JPH11320840A - Vibrating split roll - Google Patents

Abstract

PROBLEM TO BE SOLVED: To finely control a transferring amount of an ink by stabilizing a reciprocating motion of a block directed perpendicularly to an axial center of a shaft lever of a vibrating split roll and finely sliding it. SOLUTION: In the vibrating split roll 14 comprising a plurality of cylinders 13 rotatably supported around an axial center of a plurality of bocks 12 externally arranged on many non-circular sectional shaft levers 11 slidably in a direction perpendicular to the axial center of the levers 11 to form a peripheral surface of the roll 14 by the peripheral surface of the cylinder 13 and a plurality of block driving units for individually driving the blocks 12 in a direction perpendicular to the axial center to be associated with the levers 11; the driving unit has cylinders 15A, 15B as one set for each one block and a solenoid valve 19 for transmitting a pressure to the cylinders 15A, 15B of each set, and projecting and retracting directions of the pistons 16A, 16B from and in the cylinders 15A, 15B are reversely set.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a fountain roll which vibrates between a roll on the ink fountain side (hereinafter referred to as a fountain roll) and a roll on the printing plate side (hereinafter referred to as a kneading roll) of a printing apparatus. The present invention relates to an ink feeding roll for transferring ink from a roll to a kneading roll.

[0002]

2. Description of the Related Art As shown in JP-A-60-38160,
A plurality of blocks 12 which are externally fitted to the shaft rod 11 having a non-circular cross-section and are supported so as to be slidable in a direction perpendicular to the axis of the shaft and are arranged in a multi-shaft rod 11 in a pearl-like manner. The outer peripheral surface of the roll 14 is constituted by the outer peripheral surfaces of a plurality of cylindrical bodies 13 which are fitted around each other and are rotatably supported around the axial center of the axial rod 11. 2. Description of the Related Art An ink feeding split roll (hereinafter, also simply referred to as a split roll) in which a plurality of block driving devices for individually driving the respective blocks 12 in a direction orthogonal to the above is incorporated in the shaft stick 11 is known. The effect of the split roll is that the ink can be partially supplied from the ink fountain side, that is, the ink consumption increases in a part of the kneading roll where the ink consumption increases according to the position of the image drawn on the plate surface. The point is that the ink can be supplied according to the conditions.

[0003]

In the conventional split roll, each block 12 is driven by one block driving device. In the block driving device, an electromagnet (solenoid) or a cylinder (air cylinder or hydraulic cylinder) 15 is used in combination with a spring 20, and a piston 16 of the electromagnet or cylinder 15 pushes out the block 12, and the spring 20 pushes back. It has become.

FIG. 4 shows a shaft 11 of a conventional split roll 14.
1 shows an air cylinder 15 incorporated in a helmet, and a three-port solenoid valve 19 for driving a piston 16 of the air cylinder. The solenoid valve has three air ports A, R, and P (ports). When the hole R is closed by the solenoid 21 and the hole P is opened, the air cylinder 15 transmits the air pressure of the pressurizing chamber (compressor) from the hole P through the hole A to the cylinder 15 to push out the piston 16, and the air cylinder 15 is pushed out. P is closed and hole R
Is opened, the air in the cylinder is released from the hole A to the outside through the hole R, and at that time, the spring 20 acts and the piston 16 is pushed back. 30 is
This is a coil spring that elastically biases the solenoid 21.

As described above, in the block driving device using the springs 20 for pushing back the block 12, the elastic restoring forces of the plurality of springs 20 mounted on each block vary, and the moving speed of the pushed back block is varied. And the moving speed of the block 12 by the spring 20 is slower than the moving speed of the block 12 by an electromagnet (magnetic force) or a cylinder (pressure).
The movement of 2 lacks responsiveness and stability. For this reason, in the conventional split roll 14, there is a limit in finely controlling the transfer amount of ink by finely vibrating the ink feeding roll between the fountain roll and the kneading roll.

[0006]

It is an object of the present invention to stabilize the reciprocating motion of the block 12 directed at right angles to the axis of the shaft rod 11 and to finely slide the block 12 so that the ink transfer amount can be finely controlled. With the goal.

[0007]

According to the present invention, there is provided a split roll 14 comprising a block driving device which is provided with two blocks for each block.
Each pair of cylinders 15A and 15B and a solenoid valve 19 for transmitting pressure to each set of the cylinders 15A and 15B are constituted by pistons 16A and 16B of two cylinders 15A and 15B. The first feature is that the directions of appearance are opposite to each other.

The second feature of the split roll 14 according to the present invention is that, in addition to the first feature described above, the block 12 and the shaft 1
1 is that a rail 17 and a guide 18 that engage with each other and guide the block in a direction perpendicular to the axis of the shaft rod 11 are provided.

A third feature of the split roll 14 according to the present invention is that, in addition to the first or second feature described above, a solenoid valve 19 is provided.
Is that a 5-port solenoid valve is used.

[0010]

1 and 2 show a specific example of a split roll 14 according to the present invention. The peripheral surface of the split roll 14 is fitted on a shaft rod 11 having a non-circular cross section. The multiple rods 1 are supported so as to be slidable in a direction perpendicular to the core, and are connected like a pearl.
A plurality of blocks 12A, 12B, 12 arranged in one
C, 12D,..., And is constituted by a plurality of cylindrical bodies 13 that are rotatably supported around the axis of the shaft rod 11. The shaft rod 11 incorporates a plurality of block driving devices that individually drive the blocks 12 in a direction perpendicular to the axis of the shaft. The block driving device comprises two sets of cylinders 15A and 15B for each block, and each set of cylinders 15A and 15B.
The pistons 16A and 16B of the two cylinders 15A and 15B of each set are constituted by an electromagnetic valve 19 for transmitting pressure to the piston 15B. As the solenoid valve 19, a 5-port solenoid valve is used. The shaft rod 11 and the block 12 are provided with a rail 17 and a guide 18 which engage with each other and guide the block in a direction perpendicular to the axis of the shaft rod 11.

The outer circumference of the cross section of the block 12 is circular,
Inside the block 12, there is a cavity 22 in which four outer surfaces of a member having a rectangular cross section are in close contact, and the rod 11 has a generally rectangular cross section in contact with four inner walls of the cavity 22 in which the member is in contact. The height dimension of the cross section of the shaft 11 is equal to the height dimension of the cavity 22 in contact with the shaft, and the width dimension of the cross section of the shaft 11 is larger than the width dimension of the cavity 22 in contact with the shaft. Each block 12 is slidable in the width direction of the shaft rod 11, that is, in a direction orthogonal to the axis of the shaft rod, by the dimensional difference in the width direction.

A number of recesses (15) corresponding to the number of the blocks 12 are formed in the left and right side surfaces of the shaft rod 11, and a piston 16 is fitted in these recesses (15).
These recesses (15) and piston 16
Is composed. The outer periphery of the piston 16 is fitted with a wear ring 24 in addition to the seal packing 23, thereby ensuring the sliding stability of the piston 16.

A 5-port solenoid valve 19 corresponding to the number of blocks 12 is mounted on the shaft rod 11. The shaft rod 11 is provided with a fluid flow hole 25 communicating with each cylinder 15 via an electromagnetic valve, and the shaft rod also serves as a conduit for guiding fluid to the cylinder 15. The 5-port solenoid valve 19 has A,
There are five air ports B, R ₁ , R ₂ and P.

[0014] In the solenoid 21 is turned on, holes R ₁ is closed, the hole R ₂ is opened, transmitted to the pressure compressor one cylinder 15B through the hole B from the hole P, the piston 16B is concave extruded from (15B), then the inside air pressure of the other cylinder 15A is released to the outside through the hole R ₂ from the hole a, the piston 15A is in a free state. In the reverse solenoid 21 is off from that, the hole R ₁ is opened, the hole R ₂ are closed, pressure of the compressor through the hole A from the hole P is transmitted to the other cylinder 15A, recesses the piston 15A is extruded from (15A), then the internal pressure of one of the cylinders 15B is released from the hole B through holes R ₁ to the outside, the piston 16B is in a free state.

When one of the pistons 16B is pushed out in this way, the block 12 moves in the pushing direction, and the other piston 16A, which is in a free state at that time, is recessed by the moving block 12. (15A), and the block 12 reciprocates in the direction perpendicular to the shaft rod by the pair of pistons 16A and 16B mounted in the opposite directions.

On the bottom surface of the cavity 22 of the block 12, there is provided a groove-shaped rail 17 which is cut out in a step-like shape which continues long in a direction perpendicular to the axis of the shaft rod 11, while the bottom surface of the shaft rod is provided on the bottom surface of the shaft rod. Has a guide 18 protruding therefrom.
8 is fitted on the groove rail 17. Therefore, the flock 12 is guided by the rail 17 and the guide bar 18 and reciprocally vibrates reliably in the direction perpendicular to the axis of the shaft 11 without lateral displacement.

A ring-shaped bearing 26 is fitted in the cylinder 13, and the block 12 is fitted in the ring-shaped bearing 26.
Is rotatably supported by the block 12 through the shaft. For the bearing 26, a split ball is made durable by using a ceramic ball bearing.

A plurality of cylinders 13 rotatably arranged on the shaft 11 via the block 12 and the bearing 26.
Is pushed out to the kneading roll 27 by one of the two cylinders 15A, which are separately set, and rotates in contact with the kneading roll 27, and is pushed back by the other cylinder 15B, rotates in contact with the fountain roll 28, and moves. Each time the ink is transferred from the fountain roll 28 to the kneading roll.

[0019]

According to the present invention (claim 1), the cylindrical body 13
Are opposite cylinders 15A and 15B,
It is positively driven toward each of the fountain roll 28 and the kneading roll 27, and the amount of ink transferred from the fountain roll 28 to the kneading roll 27 is finely controlled.

According to the present invention [Claim 2], the cylinder 13 reciprocating (vibrating) between the fountain roll 28 and the kneading roll 27 is a set of two cylinders 1 in opposite directions.
Each of the cylinders 13 is guided not only by 5A and 15B but also by a rail 17 and a guide 18 provided on the shaft 11 and the block 12 in a direction perpendicular to the axis of the shaft 11.
Of the cylinder (13, 13) arranged adjacent to the shaft rod 11 and the infiltration of ink into the gap between the cylinders is prevented. The ink film transferred to the surface can be smoothed.

According to the present invention [claim 3], the solenoid valve 19 for driving the pair of cylinders 15A and 15B is one 5-port solenoid valve, and two cylinders that constitute one set have two cylinders. The installation space for the solenoid valve is halved as compared with a case where two solenoid valves are separately provided, and a pair of cylinders 15 is inserted into a narrow space 29 sandwiched between the block 12 and the shaft rod 11.
The drive device of A.15B can be incorporated, and the split roll 14 of the present invention can be put to practical use.

[Brief description of the drawings]

FIG. 1 is a cross-sectional perspective view of a main part of an ink feeding division roll according to the present invention.

FIG. 2 is a cross-sectional view of a main part of an ink feeding division roll according to the present invention.

FIG. 3 is a conceptual cross-sectional view of an ink feeding divided roll according to the present invention.

FIG. 4 is a conceptual sectional view of a conventional ink feeding division roll.

[Explanation of symbols]

 DESCRIPTION OF SYMBOLS 11 Shaft rod 12 Block 13 Cylindrical body 14 Split roll 15 Cylinder 16 Piston 17 Rail 18 Guide 19 Solenoid valve 20 Spring 21 Solenoid 22 Cavity 23 Packing 24 Wearing 25 Flow hole 26 Bearing 27 Mixing roll 28 Fanten roll 29 Space 30 Coil spring

Claims (3)

[Claims] 1. A plurality of shaft rods (11) having a non-circular cross section, which are externally fitted, slidably supported in a direction perpendicular to the axis of the shaft rods, and arranged in a multi-shaft rod (11). The outer surface of the roll (14) is formed by the outer surfaces of a plurality of cylindrical bodies (13) rotatably supported around the axis of the shaft rod (11). Each block (1) is arranged in a direction orthogonal to the axis of the shaft rod (11).
2) A plurality of block driving devices for individually driving the ink feed split roll (1) incorporated in the shaft rod (11).
In 4), the block driving device comprises a pair of cylinders (15A and 15B) for each block,
Solenoid valves that transmit pressure to each set of cylinders (1
9), wherein the pistons (16A and 16B) of two cylinders in each set are in opposite directions in which the pistons (16A and 16B) are opposite to each other. 2. Block (12) according to claim 1,
A rail (17) and a guide (18) which are engaged with each other and guide the block in a direction perpendicular to the axis of the shaft (11). The ink feeding division roll according to claim 1. 3. An ink feeding division roll according to claim 1, wherein the solenoid valve (19) according to claim 1 is a 5-port solenoid valve.