KR100929191B1 - Paper feeding device - Google Patents

Abstract

PURPOSE: A paper feeding device is provided to achieve stable work by feeding paper one by one. CONSTITUTION: A paper feeding device comprises a driving roller(102), a driven roller(103), a plurality of feed belts(105), a blocking plate(107), and a suction unit. The driving roller and driven rollers revolve by the power of a driving unit. The feed belts supplies a paper placed on the bottom. The blocking plate prevents several papers from being fed to the top of the driving roller at a time. The suction unit feeds paper at level state regardless of the deformation of paper by receiving suction force from a check valve connected to a vacuum creating apparatus underneath the driving roller.

Description

Feeder Feeder {PAPER FEEDING DEVICE}

The present invention relates to a paper feeder, and more particularly, to a paper feeder that is improved to efficiently feed paper used in a process such as printing or packaging.

The feeder feeder is configured to supply the stacked feeders one by one in a quadrangular form, such as a printing process, a packaging process, a cutting (cutting) process, or a lamination process, which performs work using the feeder.

Such a feeder is a situation that has been developed and used in the prior art and look at a representative example through FIG. 6 as follows.

The feeder feeder 1 to which the prior art is applied is held in a frame 2 provided with a constant width, and the driving roller 3 and the driven roller 4 are installed at the front and rear sides, and the driving roller 3 ) Is rotated by receiving the power of the drive means (5).

Between the drive roller (3) and the driven roller (5) is connected to the supply belt (6) of excellent friction force to supply the feeder (7) located at the bottom of the feeder (7) stacked on the upper side.

Above the drive roller 3 is installed a blocking plate (8) for preventing the discharge of several sheets at a time when the laminated feeder (7) is supplied, the lower end of the blocking plate (8) and the supply belt (6) The space | interval T between is comprised so that the space | interval which one sheet | seat 7 may be discharged | emitted may be maintained.

In the prior art as described above, the branch located at the lowest layer among the papers stacked above the supply belt is discharged through the space under the blocking plate by the friction force of the supply belt connected to the driven and driven roller rotated in the discharge direction by the driving means. It is done.

In this way, when the feeder maintains a flat state when the feeder is supplied, it is discharged without great difficulty, and a belt and slip phenomenon occur due to the weight of the stacked feeder, which causes the feeder to be discharged.

In particular, when the feeder is of the same type as the corrugated cardboard, deformation (curved form) often occurs in the finished state due to the dry state or the amount of the adhesive, and the flat state cannot be maintained.

In this case, in the process of being discharged by the belt that rotates in the discharge direction, the deformed tip of the feeder is caught by the blocking plate so that the feeder cannot be fed because the feeder is not discharged.

In this case, when feeder is not smoothly supplied, various devices in the post process such as printing process, packaging process, cutting process, etc., which are connected with the feeder, are stopped, and the idle rate becomes high. There is a problem that the efficiency is lowered.

As mentioned above, a considerable amount of time and manpower must be invested in the maintenance due to the idle of the feeder, causing a rise in production cost. There are a number of problems such as weak competitiveness in human resources.

Therefore, in the present invention to solve the problems as described above, the driving roller and the driven roller which is installed to rotate by receiving the power of the drive means on the front and rear of the frame, connected between the driving roller and the driven roller is laminated A feeder device comprising: a plurality of feed belts for supplying a lower feeder, and a blocking plate installed to prevent the supply of a plurality of feeders at a time above the drive roller;

Suction means for receiving the suction force from the check valve connected to the vacuum generating device in the lower rear of the drive roller to maintain the flat state irrespective of the deformation of the feeder, and to supply the feeder to facilitate the feed of the feeder It is possible to achieve the purpose of increasing productivity and producing high quality products while increasing work linkage.

The present invention contributes to the reduction of production cost by providing the ease of maintenance and management while enabling stable operation in the process after being connected to the supply device by stably discharging and supplying one by one regardless of the deformation of the papers stacked for supply. Of course, the invention has a variety of effects, such as to increase the overall productivity, but also to produce a uniform and excellent quality products to be competitive advantage.

Hereinafter, with reference to the accompanying drawings will be described a preferred configuration and operation of the present invention for achieving the above object.

1 is an external perspective view showing a feeder feeder to which the technique of the present invention is applied, FIG. 2 is a sectional view taken along line A-A of the feeder feeder to which the technique of the present invention is applied, and FIG. 3 is a feeder to which the technique of the present invention is applied. Sectional view taken along line B-B of the feeder, FIG. 4 is a fragmentary perspective view taken from the portion C of the feeder feeder to which the technique of the present invention is applied, and FIG. 5 is a check valve of the feeder feeder to which the technique of the present invention is applied. It demonstrates together as a block diagram shown.

The conventional paper feeder 100 is provided with a driving roller 102 and a driven roller 103 in front and rear of the frame 101 provided to maintain a constant width, the drive roller 102 is a driving means ( It is rotated by receiving the power of 104).

Between the drive roller 102 and the driven roller 103, a plurality of feed belts 105 made of a material such as rubber or urethane having excellent friction and having a predetermined width are maintained at equal intervals to feed the papers 106 stacked above. ) To supply the branch (106) located at the bottom of the.

Above the driving roller 102, the interval T at which the upper surface of the supply belt 105 and one sheet of paper 106 can be discharged so as to prevent the discharge of several sheets at a time when the stacked paper 106 is supplied. It installs and comprises the blocking plate 107 which hold | maintained.

In the present invention, it is possible to supply one by one irrespective of the deformation of the feeder 106 to be stacked for supply, it is characterized in that the efficient supply to improve the workability of the post-process and to produce a product of excellent quality.

To this end, the suction roller 110 is further provided below the rear end of the driving roller 102 to be connected to the vacuum generator to catch the feeder 106 to be supplied and is caught by the blocking plate 107 while being kept in a flat state. It can be supplied without any phenomenon.

The suction means 110 is fixed between the frame 101, the suction pipe 112 for generating a vacuum (suction input) through the check valve 111 is connected to the vacuum generating device, the suction pipe 112 is a It is preferable to be provided in pairs so as to be able to respond to the change in the size of the branch (106) one to generate a suction force on the other side of the central portion.

The suction cup 113 in close contact with the bottom of the supply belt 105 is fixed above the suction pipe body 112 to correspond to each supply belt 105, and the upper surface of the suction cup 113 is opened. The bottom surface is to be in communication with the suction pipe body 112 forming the suction hole (114).

A plurality of through holes 115 are formed in the supply belt 105 so as to be transported in the supply direction in the state where the feeder 106 is absorbed above the supply belt 105 by the suction force of the suction means 110.

The upper side of the suction cup 113 is provided with several belt guides 116 to prevent the supply belt 105 from sagging downward when the suction force is generated, the belt guide 116 is a roller type, bar type or It may be carried out in various forms such as a plate type.

The suction force applied to the suction cup 113 need only be able to suck and feed the feeder 106 to the feeding roller 117 provided at the front of the supply device 100. The configuration of 111) is as follows.

The check valve 111 is a valve shaft 122 that receives the power of the drive means 104 in the valve case 121 having a vacuum inlet 118, a vacuum outlet 119 and a vacuum release hole 120. And the valve shaft 122, the vacuum outlet 119 is opened and closed to fix the valve plate 123 for applying the suction force to the suction cup 113.

The valve plate 123 has an opening section (OA) during the time that the valve shaft 122 can move the feed belt 105 to the feed roller (117) by adsorbing the feeder 106 when one rotation. Therefore, it is preferable not to unnecessarily maintain the suction force.

Looking at the operation relationship of the feeder supply device 100 to which the technology of the present invention as described above is as follows.

The feeder 106 to be supplied is stacked above the rear feed belt 105 of the blocking plate 107 to complete supply preparation, and the stacked feeder 106 can be maintained in position by a guide (not shown). do.

In this state, when the driving means 104 is operated, the supply belt 105 connecting the driving roller 102 and the driven roller 103 rotates in the direction of the feeding roller 117, and at the same time, the vibration generating device operates to supply the supply belt. The suction force is generated by the suction means 110 installed at the bottom of the 105.

Then, the lowermost tributary 106 above the supply belt 105 is adsorbed to the supply belt 105 through the through hole 115 formed in the supply belt 105, so that even if there is a deformation of the branch 106, It is in close contact with the supply belt 105 in a flat state by the adsorbing force passes through the blocking plate 107.

The feed belt 105 rotates while the feeder 106 is passed through the blocking plate 107 to the feeding roller 117 and the suction force is removed by the check valve 111. After the 106 is supplied, the suction force is generated by the check valve 111 again, and the operation of supplying the next branch 106 to the feeding roller 117 is repeated.

The process of supplying the feeder 106 to the feeding roller 117 by generating a suction force through the vacuum generating device together with the rotation of the supply belt 105 is as follows.

The suction force (vacuum) generated in the vacuum generator is supplied to the check valve 111 through the vacuum inlet 118, and is connected to the suction pipe body 112 through the vacuum outlet 119 of the check valve 111.

The suction pipe 112 is connected to the suction cup 113 which is in close contact with the supply belt 105 at the bottom of the supply belt 105 to generate a suction force through the suction hole 114, the suction cup ( 113 is to be able to move in the direction of the feeding roller 117 while flattening the deformed (bent) state by adsorbing the feeder 106 through the through hole 115 formed in the supply belt 105.

Of course, in this process, the upper portion of the suction cup 113 can be maintained in a stable state by the belt guide 116 provided to prevent the supply belt 105 from deformation (sag down) by the suction force. something to do.

Then, the suction force is generated until the supply belt 105 sucks the feeder 106 and feeds it to the feeding roller 117, and then the suction force is until the feeder 106 completely leaves the feeder 100. An operation that does not occur is repeated by the check valve 111.

That is, when the suction cup 113 generates a suction force, the opening section OA of the valve plate 123 fixed to the valve shaft 122 of the check valve 1110 is located in the vacuum outlet 119, and the opening section ( The suction belt is generated while the OA is located in the vacuum outlet 119 so that the supply belt 105 can supply the feeder 106, and when the OA is out of the open section OA, the valve plate 123 becomes the vacuum outlet 119. ) Will not give the suction force to the suction cup 113.

The present invention as described above has the advantage of generating a suction force irrespective of the deformation (bent form) of the tributary to maintain and supply in a flat state to provide a stable and efficient supply to increase work linkage with the post-process.

1 is an external perspective view showing a feeder feeder to which the technique of the present invention is applied.

2 is a cross-sectional view taken along line A-A of the feeder feeder to which the technique of the present invention is applied.

3 is a cross-sectional view taken along line B-B of a feeder feeder to which the technique of the present invention is applied;

Figure 4 is a perspective view of the fractured portion C of the feeder feeder applied to the technology of the present invention.

Figure 5 is a block diagram showing an extract of the check valve of the feeder is applied to the technology of the present invention.

Figure 6 is a schematic view showing a typical feeder for general feeder to which the prior art is applied.

* Description of the symbols used in the main parts of the drawings *

100; Feeder

102; Driving roller

105; Supply belt

110; Suction

111; Check valve

113; Adsorption cup

116; Belt Guide

Claims (3)

A driving roller 102 and a driven roller 103 installed so as to rotate by receiving the power of the driving means 104 in front and rear of the frame 101; A plurality of supply belts 105 connected between the driving rollers 102 and the driven rollers 103 to supply the lowermost tributaries 106 stacked thereon; A blocking plate 107 installed to prevent a plurality of feeders 106 from being supplied at a time above the driving roller 102; Suction means 110 for receiving the suction force from the check valve 111 is connected to the vacuum generating device below the rear end of the drive roller 102 to maintain the flat state irrespective of the deformation of the feeder 106 to supply it. In the paper feeder 100 is provided; The suction means 110 is fixed between the frame 101 and the suction pipe body 112 is connected to the check valve 111; A suction cup 113 fixed to the upper side of the suction pipe 112 to open the upper part to be in close contact with the bottom surface of the supply belt 105; A plurality of through holes 115 formed in the supply belt 105 in close contact with the adsorption cup 113 to adsorb the feeder 106; Feeder device characterized in that it comprises a belt guide (116) provided on the upper side of the suction cup 113 to prevent the phenomenon that the supply belt 105 sag downward when the suction force is generated. delete The method of claim 1; The check valve 111 is a valve case 121 having a vacuum inlet 118 and a vacuum outlet 119; A valve shaft 122 installed inside the valve case 121 to receive power of the driving means 104; A valve plate 123 fixed to the valve shaft 122 to impart suction to the suction cup 113 by opening and closing the vacuum outlet 119; The valve plate (123) is a feeder, characterized in that the feed belt 105 comprises an open section (OA) during the time to suck the feeder 106 to move to the feeding roller (117).

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