KR200286665Y1 - Block molding apparatus with moving block compressioner - Google Patents

Abstract

The present invention relates to a block forming apparatus having a movable block compression apparatus, which is capable of providing a strong compression force to a forming block by implementing a movable block compression apparatus in three dimensions on one side of the block forming apparatus employing a movable hopper. Provided is a block forming apparatus having an apparatus.

Description

BLOCK MOLDING APPARATUS WITH MOVING BLOCK COMPRESSIONER}

The present invention relates to a block molding apparatus having a movable block compression apparatus, and more particularly, it is possible to provide a strong compression force to the molding block by implementing the movable block compression apparatus in three dimensions on one side of the block molding apparatus employing the mobile hopper. A block forming apparatus having a movable block compression apparatus.

In general, in the process of producing a molding block using a block molding apparatus, mortar mixed with gravel, sand, cement, etc. is supplied to a hopper, and the supplied mortar is injected into a molding mold to form a molding block once. After that, the compression is combined with the vibration of the formed molding block, thereby producing a molding block having high strength in a short time.

Block forming apparatus used in the production of the molding block as described above are largely used according to the block to be produced in two ways, one of which is mainly used for the production of small molding block, such as home brick, sidewalk block, etc. , A molding apparatus adopting a fixed hopper which supplies the mortar to the molding mold through the material supply means formed at the bottom of the fixed hopper, and the other is mainly used for the production of large molding blocks such as banks, vegetation, raft block As a device that is, the hopper itself is a device for producing a molding block by dropping mortar on the molding die installed at the bottom while reciprocating on the conveying rail.

In the molding apparatus employing the fixed hopper as in the former case, since the fixed block compression device is provided for compressing the molding block, and the hopper also adopts the fixed type, there is no physical collision between the hopper and the block compression device. There is no problem in design.

However, in the latter case, since the hopper itself adopts a movable hopper to reciprocate on the transfer rail in order to inject a large amount of mortar into the mold, the hopper and the compression that move if the fixed block compression device is provided as in the former case. Physical collisions between the devices make structural design impossible.

For this reason, in general, a device employing a mobile hopper includes a block compaction device for compacting the molding block by providing repeated vibration of the horsepower at the bottom of the hopper, thereby compressing the block. Not only is it difficult to provide a strong compressive force, it is always attached to the moving hopper is subjected to a weighted load, in particular, the load was added to the device itself as it repeatedly vibrates while attached to the hopper.

In addition, the device is compaction type that can provide the horsepower, whereas the block to be compressed is large, the compaction plate provided in the compaction device that provides the horsepower can not be compacted at once, gradually at the top of the block Since the compression is repeatedly performed while moving forward, the compressed surface is not uniformly formed, resulting in aesthetic / functional problems.

In particular, when a high strength core is provided in a mold to manufacture various shapes of the molding block, the molding block cannot be compressed at the same time as described above, as well as physical collision with the high strength core and the compaction plate provided in the compaction apparatus. This has a problem that the quality of the molded block is produced and produced, as well as the damage of the device itself.

The object of the present invention is to solve the problems described above, without providing a compression device fixed to the block forming apparatus itself, it is possible to provide a strong compressive force to the block to improve the strength of the forming block and at the same time shorten the manufacturing time The present invention provides a block molding apparatus having a movable block compression apparatus.

1 is a perspective view showing a state of use of a block forming apparatus having a movable block compression apparatus according to the present invention,

2 is a perspective view showing the structure of a movable block compression device part in one embodiment of a block forming device according to the present invention;

Figure 3 is a plan view showing a planar configuration of an embodiment of a movable block compression device according to the present invention,

Figure 4 (a) is a side cross-sectional view showing a side configuration in one embodiment of the block forming apparatus according to the present invention,

(B) is a cross-sectional view showing the coupling structure of the movable body and the frame means of the block forming apparatus in (A).

(Detailed description of the main symbols in the drawings)

10. Block forming apparatus 11. Frame means

12. Mobile Hopper 13. Mold

20. Block Compressor 21. Feed Rail

22. Reinforcement frame 23. Moving body

25. Transfer cylinder

The above object is achieved through the configuration of the present invention as follows.

The block forming apparatus of the present invention includes a frame means for forming a structure as a whole, a movable hopper for supplying mortar into a forming frame while reciprocating on a guide rail formed on an upper end of the frame means, a forming frame provided at a lower end of the movable hopper; In a block molding apparatus having a block compression device for compressing a block formed in a molding die,

The block compression device is provided on the side of the frame means in a direction perpendicular to the direction of movement of the hopper, and has compression means for compressing the formed block in the molding frame through a reciprocating motion in a direction perpendicular to the direction of movement of the hopper. And a transfer rail for providing a support and a transfer path of the movable body, and a transfer cylinder for providing a transfer force to the movable body.

In a specific embodiment, the present invention is characterized in that the compression means is composed of a hydraulic (pneumatic) cylinder and a compression plate that is extended from the piston of the hydraulic (pneumatic) cylinder to provide a surface pressure to the forming block.

In addition, in a preferred embodiment of the present invention, the fixing means for stable fixing of the movable body is formed on one side of the movable body and the frame means of the block forming apparatus, and the frame means of the block forming apparatus which is in contact with the fixing protrusion. It characterized in that the fixing groove is formed symmetrically with the fixing protrusion.

In another preferred embodiment of the present invention, a guide bar is formed on both sides of the movable body on guide rails to facilitate stable support / transfer of the movable body.

Hereinafter, with reference to the accompanying drawings will be described in detail a block forming apparatus equipped with a mobile block compression apparatus according to the present invention.

1 is a view showing the overall structure and use of the block forming apparatus having a mobile block compaction apparatus according to the present invention, Figure 2 shows only the block compression unit of the block forming apparatus, as seen using these figures Preferred embodiments of the invention will be described below.

First, referring to Figure 1, the block forming apparatus of the present invention is installed in the mold forming unit 13 is installed in the block forming apparatus main body 10 employing the movable hopper 12 and perpendicular to the moving direction of the hopper on its side. It is composed of a movable block compression device 20 for compressing the formed block.

The block forming apparatus main body 10 is a movable hopper for supplying mortar into the molding frame while reciprocating on a frame means 11 forming a structure as a whole and a guide rail (not shown) formed at an upper end of the frame means 11. 12 and a molding die 13 provided at the lower end of the hopper 12 is configured.

On the other hand, on one side of the frame means 11, the block compression device 20 is installed perpendicular to the moving direction of the movable hopper 12, the compression means (23a) provided on the movable body 23 formed blocks formed in the molding die; 23b) can be compressed.

Referring to FIG. 2, the block compression device 20 installed at one side of the frame means 11 of the block forming apparatus main body 10 compresses a forming block formed in the forming mold 13 through reciprocating motion. A movable body 23 having compression means 23a and 23b, a transfer rail 21 supporting the movable body 23 and providing a transfer path, and providing a transfer force to the movable body 23 It is composed of a transfer cylinder (25).

The conveying rail 21 which provides the conveying path of the movable body has a pair of beams arranged in parallel to form a rail on the upper end, and a plurality of conveying rails 21 are provided on the conveying rail for stable support of the conveying rail 21. With two supporting frames and a reinforcing frame 22, to form a high-strength structure is to be placed on one side of the block forming apparatus main body.

The movable body 23 forms a structure through a frame of high strength as a whole, and a plurality of movable bodies 23 are easily reciprocated on the transfer rails at the contact surfaces of the movable bodies 23 and the transfer rails 21. Two feed rollers (23c), and the movable body 23 is provided with compression means (23a, 23b) to provide a surface pressure perpendicular to the molding block, in a preferred embodiment of the present invention (Pneumatic) It consists of the compression plate 23b which provides surface pressure to a shaping block by adjusting the height according to the tension and shrinkage of the cylinder 23a and the said hydraulic (pneumatic) cylinder 23a.

The compression plate 23b is not subject to any special material such as synthetic resin, glass fiber, iron plate, etc., and its thickness may be variously performed according to the strength and characteristics of the molding block to be compressed, but the width thereof is efficient in operation. And considering the surface roughness of the molding block, the width of the molding block is preferably equal to the width of the molding block.

Compression means (23a, 23b) in the present invention can be modified in various ways, such as the vibration of compressing the molding block through the vibration of the self-motor as well as the compression of the molding block through the cylinder as in the above embodiment, All such modifications are also intended as the technical scope of the present invention.

Figure 3 shows a planar configuration of a block compression apparatus according to an embodiment of the present invention, with reference to Figure 3 describes a transfer cylinder.

The movable cylinder 23 configured as described above, which supplies power to reciprocate on the transfer rail 21a, is reciprocally communicated between the movable body 23 and the transfer rail 21.

At this time, the connection of the transfer rail 21 and the transfer cylinder 25 and the connection of the compression means 23 and the piston of the transfer cylinder 25 can be modified in various ways, such as a welding method, a screw coupling method, this embodiment In FIG. 3, white paper 25a is provided at both ends of the transfer cylinder 25 to form a mutual speech.

For this reason, when the piston of the cylinder 25 is advanced, the movable body 23 is advanced along the transfer rail 21 and positioned at the upper end of the forming mold 13 of the block forming apparatus 10, while the piston is When it is reversed, the movable body 23 naturally returns to its original position by reversing along the conveying rail 21.

At this time, when the movable body 23 is located at the upper end of the molding die 13, one side of the moving direction of the movable body 23 in the forward direction is not seated on the conveying rail, so that the weighted load is conveyed to it. Since only the cylinder 25 may be difficult to support, in another preferred embodiment of the present invention, the guide bar 23f formed on the conveying rails is provided at both rear ends of the movable body to compensate for this. By distributing the load on the transfer cylinder 25 due to the stable transport / support is possible.

4 is a view illustrating a coupling structure between a movable body and a block molding apparatus according to an embodiment of the present invention and illustrates a fixed structure of the movable body.

On the other hand, the block compression device configured as described above, when the movable body 23 is located in the upper end of the molding die 13 to compress the molding block formed in the molding die 13 through the transfer cylinder 25, the movable body One side of the 23 is fixed on the conveying rail 21, while the other side of the movable body 23 is not fixed, thereby stably providing a compression force to the forming block.

In order to solve such a problem, in the present invention, as shown in FIG. 4, the fixing protrusion 23d is formed at one side of the movable body 23, which is in contact with the frame means 11 of the movable body 23 and the block forming apparatus 10. And a fixing groove 23e formed symmetrically with the fixing protrusion 23d in the frame means 11 of the block forming apparatus 10 which is in contact with the fixing protrusion 23d. (23) was to be fixed.

In addition, in the present embodiment, the number of the fixing protrusions 23d is provided as one example at each corner, but the number of the fixing protrusions is one to one in consideration of the load of the movable body and the compressive force provided. It will be possible to have multiple dogs.

Thus, when the movable body 23 formed on the transfer rail 21 is positioned at the upper end of the forming block through the advancing of the transfer cylinder 25 to compress the forming block, the movable body ( The fixing protrusion 23d formed on one side of the 23 is stably fixed to the fixing groove 23e formed in the frame means 11 to fix one side of the movable body 23, and the movable protrusion 23d is formed. The other side of the sieve 23 is positioned on the conveying rail 21 and is fixed stably.

At this time, the compression plate 23b is lowered through the advancing of the cylinder 23a of the compression means 23a and 23b provided in the movable body 23 to compress the molding block formed in the molding die 13.

When the compression of the molding block is completed as described above, the cylinder 23a of the compression means 23a and 23b is reversed to raise the compression plate 23b, and at the same time, the transfer cylinder 25 is also reversed to move the movable body 23. ) Is to return to the top of the conveying rail (21).

The control means of the compression means provided in the movable body, the transfer cylinder for providing the transfer force of the movable body is configured to be controlled by a separate control unit by the detection of the limit sensor, and since such a configuration and technology are conventional techniques, Illustration and detailed description are omitted.

In the present invention, as the movement path of the hopper of the block forming apparatus and the movement path of the compression means of the block compression apparatus are implemented in three dimensions as described above, it is pointed out as a problem in the prior art, without the compaction and physical collision through the force of force, a strong compression force Can be applied to the molding block, thereby increasing the strength of the molding block and at the same time shorten the production time.

Claims (4)

Compressing the block formed in the frame means for forming the structure as a whole, a mobile hopper for supplying mortar in the forming mold while reciprocating on the guide rail formed on the upper end of the frame means, the forming mold provided on the lower end of the hopper and the forming mold In a block forming apparatus having a block compression device, The block compression device is provided on the side of the frame means in a direction perpendicular to the direction of movement of the hopper, and has compression means for compressing the formed block in the molding frame through a reciprocating motion in a direction perpendicular to the direction of movement of the hopper. And a transfer rail for providing a support and a transfer path of the movable body and the compression means, and a transfer cylinder for providing a transfer force to the movable body. 2. The movable block compression apparatus as claimed in claim 1, wherein the compression means comprises a hydraulic (pneumatic) cylinder and a compression plate that is struck with the piston of the hydraulic (pneumatic) cylinder to provide surface pressure to the forming block. One block molding machine. The method according to claim 1, wherein a fixing protrusion for stable fixing of the movable body is formed on one side of the movable body which is in contact with the frame means, and a fixing groove is formed in the frame means which is in contact with the fixing protrusion to be symmetrical with the fixing protrusion. Block forming apparatus having a movable block compression device. 2. The block forming apparatus according to claim 1, further comprising guide bars formed on conveying rails at both rear ends of the movable body to facilitate stable support / transfer of the movable body.