CN218476859U - Composite line for upper plate and lower plate of door pocket - Google Patents

Abstract

The utility model particularly discloses a door pocket lower plate composite line, which comprises an electronic sawing machine, a glue spraying composite mechanism, a sealing edge mechanism, a chamfering connecting line mechanism, an unloading mechanism and a material transferring mechanism, wherein the electronic sawing machine is used for cutting a veneer; the glue spraying composite mechanism is used for assembling the veneer and the substrate; the edge sealing mechanism is used for sealing edges of the combined veneer and the substrate; the chamfering and wiring mechanism is used for chamfering the veneer and the substrate after edge sealing; the discharging mechanism is used for discharging the chamfered finished product; the material transfer mechanism is used for transferring the veneer, the substrate and the finished product. The utility model discloses with a plurality of equipment integration in an organic whole, avoid causing the flow to be difficult to coordinate, improve equipment, place, the utilization ratio of time, whole line has reduced artificial directness or indirect participation simultaneously by equipment automated processing, has guaranteed the product quality of door pocket board.

Description

Composite line for upper plate and lower plate of door pocket

Technical Field

The utility model relates to a door pocket processing technology field, concretely relates to lower plate composite line on door pocket.

Background

At present, door pocket products processed in the technical field of door pocket processing are generally of a three-layer plate composite structure, wherein an upper substrate, a middle substrate and a lower substrate are respectively an upper substrate, a veneer and a lower substrate. Therefore, three layers of plates need to be compounded to obtain the door pocket blank required by door pocket processing. The existing composite production of door pocket blanks comprises equipment/processes such as a large plate gluing machine, a cold press, a curing module, a multi-blade saw and the like. However, each device is processed by a single machine, manual operation is needed when the plates are placed and collected, a large amount of space is occupied, the cost of human resources and the use cost are high, and the working efficiency is low; in addition, the floor surface is easily damaged correspondingly through manual plate placing, plate collecting and plate conveying movement for many times in the machining process, and the quality of products is affected.

In conclusion, because the door pocket needs to be processed by different devices respectively, the integration level of the existing processing device is not high, the flow is difficult to coordinate, the waste of the device, the field, the time and the energy is caused, and the product quality of the door pocket plate is influenced. Therefore, we propose a composite line for the upper and lower panels of the door frame to solve the above problems.

SUMMERY OF THE UTILITY MODEL

Because the door pocket need use different equipment to process respectively to prior art exists, current processing equipment integrated level is not high, and the flow is difficult to coordinate, causes equipment, place, time and energy extravagant to influence the product quality's of door pocket board defect, the utility model provides a door pocket is gone up hypoplastron composite line and is used for overcoming above-mentioned defect.

A composite line for upper and lower plates of door pocket comprises

The electronic sawing machine is used for cutting the veneer;

the glue spraying and combining mechanism is used for assembling the veneer and the substrate;

the edge sealing mechanism is used for sealing edges of the combined veneer and the base plate;

the chamfering and connecting mechanism is used for chamfering the veneer and the substrate after edge sealing;

the discharging mechanism is used for discharging the chamfered finished product;

and the material transfer mechanism is used for transferring the veneer, the substrate and the finished product.

According to the preferable scheme, the glue spraying and combining mechanism comprises a first conveying roller and a manual combining table, the feeding end of the first conveying roller is connected with the discharging end of the electronic sawing machine through a corner conveying table, the manual combining table is arranged at the discharging end of the first conveying roller, and a first glue dispenser is arranged on the side edge of the first conveying roller and close to the discharging end of the first conveying roller.

Preferably, a lower substrate feeding roller is arranged on the side edge of the first conveying roller and parallel to the first conveying roller, and a discharging end of the lower substrate feeding roller is flush with a feeding end of the artificial composite table.

According to the preferable scheme, a first pressing and sizing edge milling machine is installed at the discharge end of the manual composite table, a second conveying roller is arranged at the discharge end of the first pressing and sizing edge milling machine, the discharge end of the second conveying roller is connected with the automatic composite table, and a second glue dispenser is arranged on the side edge of the second conveying roller and close to the discharge end of the second conveying roller.

As a preferred scheme, the glue spraying composite mechanism further comprises an upper substrate feeding roller, the upper substrate feeding roller is arranged in parallel to the lower substrate feeding roller, and a transition roller is arranged at the discharge end of the upper substrate feeding roller;

a feeding portal frame is erected between the transition roller and the automatic compounding table, and a second pressing, sizing and edge milling machine is arranged at the discharge end of the automatic compounding table.

As a preferred scheme, the edge sealing mechanism comprises a first single-side edge sealing machine and a second single-side edge sealing machine, and a third conveying roller is connected between the first single-side edge sealing machine and the second pressing and sizing edge milling machine; the first single-side edge bonding machine and the second single-side edge bonding machine are arranged in parallel, and the feeding directions of the first single-side edge bonding machine and the second single-side edge bonding machine are opposite;

the discharge end of the first single-side edge bonding machine is connected with the feed end of the second single-side edge bonding machine through a corner conveyor.

Preferably, the corner conveyor comprises a first transverse roller and a second transverse roller which are connected in a straight line, one end of the first transverse roller is connected with the discharge end of the first single-side edge sealing machine, and the second transverse roller is provided with a first vertical roller capable of ascending and descending;

the corner conveyor further comprises a third transverse roller and a fourth transverse roller which are connected in a straight line, one end of the third transverse roller is connected with the feeding end of the second single-side edge sealing machine, and a third liftable longitudinal roller is mounted on the fourth transverse roller;

a second longitudinal roller is arranged between the second transverse roller and the fourth transverse roller, and two ends of the second longitudinal roller are respectively arranged corresponding to the first longitudinal roller and the third longitudinal roller; the feeding direction of the first transverse roller is opposite to that of the third transverse roller.

Preferably, the chamfering and connecting mechanism comprises a first R-angle edge rolling machine and a second R-angle edge rolling machine, and a fifth conveying roller is arranged between the first R-angle edge rolling machine and the second R-angle edge rolling machine;

a fourth conveying roller is installed between the first R corner edge rolling machine and the second single-side edge sealing machine, and a sixth conveying roller is arranged at the discharge end of the second R corner edge rolling machine.

Preferably, the discharging mechanism comprises a discharging roller arranged in parallel with the sixth conveying roller, and a discharging portal frame is erected between the discharging roller and the sixth conveying roller.

As a preferred scheme, the material transfer mechanism comprises symmetrical ground rails, heavy-duty traveling vehicles are slidably mounted on the symmetrical ground rails, and the ground rails are arranged between the electronic sawing machine and the blanking roller;

and the lower substrate feeding roller, the upper substrate feeding roller and the discharging roller are all perpendicular to the ground rail.

Has the advantages that: the utility model provides a board compound line about door pocket has included electronic sawing machine, spout gluey combined mechanism, banding mechanism, chamfer link line mechanism, shedding mechanism and material transfer mechanism, wherein, electronic sawing machine is used for cutting the decorative panel and expects, spout gluey combined mechanism and be used for the equipment of decorative panel and base plate, banding mechanism is used for carrying out the banding to decorative panel after the complex and base plate, chamfer link line mechanism is used for carrying out the chamfer to decorative panel after the banding and base plate and handles, shedding mechanism is used for unloading the processing to the finished product after the chamfer, material transfer mechanism is used for shifting the decorative panel, base plate and finished product, the utility model discloses integrate a plurality of equipment in an organic whole, avoid causing the flow to be difficult to coordinate, improve equipment, place, the utilization ratio of time, full line is by equipment automated processing simultaneously, has reduced artificial direct or indirect participation, has guaranteed the product quality of door pocket board.

Drawings

Fig. 1 is a schematic structural diagram of the present invention.

Fig. 2 is a partial schematic view of the front section of fig. 1 according to the present invention.

Fig. 3 is a schematic diagram of a middle portion of fig. 1 according to the present invention.

Fig. 4 is a schematic structural view of the corner conveyor of the present invention.

In the figure: 1-electronic sawing machine; 2-corner conveying table; 3-a first transport drum; 4-a first dispenser; 5-lower substrate feeding roller; 6-artificial compound platform; 7-a first press fit fixed length edge milling machine; 8-a second transport drum; 9-a second dispenser; 10-an automatic compounding station; 11-loading the substrate on a roller; 12-a transition drum; 13-feeding a portal frame; 14-a second pressing, sizing and edge milling machine; 15-a third transport drum; 16-a first single-side edge bonding machine; 17-corner conveyor; 18-a second single-side edge bonding machine; 19-a fourth transport cylinder; 20-a first R-corner edge roller; 21-a fifth transport drum; 22-a second R-corner edge rolling machine; 23-a sixth transport drum; 24-a blanking portal frame; 25-a blanking roller; 26-ground rail; 27-heavy type traveling vehicle; 1701-first transverse cylinder; 1702-a second transverse roller; 1703-a first longitudinal roller; 1704-a second longitudinal roller; 1705-a third transverse roller; 1706-a fourth transverse roller; 1707-third longitudinal roller.

Detailed Description

The present invention will now be described in further detail with reference to the accompanying drawings. The drawings are simplified schematic drawings, which illustrate the basic structure of the present invention in a schematic manner, and thus show only the components related to the present invention.

In the present invention, it should be noted that the terms "upper", "lower", "inner", "outer", "close", "far", "between", "in", "out", "reverse", "parallel", "perpendicular", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplification of description, but do not indicate or imply that the device or element referred to must have a specific orientation, be constructed in a specific orientation, and be operated, and thus, should not be construed as limiting the present invention; the terms "first," "second," "third," "fourth," "fifth," and "sixth" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance; furthermore, unless expressly stated or limited otherwise, the terms "mounted," "connected," and "connected" are to be construed broadly, as they may be fixedly connected, detachably connected, or integrally connected, for example; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meaning of the above terms in the present invention can be understood in specific cases to those skilled in the art.

As shown in fig. 1, the utility model provides a door pocket lower plate compound line, which comprises an electronic sawing machine 1, a glue spraying compound mechanism, a sealing mechanism, a chamfering connecting mechanism, a discharging mechanism and a material transferring mechanism, wherein the electronic sawing machine 1 is used for cutting veneer; the glue spraying composite mechanism is used for assembling the veneer and the substrate; the edge sealing mechanism is used for sealing edges of the combined veneer and the substrate; the chamfering and wiring mechanism is used for chamfering the veneer and the substrate after edge sealing; the discharging mechanism is used for discharging the chamfered finished product; the material transfer mechanism is used for transferring the veneer, the substrate and the finished product; the utility model discloses with a plurality of equipment integration in an organic whole, avoid causing the flow to be difficult to coordinate, improve equipment, place, the utilization ratio of time, the whole line has reduced artificial directness or indirect participation by equipment automated processing simultaneously, has guaranteed the product quality of door pocket board.

Referring to fig. 1, in some examples of the present invention, the glue spraying and combining mechanism includes a first conveying roller 3 and an artificial combining table 6, a feeding end of the first conveying roller 3 is connected to a discharging end of the electronic sawing machine 1 through an angle conveying table 2, the artificial combining table 6 is disposed at the discharging end of the first conveying roller 3, and a first glue dispenser 4 is disposed at a side edge of the first conveying roller 3 and near the discharging end thereof; a lower substrate feeding roller 5 is arranged on the side edge of the first conveying roller 3, the lower substrate feeding roller 5 is parallel to the first conveying roller 3, the discharge end of the lower substrate feeding roller 5 is flush with the feed end of the artificial composite table 6, and a first pressing, sizing and edge milling machine 7 is installed at the discharge end of the artificial composite table 6; adopt this scheme, after the decorative board comes out from electronic sawing machine 1, the decorative board is carried to artifical compound platform 6 along first conveying roller 3, at this in-process, glue is spouted to the lower surface of decorative board to first point gum machine 4, the decorative board after spouting the glue gets into artifical compound platform 6, paste on the decorative board with the infrabasal plate on the infrabasal plate material loading roller 5 by the manual work, decorative board and infrabasal plate synchronous transfer to first pressfitting scale edge milling machine 7 in, carry out the plane pressfitting to infrabasal plate and decorative board by first pressfitting scale edge milling machine 7, scale (infrabasal plate) edge milling simultaneously.

Specifically, referring to fig. 2, a second conveying roller 8 is arranged at a discharge end of the first pressing, sizing and edge milling machine 7, the discharge end of the second conveying roller 8 is connected with an automatic compounding table 10, and a second dispenser 9 is arranged on a side edge of the second conveying roller 8 and close to the discharge end of the second conveying roller; the glue spraying composite mechanism further comprises an upper substrate feeding roller 11, the upper substrate feeding roller 11 is arranged in parallel to the lower substrate feeding roller 5, a transition roller 12 is arranged at the discharge end of the upper substrate feeding roller 11, a feeding portal frame 13 is erected between the transition roller 12 and the automatic composite table 10, and a second pressing and sizing edge milling machine 14 is arranged at the discharge end of the automatic composite table 10; by adopting the scheme, after the lower substrate and the veneer are subjected to plane pressing and fixed-length edge milling, the lower substrate and the veneer are conveyed to the automatic compounding table 10 by the second conveying roller 8, in the process, the second glue dispenser 9 sprays glue on the upper surface of the veneer, the upper substrate is conveyed to the transition roller 12 by the upper substrate feeding roller 11, after the veneer enters the automatic compounding table 10, the feeding portal frame 13 grabs the upper substrate on the transition roller 12 and moves to the automatic compounding table 10, and meanwhile, the upper substrate is adhered to the upper surface of the veneer by automatic positioning, the door pocket at the moment is of a three-layer composite structure, the three-layer composite structure of the door pocket continuously enters the second pressing fixed-length edge milling machine 14, the upper substrate and the veneer are subjected to plane pressing by the second pressing fixed-length edge milling machine 14, and the fixed-length (upper substrate) edge milling is carried out.

Referring to fig. 1, in some examples of the present invention, the edge bonding mechanism includes a first single-side edge bonding machine 16 and a second single-side edge bonding machine 18, and a third conveying roller 15 is connected between the first single-side edge bonding machine 16 and the second press-fit, fixed-length edge milling machine 14; the first single-side edge bonding machine 16 and the second single-side edge bonding machine 18 are arranged in parallel, and the feeding directions of the first single-side edge bonding machine 16 and the second single-side edge bonding machine 18 are opposite; the discharge end of the first single-side edge bonding machine 16 is connected with the feed end of the second single-side edge bonding machine 18 through a corner conveyor 17; by adopting the scheme, the three-layer composite structure of the door pocket enters the first single-side edge bonding machine 16 through the third conveying roller 15 to perform automatic edge bonding, and the first single-side edge bonding machine 16 can only perform edge bonding on one side, so that the composite plate needs to be transferred to the second single-side edge bonding machine 18 by the corner conveyor 17 to perform edge bonding on the other side.

Referring to fig. 4, in some examples of the present invention, the corner conveyor 17 includes a first transverse roller 1701 and a second transverse roller 1702 connected in a line, one end of the first transverse roller 1701 is connected to the discharge end of the first single-side edge bonding machine 16, and the second transverse roller 1702 is mounted with a first vertical roller 1703 that can be raised and lowered; the corner conveyor 17 further comprises a third transverse roller 1705 and a fourth transverse roller 1706 which are connected in a straight line, one end of the third transverse roller 1705 is connected with the feeding end of the second single-side edge bonding machine 18, and the fourth transverse roller 1706 is provided with a third vertical roller 1707 which can be lifted; a second longitudinal roller 1704 is arranged between the second transverse roller 1702 and the fourth transverse roller 1706, and two ends of the second longitudinal roller 1704 are respectively arranged corresponding to the first longitudinal roller 1703 and the third longitudinal roller 1707; the feeding direction of the first transverse roller 1701 is opposite to the feeding direction of the third transverse roller 1705; by adopting the scheme, because the first single-side edge bonding machine 16 and the second single-side edge bonding machine 18 are arranged oppositely, the composite board can enter the second single-side edge bonding machine 18 only through transverse movement and longitudinal movement, for this reason, the first longitudinal roller 1703 is arranged on the second transverse roller 1702, and the first longitudinal roller 1703 can be arranged in a lifting manner, that is, when the composite board does not work, the first longitudinal roller 1703 is positioned below the second transverse roller 1702, after the composite board enters the second transverse roller 1702, the first longitudinal roller 1703 rises to jack up the composite board until the heights of the second transverse roller 1702 and the second longitudinal roller 1704 are consistent, at this time, the second transverse roller 1702 can move to convey the composite board to the second longitudinal roller 1704, in the process, the third longitudinal roller 1707 rises to the same height as the second longitudinal roller 1704, at this time, the composite board on the second longitudinal roller 1704 is conveyed to the third longitudinal roller 7, the third longitudinal roller 7 falls below the third longitudinal roller 1704, and then conveys the composite board 1705 to the third transverse roller 1705, thereby completing the corner conveying of the composite board.

Referring to fig. 1, in some examples of the present invention, the chamfering connecting mechanism includes a first R corner roller edge machine 20 and a second R corner roller edge machine 22, a fifth conveying roller 21 is disposed between the first R corner roller edge machine 20 and the second R corner roller edge machine 22, a fourth conveying roller 19 is disposed between the first R corner roller edge machine 20 and the second single-side edge bonding machine 18, and a sixth conveying roller 23 is disposed at a discharge end of the second R corner roller edge machine 22; by adopting the scheme, the first R corner edge rolling machine 20 and the second R corner edge rolling machine 22 sand the R corners on two sides of the composite board respectively, and then the edge rolling machines decorate laces, printing or other patterns, so that the composite board is prevented from moving again to carry out secondary processing, and the processing quality is improved.

Referring to fig. 1, in some examples of the present invention, the unloading mechanism includes a blanking roller 25 disposed parallel to the sixth conveying roller 23, and a blanking portal frame 24 is erected between the blanking roller 25 and the sixth conveying roller 23; by adopting the scheme, after the composite plate enters the sixth conveying roller 23, the composite plate is moved to the blanking roller 25 by the blanking portal frame 24 and then conveyed out.

Referring to fig. 1, in some examples of the present invention, the material transfer mechanism includes a symmetric ground rail 26, a heavy-duty traveling carriage 27 is slidably mounted on the symmetric ground rail 26, the ground rail 26 is disposed between the electronic sawing machine 1 and the blanking roller 25, and the lower substrate feeding roller 5, the upper substrate feeding roller 11, and the blanking roller 25 are disposed perpendicular to the ground rail 26; adopt this scheme, can carry the infrabasal plate to infrabasal plate material loading cylinder 5 on through heavy migration car 27, can carry the upper substrate again to the infrabasal plate material loading cylinder 11, can also carry the decorative board to electronic sawing machine 1, can also see off the door pocket composite sheet finished product on the unloading cylinder 25 at last, this structure has improved the utilization ratio in equipment and place, can guarantee the product quality of door pocket board, can also improve the transport efficiency of panel.

In the description herein, references to the description of the terms "one embodiment," "certain embodiments," "an illustrative embodiment," "an example," "a specific example," or "some examples," etc., mean that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the invention. In this specification, schematic representations of the above terms do not necessarily refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

The basic principles and the main features of the invention and the advantages of the invention have been shown and described above, it will be evident to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, but that the invention may be embodied in other specific forms without departing from the spirit or essential characteristics of the invention. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Furthermore, it should be understood that although the present description refers to embodiments, not every embodiment may contain only a single embodiment, and such description is for clarity only, and those skilled in the art should integrate the description, and the embodiments may be combined as appropriate to form other embodiments understood by those skilled in the art.

Claims (10)

1. A composite line for upper and lower plates of a door pocket is characterized in that: comprises that

The electronic sawing machine is used for cutting the veneer;

the glue spraying and combining mechanism is used for assembling the veneer and the substrate;

the edge sealing mechanism is used for sealing edges of the combined veneer and the base plate;

the chamfering and connecting mechanism is used for chamfering the veneer and the substrate after edge sealing;

the discharging mechanism is used for discharging the chamfered finished product;

and the material transfer mechanism is used for transferring the veneer, the substrate and the finished product.

2. The door pocket upper plate and lower plate composite line according to claim 1, wherein the glue spraying and combining mechanism comprises a first conveying roller and a manual combining table, a feeding end of the first conveying roller is connected with a discharging end of the electronic sawing machine through a corner conveying table, the manual combining table is arranged at a discharging end of the first conveying roller, and a first glue dispenser is arranged on a side edge of the first conveying roller and close to the discharging end of the first conveying roller.

3. The composite line for the upper and lower plates of the door pocket according to claim 2, wherein a lower substrate feeding roller is disposed at a side of the first conveying roller, the lower substrate feeding roller is parallel to the first conveying roller, and a discharging end of the lower substrate feeding roller is flush with a feeding end of the manual composite station.

4. The door pocket upper plate and lower plate composite line according to claim 3, wherein a first pressing and sizing edge milling machine is installed at a discharge end of the manual composite table, a second conveying roller is arranged at the discharge end of the first pressing and sizing edge milling machine, an automatic composite table is connected to a discharge end of the second conveying roller, and a second glue dispenser is arranged on a side edge of the second conveying roller and close to the discharge end of the second conveying roller.

5. The composite line for the upper plate and the lower plate of the door pocket as claimed in claim 4, wherein the glue spraying composite mechanism further comprises an upper substrate feeding roller, the upper substrate feeding roller is arranged in parallel to the lower substrate feeding roller, and a transition roller is arranged at a discharge end of the upper substrate feeding roller;

a feeding portal frame is erected between the transition roller and the automatic compounding table, and a second pressing, sizing and edge milling machine is arranged at the discharge end of the automatic compounding table.

6. The door pocket upper and lower plate composite line according to claim 5, wherein the edge sealing mechanism comprises a first single-side edge sealing machine and a second single-side edge sealing machine, and a third conveying roller is connected between the first single-side edge sealing machine and the second pressing, sizing and edge milling machine; the first single-side edge bonding machine and the second single-side edge bonding machine are arranged in parallel, and the feeding directions of the first single-side edge bonding machine and the second single-side edge bonding machine are opposite;

and the discharge end of the first single-side edge bonding machine is connected with the feed end of the second single-side edge bonding machine through a corner conveyor.

7. The door pocket upper plate and lower plate composite line according to claim 6, wherein the corner conveyor comprises a first transverse roller and a second transverse roller which are connected in a straight line, one end of the first transverse roller is connected with the discharge end of the first single-side edge sealing machine, and the second transverse roller is provided with a first vertical roller which can be lifted and lowered;

the corner conveyor further comprises a third transverse roller and a fourth transverse roller which are connected in a straight line, one end of the third transverse roller is connected with the feeding end of the second single-side edge sealing machine, and a third liftable longitudinal roller is mounted on the fourth transverse roller;

a second longitudinal roller is arranged between the second transverse roller and the fourth transverse roller, and two ends of the second longitudinal roller are respectively arranged corresponding to the first longitudinal roller and the third longitudinal roller; the feeding direction of the first transverse roller is opposite to that of the third transverse roller.

8. The door pocket upper plate and lower plate composite line according to claim 7, wherein the chamfering connecting mechanism comprises a first R-angle edge rolling machine and a second R-angle edge rolling machine, and a fifth conveying roller is arranged between the first R-angle edge rolling machine and the second R-angle edge rolling machine;

and a fourth conveying roller is arranged between the first R angle edge rolling machine and the second single-side edge sealing machine, and a sixth conveying roller is arranged at the discharge end of the second R angle edge rolling machine.

9. The composite line for the upper plate and the lower plate of the door pocket as claimed in claim 8, wherein the unloading mechanism comprises a blanking roller arranged in parallel with a sixth conveying roller, and a blanking portal frame is spanned between the blanking roller and the sixth conveying roller.

10. The door pocket upper plate and lower plate composite line according to claim 9, wherein the material transfer mechanism comprises symmetrical ground rails on which heavy-duty traveling cars are slidably mounted, the ground rails being disposed between the electronic sawing machine and the blanking drum;

and the lower substrate feeding roller, the upper substrate feeding roller and the discharging roller are all perpendicular to the ground rail.

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