CN2880498Y - Electric heating mould for full automatic punching binder - Google Patents
Electric heating mould for full automatic punching binder Download PDFInfo
- Publication number
- CN2880498Y CN2880498Y CN 200520131065 CN200520131065U CN2880498Y CN 2880498 Y CN2880498 Y CN 2880498Y CN 200520131065 CN200520131065 CN 200520131065 CN 200520131065 U CN200520131065 U CN 200520131065U CN 2880498 Y CN2880498 Y CN 2880498Y
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- slide block
- cam
- contacts
- disk cam
- guide rail
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Abstract
The utility model discloses an electric-heating mould for automatic bookbinding machines, and the mould is featured with simple and reasonable structure, environment protection and high efficiency. The mould includes an upper mould and a lower mould. The mould consists of a support wall, a disc cam arranged coaxial with the cylinder cam, a roller contacted with the working end face of the cylinder cam, and a sliding block contacted with the rotating working end face of the disc cam. The roller is fixing connected with the sliding block. The sliding block mechanism includes a sliding block on the support rod, and a spring on the support rod between the sliding block and the support wall. One end of the sliding block is equipped with a rail contacted with the rotating working end face of the disc cam, and the other end of the rail is equipped with a concave mould. Or the spring is arranged between the rail and the support wall. The cylinder cam and the disc cam are parallel connected, and a transmission device is arranged between the upper heating mould and the lower heating mould.
Description
Technical field
The utility model relates to a kind of parts of perforating binding machine, especially relates to a kind of electrical heating die device of bill perforating binding machine.
Background technology
Prosperity along with market economy, the efficient of business activity is more and more higher, the portfolio of bearing as the financial circles of main stage of economic life and social life important pivot also unprecedentedly improves thereupon, the standard of the various novel means of payment constantly rises the use amount of various bills with improving, the bill binding work is transformed into an important step by an aided process, the efficient that this task is finished can directly influence the efficient of finance activities, equally, the quality of this work also can influence the quality of finance activities, thereby further influences the prestige of financial institution in market.So traditional hand-stitching bill mode has no longer adapted to this high-quality and efficient job requirement, will be eliminated.Meanwhile, modern's the awareness of environment protection and health is more and more higher, traditional paper punching (boring, punching) mode produces a large amount of flying chips, and is all very harmful to air and human body, so press for a kind of high bill binding device of automaticity of novel environmental protection.At present, the automatic hole punching and bookbinding machine that does not have flying chip, environment-friendly type in the prior art, basically all be semiautomatic equipment, usually, after punching is finished automatically, need manually-operated that plastic tube is put into the hole, depress heating mould hot melting plastic pipe and finish bookbinding, its weak point is: its inefficiency, can not realize punching, the operation of bookbinding overall process full automation.
The utility model content
The purpose of this utility model is to overcome the deficiencies in the prior art, a kind of simple and reasonable, electrical heating die device that is used for the full automatically punching binding machine of being beneficial to environmental protection, high efficiency is provided, adopts the perforating binding machine of the utility model mould can realize punching, bookbinding overall process full automation.
In order to solve the problems of the technologies described above, the utility model is used for the electrical heating die device of full automatically punching binding machine, comprise upper and lower two mold mechanisms, described mold mechanism comprise supporting walls, and with the disk cam of the coaxial setting of cylindrical cam, the roller mechanism that contacts with described cylindrical cam operative end surface, the slide block mechanism that contacts with described disk cam revolution working face; Described roller mechanism is fixedlyed connected with the slide block in the described slide block mechanism; Described slide block mechanism comprises the spring between slide block and supporting walls on slide block on the support bar, the support bar, and an end of described slide block is provided with the guide rail that contacts with described disk cam revolution working face, and described guide rail the other end is provided with die.Or above-mentioned spring is arranged between described guide rail and the supporting walls.
It is to comprise upper and lower two mold mechanisms that the electrical heating die device that the utility model is used for the full automatically punching binding machine also has another technical scheme, described mold mechanism comprise supporting walls, and with the disk cam of the coaxial setting of cylindrical cam, the roller mechanism that contacts with described cylindrical cam operative end surface, the slide block mechanism that contacts with described disk cam revolution working face; Described roller mechanism and described slide block mechanism are slidingly connected; Slide block in the described slide block mechanism is arranged on the Roller Shaft, and described Roller Shaft one end is provided with roller, and its other end is provided with die; Be provided with spring between support bar on the described slide block and the supporting walls on the equipment, described slide block is provided with guide rail, and described guide rail contacts with the winding working face of described disk cam.Or above-mentioned spring is arranged between described guide rail and the supporting walls.
In the utility model, described cylindrical cam and described disk cam are and the formula that connects makes up; Be provided with transmission device between the described upper and lower heating mould mechanism.
Compared with prior art, the beneficial effects of the utility model are: the upper and lower heating mould structure in the utility model is identical, only adopts two groups and connect the cam mechanism of formula combination, and it is simple and reasonable.In forwarding, the existing horizontal movement in a motion cycle of upper and lower heating mould has rectilinear motion again, and can rest at the volley; In addition, the utilization cam mechanism also makes mould move to extreme position to fix, and is convenient to upper and lower heating mould location, thereby, can realize punching, binding the full automation of overall process.
Description of drawings
Fig. 1-the 1st, the schematic diagram of mechanism of following heating mould in the utility model electrical heating die device;
Fig. 1-2 is a schematic diagram of mechanism of going up heating mould in the utility model electrical heating die device;
Fig. 2 is a upper and lower heating mould motion cycle chart in the utility model;
Fig. 3-1, Fig. 3-2 and Fig. 3-the 3rd, the schematic diagram of mechanism of following heating mould in several specific embodiments of the utility model;
Fig. 4 is the structure diagram that adopts full automatically punching binding machine of the present utility model;
Fig. 5-the 1st descends the movement locus figure of heating mould 17 as Figure 1-1;
Fig. 5-the 2nd, the movement locus figure of last heating mould 23 shown in the Fig. 1-2 of institute.
Be the explanation of Reference numeral in the utility model Figure of description below:
1---circuit control system 2---decelerator
3---main motor 4---screw mandrel
5---slide block 6---crumb loading device
The self-locking cover compresses mechanism with 7---hollow boring bits 8---
9---chip discharging tube 10---stepper motor
11--- cone gear reducer 27,12---disc cam
24,13--- cylindrical cam 14,25---brake apparatus
15,26,28---clutch 16---gear reduction unit
23,17---upper and lower heating mould 18---feeding motor
19---belt pulley and belt 20---vernier
21---pulley decelerates device 22---plastic tube pressure cap
29---workbench 30---guide pillar
31,32---guide rail 33,34---slide block
35,36---roller mechanism 39,40---spring
The specific embodiment
Below in conjunction with accompanying drawing the utility model is done and to be described in further detail.
As Fig. 1-1, Fig. 1-2 and shown in Figure 4, the utility model is used for the electrical heating die device of full automatically punching binding machine, comprise heating mould 23 and following heating mould 17, the described basic structure that goes up heating mould 23 and following heating mould 17 is identical, and the bare bones in each mould has cylindrical cam 13 or 24, disk cam 12 or 27, guide rail 31 or 32, roller mechanism 35 or 36, spring 40 or 39, slide block 33 or 34.Be described for example for the ease of narrating following heating mould 17, described down heating mould 17 comprise supporting walls, with the disk cam 12 of cylindrical cam 13 coaxial settings, the roller mechanism 35 that contacts with the operative end surface of described cylindrical cam 13, the slide block mechanism that contacts with described disk cam 12 revolution working faces; Described roller mechanism 35 is fixedlyed connected with described slide block mechanism; Described slide block mechanism comprises the spring 40 between slide block 33 and supporting walls on slide block 33 on the support bar, the support bar, and an end of described slide block 33 is provided with the guide rail 31 that contacts with described disk cam 12 revolution working faces, and its other end is provided with die M.Shown in Fig. 3-1, another embodiment is that the spring in above-mentioned 40 is arranged between described guide rail 31 and the supporting walls.
It is another technical scheme of the utility model of example that Fig. 3-3 shows the following heating mould that is used for the electrical heating die device of full automatically punching binding machine with the utility model, be described down heating mould 17 comprise supporting walls, with the disk cam 12 of cylindrical cam 13 coaxial settings, the roller mechanism 35 that contacts with the operative end surface of described cylindrical cam 13, the slide block mechanism that contacts with the revolution working face of described disk cam 12; Described roller mechanism 35 is to be slidingly connected with described slide block mechanism, and promptly described slide block 33 is to be sleeved on the Roller Shaft of roller mechanism 35; One end of described Roller Shaft is provided with roller, and its other end is provided with die M; Be provided with spring 40 between support bar on the described slide block 33 and the supporting walls, the other end of described slide block 33 is provided with guide rail 31, and described slide block 33 is structure as a whole with support bar, is welding between the two; Described slide block 33 also is structure as a whole with guide rail 31, and it is welding between the two; Described guide rail 31 contacts with the winding working face of described disk cam 12.Shown in Fig. 3-2, another embodiment is that the spring among above-mentioned Fig. 3-3 40 is arranged between described guide rail 31 and the supporting walls.
As shown in Figure 4, no matter adopt above-mentioned which kind of specific embodiment, described cylindrical cam 24 (or 13) and described disk cam 27 (or 12) in last heating mould in the utility model or the following heating mould structure are and connect the formula combination; Be provided with transmission device between heating mould 23 and the following heating mould 17 on described, described transmission device adopts reducer structure, can comprise the multi-stage speed reducer that belt pulley transmission and gear drive constitute.In the utility model course of work, upper and lower heating mould has all been required horizontal movement and rectilinear motion, and required to rest, therefore the structure of upper and lower heating mould is identical.As everyone knows, though the cam mechanism in the machine driving can be realized any track, but single cam can't satisfy simultaneously horizontal movement and move both vertically synthetic, therefore, cylindrical cam in the utility model and disk cam adopt is and connects the formula compound mode two groups of cams are made up.
Further specify this two groups of attainable movement locus in cam combination back below.
As shown in Figure 4, after having beaten the hole, hollow boring bit 7 is return original position, by the mould 23 in the utility model electrical heating die device and 17 plastic tube in the hole 22 is heated.Following heating mould 17 needs first horizontal movement to rest to extreme position and maintenance, when the long Pipe Cutting assembly of automatic survey cuts off plastic tube 22, plastic tube 22 utilizes its gravity to drop on down on the pilot pin of heating mould 17, this pilot pin plays positioning action, be used for determining the position of fallen plastic tube 22, and this plastic tube 22 delivered in the bill hole, following heating mould 17 horizontal movements are after original position, move upward to extreme position immediately and also keep resting, behind the hot melting plastic pipe, following heating mould 17 moves to original position vertically downward, finish a circulation, its movement locus is shown in Fig. 5-1, that is: following heating mould 17 rests at the A point at first from B → A, then from A → B → C, rest at the C point, C → B so far finishes once circulation then.Meanwhile, plastic tube hot melt in 23 pairs of holes of last heating mould needs and moves both vertically and since last heating mould 23 can not with the slide block 5 of band hollow boring bit 7 at same vertical plane, therefore, need horizontal movement, the movement locus of above heating mould 23 shown in Fig. 5-2, that is: the E point is an original position, earlier from E → D → F, rest heating at the F point,, get back to original position and finish circulation then from F → D → E.From the movement locus of above-mentioned upper and lower heating mould as can be known, the function that these two moulds need is identical: can realize horizontal movement simultaneously and move both vertically, and can rest.
Learn according to motion conversion basic function, can realize that continuous rotation → bilateral rests the mechanism that straight line moves and has: the reciprocating follower cam mechanism, utilize link trajectory to realize resting that motion, partial gear tooth bar move back and forth indexing mechanism, partial gear moving leader indexing mechanism.Because the track of linkage is a curve, incomplete gear mechanism is beginning to mesh and break away from when meshing that shortcomings such as bigger impact and noise are arranged, so the utility model has adopted cam mechanism.
Respectively the motion cycle of following heating mould and last heating mould in the utility model is described in detail below in conjunction with Fig. 1-1, Fig. 1-2 and Fig. 2.
Following heating mould 17: at the uniform velocity angular speed input of w1, with 360 ° be a cycle period, in 0~Φ 3, in Fig. 1-1, the rotation of disk cam 12 occurs on the cambered surface of minor radius r1 correspondence, and guide rail 31 keeps vertically resting, and promptly descends the M point of heating mould 17 to keep vertically resting.Realize horizontal movement at 0~Φ 1 (3<360 ° of Φ 1<Φ 2<Φ) cylindrical cam 13, under the effect of spring 40, the Roller Shaft in the roller mechanism 35 moves to the limit on the left position, promptly descends the M point of heating mould 17 to move to the limit on the left position from the limit on the right-right-hand limit position; At Φ 1~Φ 2, cylindrical cam 13 makes the M point maintenance level of mould 17 rest; At Φ 2~Φ 3 because after cylindrical cam 13 rotates an angle, compression spring 40, at this moment, the M of following heating mould 17 point from the horizontal movement of limit on the left position to the limit on the right-right-hand limit position.Following heating mould 17 has been finished the process from B → A → B shown in Fig. 5-1.3~360 ° of Φ, cylindrical cam 13 effects make the horizontal limit on the right-right-hand limit of M point maintenance rest.At Φ 3~Φ 4 (6<360 ° of Φ 3<Φ 4<Φ 5<Φ), under the effect of disk cam 12, the M point moves to the limes superiors position; At Φ 4~Φ 5, disk cam 12 makes the M point keep vertically resting in limes superiors, finishes the process of heating mould hot melting plastic pipe; At Φ 5~Φ 6, disk cam 12 makes the M point move to limit inferior (being original position) from limes superiors, and 6~360 ° of Φ, M point keep resting vertically resting.Following heating mould 17 has been finished as shown in Fig. 5-1 process from B → C → B.
Last heating mould 23: same as shown in Fig. 1-2, described disk cam 27 is realized moving both vertically, and cylindrical cam 24 is realized horizontal movement.In at the uniform velocity angular speed input of w1, with 360 ° be a cycle period, in 0~Φ 2, in Fig. 1-2, because the effect of cylindrical cam 24 and disk cam 27 makes the K point maintenance original position that goes up on the heating mould 23 rest; At Φ 2~Φ 3 (7<360 ° of Φ 2<Φ 3<Φ 4<Φ 5<Φ 6<Φ), because the effect of cylindrical cam 24 makes the horizontal movement of K point move to limit on the right-right-hand limit from original position (limit on the left), disk cam 27 still makes the K point keep vertically resting; At Φ 3~Φ 4, disk cam 27 makes the K point realize moving both vertically, and promptly the K point moves to limit inferior from limes superiors, and cylindrical cam 24 rests K point maintenance level; At Φ 4~Φ 5, cylindrical cam 24 and disk cam 27 make K point maintenance level, vertical resting, and finish the process of heating mould 23 hot melting plastic pipes; At Φ 5~Φ 6, disk cam 27 makes the K point move to the limes superiors position from the limit inferior position, and cylindrical cam 24 rests K point maintenance level; At Φ 6~Φ 7, disk cam 27 makes the K point keep vertically resting, and cylindrical cam 24 makes the K point move to limit on the left (original position) from limit on the right-right-hand limit.Last heating mould 23 has been finished the process from E → D → F → D → E as shown in Fig. 5-2.
The heating mould 23 that powers in the utility model can both be realized horizontal movement respectively with following electrical heating mould 17 and move both vertically, thereby make the heating mould 23 that powers in motion process, can avoid perforating device, following electrical heating mould 17 can be chosen plastic tube automatically, finishes reflow process with the heating mould 23 that powers on then.
Figure 4 shows that the structure diagram of the full automatically punching binding machine that has adopted the utility model electrical heating mould, according to the method for sequential keyboard encoder combination, the sequence of movement of perforating binding machine is as follows:
1, file (bill) is determined punching number and position
When file (bill) neatly being placed on the workbench 29 that belt makes, vernier 20 is moved to the position that needs punching, vernier 20 is corresponding makes a call to a hole.Start power supply, stepper motor 10 rotations drive belt workbench 29 and slowly move right, and vernier 20 and file move with workbench 29.Under punching hollow boring bit 7 optoelectronic switch is arranged, when vernier 20 moves to the optoelectronic switch place, trigger optoelectronic switch, circuit control system receives signal.
2, punching
After circuit control system receives signal, make stepper motor 10 stalls, file is parked in the position that punching is set, feeding motor 18 and main motor 3 start, clutch 28 is connected, feeding motor 18 makes the screw mandrel 4 of worm drive system rotate by cone gear reducer 11 and slide block 5 is moved downward along guide pillar 30, move downward along guide pillar 30 together thereby make slide block 5 make the self-locking cover compress mechanism 8 by the power effect.When main motor 3 drives hollow boring bit 7 low speed rotation by decelerator 2, in the punching process, paper scrap is by the hollow-core construction of hollow boring bit 7, and process chip discharging tube 9 is collected in the crumb loading device 6, after hollow boring bit 7 is finished punching, trigger feeler, make 18 counter-rotatings of feeding motor, slide block 5 moves upward, and triggers travel switch when getting back to original position.The self-locking cover compresses mechanism 8 and continues to compress file.
3, Pipe Cutting, bookbinding
After slide block 5 triggered travel switch, control system was just being changeed feeding motor 18, and clutch 28 disconnects, and clutch 15 and clutch 26 are connected.Feeding motor 18 makes that by gear reduction unit 16 heating mould 17 moves down, simultaneously, pulley decelerates device 21 drives goes up heating mould 23 motions, following heating mould 17 horizontal movements are to the limit on the left position and rest, automatically surveying long pipe installation cuts off plastic tube 22 automatically, plastic tube 22 drops on down on the pilot pin of heating mould 17, following heating mould 17 is transported to plastic tube 22 in the file hole, on, following heating mould 23 and 17 hot melting plastic pipes 22 are finished bookbinding, on, following heating mould 23 and 17 repositions trigger travel switch, the self-locking cover compresses mechanism 8 and unclamp file under the effect of last heating mould 23, compress at the self-locking cover return under the effect of mechanism's 8 medi-springs above.
Following heating mould 17 triggering signals, clutch 15 and clutch 26 disconnect, and brake apparatus 14 and brake apparatus 25 start, upper and lower heating mould 23 and the braking of 17 power shafts, upper and lower heating mould 23 and 17 is finished 360 ° of circulations; Simultaneously, stepper motor 10 starts.
4, after above-mentioned steps 1-3 finished the punching binding in a hole, stepper motor 10 rotated the drive file and beats next hole.
By that analogy, finish the overall process of punching binding.
Although in conjunction with the accompanying drawings preferred embodiment of the present utility model is described above; but the utility model is not limited to the above-mentioned specific embodiment; the above-mentioned specific embodiment only is schematic; rather than it is restrictive; those of ordinary skill in the art is under enlightenment of the present utility model; not breaking away under the scope situation that the utility model aim and claim protect, can also make a lot of forms, these all belong within the protection of the present utility model.
Claims (8)
1. electrical heating die device that is used for the full automatically punching binding machine, comprise upper and lower two mold mechanisms, it is characterized in that, described mold mechanism comprise supporting walls, and with the disk cam of the coaxial setting of cylindrical cam, the roller mechanism that contacts with described cylindrical cam operative end surface, the slide block mechanism that contacts with described disk cam revolution working face; Described roller mechanism is fixedlyed connected with the slide block in the described slide block mechanism; Described slide block mechanism comprises the spring between slide block and supporting walls on slide block on the support bar, the support bar, and an end of described slide block is provided with the guide rail that contacts with described disk cam revolution working face, and the other end of described guide rail is provided with die.
2. the electrical heating die device that is used for the full automatically punching binding machine according to claim 1, wherein, described cylindrical cam and described disk cam are and the formula that connects makes up; Be provided with transmission device between the described upper and lower mold mechanism.
3. electrical heating die device that is used for the full automatically punching binding machine, comprise upper and lower two mold mechanisms, it is characterized in that, described mold mechanism comprise supporting walls, and with the disk cam of the coaxial setting of cylindrical cam, the roller mechanism that contacts with described cylindrical cam operative end surface, the slide block mechanism that contacts with described disk cam revolution working face; Described roller mechanism is fixedlyed connected with the slide block in the described slide block mechanism; Described slide block mechanism comprises that an end of the slide block on the support bar, described slide block is provided with the guide rail that contacts with described disk cam revolution working face, and the other end of described guide rail is provided with die; Be provided with spring between described guide rail and the supporting walls.
4. the electrical heating die device that is used for the full automatically punching binding machine according to claim 3, wherein, described cylindrical cam and described disk cam are and the formula that connects makes up; Be provided with transmission device between the described upper and lower mold mechanism.
5. electrical heating die device that is used for the full automatically punching binding machine, comprise upper and lower two mold mechanisms, it is characterized in that, described mold mechanism comprise supporting walls, and with the disk cam of the coaxial setting of cylindrical cam, the roller mechanism that contacts with described cylindrical cam operative end surface, the slide block mechanism that contacts with described disk cam revolution working face; Described roller mechanism and described slide block mechanism are slidingly connected; Described Roller Shaft one end is provided with roller, and its other end is provided with die; Slide block in the described slide block mechanism is arranged on the Roller Shaft, is provided with spring between support bar on the described slide block and the supporting walls, and described slide block is provided with guide rail, and described guide rail contacts with the winding working face of described disk cam.
6. the electrical heating die device that is used for the full automatically punching binding machine according to claim 5, wherein, described cylindrical cam and described disk cam are and the formula that connects makes up; Be provided with transmission device between the described upper and lower mold mechanism.
7. electrical heating die device that is used for the full automatically punching binding machine, comprise upper and lower two mold mechanisms, it is characterized in that, described mold mechanism comprise supporting walls, and with the disk cam of the coaxial setting of cylindrical cam, the roller mechanism that contacts with described cylindrical cam operative end surface, the slide block mechanism that contacts with described disk cam revolution working face; Described roller mechanism and described slide block mechanism are slidingly connected; Described Roller Shaft one end is provided with roller, and its other end is provided with die; Slide block in the described slide block mechanism is arranged on the Roller Shaft, is provided with support bar between described slide block and the supporting walls, and described slide block is provided with guide rail, and described guide rail contacts with the winding working face of described disk cam; Be provided with spring between described guide rail and the supporting walls,
8. the electrical heating die device that is used for the full automatically punching binding machine according to claim 7, wherein, described cylindrical cam and described disk cam are and the formula that connects makes up; Be provided with transmission device between the described upper and lower mold mechanism.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN 200520131065 CN2880498Y (en) | 2005-12-31 | 2005-12-31 | Electric heating mould for full automatic punching binder |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN 200520131065 CN2880498Y (en) | 2005-12-31 | 2005-12-31 | Electric heating mould for full automatic punching binder |
Publications (1)
Publication Number | Publication Date |
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CN2880498Y true CN2880498Y (en) | 2007-03-21 |
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Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
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CN 200520131065 Expired - Fee Related CN2880498Y (en) | 2005-12-31 | 2005-12-31 | Electric heating mould for full automatic punching binder |
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Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN104924797A (en) * | 2015-06-24 | 2015-09-23 | 成都瑞达科恒科技有限公司 | Structure-improved binding machine |
CN105108824A (en) * | 2015-08-28 | 2015-12-02 | 广西大学 | Adjustable punching mechanism |
-
2005
- 2005-12-31 CN CN 200520131065 patent/CN2880498Y/en not_active Expired - Fee Related
Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN104924797A (en) * | 2015-06-24 | 2015-09-23 | 成都瑞达科恒科技有限公司 | Structure-improved binding machine |
CN105108824A (en) * | 2015-08-28 | 2015-12-02 | 广西大学 | Adjustable punching mechanism |
CN105108824B (en) * | 2015-08-28 | 2017-06-16 | 广西大学 | A kind of perforating mechanism for being capable of mode |
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