CN217777283U - Device for processing building training material - Google Patents

Abstract

The utility model provides a device of real material of instructing of processing building belongs to the teaching aid field, when the real standard of building, uses the red brick of simulation as real material of instructing, and the inventor utilizes clay to make mud to designed a device of real material of instructing of processing building, the device utilizes the through-hole and the blocking strip of mainboard, encloses into the hole of rectangle, fills mud, once can make the red brick of polylith simulation. The utility model discloses can utilize campus clay, the real standard material of convenient processing to easily the operation.

Description

Device for processing building practical training material

Technical Field

The utility model belongs to the teaching aid field especially is used for real teaching aid field of instructing of building.

Background

During building practical training, various practical training materials including red bricks are needed. The red brick commonly used in engineering has the length, width and height of 240mm,115mm and 53mm respectively, and the size is too large in practical training and is not beneficial to popularization. To improve the creativity of students, training operations are often performed with small-sized red brick materials, such as: simulated red bricks with the length of 24.9mm, the width of 11.9mm and the thickness of 5.5mm are used as practical training materials, however, the materials are relatively high in price, and the materials are difficult to purchase for various reasons. The prior art with publication number CN102466408A and named as a small-sized brick making machine does not relate to a manufacturing link of a simulated red brick, and the prior art focuses on a firing process.

SUMMERY OF THE UTILITY MODEL

In order to save cost and overcome the difficulty that simulated red bricks are not easy to obtain, the inventor utilizes clay to make mud, and designs a device for processing a building practical training material. The utility model provides a device of real material of instructing of processing building, includes the mainboard, characterized by: the mainboard is equipped with the through-hole that is used for filling mud, and a side and the shutoff hole intercommunication of this through-hole still include the shutoff strip, and the shutoff strip is used for imbedding the shutoff hole to make the through-hole be enclosed into the hole of rectangle.

Furthermore, the through holes have two sizes, one is used for processing a complete red brick model, the other is used for processing a half red brick model, and the thicknesses of all the through holes arranged on the same main board are the same.

Furthermore, the shape of the plugging hole is rectangular, the shape of the plugging strip is also rectangular, and the plugging strip is just embedded into the plugging hole.

Furthermore, the end face of the blocking strip is located between the edge of the main board and the edge of the outermost side of the through hole.

Furthermore, the mainboard is provided with a plurality of through holes.

The utility model discloses do benefit to the real standard material of self-control building to convenient operation once can make the red brick of polylith simulation.

Drawings

Fig. 1 is a schematic view of a partial structure of the present invention.

Fig. 2 is a schematic view of a partial structure of the present invention.

Fig. 3 is a schematic structural diagram of the present invention.

Fig. 4 is a schematic view of a partial structure of the present invention.

In the figure: 1-main board, 21-first sealing strip, 22-second sealing strip, 3-full brick cavity, 4-sealing hole, 5-extension hole and 6-half brick cavity.

Detailed Description

The present invention will be described in detail with reference to the accompanying drawings.

Referring to fig. 1, which is a schematic structural diagram of the main board 1 of the present invention, fig. 2 is a schematic structural diagram of a sealing strip, and fig. 2 shows a first sealing strip 21 and a second sealing strip 22. Mainboard 1 is equipped with the through-hole that is used for filling mud, and a side and the 4 intercommunications in shutoff hole of this through-hole still include the shutoff strip, and the shutoff strip is used for imbedding shutoff hole 4 to make the through-hole be enclosed into the hole of rectangle.

Mainboard 1 uses the steel sheet processing of 5.5mm thickness to form, and mainboard 1 is made by smooth panel, and the shutoff strip also uses the steel sheet processing of 5.5mm thickness to make.

When using, arrange mainboard 1 in the level desktop, in order to prevent that the desktop from making dirty, can lay the plastic cloth at the desktop, after arranging mainboard 1 in the level desktop, sealing strip embedding plugging hole 4, like this, just formed the recess of rectangle, then, fill this recess to mud, flatten the back, mainboard 1 is mentioned to both hands, at this time, sealing strip and mainboard 1 break away from, the sealing strip is left in the desktop, then, take off the mud of packing carefully with the hand, after the shady dry, just obtained the red brick of simulation. If necessary, the block can be fired, and if not, the block dried in the shade can be directly used.

Referring to fig. 3, fig. 3 is a schematic structural diagram of the present invention, showing a situation that the plugging strip is just embedded into the plugging hole 4. The through holes are clearly shown in the figure and are used for filling mud as a mould for simulating red bricks.

Furthermore, the through holes have two sizes, one is used for processing a complete red brick model, the other is used for processing a half red brick model, and the thickness of all the through holes arranged on the same main board 1 is the same. Taking fig. 1 as an example, fig. 1 shows a full brick hole for manufacturing a whole simulated red brick and a half brick hole for manufacturing a half brick. Because the size of simulation red brick is less, and in the time of real standard, must use half piece simulation red brick, so, directly set up the through-hole of two kinds of sizes on mainboard 1, improved the efficiency of making, and practiced thrift and made the utility model discloses a cost-because just can make two kinds of simulation red bricks with a mainboard 1.

Further, the shape of the plugging hole 4 is rectangular, the shape of the plugging strip is also rectangular, and the plugging strip is just embedded into the plugging hole 4. The rectangle is the shape that does benefit to processing, and if the size of plugging strip is less than the size of plugging hole 4, then, mud packs closely afterwards, and the plugging strip aversion, will lead to simulating the size of red brick to change. Therefore, it is preferred that the dimensions of the plugging strip and the plugging hole 4 are identical, and it can be said that the dimensions of the plugging strip and the plugging hole 4 are adapted.

If the end face of the blocking strip coincides with the plane where the side face of the through hole closest to the edge of the main board 1 is located, mud is easily squeezed into the crack after being filled with mud, so that the blocking strip is difficult to separate, and therefore an extension hole 5 is formed. After the plugging strip is embedded into the plugging hole 4, the end surface of the plugging strip is positioned in the extending hole 5. Taking fig. 3 as an example, further, the end face of the blocking strip is located between the edge of the main board 1 and the outermost edge of the through hole. By adopting the design, the plugging strip is easy to separate from the main board 1. In fact, the plugging strip has a little mud filling on that side near the through hole, but because the plugging strip is made of steel plate, the self weight is large, so when lifting the main plate 1, the plugging strip naturally breaks away from the main plate 1. However, if the end face of the plugging strip is also pushed into mud, the plugging strip is not easily separated from the main plate 1 when a plurality of faces are subjected to force.

In order to improve the efficiency, taking fig. 1 as an example, the main board 1 is further provided with a plurality of through holes, and preferably, the plurality of through holes are divided into two rows, and the two rows are arranged symmetrically.

For the convenience of processing, the utility model provides a concrete size numerical value, see attached 4, steel sheet thickness 5.5mm, in the picture: AB =8mm, bc =10mm, cd =24.9mm, de =11.9mm, fe =24.9mm, fg =5mm.

The utility model discloses can utilize campus clay, the real standard material of convenient processing to easily the operation.

Claims (5)

1. The utility model provides a device of real material of instructing of processing building, includes the mainboard, characterized by: the main board is provided with a through hole for filling mud, one side surface of the through hole is communicated with the plugging hole,

the plugging device further comprises a plugging strip, wherein the plugging strip is used for being embedded into the plugging hole, so that the through hole is surrounded into a rectangular hole.

2. The apparatus for processing building training material as claimed in claim 1, wherein: the through holes have two sizes, one is used for processing a complete red brick model, the other is used for processing a half red brick model, and the thickness of all the through holes arranged on the same main board is the same.

3. The apparatus for processing building training material as claimed in claim 1, wherein: the shape of the plugging hole is rectangular, the shape of the plugging strip is also rectangular, and the plugging strip is just embedded into the plugging hole.

4. The apparatus for processing building training material as claimed in claim 1, wherein: the end face of the plugging strip is positioned between the edge of the main board and the outermost side edge of the through hole.

5. The apparatus for processing building training material of claim 1, wherein: the mainboard is equipped with a plurality of through-holes.

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