JPH0748579Y2 - Brick stacking partition - Google Patents

Description

TECHNICAL FIELD The present invention relates to a brick-laying partitioning tool, and more particularly to a brick-laying partitioning tool effective when bricking bricks whose surface is coated with a coating material.

2. Description of the Related Art Conventionally, when bricks are piled up, bricks are piled vertically and piled up on a pallet or a truck for firing or drying. Then, between the bricks in the vertical direction of the brick stack, generally, a floor powder is inserted so that the upper and lower bricks do not adhere to each other during firing or drying and do not fuse. As the spread powder, sawdust, chaff, alumina particles, magnesia particles, mag-chromic particles, and other materials having various particle sizes are used.

In recent years, bricks containing carbon such as MgO-C quality, MgO-CaO-C quality, and Al ₂ O ₃ -C quality have been manufactured. Let's expand the brick,
BACKGROUND ART For the purpose of preventing digestion and the like, a surface coating material is applied to bricks after molding or drying. For this reason, it has been impossible to prevent adhesion and fusion of the upper and lower bricks by inserting the spread powder, which has been conventionally performed.

Therefore, a thick iron plate, a wire, a wire mesh, and an angle member are generally used for partitioning the upper and lower parts of the brickwork.

However, the partitioning tool for the thick iron plate may not be removed because the brick adheres when the brick coating material is not dry or when the brick is dried and then wholesaled. In addition, when using wire, the adhesion area is small because the contact area with the brick is small, and it is easy to wholesale bricks after drying.However, since the contact area is small, vibration of the bricks due to vibration during movement on a pallet or a truck Lateral slippage is dangerous. In addition, when the wire mesh is used, the bricks may adhere to each other and cannot be removed when the bricks are dried when wholesaled, as in the case of the thick iron plate. Further, the use of the angle material has the same tendency as the use of the thick iron plate or the wire mesh.

Means for Solving the Problems The present invention has been made in view of the above points, and in order to solve the above problems, a plate-shaped metal partition plate having a thickness of 0.1 to 1 mm is stacked between stacked bricks. Another object of the present invention is to provide a brick-laying partitioning tool, which is characterized in that a plurality of four sheets are piled up and mounted at regular intervals.

When the bricks are stacked according to the present invention, even if the coating material applied to the stacked bricks and the metal partition plate adhere to each other, it is the upper and lower metal partition plates that adhere, and the thickness of the metal partition plate is Because it is thin, it can be easily peeled off. Further, since it is a metal partition plate, the contact area with the bricks to be stacked can be widened, and the bricks can be stably transported without being laterally displaced when moving on a pallet or a trolley.

Embodiment Hereinafter, the present invention will be described based on an embodiment.

FIG. 1 and the following are embodiments of the present invention. The bricks 1 are slightly large and horizontally long as shown in FIG. 1, and are vertically stacked on a pallet or a carrier 2 of a truck at a predetermined height as shown in FIG. And the bricks 1 piled up
In the meantime, as shown in the figure, the partitioning tools 3 are mounted at regular intervals with good stability. As shown in FIG. 2, the partitioning tool 3 has a plurality of metal partitioning plates 4 placed one on top of the other.

The metal partition plate 4 has a thickness t of 0.1 to 1 mm and a width B of 10 to 20 m.
m and length L are made of strip-shaped iron plates that are almost the same as or slightly longer than the overall width of the bricks 1 that are stacked in parallel, and 2 to 4 sheets (3 sheets in the figure) are stacked as shown in FIG. In addition, the metal partition plate 4 located at the bottom is the brick 1 below.
And the uppermost metal partition plate 4 comes into contact with the bricks 1 above, respectively.
Installed at intervals of ~ 200mm. The brick 1 is generally coated with a coating material, and the thickness thereof is generally 1 mm or less. The thickness of the metal partition plate 4 is preferably the same as the coating thickness or slightly thicker than the coating thickness. If the metal partition plate 4 is 1 mm or more, it is hard and does not easily come off when wholesale the bricks. If the thickness of the metal partition plate 4 is set to about 0.1 to 1 mm as described above, even if the metal partition plate 4 adheres to the bricks 1, it is easy to remove when the wholesale. It has good workability.

If the width of the metal partition plate 4 is about 10 to 20 mm, the brick 1
The contact area with B is sufficient, the contact area is sufficiently larger than the conventional wire or angle member, and there is no risk of the brick 1 laterally slipping due to vibration caused by the transfer of the load 2. If the width is too wide, the contact area with the brick coating material will increase,
The appearance of peeling marks of the coating material may be poor, and work may be dangerous when peeled off.

Also, when the brick 1 is dried, it tends to warp or deform,
By mounting the metal partition plates 4 at a pitch of 150 to 200 mm and aligning the height levels, the metal partition plates 4 can be uniformly supported with respect to the brick load, and warpage and deformation can be prevented.

It should be noted that the length of the metal partition plate 4 may be selected to be the length that is most easy to use in work.

Application example Unburned magnesia carbon brick with dimensions of 990 mm
× For width 150 mm × thickness 130 to 105 mm, after molding, apply a 0.6 mm thick coating material on the surface, and immediately after that, as shown in Fig. 1, length 600 mm × width 19 mm × thickness 0.6 mm metal partition plate 3 sheets were piled up on each other, and each stage was mounted at a pitch of 150 to 200 mm, and the carts were stacked.

After loading on a trolley, the bricks were dried from the trolley by drying in a tunnel-type drying oven at 180 ° C for 24 hours. The bricks selected had no warpage or deformation, and the strip iron plate was easily peeled off from the bricks during the wholesale operation, which was good. In addition, the bricks loaded in the cart were not laterally displaced due to vibration during the drying process.

It should be noted that the number of metal partition plates to be overlapped is complicated as the number of metal partition plates increases, and the metal partition plates are easily displaced.
Further, in order not to make a mistake in the number of superposed sheets, the lower, middle, and upper ones can be displayed in different colors on the whole or at the ends so that the number can be seen at a glance.

A release agent or the like may be attached to the side surface of the metal partition plate which is in contact with the brick so that the metal partition plate does not adhere to the coating material as much as possible to facilitate peeling.

Effects of the Invention As described above, according to the present invention, it is possible to prevent the bricks stacked by the plurality of metal partition plates from being adhered to each other, preventing corner breaks, and preventing warpage and deformation. In addition, since the metal partition plate is plate-shaped, bricks can be stacked on a pallet or trolley with good stability, and because the metal partition plate is thin, even for brick coating with surface coating,
The metal partition plate can be easily peeled off during loading and unloading, improving work efficiency.

[Brief description of drawings]

FIG. 1 is a perspective explanatory view of a brick stacking state according to an embodiment of the present invention, and FIG. 2 is a perspective view in which some of the stacked metal partition plates are omitted. 1 ... Brick, 3 ... Partitioning tool, 4 ... Metal partition board.

Claims (1)

[Scope of utility model registration request] 1. A brick partitioning tool, characterized in that a plurality of plate-like metal partition plates having a thickness of 0.1 to 1 mm are stacked between the stacked bricks and mounted at regular intervals.