bracket, the other end of the transverse plate is provided with a waist hole, a connecting plate is arranged at the position of the transverse plate close to the rotating shaft, and the connecting plate is provided with a through hole.

The diaphragm symmetry install on the truckle support of both sides, with the nylon wheel symmetrical arrangement on the diaphragm articulated lever, two nylon wheel intervals are less than AGV automobile body width.

The fulcrum hole of the lever is positioned in the center of the lever.

The truckle support below be connected with the truckle mounting panel through the bolt, be fixed with the bearing on the truckle mounting panel, the truckle is fixed on the bearing around vertical direction pivoted, the bearing excircle is opened there is the round pin mouth, simultaneously, is equipped with truckle round pin guide block on the truckle mounting panel, the truckle round pin has been inserted in the truckle round pin guide block, the truckle round pin is at truckle round pin guide block medial movement.

And a pressure spring is arranged in the caster pin guide block, and the caster pin always keeps a bolt trend in the caster pin guide block by the pressure spring.

One end of the caster pin, which is close to the bearing, is inserted and pulled in a pin hole of the excircle of the bearing, and the other end of the caster pin is provided with a through hole in the radial direction, and the through hole is hinged with a fork hole at the tail end of the lever through a pin shaft.

The utility model has the advantages that the front lifting pin and the rear lifting pin on the top of the AGV can be matched to complete the combination and the separation of the AGV and the logistics appliance, and the AGV can be matched to complete various actions such as turning, rotating, transversely moving and the like when being hung on the AGV; when the tractor is manually driven to pull a plurality of stringed appliances, the tail flicking cannot occur; when two appliances mounted on each other need to be separated, automatic separation can be realized, each functional component is highly integrated and has no relation with the upper structure of the chassis, and a user can freely build an appliance framework according to the production needs of the user without influencing the use, so that the universal appliance has strong universality.

Drawings

Fig. 1 is a schematic view of a bottom hanging buckle structure of an appliance chassis of the present invention.

Fig. 2 is a schematic drawing of the front and back traction with the automatic unhooking function of the present invention.

Fig. 3 is a schematic view of the fixed-axle rotation mechanism of the two rear wheels of the device of the present invention.

Fig. 4 is a schematic view of the caster fixed universal automatic switching mechanism of the present invention.

Fig. 5 is a schematic view of the whole assembly of the appliance chassis of the present invention.

Detailed Description

The present invention will be further described with reference to the accompanying drawings and embodiments, as shown in fig. 1-5, a logistics apparatus chassis system for AGV logistics distribution, comprising: the chassis, bottom hang and detain 1, preceding pull 2, back traction 3, universal auto-switching mechanism 4 is decided to the truckle, its characterized in that: the chassis comprises a cross beam, a longitudinal beam and caster brackets, wherein the four caster brackets are respectively fixed on four corners consisting of the cross beam and the longitudinal beam, the bottom hanging buckle mounting plate is fixed below the chassis frame, and the bottom hanging buckle 1 is mounted on the hanging buckle mounting plate;

the bottom hanging buckle 1 comprises a front hanging buckle 1-1 and a rear hanging buckle 1-2, and the front hanging buckle consists of a concave limiting stop iron 1-5 and a pair of triangular irons 1-4; the concave limiting stop iron 1-5 is fixed on the front hanging buckle mounting plate, the pair of triangular irons 1-4 are symmetrically arranged in front of a concave opening of the concave limiting stop iron 1-5, and the pair of triangular irons 1-4 are hinged on the front hanging buckle mounting plate through the rotating shaft 1-3; a return spring is sleeved on the rotating shaft 1-3, and the end part of the return spring is connected to the triangular iron 1-4; the rear hanging buckle 1-2 is an open groove-shaped stop iron, the middle distance is 20-25mm, and the rear hanging buckle 1-2 is fixed on a rear hanging buckle mounting plate through bolts;

the front traction device 2 comprises a front swing rod 2-4, a front traction support 2-3 and a front traction plate 2-1, wherein the front traction plate 2-1 is connected in two waist holes of the front traction support 2-3 through a shaft, the lower part of the front traction plate 2-1 is connected with a cover plate 2-2, a turning plate 2-5 is fixed on the front swing rod 2-4, and the turning plate 2-5 is positioned at the lower part of the front traction plate cover plate 2-2;

the rear traction plate 3 comprises a rear swing rod 3-1, a rear traction support and a cross traction pin 3-3, wherein a rear turning plate 3-2 is fixed on the rear swing rod 3-1, the top of the cross traction pin 3-3 is arranged on the rear turning plate 3-2 and is 5-8mm higher than the upper plane of the rear turning plate 3-2, and the cross traction pin 3-3 is connected with the rear traction support through a shaft; a guide plate is fixed on the rear traction seat, a waist hole is formed in the guide plate, and the bottom of the cross traction pin 3-3 can move in the waist hole of the guide plate when the cross traction pin rotates;

universal automatic switch mechanism 4 is decided to truckle, including nylon wheel 4-1, diaphragm 4-2, lever 4-3, its characterized in that: the transverse plate 4-2 is fixedly connected with the caster bracket 4-8 through bolts, the lever 4-3 is hinged with the transverse plate 4-2 at a fulcrum, a fork opening at the front end of the lever is hinged with the nylon wheel 4-1, and a fork opening at the tail end of the lever is hinged with a caster pin 4-7; one end of the transverse plate 4-2 is provided with a rotating shaft hole which is connected to a lever pivot through a rotating shaft 4-4, the rotating shaft 4-4 is positioned at the inner side of the caster wheel bracket 4-8, the other end of the transverse plate 4-2 is provided with a waist hole 4-6, a connecting plate 4-5 is arranged at the position of the transverse plate 4-2 close to the rotating shaft 4-4, and a through hole is arranged on the connecting plate 4-5.

The transverse plate 4-2 is symmetrically arranged on the caster wheel supports 4-8 at two sides, the nylon wheels 4-1 on the lever 3 hinged with the transverse plate 4-2 are symmetrically arranged, and the distance between the two nylon wheels 4-1 is smaller than the width of the AGV body.

The fulcrum hole of the lever 4-3 is positioned in the center of the lever.

The caster comprises caster supports 4-8 and is characterized in that the lower surfaces of the caster supports 4-8 are connected with caster mounting plates 10 through bolts, bearings 4-11 are fixed on the caster mounting plates 4-10, casters 12 are fixed on the bearings 4-11 which rotate in the vertical direction, pin holes are formed in the outer circles of the bearings 4-11, caster pin guide blocks 4-9 are arranged on the caster mounting plates 4-10, caster pins 4-7 are inserted into the caster pin guide blocks 4-9, and the caster pins 4-7 can axially move in the caster pin guide blocks 4-9, so that the purpose of plugging in the pin holes in the outer circles of the bearings is achieved.

A pressure spring is arranged in the caster pin guide block 4-9, and the pressure spring enables the caster pin 4-7 to always keep a bolt trend in the caster pin guide block 9.

One end of the caster pin 4-7, which is close to the bearing 4-11, is inserted into the pin hole of the excircle of the bearing, and the other end of the caster pin 4-7 is provided with a through hole in the radial direction, and the through hole is hinged with the fork hole at the tail end of the lever 4-3 through a pin shaft.

As shown in figure 1, the bottom of the appliance chassis is hung and buckled, a front lifting pin of the AGV slides into the bottom hanging and buckling part 1 along a V-shaped opening, the front lifting pin of the AGV is fixed, and at the moment, the rear lifting pin of the AGV is positioned between two concave limiting stop irons 1-5, so that the fixed hanging and the carrying between the appliance and the AGV are realized.

As shown in fig. 2-3, the front and rear tractors with automatic unhooking function are used, the front of the device is on line, the AGV drags two devices, the rear swing rod 3-1 passes through the ground stop iron, the rear traction 3-1 is released, the front and rear devices are unhooked, and at this time, the front traction 2 is lifted by the line edge deflector rod mechanism to be erected, so that the device can be on line; before the appliances return to the air, the front swing rod 2-4 rotates through the stop iron to put down the front traction 2 to be hung with the rear traction of the front appliance, so that the two appliances are reliably connected.

As shown in fig. 4, the fixed universal mutual rotation mechanism of two rear wheels of the device is shown, in a natural state, the caster fixed universal automatic conversion mechanism 4 is in a bolt state under the action of a pressure spring, and the casters 4-12 are directional wheels. When the AGV pulls an appliance to run through the bottom hanging buckle 1, the latch mechanism is in a pin pulling state, and the caster wheels 4-12 are universal wheels.

Fig. 5 is a schematic diagram of the overall assembly of the appliance chassis, which covers the above three key components, and on the basic frame, the superstructure can be arbitrarily constructed according to the actual need of placing parts. In figure 5, the bottom hanging buckle 1 is screwed on the lower part of the appliance chassis by bolts, and the periphery of the flange can be reinforced by electric welding and is positioned on the central line of the appliance chassis. The front lifting pin of the AGV is circumferentially surrounded at a notch at the mounting position of the front lifting pin of the AGV as shown in FIG. 1, and only one degree of freedom is left between the AGV and the chassis under the action of the front lifting pin, namely, the front lifting pin rotates in the Z direction; and the AGV rear lifting pin mounting position is also locked in the Z direction rotation between the AGV and the chassis under the action of the AGV rear lifting pin mounting position, so that zero-degree-of-freedom mounting between the AGV and the chassis is realized. As shown in figure 1, two symmetrically-arranged triangular irons 1-4 can rotate around respective rotating shafts 1-3 respectively, the two triangular irons 1-4 and the rotating shafts 1-3 can rotate, and a reset rotating spring is arranged between the two triangular irons, so that the two triangular irons 1-4 always have the reset tendency of maintaining the relative positions shown in figure 1.

The front traction 2 is screwed on an iron plate at the front end of the appliance by bolts as shown in FIG. 5, the front traction plate 2-1 is a steel plate at the front end of the chassis of the appliance and is connected with the iron plate by bolts as shown in FIG. 2, and the front traction 2 is arranged in the middle of the front part of the appliance; the front swing rod 2-4 can rotate by taking the front swing rod as a shaft, the stop iron corresponding to the bending position of the front swing rod 2-4 is used for triggering, the turning plate 2-5 positioned below the front traction plate 2-1 in the figure 2 rotates along with the shaft along with the rotation of the front swing rod 2-4, the front traction plate 2-1 is turned over, the front traction plate 2-1 falls, and the vertical folding state is changed into the horizontal laying state.

The rear traction 3 is the same as the front traction 2, and the rear traction steel plate is connected with the tail end iron plate of the appliance through bolts. The rear swing rod 3-1 shown in fig. 3 can rotate around a horizontal part of the rear swing rod 3-1, the rear swing rod is triggered by a stop iron with the same height as the ground at the tail end of the vertical drooping part, and the rear traction turning plate 3-2 at the tail end of the horizontal part of the rear swing rod 3-1 rotates along with the rotation of the rear swing rod 3-1, so that the rear traction turning plate 3-2 originally limiting the rotation of the cross traction pin 3-3 is lifted, the cross traction pin 3-3 can freely rotate around the shaft, and a front traction iron ring hung with the cross traction pin can be released.

In the figure 5, the device caster fixed universal automatic switching mechanism 4 is symmetrically arranged on a caster bracket 4-8 of a device chassis by taking the central line of the device chassis as a symmetry axis, as shown in figure 4, the horizontal plate 4-2 is fixedly arranged on two vertically arranged square steel tubes in front of the caster bracket 4-8 through horizontal plate fastening bolts, a vertical round hole is formed at one end of the horizontal plate 4-2 close to the inner side of the device chassis, a pin shaft 4-4 penetrates through the round hole and then penetrates through a fulcrum hole in the middle of a lever 4-3 to form hinge joint, and the hinge joint can freely rotate and is used as a lever fulcrum. The tail end of the lever fork opening is hinged with a lock pin mechanism of the caster through a pin shaft, and the lever fork opening and the lock pin mechanism can rotate around the pin shaft; the other end of the lever 4-3 is provided with a nylon wheel 4-1, the nylon wheel 4-1 is used as one end for triggering the lever mechanism to act, and as the whole mechanism is symmetrically arranged relative to the axis of the chassis of the appliance, the natural distance between the two nylon wheels 4-1 (when no AGV is arranged below the appliance) is required to be smaller than the width of the AGV body during installation, at the moment, under the action of a pressure spring in the caster lockpin mechanism, a caster pin 4-7 has a bolt trend, a caster 4-12 has no z-direction rotational freedom degree, and the caster 4-12 is a directional wheel; when the AGV is used for hanging the appliance to run, the AGV drives into the bottom of the appliance from the rear of the appliance, at the moment, the AGV expands the two nylon wheels 4-1 with the natural spacing smaller than the width of the AGV body to the same width as the AGV by utilizing the width of the AGV, the two nylon wheels 4-1 are respectively in sliding contact with the left side wall and the right side wall of the AGV, meanwhile, the other end of the lever 4-3 acts along with the expansion of the nylon wheels 4-1 to pull out the caster pins 4-7 from the pin openings, the z-direction rotation of the caster wheels 4-12 is released, and the directional wheels are changed into universal wheels.

The utility model discloses an adapt to full-automatic commodity circulation AGV operation and the utensil chassis system of research and development, its main function is for satisfying the requirement of commodity circulation AGV to the commodity circulation utensil, integrates three big functional unit in utensil chassis system.

Firstly, the appliances can be mutually hung and connected into a string, the function is realized by the front and back traction cooperation of the appliances, the front traction iron ring of the appliance collides with the back traction 3 steel column of another appliance, and the steel column is sleeved into the iron ring to complete the connection. When the devices need to be unhooked, the rear traction swing rod is lifted upwards through the ground stop iron, the rear traction 3 steel column loses the limit and can freely rotate, and the rear traction 2 steel column is separated from the iron ring of the rear device, so that unhooking between the two devices is completed.

And secondly, cooperation between the logistics appliances and the AGV. When the logistics AGV and the logistics appliance are matched, two conditions are mainly adopted, namely firstly, a single AGV drills into the lower part of the single appliance, the single AGV and the bottom hanging buckle 1 are matched through a lifting pin to generate a reliable connection relation, and at the moment, in order to meet the actions of turning, translation, in-situ rotation and the like of the AGV, four trundles of the logistics appliance are all universal wheels; secondly, a single AGV directly carries a single appliance, and a second appliance is carried behind the appliance through a traction mechanism, so that the rear wheel of the appliance is in an orientation wheel state in order to avoid the tail flicking of the rear appliance, namely a one-to-two running state. The function of switching the caster wheel of the appliance between the directional wheel and the universal wheel is realized by the cooperation of a directional switching mechanism. The method specifically comprises the following steps: when an AGV is drilled below the appliance, the AGV is fixedly connected with the bottom of the appliance through the front lifting pin and the rear lifting pin, the width of the body of the AGV is larger than the natural width between two pairs of nylon wheels 4-1 of the mechanism, so the AGV expands the distance between the nylon wheels to the same width degree as the AGV, the other end of the lever 4-3 reversely moves, the pin hole of the pin of the caster locking pin mechanism 4 is pulled out, the two rear wheels of the appliance are changed into universal wheels, and complex actions such as transverse movement, in-situ rotation and the like of the AGV are met. When the appliance is used as a trailer and is hung behind other appliances, the distance between the two nylon wheels 4-1 of the mechanism is in a natural distance (smaller than the width of the AGV body) because the width of the AGV body is not interfered, at the moment, the lock pin mechanism hinged with the other end of the lever 4-3 is in a bolt state, and the two rear appliances are directional wheels, so that the tail flick in the traction and transportation process is avoided.

The foregoing is a preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, a plurality of improvements and decorations can be made without departing from the principle of the present invention, and these improvements and decorations should also be regarded as the protection scope of the present invention.

Claims (6)

1. A logistics apparatus chassis system adapted for AGV logistics distribution, comprising: chassis, bottom are hung and are detained, pull around, universal auto-switching mechanism is decided to truckle, its characterized in that: the chassis comprises a cross beam, a longitudinal beam and caster brackets, wherein the four caster brackets are respectively fixed on four corners consisting of the cross beam and the longitudinal beam;

the bottom hanging buckle comprises a front hanging buckle and a rear hanging buckle, and the front hanging buckle consists of a concave limiting stop iron and a pair of triangular irons; the concave limiting stop iron is fixed on the front hanging buckle mounting plate, the pair of triangular irons are symmetrically arranged in front of a concave opening of the concave limiting stop iron, and the pair of triangular irons are hinged on the front hanging buckle mounting plate through a rotating shaft; a return spring is sleeved on the rotating shaft, and the end part of the return spring is connected to the triangular iron; the rear hanging buckle is an open groove-shaped stop iron, the middle distance is 20-25mm, and the rear hanging buckle is fixed on the rear hanging buckle mounting plate through bolts;

the front traction device comprises a front swing rod, a front traction support and a front traction plate, wherein the front traction plate is connected in two waist holes of the front traction support through a shaft, the lower part of the front traction plate is connected with a cover plate, a turning plate is fixed on the front swing rod, and the turning plate is positioned at the lower part of the cover plate of the front traction plate;

the rear traction plate comprises a rear swing rod, a rear traction support and a cross traction pin, wherein a rear turning plate is fixed on the rear swing rod, the top of the cross traction pin is arranged on the rear turning plate and is 5-8mm higher than the upper plane of the rear turning plate, and the cross traction pin is connected to the rear traction seat through a shaft; a guide plate is fixed on the rear traction seat, a waist hole is formed in the guide plate, and the bottom of the cross traction pin can move in the waist hole of the guide plate when the cross traction pin rotates;

the caster fixed universal automatic switching mechanism comprises a transverse plate, a nylon wheel and a lever, wherein the transverse plate is fixedly connected with a caster bracket, the lever is hinged with the transverse plate at a fulcrum, the tail end of a fork opening of the lever is hinged with the nylon wheel, and the other end of the lever is hinged with a caster pin; one end of the transverse plate is provided with a rotating shaft hole which is connected to the lever fulcrum through a rotating shaft, the rotating shaft is positioned on the inner side of the caster bracket, the other end of the transverse plate is provided with a waist hole, a connecting plate is arranged at the position of the transverse plate close to the rotating shaft, and the connecting plate is provided with a through hole.

2. The logistics apparatus chassis system of claim 1, wherein the cross board is symmetrically mounted on the caster brackets at both sides, the nylon wheels on the lever hinged to the cross board are symmetrically arranged, and the distance between the two nylon wheels is smaller than the width of the AGV body.

3. The system of claim 1, wherein said fulcrum hole of said lever is located at the center of said lever.

4. The logistics apparatus chassis system of claim 1, wherein the lower surface of the caster bracket is connected with a caster mounting plate through bolts, the caster mounting plate is fixed with a bearing, the caster is fixed on the bearing rotating around the vertical direction, the outer circle of the bearing is provided with a pin opening, meanwhile, the caster mounting plate is provided with a caster pin guide block, a caster pin is inserted into the caster pin guide block, and the caster pin axially moves in the caster pin guide block.

5. The logistics apparatus chassis system of claim 4, wherein the caster pin guide block is provided with a compression spring, the compression spring keeps the caster pin always in a latch tendency in the caster pin guide block.

6. The logistics apparatus chassis system suitable for AGV logistics distribution of claim 1, wherein one end of the caster pin close to the bearing is inserted into and pulled out of a pin hole on the outer circle of the bearing, and the other end of the caster pin is provided with a through hole in the radial direction, and the through hole is hinged with a fork hole at the tail end of the lever through a pin shaft.

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