Mounting base
a technology for mounting bases and mounting plates, applied in the field of mounting bases, can solve the problems of shifting of mounting bases and stacked bundles of ps plates, and achieve the effect of preventing the cutting of bands
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first embodiment
[0036] A loading structure 12 configured using a mounting base 10, on which a stacked bundle 16 of planographic printing plates 14 are loaded, of the present invention is shown in FIG. 1.
[0037] First, a simple explanation will be given regarding the planographic printing plate 14 and the stacked bundle 16 of stacked planographic printing plates 14.
[0038] The planographic printing plate 14 is formed by coating a coating film on a thin aluminum substrate formed into a rectangular board (in the case of a photosensitive printing plate, a photosensitive layer, in the case of a thermosensitive printing plate, a thermosensitive layer and further, when necessary, including more layers such as an overcoat layer and a matte layer).
[0039] The stacked bundle 16 of the planographic printing plates 14 is formed by alternately layering, in the thickness direction, the planographic printing plates 14 and laminated papers 18, which protect the coating films of the planographic printing plates 14. ...
second embodiment
[0061] Next, the explanations will be given regarding the operation of the present invention.
[0062] When each fastening band 34 is wound around the trestle 26, the fastening band 34 is wound between a protrusion 40 and a protrusion 40. With this, the position of the fastening bands 34 wound around the trestle 26 is between the protrusions 40 so when the forks 38 are inserted in the insertion area 30, even if the forks 38 (refer to FIG. 2) contact the protrusions 40, they do not contact the fastening bands 34. Accordingly, there is no danger of damaging the fastening bands 34 and of the trestle 26 and stacked bundle 16 shifting.
[0063] It should be noted that in the present embodiment, the protrusions 40 were formed in the side surface 26A of the trestle 26, however, as shown in FIG. 5A, cutouts 42 can be formed in the side surface 26A and blocks 44 fit into the cutouts 42 so that protrusions are formed in the side surface 26A of the trestle 26. Due to this, even if a block 44 is dam...
third embodiment
[0070] Next, the explanations will be given regarding the operation of the present invention.
[0071] As shown in FIG. 6B, the stacked bundle 16 is mounted on the trestle 26. When binding these with the fastening bands 34, each fastening band 34 is guided from the passageway 60 formed with the block 50 and depression 48 to the gap 52 formed between the block 50 and depression 48, and wound around the depression 48.
[0072] Due to this configuration, the fastening band 34 enters in closer to the inside than the side surface 26A and underneath surface 26B of the trestle 26. When the forks 38 are inserted into the insertion area 30, even if the forks 38 make contact with the block 50, they do not contact the fastening bands 34. Accordingly, there is no danger of the fastening bands 34 being damaged and the trestle 26 and stacked bundle 16 shifting.
[0073] Next, explanations will be given regarding the fourth embodiment of the present invention. Explanations regarding portions that are the...
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