CN211894972U - Automatic rotary conveying table - Google Patents

Abstract

The utility model discloses an automatic rotary conveying platform that is used for automatic paper feed portion of cross cutting machine to have rotatable paper dish that drags. The utility model discloses rotatable support automatic conveying platform of paper dish direction replaces the manual work to send into the cardboard or corrugated container board of waiting to process on the support paper dish in advance and send into a conveying mechanism on the paper conveying platen of automatic paper conveying portion, can be automatic will pile in advance the rotatory predetermined angle (for example 90 °) in support paper dish plane of cardboard or corrugated container board, change the direction of delivery at cardboard or corrugated container board edge to will pile in advance on the support paper dish of cardboard or corrugated container board carries the paper conveying platen of automatic die cutting machine paper conveying portion. The utility model discloses can reduce manual operation, be favorable to the implementation of the automatic commodity circulation of mill, improve the automatic level of cross cutting processing, reduce the cost of labor, improve production efficiency.

Description

Automatic rotary conveying table

Technical Field

The utility model relates to a post-press mechanical equipment especially relates to an autogiration that is used for automatic die cutting machine automatic paper feed portion to carry and waits to process cardboard (or corrugated container board) to carry has the rotatable paper dish that drags.

Background

The automatic die cutting machine for single paper is equipped with an automatic paper feeding part. During operation, the paperboard or corrugated board to be processed needs to be manually placed on the paper stacking table of the automatic paper conveying part. For the sheets (or corrugated sheets) to be processed, which are previously stacked on the tray, manual transportation to a sheet feeding platen of the automatic sheet feeding section is also required. Referring to fig. 1 and 2, an automatic paper feeding portion of various automatic die cutting machines is provided, which is lifted by a paper feeding platen, feeds paper by an automatic paper feeding head, and feeds a jammed paper or a corrugated paper stacked on a paper tray to the automatic paper feeding table. The existing automatic paper conveying part adopts manual transportation and has low efficiency and high production cost.

SUMMERY OF THE UTILITY MODEL

The to-be-solved technical problem of the utility model is to provide an autogiration carries platform that is used for automatic die-cutting machine automatic paper feed portion to carry and waits to process cardboard (or corrugated container board) to have the rotatable paper dish that drags.

In order to solve the technical problem, the utility model provides an automatic rotatory delivery platform, include:

a plurality of first conveying rollers 3 are symmetrically arranged between a conveying platform front wall plate 24 and a conveying platform rear wall plate 26 of an automatic rotary conveying platform, a rotary supporting frame 7 supported by a plurality of rollers 8 is arranged in the middle of the automatic rotary conveying platform, the rollers 8 are respectively arranged on roller supporting frames 6, the roller supporting frames 6 are respectively fixedly connected with ejector rods of air cylinders 5, the air cylinders 5 are respectively fixed on a first bottom plate 4 and a third bottom plate 14, two ends of the first bottom plate 4 and the third bottom plate 14 are respectively fixedly connected on the conveying platform front wall plate 24 and the conveying platform rear wall plate 26, a connecting supporting frame 23 is arranged in the middle of the rotary supporting frame 7, a plurality of second conveying rollers 10 respectively arranged on a first supporting plate 9 and a second supporting plate 25 are symmetrically distributed between the rotary supporting frame 7 and the connecting supporting frame 23, a plurality of second conveying rollers 10 respectively arranged on the front wall plate 24, the conveying platform rear wall plate 26 and the second supporting plate 25 are symmetrically distributed on the periphery of the, the first supporting plate 9 and the second supporting plate 25 are respectively fixed on the first bottom plate 4, the third bottom plate 14 and the second bottom plate 18;

below the plurality of first conveying rollers 3 and second conveying rollers 10, between a table front wall plate 24 and a table rear wall plate 26, a table roller driving device 1 is installed, the table roller driving device 1 is composed of a roller driving belt shaft 20 and a roller driving belt 21, and the upper surface of the roller driving belt 21 is in contact with the plurality of first conveying rollers 3 and second conveying rollers 10. First conveyor roller 3 and second conveyor roller 10 are driven to rotate together as roller drive belt 21 moves.

A rotary support shaft sleeve 11 is welded at the center of a connecting support 23, a rotary support driving shaft 12 is installed in the shaft sleeve 11, a part of the rotary support driving shaft 12 is installed in the shaft sleeve 11, the lower end of the rotary support driving shaft 12 is installed on a third bottom plate 14, a driving chain wheel 13 is also fixedly installed on the rotary support driving shaft 12, a driving motor support 17 is fixedly installed on a second bottom plate 18, a rotary support driving motor 15 is installed on the driving motor support 17, a main driving chain wheel 16 is fixedly connected to an output shaft of the rotary support driving motor 15, a square shaft driving chain wheel 13 and the main driving chain wheel 16 are connected through a rotary support driving chain 19, the rotary support driving shaft 12 is driven to rotate when the motor rotates, an adjustable position sensor 22 is arranged on a sensor support 28, one end of the sensor support 28 is installed on a front wall plate 24 of a conveying table, the adjustable position sensor 22 can control the conveying table roller driving device 1 to stop driving the first conveying roller 3 and the second conveying roller 10 to rotate so that the tray 27 stops on the rotary supporting frame 7.

Alternatively, the automatic rotary conveying table with the rotatable tray is further improved, and the rotary supporting frame 7 is a circular supporting frame.

Alternatively, the automatic rotary conveying table with the rotatable tray is further improved, and the connecting bracket 23 is a cross structure welded in the circular rotary supporting frame 7.

Alternatively, the automatic rotary conveying table with the rotatable tray is further improved, and a rotary bracket shaft sleeve 11 with a square section is welded at the center of the cross connecting bracket 23.

Alternatively, the automatic rotary feeding table with the rotatable tray is further improved, and the section of the rotary holder driving shaft 12 installed in the shaft housing 11 is square, and the section of the other part is circular.

Alternatively, the automatic rotary feed table with the rotatable tray is further modified so that the rotary frame driving shaft 12 can rotate only along the axis and cannot move up and down along the axis.

Alternatively, the automatic rotary conveying table with the rotatable tray is further improved, the width of the first base plate 4 is smaller than that of the second base plate 18, the third base plate 14 is a supporting base plate located in the middle of the automatic rotary conveying table, the second base plate 18 is arranged outside the third base plate 14, and the first base plate 4 is arranged outside the second base plate 18.

Wherein the first conveyor roller 3 is longer than the second conveyor roller 10

Wherein the first support plate 9 is longer than the second support plate 25.

The working principle of the utility model is as follows:

due to the requirements of the die cutting processing technology of the automatic die cutting machine, the conveying direction of the paper or corrugated board must meet the requirements of the die cutting board of the die cutting machine for plate making and positioning. Therefore, when the paper boards or corrugated boards to be processed are placed on the paper conveying table of the automatic paper conveying part, the paper edges of products to be processed have directional requirements. When an automatic roller conveyor is used to convey a paper tray on which paper boards or corrugated boards to be processed are pre-stacked to a paper conveying table of an automatic paper feeder, the conveying direction of the paper tray needs to be adjusted sometimes.

A circular rotating support frame 7 is supported on 4 rollers 8 which are evenly distributed along the ring. The roller bracket 6 of the roller 8 is fixedly connected with the mandril of the cylinder 5. The 4 cylinders 5 are fixed on the narrow bottom plate 4 and the third bottom plate 14, respectively.

In the middle of the circular rotating support frame 7, a cross connecting bracket 23 is welded. The cross position of the cross connecting support 23 is positioned at the central position of the circular rotating support frame 7, and a rotating support frame square shaft sleeve 11 with a square cross section is welded. A rotating support drive shaft 12 is mounted in the square sleeve 11. The lower end of the rotating bracket driving shaft 12 is mounted on the third bottom plate 14, and the mounting structure of the rotating bracket driving shaft 12 enables the driving square shaft 12 to rotate only along the axis and cannot move up and down along the axis. A square shaft drive sprocket 13 is also fixedly mounted on the rotating bracket drive shaft 12.

A driving motor bracket 17 is fixedly mounted on the second base plate 18, and a rotating bracket driving motor 15 is mounted on the driving motor bracket 17. The output shaft of the rotating bracket driving motor 15 is fixedly connected with a main transmission chain wheel 16. The square shaft driving chain wheel 13 and the main driving chain wheel 16 are connected through a rotating bracket driving chain 19, and the rotating bracket driving shaft 12 can be driven to rotate.

When the conveying direction of the paper board or the paper board edge of the corrugated board is required to be adjusted, the paper tray 27 on which the paper board or the corrugated board is pre-stacked is conveyed to the automatic rotary conveying table, the adjustable position sensor 22 detects the edge of the paper tray 27, and the conveying table roller driving device 1 stops driving the first conveying roller (long conveying roller) 3 and the second conveying roller (short conveying roller) 10 to rotate. The tray 27 is stopped above the rotary support frame 7. At the moment, the ejector rods of the 4 cylinders 5 are simultaneously ejected, and the 4 idler wheels 8 are driven by the 4 idler wheel brackets 6 to lift the rotary supporting frame 7 and the paper supporting plate 27 on which the paper boards or corrugated paper boards are pre-stacked. The height of the support is such that the lower edge of the rotating support frame 7 is above the upper plane of the first conveyor roller 3 and the second conveyor roller 10. When the circular rotary support frame 7 and the welded cross connecting bracket 23 are lifted, a part of the rotary support frame square shaft sleeve 11 is still matched and connected with the rotary support frame driving shaft 12. The driving shaft 12 of the rotary bracket is driven to rotate by the driving motor 15 of the rotary bracket and a control system thereof through the main driving chain wheel 16, the driving chain 19 of the rotary bracket and the driving chain wheel 13 of the square shaft. Under the control of the control system, the rotating support driving shaft 12 drives the rotating support frame 7 and the paper tray 27 to rotate together by a preset angle (e.g. 90 °), so that the edge of the cardboard or corrugated cardboard also rotates by a preset angle (e.g. 90 °). At the moment, the mandrils of the 4 cylinders 5 retract simultaneously, under the action of gravity, the roller wheel bracket 6 drives the roller wheel 8 to descend to the initial position, the upper edges of the rotary supporting frame 7 and the cross connecting bracket 23 which are supported by the roller wheel 8 are lower than the upper planes of the first conveying roller 3 and the second conveying roller 10, and the paper supporting plate 27 on which the paper boards or corrugated boards are pre-stacked falls on the first conveying roller 3 and the second conveying roller 10. The tray 27 on which the cardboard sheets or corrugated cardboard are pre-stacked, which is shifted in a direction of a predetermined angle (e.g., 90 °), is continuously conveyed forward to the liftable paper feeding platen of the automatic paper feeder as the first conveying roller 3 and the second conveying roller 10 rotate, driven by the roller driving belt shaft 20 and the roller driving belt 21 of the conveying table roller driving device 1.

When the feeding direction of the tray 27 on which the cardboard sheets or corrugated cardboard sheets are pre-stacked does not need to be changed, the position sensor 22 is turned off, the rotary support frame 7 is not lifted, and the tray 27 on which the cardboard sheets or corrugated cardboard sheets are pre-stacked is fed to the liftable feeding deck of the automatic paper feeder by the first feeding roller 3 and the second feeding roller 10.

The utility model discloses at least, following technological effect has:

the utility model discloses rotatable support automatic conveying platform of paper dish direction replaces the manual work to send into the cardboard or corrugated container board of waiting to process on the support paper dish in advance and send into a conveying mechanism on the paper feeding platen of automatic paper feeding portion, can be automatic will pile up the rotatory predetermined angle (for example 90 °) in support paper dish 27 plane of cardboard or corrugated container board in advance, change the direction of delivery at cardboard or corrugated container board edge to will pile up in advance on the paper feeding platen of automatic die cutting machine paper feeding portion is carried to support paper dish 27 that has cardboard or corrugated container board. The automatic die cutting machine has the advantages that manual operation can be reduced, implementation of factory automation logistics is facilitated, the automation level of die cutting machining is improved, labor cost is reduced, and production efficiency is improved.

Drawings

The invention will be described in further detail with reference to the following detailed description and accompanying drawings:

FIG. 1 is a schematic view of a conventional automatic paper feeding unit.

Fig. 2 is a schematic diagram of a conventional automatic paper feeding unit.

Fig. 3 is a third schematic diagram of a conventional automatic paper feeding unit.

Fig. 4 is a first schematic structural diagram of the embodiment of the present invention.

Fig. 5 is a schematic structural diagram of the embodiment of the present invention.

Description of the reference numerals

A paper conveying bedplate

Automatic paper feeding part sleeve

C paper pile bedplate lifting motor

D team platen lifting sprocket

E automatic paper feeding head

F lifting chain

G paper pile

G1 rotating paper pile

H paper dragging plate

I paper conveying platen

J transverse corrugated cardboard pile

K longitudinal stack of corrugated board

L automatic paper feeder

M longitudinal paper supporting plate

N transverse paper supporting plate

Conveyor table roller drive 1

Conveying table wallboard 2

First conveyor roller (i.e., long conveyor roller) 3

First base plate 4

Cylinder 5

Roller support 6

Rotary support frame 7

Roller 8

First support plate 9

Second conveyor roll (i.e., short conveyor roll) 10

Rotating support shaft sleeve 11

Rotating support drive shaft 12

Drive sprocket 13

Third base plate 14

Rotating bracket driving motor 15

Main drive sprocket 16

Drive motor support 17

Second base plate 18

Rotating support drive chain 19

Roller drive belt shaft 20

Roller drive belt 21

Adjustable position sensor 22

Connecting bracket 23

Conveying table front wall plate 24

Second support plate 25

Conveyor table back wall panel 26

Tray 27

A sensor holder 28.

Detailed Description

The embodiments of the present invention are described below with reference to specific embodiments, and other advantages and technical effects of the present invention will be fully apparent to those skilled in the art from the disclosure in the specification. The invention is capable of other embodiments and of being practiced or of being carried out in various ways, and its several details are capable of modification in various respects, all without departing from the general spirit of the invention. It is to be noted that the features in the following embodiments and examples may be combined with each other without conflict. The length and the length of the following embodiments are compared with the corresponding structure of the present invention, for example, the length of the long conveying roller and the length of the short conveying roller are relative to each other.

As shown in fig. 3 and fig. 4, the present invention provides a possible embodiment of an automatic rotary conveying table, which includes:

a plurality of long conveying rollers 3 are symmetrically arranged between a conveying table front wall plate 24 and a conveying table rear wall plate 26 of the automatic rotary conveying table. A circular rotary supporting frame 7 is arranged in the middle of the automatic rotary conveying table. A circular rotating support frame 7 is supported on 4 rollers 8 which are evenly distributed along the ring. 4 rollers 8 are respectively mounted on the 4 roller brackets 6. The 4 roller wheel brackets 6 are respectively fixedly connected with the ejector rods of the 4 air cylinders 5. The 4 cylinders 5 are fixed on the narrow bottom plate 4 and the third bottom plate 14, respectively. The narrow bottom plate 4 and the third bottom plate 14 are fixedly connected at both ends to a table front wall plate 24 and a table rear wall plate 26, respectively.

In the middle of the circular rotating support frame 7, a cross connecting bracket 23 is welded. A plurality of short conveying rollers 10 are symmetrically distributed at a neutral position between the circular rotary supporting frame 7 and the cross connecting bracket 23 and are respectively arranged on the long supporting plate 9 and the short supporting plate 25. A plurality of short conveying rollers 10 are also symmetrically distributed on the periphery of the circular rotary supporting frame 7 and are respectively arranged on the front wall plate 24, the conveying platform rear wall plate 26 and the short supporting plate 25. The long support plate 9 and the short support plate 25 are fixed to the first bottom plate 4, the third bottom plate 14, and the second bottom plate 18, respectively.

Below a number of 3 long and short conveyor rollers 10, between a table front wall 24 and a table rear wall 26, a table roller drive 1 is mounted. The conveying table roller driving device 1 is composed of a roller driving belt shaft 20, a roller driving belt 21, and the like. The upper surface of the roller drive belt 21 is in contact with the long conveying rollers 3 and the short conveying rollers 10. The long conveyor roller 3 and the short conveyor roller 10 are driven to rotate together when the roller drive belt 21 moves.

The cross position of a cross connecting support 23 welded in the middle of the circular rotating support frame 7 is positioned at the center of the circular rotating support frame 7, and a rotating support frame square shaft sleeve 11 with a square cross section is welded. A rotating support drive shaft 12 is mounted in the square sleeve 11. The rotary bracket driving shaft 12 is installed in the square shaft sleeve 11, the section is square, and the section of the other part is round. The lower end of the rotating bracket drive shaft 12 is mounted on the third base plate 14, and the mounting structure of the rotating bracket drive shaft 12 enables the rotating bracket drive shaft 12 to rotate only along the axis and not to move up and down along the axis. A square shaft drive sprocket 13 is also fixedly mounted on the rotating bracket drive shaft 12.

A driving motor bracket 17 is fixedly mounted on the second base plate 18, and a rotating bracket driving motor 15 is mounted on the driving motor bracket 17. The output shaft of the rotating bracket driving motor 15 is fixedly connected with a main transmission chain wheel 16. The square shaft driving chain wheel 13 and the main driving chain wheel 16 are connected through a rotating bracket driving chain 19, and the rotating bracket driving shaft 12 can be driven to rotate when the motor rotates.

When the feeding direction of the edge of the cardboard or corrugated cardboard sheet needs to be adjusted, and the tray 27 on which the cardboard or corrugated cardboard sheet has been previously stacked is fed onto the automatic rotary feeding table, the adjustable position sensor 22 detects the edge of the tray 27, and the feeding table roller driving device 1 stops driving the long feeding roller 3 and the short feeding roller 10 to rotate. The tray 27 is stopped above the rotary support frame 7. At the moment, the ejector rods of the 4 cylinders 5 are simultaneously ejected, and the 4 idler wheels 8 are driven by the 4 idler wheel brackets 6 to lift the rotary supporting frame 7 and the paper supporting plate 27 on which the paper boards or corrugated paper boards are pre-stacked. The height of the support is such that the lower edges of the rotating support frame 7 and the cross connecting bracket 23 are above the upper plane of the long conveying roller 3 and the short conveying roller 10. When the circular rotary support frame 7 and the cross connecting bracket 23 welded together are lifted, the rotary support frame square shaft sleeve 11 and the rotary support frame driving shaft 12 generate relative displacement in the vertical direction, but a part of the rotary support frame square shaft sleeve 11 is still matched and connected with the upper part of the rotary support frame driving shaft 12. The driving shaft 12 of the rotary bracket is driven to rotate by the driving motor 15 of the rotary bracket and a control system thereof through the main driving chain wheel 16, the driving chain 19 of the rotary bracket and the driving chain wheel 13 of the square shaft. Under the control of the control system, the rotating support driving shaft 12 drives the rotating support frame 7 and the paper tray 27 to rotate together by a preset angle (e.g. 90 °), so that the paper edge of the cardboard or corrugated cardboard also rotates by a preset angle (e.g. 90 °). At the moment, the mandrils of the 4 cylinders 5 retract simultaneously, under the action of gravity, the roller support 6 drives the roller 8 to descend to the initial position, the upper edges of the rotary support frame 7 and the cross connecting support 23 supported by the roller 8 are lower than the upper planes of the long conveying roller 3 and the short conveying roller 10, and the paper supporting plate 27 pre-stacked with paper boards or corrugated boards falls on the long conveying roller 3 and the short conveying roller 10. The tray 27 pre-stacked with the cardboard sheets or corrugated cardboard sheets shifted by a predetermined angle (e.g., 90 °) is continuously conveyed forward to the liftable paper feeding platen of the automatic paper feeder as the long conveying roller 3 and the short conveying roller 10 rotate, driven by the roller driving belt shaft 20 and the roller driving belt 21 of the table roller driving device 1.

When the position sensor 22 is closed and the rotary support frame 7 is not lifted when the feeding direction of the sheet tray 27 on which the sheets of cardboard or corrugated cardboard are pre-stacked does not need to be changed, the sheet tray 27 on which the sheets of cardboard or corrugated cardboard are pre-stacked is fed to the liftable feeding deck of the automatic sheet feeder by the long feeding roller 3 and the short feeding roller 10.

The present invention has been described in detail with reference to the specific embodiments and examples, but these should not be construed as limitations of the present invention. Numerous variations and modifications can be made by those skilled in the art without departing from the principles of the invention, which should also be considered as within the scope of the invention.

Claims (9)

1. An automatic rotary conveying table with a rotatable paper dragging plate for an automatic paper feeding part of an automatic die cutting machine, which is characterized by comprising:

a plurality of first conveying rollers (3) are symmetrically arranged between a conveying platform front wall plate (24) and a conveying platform rear wall plate (26) of an automatic rotary conveying platform, a rotary supporting frame (7) supported by a plurality of rollers (8) is arranged in the middle of the automatic rotary conveying platform, the rollers (8) are respectively arranged on roller supporting frames (6), the roller supporting frames (6) are respectively fixedly connected with ejector rods of air cylinders (5), the air cylinders (5) are respectively fixed on a first bottom plate (4) and a third bottom plate (14), two ends of the first bottom plate (4) and the third bottom plate (14) are respectively fixedly connected on the conveying platform front wall plate (24) and the conveying platform rear wall plate (26), a connecting support (23) is arranged in the middle of the rotary supporting frame (7), a plurality of second conveying rollers (10) are symmetrically distributed between the rotary supporting frame (7) and the connecting support (23) and are respectively arranged on a first supporting plate (9) and a second supporting plate (25), a plurality of second conveying rollers (10) which are respectively arranged on a front wall plate (24), a conveying platform rear wall plate (26) and a second supporting plate (25) are symmetrically distributed on the periphery of the rotary supporting frame (7), and the first supporting plate (9) and the second supporting plate (25) are respectively fixed on the first bottom plate (4), the third bottom plate (14) and the second bottom plate (18);

a conveying table roller driving device (1) is arranged between a conveying table front wall plate (24) and a conveying table rear wall plate (26) below the plurality of first conveying rollers (3) and the plurality of second conveying rollers (10), the conveying table roller driving device (1) is composed of a roller driving belt shaft (20) and a roller driving belt (21), the upper surface of the roller driving belt (21) is in contact with the plurality of first conveying rollers (3) and the plurality of second conveying rollers (10), and when the roller driving belt (21) moves, the first conveying rollers (3) and the second conveying rollers (10) can be driven to rotate together;

a rotary support shaft sleeve (11) is welded at the center of a connecting support (23), a rotary support driving shaft (12) is installed in the shaft sleeve (11), a part of the rotary support driving shaft (12) is installed in the shaft sleeve (11), the lower end of the rotary support driving shaft (12) is installed on a third bottom plate (14), a driving chain wheel (13) is further fixedly installed on the rotary support driving shaft (12), a driving motor support (17) is fixedly installed on a second bottom plate (18), a rotary support driving motor (15) is installed on the driving motor support (17), a main driving chain wheel (16) is fixedly connected on an output shaft of the rotary support driving motor (15), a square shaft driving chain wheel (13) and the main driving chain wheel (16) are connected through a rotary support driving chain (19), the rotary support driving shaft (12) is driven to rotate when the motor rotates, an adjustable position sensor (22) is arranged on a sensor support (28), one end of a sensor bracket (28) is arranged on a front wall plate (24) of the conveying platform, the other end of the sensor bracket is arranged on a rear wall plate (26) of the conveying platform, and an adjustable position sensor (22) can control a roller driving device (1) of the conveying platform to stop driving a first conveying roller (3) and a second conveying roller (10) to rotate so as to stop a paper tray (27) on a rotary supporting frame (7).

2. The automatic rotary feed table with a rotatable tray of trays according to claim 1, wherein: the rotary support frame (7) is a circular support frame.

3. The automatic rotary feed table with a rotatable tray of trays according to claim 2, wherein: the connecting bracket (23) is a cross structure welded in the circular rotating support frame (7).

4. An automatic rotary conveyor table with a rotatable tray of trays according to claim 3, wherein: the center of the cross connecting bracket (23) is welded with a rotary bracket shaft sleeve (11) with a square section.

5. The automatic rotary conveyor table with a rotatable tray of trays according to claim 4, wherein:

the section of the part of the rotating bracket driving shaft (12) arranged in the shaft sleeve (11) is square, and the section of the other part is circular.

6. The automatic rotary feed table with a rotatable tray of trays according to claim 5, wherein: the rotating bracket driving shaft (12) can only rotate along the axis and can not move up and down along the axis.

7. The automatic rotary feed table with a rotatable tray of trays according to claim 1, wherein:

the width of the first bottom plate (4) is smaller than that of the second bottom plate (18), the third bottom plate (14) is a supporting bottom plate located in the middle of the automatic rotary conveying table, the second bottom plate (18) is arranged on the outer side of the third bottom plate (14), and the first bottom plate (4) is arranged on the outer side of the second bottom plate (18).

8. The automatic rotary feed table with a rotatable tray of trays according to claim 1, wherein: the first conveyor roller (3) is longer than the second conveyor roller (10).

9. The automatic rotary feed table with a rotatable tray of trays according to claim 1, wherein: the first support plate (9) is longer than the second support plate (25).

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