Dry Kiln Specialties

KILN CARS AND METHOD OF LOADING

Within recent years, the edge-wise piling of lumber (see Figs. 40 and 41), upon kiln cars has met with considerable favor on account of its many advantages over the older method of flat piling. It has been proven that lumber stacked edge-wise dries more uniformly and rapidly, and with practically no warping or twisting of the material, and that it is finally discharged from the dry kiln in a much better and brighter condition. This method of piling also considerably increases the holding and consequent drying capacities of the dry kiln by reason of the increased carrying capacities of the kiln cars, and the shorter period of time required for drying the material.

Car Loaded with Lumber on its Edges by the Automatic Stacker

Fig. 40. Car Loaded with Lumber on its Edges by the Automatic Stacker, to go into the Dry Kiln cross-wise. Equipped with two edge piling kiln trucks.

In Figures 42 and 43 are shown different views of the automatic lumber stacker for edge-wise piling of lumber on kiln cars. Many users of automatic stackers report that the grade of their lumber is raised to such an extent that the system would be profitable for this reason alone, not taking into consideration the added saving in time and labor, which to anyone’s mind should be the most important item.

 Car Loaded with Lumber on its Edges by the Automatic Stacker

Fig. 41. Car Loaded with Lumber on its Edges by the Automatic Stacker, to go into the Dry Kiln end-wise. The bunks on which the lumber rests are channel steel. The end sockets are malleable iron and made for I-beam stakes.

In operation, the lumber is carried to these automatic stackers on transfer chains or chain conveyors, and passes on to the stacker table. When the table is covered with boards, the “lumber” lever is pulled by the operator, which raises a stop, preventing any more lumber leaving the chain conveyor. The “table” lever then operates the friction drive and raises the table filled with the boards to a vertical position. As the table goes up, it raises the latches, which fall into place behind the piling strips that had been previously laid on the table. When the table returns to the lower position, a new set of piling strips are put in place on the table, and the stream of boards which has been accumulating on the conveyor chain are again permitted to flow onto the table. As each layer of lumber is added, the kiln car is forced out against a strong tension. When the car is loaded, binders are put on over the stakes by means of a powerful lever arrangement.

The Construction of the Automatic Lumber Stacker

Fig. 42. The above illustration shows the construction of the Automatic Lumber Stacker for edge piling of lumber to go into the dry kiln end-wise.

The Construction of the Automatic Lumber Stacker

Fig. 43. The above illustration shows the construction of the Automatic Lumber Stacker for edge piling of lumber to go into the dry kiln cross-wise.

Battery of Three Automatic Lumber Stackers

Fig. 44. The above illustration shows a battery of Three Automatic Lumber Stackers.

Another battery of Three Automatic Lumber Stackers

Fig. 45. The above illustration shows another battery of Three Automatic Lumber Stackers.

Cars Loaded with Lumber on its Edges by the Automatic Lumber Stackers

Fig. 46. Cars Loaded with Lumber on its Edges by the Automatic Lumber Stackers.

After leaving the dry kilns, the loaded car is transferred to the unstacker (see Fig. 47). Here it is placed on the unstacker car which, by means of a tension device, holds the load of lumber tight against the vertical frame of the unstacker. The frame of the unstacker is triangular and has a series of chains. Each chain has two special links with projecting lugs. The chains all travel in unison. The lug links engage a layer of boards, sliding the entire layer vertically, and the boards, one at a time, fall over the top of the unstacker frame onto the inclined table, and from there onto conveyor chains from which they may be delivered to any point desired, depending upon the length and direction of the chain conveyor.

With these unstackers one man can easily unload a kiln car in twenty minutes or less.

The Lumber Unstacker Car

Fig. 47. The Lumber Unstacker Car, used for unloading cars of Lumber loaded by the Automatic Stacker.

The Lumber Unstacker Car and Unstacker

Fig. 48. The Lumber Unstacker Car and Unstacker, used for unloading Lumber loaded by the Automatic Stacker.

The experience of many users prove that these edge stacking machines are not alike. This is important, because there is one feature of edge stacking that must not be overlooked. Unless each layer of boards is forced into place by power and held under a strong pressure, much slack will accumulate in an entire load, and the subsequent handling of the kiln cars, and the effect of the kiln-drying will loosen up the load until there is a tendency for the layers to telescope. And unless the boards are held in place rigidly and with strong pressure they will have a tendency to warp.

Method of loading kiln cars

Fig. 49. The above illustration shows method of loading kiln cars with veneer on its edges by the use of the Tilting Platform.

A kiln car of edge-stacked lumber, properly piled, is made up of alternate solid sheets of lumber and vertical open-air spaces, so that the hot air and vapors rise naturally and freely through the lumber, drying both sides of the board evenly. The distribution of the heat and moisture being even and uniform, the drying process is naturally quickened, and there is no opportunity or tendency for the lumber to warp.

In Figure 49 will be seen a method of loading kiln cars with veneer on edge by the use of a tilting platform. On the right of the illustration is seen a partially loaded kiln car tilted to an angle of 45 degrees, to facilitate the placing of the veneer on the car. At the left is a completely loaded car ready to enter the dry kiln.

Gum, poplar, and pine veneers are satisfactorily dried in this manner in from 8 to 24 hours.

In Figure 50 will be seen method of piling lumber on the flat, “cross-wise” of the dry kiln when same has three tracks.

Method of Loading lumber

Fig. 50. Method of Loading lumber on its Flat, cross-wise of the Dry Kiln when same has Three Tracks.

In Figure 51 will be seen another method of piling lumber on the flat, “cross-wise” of the dry kiln when same has three tracks.

In Figure 52 will be seen method of piling lumber on the flat, “end-wise” of the dry kiln when same has two tracks.

In Figure 53 will be seen another method of piling lumber on the flat, “end-wise” of the dry kiln when same has two tracks.

In Figure 54 will be seen method of piling slack or tight barrel staves “cross-wise” of the kiln when same has three tracks.

In Figure 55 will be seen another method of piling slack or tight barrel staves “cross-wise” of the dry kiln when same has three tracks.

In Figure 56 will be seen method of piling small tub or pail staves “cross-wise” of the dry kiln when same has two tracks.

In Figure 57 will be seen method of piling bundled staves “cross-wise” of the dry kiln when same has two tracks.

Method of loading Lumber

Fig. 51. Method of loading Lumber on its Flat, cross-wise of the Dry Kiln when same has Three Tracks.

Method of loading Lumber

Fig. 52. Method of loading Lumber on its Flat, end-wise of the Dry Kiln by the Use of the Single-sill or Dolly Truck.

Method of loading Lumber

Fig. 53. Method of loading Lumber on its Flat, end-wise of the Dry Kiln by the Use of the Double-sill Truck.

 Method of loading Kiln Car

Fig. 54. Method of loading Kiln Car with Tight or Slack Barrel Staves cross-wise of Dry Kiln.

Method of loading Kiln Car

Fig. 55. Method of loading Kiln Car with Tight or Slack Barrel Staves cross-wise of Dry Kiln.

Method of loading Kiln Car

Fig. 56. Method of loading Kiln Car with Tub or Pail Staves cross-wise of Dry Kiln.

Method of loading Kiln Car

Fig. 57. Method of loading Kiln Car with Bundled Staves cross-wise of Dry Kiln.

In Figure 58 will be seen method of piling shingles “cross-wise” of dry kiln when same has three tracks.

In Figure 59 will be seen another method of piling shingles “cross-wise” of the dry kiln when same has three tracks.

Method of loading Kiln Car

Fig. 58. Method of loading Kiln Car with Shingles cross-wise of Dry Kiln.

Method of loading Kiln Car

Fig. 59. Method of loading Kiln Car with Shingles cross-wise of Dry Kiln.

In Figure 60 will be seen method of piling shingles “end-wise” of the dry kiln when same has two tracks.

In Figure 61 will be seen a kiln car designed for handling short tub or pail staves through a dry kiln.

Car loaded with 100,000 Shingles

Fig. 60. Car loaded with 100,000 Shingles. Equipped with four long end-wise piling trucks and to go into dry kiln end-wise.

Kiln Car designed for handling Short Tub or Pail Staves

Fig. 61. Kiln Car designed for handling Short Tub or Pail Staves through a Dry Kiln.

In Figure 62 will be seen a kiln car designed for short piece stock through a dry kiln.

In Figure 63 will be seen a type of truck designed for the handling of stave bolts about a stave mill or through a steam box.

In Figure 64 will be seen another type of truck designed for the handling of stave bolts about a stave mill or through a steam box.

In Figure 65 will be seen another type of truck designed for the handling of stave bolts about a stave mill or through a steam box.

In Figure 66 will be seen another type of truck designed for the handling of stave bolts about a stave mill or through a steam box.

In Figure 67 will be seen another type of truck designed for the handling of stave bolts about a stave mill or through a steam box.

In Figure 68 will be seen another type of truck designed for the handling of stave bolts about a stave mill or through a steam box.

In Figure 69 will be seen the Regular 3-rail Transfer Car designed for the handling of 2-rail kiln cars which have been loaded “end-wise.”

In Figure 70 will be seen another type of Regular 3-rail Transfer Car designed for the handling of 2-rail kiln cars which have been loaded “end-wise.”

In Figure 71 will be seen a Specially-designed 4-rail Transfer Car for 2-rail kiln cars which have been built to accommodate extra long material to be dried.

In Figure 72 will be seen the Regular 2-rail Transfer Car designed for the handling of 3-rail kiln cars which have been loaded “cross-wise.”

In Figure 73 will be seen another type of Regular 2-rail Transfer Car designed for the handling of 3-rail kiln cars which have been loaded “cross-wise.”

In Figure 74 will be seen the Regular 2-rail Underslung type of Transfer Car designed for the handling of 3-rail kiln cars which have been loaded “cross-wise.” Two important features in the construction of this transfer car make it extremely easy in its operation. It has extra large wheels, diameter 1312 inches, and being underslung, the top of its rails are no higher than the other types of transfer cars. Note the relative size of the wheels in the illustration, yet the car is only about 10 inches in height.

Kiln Car Designed for handling Short Piece Stock

Fig. 62. Kiln Car Designed for handling Short Piece Stock through a Dry Kiln.

A Stave Bolt Truck

Fig. 63. A Stave Bolt Truck.

A Stave Bolt Truck

Fig. 64. A Stave Bolt Truck.

A Stave Bolt Truck

Fig. 65. A Stave Bolt Truck.

A Stave Bolt Truck

Fig. 66. A Stave Bolt Truck.

A Stave Bolt Truck

Fig. 67. A Stave Bolt Truck.

A Stave Bolt Truck

Fig. 68. A Stave Bolt Truck.

A Regular 3-Rail Transfer Truck

Fig. 69. A Regular 3-Rail Transfer Truck.

A Regular 3-Rail Transfer Truck

Fig. 70. A Regular 3-Rail Transfer Truck.

A Special 4-Rail Transfer Truck

Fig. 71. A Special 4-Rail Transfer Truck.

A Regular 2-Rail Transfer Truck

Fig. 72. A Regular 2-Rail Transfer Truck.

A Regular 2-Rail Transfer Truck

Fig. 73. A Regular 2-Rail Transfer Truck.

A Regular 2-Rail Underslung Transfer Truck

Fig. 74. A Regular 2-Rail Underslung Transfer Truck.

In Figure 75 will be seen the Regular 3-rail Underslung type of Transfer Car designed for the handling of 2-rail kiln cars which have been loaded “end-wise.” This car also has the important features of large diameter wheels and low rail construction, which make it very easy in its operation.

A Regular 3-Rail Underslung Transfer Truck

Fig. 75. A Regular 3-Rail Underslung Transfer Truck.

In Figure 76 will be seen the Special 2-rail Flexible type of Transfer Car designed for the handling of 3-rail kiln cars which have been loaded “cross-wise.” This car is equipped with double the usual number of wheels, and by making each set of trucks a separate unit (the front and rear trucks being bolted to a steel beam with malleable iron connection), a slight up-and-down movement is permitted, which enables this transfer car to adjust itself to any unevenness in the track, which is a very good feature.

A Special 2-Rail Flexible Transfer Truck

Fig. 76. A Special 2-Rail Flexible Transfer Truck.

In Figure 77 will be seen the Regular Transfer Car designed for the handling of stave bolt trucks.

In Figure 78 will be seen another type of Regular Transfer Car designed for the handling of stave bolt trucks.

In Figure 79 will be seen a Special Transfer Car designed for the handling of stave bolt trucks.

A Regular Transfer Car for handling Stave Bolt Trucks

Fig. 77. A Regular Transfer Car for handling Stave Bolt Trucks.

A Regular Transfer Car for handling Stave Bolt Trucks

Fig. 78. A Regular Transfer Car for handling Stave Bolt Trucks.

A Special Transfer Car for handling Stave Bolt Trucks

Fig. 79. A Special Transfer Car for handling Stave Bolt Trucks.

In Figure 80 will be seen the Regular Channel-iron Kiln Truck designed for edge piling “cross-wise” of the dry kiln.

In Figure 81 will be seen another type of Regular Channel-iron Kiln Truck designed for edge piling “cross-wise” of the dry kiln.

A Regular Channel-iron Kiln Truck

Fig. 80. A Regular Channel-iron Kiln Truck.

A Regular Channel-iron Kiln Truck

Fig. 81. A Regular Channel-iron Kiln Truck.

In Figure 82 will be seen the Regular Channel-iron Kiln Truck designed for flat piling “end-wise” of the dry kiln.

A Regular Channel-iron Kiln Truck

Fig. 82. A Regular Channel-iron Kiln Truck.

In Figure 83 will be seen the Regular Channel-iron Kiln Truck with I-Beam cross-pieces designed for flat piling “end-wise” of the dry kiln.

In Figure 84 will be seen the Regular Small Dolly Kiln Truck designed for flat piling “end-wise” of the dry kiln.

A Regular Channel-iron Kiln Truck

Fig. 83. A Regular Channel-iron Kiln Truck.

A Regular Single-sill or Dolly Kiln Truck

Fig. 84. A Regular Single-sill or Dolly Kiln Truck.

Different Types of Kiln Doors

In Figure 85 will be seen the Asbestos-lined Door. The construction of this kiln door is such that it has no tendency to warp or twist. The framework is solid and the body is made of thin slats placed so that the slat on either side covers the open space of the other with asbestos roofing fabric in between. This makes a comparatively light and inexpensive door, and one that absolutely holds the heat. These doors may be built either swinging, hoisting, or sliding.

An Asbestos-lined Kiln Door of the Hinge Type

Fig. 85. An Asbestos-lined Kiln Door of the Hinge Type.

In Figure 86 will be seen the Twin Carrier type of door hangers with doors loaded and rolling clear of the opening.

Twin Carrier with Kiln Door loaded and rolling clear of Opening

Fig. 86. Twin Carrier with Kiln Door loaded and rolling clear of Opening.

In Figure 87 will be seen the Twin Carrier for doors 18 to 35 feet wide, idle on a section of the track.

In Figure 88 will be seen another type of carrier for kiln doors.

In Figure 89 will be seen the preceding type of kiln door carrier in operation.

In Figure 90 will be seen another type of carrier for kiln doors.

In Figure 91 will be seen kiln doors seated, wood construction, showing 312” × 534” inch-track timbers and trusses, supported on 4-inch by 6-inch jamb posts. “T” rail track, top and side, inclined shelves on which the kiln door rests. Track timber not trussed on openings under 12 feet wide.

Twin Carriers for Kiln Doors 18 to 35 Feet wide

Fig. 87. Twin Carriers for Kiln Doors 18 to 35 Feet wide.

 Kiln Door Carrier engaged to Door Ready for lifting

Fig. 88. Kiln Door Carrier engaged to Door Ready for lifting.

In Figure 92 will be seen kiln doors seated, fire-proof construction, showing 12-inch, channel, steel lintels, 2″ × 2″ steel angle mullions, track brackets bolted to the steel lintels and “T” rail track. No track timbers or trusses used.

Kiln Door Carrier shown on Doors of Wood Construction

Fig. 89. Kiln Door Carrier shown on Doors of Wood Construction.

Kiln Door Construction with Door Carrier out of Sight

Fig. 90. Kiln Door Construction with Door Carrier out of Sight.

Kiln Door Construction. Doors Seated. Wood Construction.

Fig. 91. Kiln Door Construction. Doors Seated. Wood Construction.

Kiln Door Construction. Doors Seated. Fire-proof Construction.

Fig. 92. Kiln Door Construction. Doors Seated. Fire-proof Construction.


INDEX: Seasoning of Wood