CN115723221B - Three-end edge sealing plate processing system - Google Patents

Abstract

The application relates to the technical field of plate processing, and discloses a three-end edge sealing plate processing system which comprises a four-end edge sealing production line, wherein the four-end edge sealing production line is used for sealing four sides of a plate; the plate cutting production line is arranged at the discharge end of the four-end edge sealing production line and is used for cutting the plate with four-end edge sealing into two quadrilateral plates. This three-terminal banding panel processing system cuts production line through setting up the panel, makes the panel cut the production line and cuts the quadrilateral panel of accomplishing the banding into two quadrilateral panels, has solved the lower problem of current three-terminal banding panel production efficiency.

Description

Three-end edge sealing plate processing system

Technical Field

The application relates to the technical field of plate processing, in particular to a three-end edge sealing plate processing system.

Background

The edge sealing means that the edge sealing belt is used for bonding and sealing the side edge of the plate, so that moisture is reduced from the side edge of the plate to the inside of the plate, damage of the moisture to the plate is reduced, volatilization of harmful gases such as formaldehyde in the plate is reduced, and safety of the plate is improved.

In the prior art, a quadrilateral plate with three ends sealed is needed, when the quadrilateral plate is processed, the two opposite sides of the plate are sealed by adopting a double-end sealing machine, and then one side of the plate is sealed by utilizing a single-side sealing machine, so that three-side sealing of the plate is realized. However, the existing processing mode of the three-end edge-sealed plate enables the production line to process one plate at a time, and the production efficiency is low.

Disclosure of Invention

Aiming at the defects of the prior art, the application provides a three-end edge sealing plate processing system, which solves the problem of lower production efficiency of the existing three-end edge sealing plate.

In order to achieve the above purpose, the present application provides the following technical solutions: a three-terminal edge banding panel processing system, comprising:

the four-end edge sealing production line is used for sealing four sides of the plate;

the plate cutting production line is arranged at the discharge end of the four-end edge sealing production line and is used for cutting the plate with four-end edge sealing into two quadrilateral plates.

Preferably, the four-end edge banding production line comprises:

the first double-end automatic edge banding machine is used for banding two opposite side edges of the plate;

the second double-end automatic edge banding machine is used for banding the remaining two opposite sides of the plate, and the second double-end automatic edge banding machine is arranged on one side of the first double-end automatic edge banding machine.

Preferably, the four-end edge banding production line further comprises a first steering machine, wherein the first steering machine is connected with the first double-end automatic edge banding machine and the second double-end automatic edge banding machine, the first steering machine is used for conveying the plate from the first double-end automatic edge banding machine to the second double-end automatic edge banding machine, and is used for rotating the plate, so that the edge of the plate which is not edge-sealed is opposite to the edge banding mechanism of the second double-end automatic edge banding machine.

Preferably, the four-end edge sealing production line further comprises a second steering machine, the second steering machine is arranged at one end, far away from the first double-end automatic edge sealing machine, of the second double-end automatic edge sealing machine, and the second steering machine is used for conveying the plate from the second double-end automatic edge sealing machine to the plate slitting production line and rotating the plate to enable the plate to recover the placing state before edge sealing.

Preferably, the four-end edge banding production line further comprises:

the feeding transition translation machine is arranged at the plate feeding end of the first double-end automatic edge banding machine and is used for dividing plates and conveying single-piece plates to the first double-end automatic edge banding machine;

the feeding power roller lifter is arranged on one side of the feeding transition translation machine and is used for feeding plates;

the feeding robot is arranged between the feeding transition translation machine and the feeding power roller lifter, and is used for conveying plates stacked on the feeding power roller lifter to the feeding transition translation machine.

Preferably, the four-end edge banding production line further comprises:

the first power roller is arranged between the feeding transition translation machine and the first double-end automatic edge sealing machine and is used for conveying the plates from the feeding transition translation machine to the first double-end automatic edge sealing machine;

the automatic scanning device is fixedly arranged on the first power roller and is used for scanning labels attached to the plates;

the first labeling machine is fixedly arranged on the first power roller, and is positioned at one side of the automatic scanning device, which is close to the first single-side automatic edge banding machine;

the second labeling machine is also fixedly arranged on the first power roller, and is positioned at one side of the first labeling machine far away from the automatic scanning device;

the first labeller with the second labeller all with automatic scanning device is connected, first labeller with the second labeller all is used for according to the information of automatic scanning device transmission prints out corresponding label to with the label paste on the panel.

Preferably, the board cutting production line comprises an automatic cutting machine, and the automatic cutting machine comprises:

the base is fixedly arranged on the ground;

the fixed rack is fixedly arranged on the base;

the movable rack is connected to the base in a sliding manner, is positioned on one side of the fixed rack and can be close to or far from the fixed rack;

the conveying mechanism is arranged on the fixed rack and the movable rack and is used for conveying the plates;

the slitting saw mechanism is arranged on the movable frame and is used for slitting the plate into two parts.

Preferably, the automatic slitting machine further comprises:

the upper scribing saw mechanism is arranged on the movable frame and is used for grooving the upper surface of the plate so as to facilitate the splitting saw mechanism to split the plate;

and the lower scribing saw mechanism is arranged on the movable frame and is used for slotting the lower surface of the plate so as to facilitate the splitting saw mechanism to split the plate.

Preferably, the automatic splitting machine further comprises a first slotting saw mechanism and a second slotting saw mechanism, the first slotting saw mechanism and the second slotting saw mechanism are arranged on the movable frame, and the first slotting saw mechanism and the second slotting saw mechanism are used for slotting the plate.

Preferably, the board cutting production line further comprises:

the blanking transition translation machine is arranged at the discharge end of the automatic dividing and cutting machine and is used for arranging the edge-sealed plates into one layer;

the blanking power roller lifter is arranged on one side of the blanking transition translation machine and is used for blanking plates;

the blanking robot is arranged between the blanking transition translation machine and the blanking power roller lifter, and is used for conveying plates stacked on the blanking transition translation machine to the blanking power roller lifter.

The application provides a three-end edge sealing plate processing system, which has the following beneficial effects:

this three terminal banding panel processing system, through setting up four banding production lines, carry out banding to four sides of quadrilateral panel, then send into the quadrilateral panel that will accomplish the banding into panel and cut the production line, the quadrilateral panel that will accomplish the banding is cut into two quadrilateral panels by panel cutting production line to obtain two quadrilateral panels that accomplish three terminal banding, improved the machining efficiency to quadrilateral panel seal three sides, solved the lower problem of current three terminal banding panel production efficiency.

Drawings

In order to more clearly illustrate the embodiments of the application or the technical solutions of the prior art, the drawings which are used in the description of the embodiments or the prior art will be briefly described, it being obvious that the drawings in the description below are only some embodiments of the application, and that other drawings can be obtained from these drawings without inventive faculty for a person skilled in the art.

FIG. 1 is a schematic diagram of the overall structure of an embodiment of the present application.

Fig. 2 is a schematic structural diagram of a feeding transitional translation machine, a first power roller, a first labeling machine and a second labeling machine in an embodiment of the application.

Fig. 3 is a schematic structural view of an automatic slitting machine according to an embodiment of the present application.

In the figure: 1. four-end edge sealing production line; 2. a plate cutting production line; 3. a loading power roller lifter; 4. a feeding robot; 5. feeding transition translation machine; 6. a first power roller; 7. a first labelling machine; 8. a second labelling machine; 9. a first double-end automatic edge bonding machine; 10. a first steering gear; 11. a second double-end automatic edge bonding machine; 12. a second steering gear; 13. an automatic dividing and cutting machine; 14. a blanking transition translation machine; 15. a blanking robot; 16. a blanking power roller lifter; 17. a base; 18. a fixed frame; 19. a moving frame; 20. a conveying mechanism; 21. a slitting saw mechanism; 22. a wire saw mechanism is arranged on the upper scribing machine; 23. a down-sawing wire saw mechanism; 24. a first slotting saw mechanism; 25. a second slotting saw mechanism; 26. an automatic scanning device; 27. and a jump saw mechanism.

Detailed Description

In order to make the application object, feature and advantage of the present application more obvious and understandable, the technical solutions of the embodiments of the present application will be clearly and completely described below with reference to the drawings in the embodiments of the present application, and it is apparent that the embodiments described below are only some embodiments of the present application, not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the application without making any inventive effort, are intended to be within the scope of the application.

In the description of the present application, it should be understood that the directions or positional relationships indicated by the terms "upper", "lower", "top", "bottom", "inner", "outer", etc. are based on the directions or positional relationships shown in the drawings, are merely for convenience of describing the present application and simplifying the description, and do not indicate or imply that the devices or elements referred to must have a specific orientation, be constructed and operated in a specific orientation, and thus should not be construed as limiting the present application.

The technical scheme of the application is further described below by means of specific embodiments with reference to fig. 1-3.

Referring to fig. 1, the present application provides a technical solution: the utility model provides a three-terminal banding panel processing system, including four-terminal banding production line 1 and the panel that set gradually cut production line 2, four-terminal banding production line 1 is used for banding four sides to panel, and four-terminal banding production line 1 has feed end and discharge end, and panel cuts production line 2 and sets up in the discharge end of four-terminal banding production line 1, and panel cuts production line 2 and is used for cutting the panel of accomplishing four-terminal banding along the cutting line into two quadrangle panels, and the cutting line is connected between two sides that the panel is relative.

Referring to fig. 1, the four-end edge banding production line 1 includes a feeding power roller lifter 3, a feeding robot 4, a feeding transition translation machine 5, a first power roller 6, a first labeler 7, a second labeler 8, a first two-end automatic edge banding machine 9, a first steering machine 10, a second two-end automatic edge banding machine 11 and a second steering machine 12 which are sequentially arranged.

Referring to fig. 1, a feeding transition translation machine 5 is disposed at a plate feeding end of a first double-end automatic edge banding machine 9, and the feeding transition translation machine 5 is used for dividing plates and conveying single plates to the first double-end automatic edge banding machine 9. The feeding power roller lifter 3 is arranged on one side of the feeding transition translation machine 5, and the feeding power roller lifter 3 is used for feeding plates. The feeding robot 4 is arranged between the feeding transition translation machine 5 and the feeding power roller lifter 3, and the feeding robot 4 is used for conveying the plates stacked on the feeding power roller lifter 3 to the feeding transition translation machine 5. During feeding, the feeding robot 4 grabs the whole layer of plate material on the feeding power roller lifter 3 onto the feeding transition translation machine 5, and the feeding transition translation machine 5 conveys the whole layer of plate material to the first power roller 6 one by one.

Referring to fig. 1 and 2, a first power roller 6 is disposed between the feeding transition translation machine 5 and the first double-end automatic edge banding machine 9, and the first power roller 6 is used for conveying the sheet material from the feeding transition translation machine 5 to the first double-end automatic edge banding machine 9. An automatic scanning device 26 is fixedly mounted on the first power roller 6, and the automatic scanning device 26 is used for scanning labels attached to the plate. The first labeler 7 is fixedly mounted on the first power roller 6, and the first labeler 7 is positioned on one side of the automatic scanning device 26 close to the first single-side automatic edge banding machine. The second labelling machine 8 is also fixedly mounted on the first powered roller 6 and the second labelling machine 8 is located on the side of the first labelling machine 7 remote from the automatic scanning device 26. The first labeler 7 and the second labeler 8 are connected with the automatic scanning device 26, and the first labeler 7 and the second labeler 8 are used for printing corresponding labels according to the information transmitted by the automatic scanning device 26 and attaching the labels to the plates.

Through the manual work on waiting to seal the edge first piece board and paste the identity information label, automatic scanning device 26 scans the label afterwards, then automatic scanning device 26 transmits the information that scans to first labeller 7 and second labeller 8, first labeller 7 and second labeller 8 homoenergetic print the identity information label according to the information that receives, and paste the identity information label on the subsequent panel of label not, first labeller 7 and second labeller 8 paste the identity information label in panel perpendicular to transport direction's both sides respectively, make at least one label respectively on two panels that finally accomplish to cut, the work load of manual labeling when being favorable to reducing the anterior segment material is opened, thereby be favorable to improving the production efficiency of panel.

Referring to fig. 1, a first double-end automatic edge banding machine 9 is used for banding two opposite sides of a plate, a second double-end automatic edge banding machine is used for banding the remaining two opposite sides of the plate, and a second double-end automatic edge banding machine 11 is arranged on one side of the first double-end automatic edge banding machine 9. The first steering machine 10 is connected to the first double-ended automatic edge banding machine 9 and the second double-ended automatic edge banding machine 11, and the first steering machine 10 is used for conveying the plate from the first double-ended automatic edge banding machine 9 to the second double-ended automatic edge banding machine 11 and is used for rotating the plate so that the edge of the plate which is not edge-banding is opposite to the edge banding mechanism of the second double-ended automatic edge banding machine 11. The four-end edge banding production line 1 further comprises a second steering machine 12, wherein the second steering machine 12 is arranged at one end, far away from the first double-end automatic edge banding machine 9, of the second double-end automatic edge banding machine 11, and the second steering machine 12 is used for conveying boards from the second double-end automatic edge banding machine 11 to the board cutting production line 2 and rotating the boards to enable the boards to recover the rotating state before edge banding.

Referring to fig. 1, the board cutting production line 2 includes an automatic cutting machine 13, a blanking transition translation machine 14, a blanking robot 15 and a blanking power roller lifter 16, which are sequentially arranged.

Referring to fig. 1 and 3, the automatic slitter 13 comprises a base 17, a fixed frame 18, a movable frame 19, a conveying mechanism 20, a slitting saw mechanism 21, an upper scoring saw mechanism 22, an lower scoring saw mechanism 23, a first slotting saw mechanism 24 and a second slotting saw mechanism 25. The frame is fixedly arranged on the ground, the fixed frame 18 is fixedly arranged on the base 17, the movable frame 19 is connected to the base 17 in a sliding manner, the movable frame 19 and the fixed frame 18 are oppositely arranged, and the movable frame 19 can be close to or far away from the fixed frame 18, so that the cutting of plates with different sizes is realized. The conveying mechanism 20 is mounted on the fixed frame 18 and the movable frame 19, and the conveying mechanism 20 is used for conveying the plate.

Referring to fig. 3, the upper scribing saw mechanism 22, the second slotting saw mechanism 25, the lower scribing saw mechanism 23 and the splitting saw mechanism 21 are fixedly mounted on the moving frame 19 at intervals along the conveying direction of the plate, and the upper scribing saw mechanism 22 is used for slotting the upper surface of the plate so that the splitting saw mechanism 21 can split the plate. The first slotting saw mechanism 24 is arranged under the upper scribing saw mechanism 22 to improve the space utilization rate of the movable frame 19, the first slotting saw mechanism 24 and the second slotting saw mechanism 25 are both used for slotting the plates, and the slots formed by the first slotting saw mechanism 24 and the slots formed by the second slotting saw are symmetrical compared with the slots formed by the upper scribing saw mechanism 22, so that one slot is formed in each of the two cut plates, and edge sealing and slotting operations of the plates are realized. The lower scribing saw mechanism 23 is used for slotting the lower surface of the plate so that the slitting saw mechanism 21 can split the plate conveniently, the bottom of the groove formed by the upper scribing saw mechanism 22 is opposite to the bottom of the groove formed by the lower scribing saw mechanism 23, and the slitting saw mechanism 21 is used for slitting the plate into two plates along the groove formed by the upper scribing saw mechanism 22 and the groove formed by the lower scribing saw mechanism 23.

Referring to fig. 3, the plate firstly enters the automatic splitting machine 13, one end of the plate is the head end of the plate, one end of the plate, which enters the automatic splitting machine 13, is the tail end of the plate, the automatic splitting machine 13 further comprises a jump saw mechanism 27, the jump saw mechanism 27 is used for sawing and cutting the tail of a workpiece from bottom to top, and the rotation direction of the saw blade of the jump saw mechanism 27 is opposite to that of the saw blade of the splitting saw mechanism 21, so that the saw blade of the jump saw mechanism 27 applies an outward-inward cutting force on the vertical surface of the tail end of the plate, thereby reducing the edge sealing strip at the tail end of the plate from falling off the plate, and preventing the tail from edge bursting when the plate is directly cut by the splitting saw mechanism 21.

Referring to fig. 1, a blanking transition translation machine 14 is disposed at a discharge end of the automatic splitting machine 13, where the blanking transition translation machine 14 is used for arranging boards subjected to edge sealing into a layer; the blanking power roller lifter 16 is arranged on one side of the blanking transition translation machine 14, and the blanking power roller lifter 16 is used for blanking plates; the blanking robot 15 is disposed between the blanking transition translation machine 14 and the blanking power roller lifter 16, and the blanking robot 15 is used for conveying the plates stacked on the blanking transition translation machine 14 to the blanking power roller lifter 16. After the blanking transition translator 14 receives the plates from the double-sided automatic edge banding machine, the plates are arranged into one layer, then the blanking robot 15 picks up the laminated plates and places the laminated plates on the blanking power roller lifter 16, and the blanking of the plates is completed by the blanking power roller lifter 16.

To sum up, through setting up four banding production lines 1, carry out banding to four sides of quadrilateral panel, then send into panel cutting production line 2 with the quadrilateral panel that accomplishes the banding, panel cutting production line 2 cuts the quadrilateral panel of accomplishing the banding into two quadrilateral panels to obtain two quadrilateral panels that accomplish three-terminal banding, further, if cut the panel into two quadrilateral panels that all are the same in shape size, then improved trilateral machining efficiency to quadrilateral panel seal, solved the lower problem of current three-terminal banding panel production efficiency.

It is noted that relational terms such as first and second, and the like are used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Moreover, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

Although embodiments of the present application have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the application, the scope of which is defined in the appended claims and their equivalents.

The above embodiments are only for illustrating the technical solution of the present application, and not for limiting the same; although the application has been described in detail with reference to the foregoing embodiments, it will be understood by those of ordinary skill in the art that: the technical scheme described in the foregoing embodiments can be modified or some technical features thereof can be replaced by equivalents; such modifications and substitutions do not depart from the spirit and scope of the technical solutions of the embodiments of the present application.

Claims (7)

1. A three-terminal edge banding panel processing system, characterized by comprising:

the four-end edge sealing production line (1), wherein the four-end edge sealing production line (1) is used for edge sealing of four sides of a plate;

the plate cutting production line (2), the plate cutting production line (2) is arranged at the discharge end of the four-end edge sealing production line (1), and the plate cutting production line (2) is used for cutting the plate with four-end edge sealing into two quadrilateral plates;

the four-end edge sealing production line (1) comprises:

the first double-end automatic edge banding machine (9), wherein the first double-end automatic edge banding machine (9) is used for banding two opposite side edges of the plate;

the second double-end automatic edge banding machine (11) is used for banding the remaining two opposite sides of the plate, and the second double-end automatic edge banding machine (11) is arranged on one side of the first double-end automatic edge banding machine (9);

the four-end edge banding production line (1) further comprises a first steering machine (10), wherein the first steering machine (10) is connected with the first double-end automatic edge banding machine (9) and the second double-end automatic edge banding machine (11), the first steering machine (10) is used for conveying a plate from the first double-end automatic edge banding machine (9) to the second double-end automatic edge banding machine (11) and is used for rotating the plate, and the edge of the plate which is not edge-banding is opposite to the edge banding mechanism of the second double-end automatic edge banding machine (11);

the four-end edge sealing production line (1) further comprises a second steering machine (12), the second steering machine (12) is arranged at one end, far away from the first double-end automatic edge sealing machine (9), of the second double-end automatic edge sealing machine (11), the second steering machine (12) is used for conveying boards from the second double-end automatic edge sealing machine (11) to the board cutting production line (2) and is used for rotating the boards to enable the boards to recover the placement state before edge sealing.

2. A three-terminal edge banding panel processing system as claimed in claim 1, wherein said four-terminal edge banding production line (1) further comprises:

the feeding transition translation machine (5), the feeding transition translation machine (5) is arranged at the plate feeding end of the first double-end automatic edge banding machine (9), and the feeding transition translation machine (5) is used for dividing plates and conveying single-piece plates to the first double-end automatic edge banding machine (9);

the feeding power roller lifter (3) is arranged on one side of the feeding transition translation machine (5), and the feeding power roller lifter (3) is used for feeding plates;

the feeding robot (4), feeding robot (4) set up in between material loading transition translation machine (5) and the material loading power cylinder lift (3), feeding robot (4) are used for carrying the sheet material of pile on the material loading power cylinder lift (3) to material loading transition translation machine (5).

3. A three-terminal edge banding panel processing system as claimed in claim 2, wherein said four-terminal edge banding production line (1) further comprises:

the first power roller (6) is arranged between the feeding transition translation machine (5) and the first double-end automatic edge banding machine (9), and the first power roller (6) is used for conveying plates from the feeding transition translation machine (5) to the first double-end automatic edge banding machine (9);

an automatic scanning device (26), wherein the automatic scanning device (26) is fixedly arranged on the first power roller (6), and the automatic scanning device (26) is used for scanning labels attached to a plate;

the first labeling machine (7), the first labeling machine (7) is fixedly arranged on the first power roller (6), and the first labeling machine (7) is positioned at one side of the automatic scanning device (26) close to the first single-side automatic edge bonding machine;

a second labelling machine (8), the second labelling machine (8) is also fixedly mounted on the first power roller (6), and the second labelling machine (8) is positioned at one side of the first labelling machine (7) far from the automatic scanning device (26);

the first labeling machine (7) and the second labeling machine (8) are connected with the automatic scanning device (26), and the first labeling machine (7) and the second labeling machine (8) are used for printing corresponding labels according to information transmitted by the automatic scanning device (26) and attaching the labels to the plates.

4. A three-terminal edge banding panel processing system as claimed in claim 1, characterized in that said panel slitting line (2) comprises an automatic slitter (13), said automatic slitter (13) comprising:

a base (17), wherein the base (17) is fixedly arranged on the ground;

the fixed rack (18), the fixed rack (18) is fixedly arranged on the base (17);

a moving frame (19), wherein the moving frame (19) is slidingly connected to the base (17), the moving frame (19) is positioned at one side of the fixed frame (18), and the moving frame (19) can be close to or far from the fixed frame (18);

the conveying mechanism (20) is arranged on the fixed frame (18) and the movable frame (19), and the conveying mechanism (20) is used for conveying the plates;

the splitting saw mechanism (21), the splitting saw mechanism (21) is arranged on the movable frame (19), and the splitting saw mechanism (21) is used for splitting the plate into two parts;

the jump saw structure (27), jump saw structure (27) set up in on the removal frame (19), jump saw structure (27) are used for sawing from bottom to top to panel and cut, the rotation direction of the saw bit of jump saw structure (27) is opposite with the rotation direction of the saw bit of splitting saw mechanism (21).

5. A three-terminal edge banding panel processing system as in claim 4, wherein said automatic slitter (13) further comprises:

the upper scribing saw mechanism (22), the upper scribing saw mechanism (22) is arranged on the movable frame (19), and the upper scribing saw mechanism (22) is used for grooving the upper surface of the plate so as to facilitate the splitting saw mechanism (21) to split the plate;

and the lower scribing saw mechanism (23), the lower scribing saw mechanism (23) is arranged on the movable frame (19), and the lower surface of the plate is grooved by the lower scribing saw mechanism (23) so that the plate can be split by the splitting saw mechanism (21).

6. The three-terminal edge banding panel processing system as recited in claim 5, wherein said automatic slitter (13) further comprises a first slotting saw mechanism (24) and a second slotting saw mechanism (25), said first slotting saw mechanism (24) and said second slotting saw mechanism (25) are both disposed on said mobile frame (19), and said first slotting saw mechanism (24) and said second slotting saw mechanism (25) are both used for slotting panels.

7. The three-terminal edge banding panel processing system as claimed in claim 4, wherein said panel slitting line (2) further comprises:

the blanking transition translation machine (14), the blanking transition translation machine (14) is arranged at the discharge end of the automatic dividing and cutting machine (13), and the blanking transition translation machine (14) is used for arranging the edge-sealed plates into one layer;

a blanking power roller lifter (16), wherein the blanking power roller lifter (16) is arranged on one side of the blanking transition translation machine (14), and the blanking power roller lifter (16) is used for blanking plates;

the blanking robot (15), blanking robot (15) set up in between unloading transition translation machine (14) and unloading power cylinder lift (16), blanking robot (15) are used for carrying the pile panel on unloading transition translation machine (14) to unloading power cylinder lift (16).