KR102607734B1 - Waste paper compressors with improved compression efficiency - Google Patents

Abstract

The present invention relates to a waste compressor that compresses waste in the form of a hexahedron, and improves the compression efficiency of waste by evenly spreading the upper side of the waste loaded in the waste compressor. More specifically, it relates to a waste compressor that supplies waste from the outside on one side. A receiving inlet 11 is formed, and there is a compression space 12 in which the waste from the input port 11 is loaded and compressed, and the waste in the compression space 12 falls vertically at the bottom of the compression space 12. A case 10 is provided with a seating space 13 that can be seated, and has an outlet 14 through which the compressed waste is discharged on one side of the seating space 13; and a case 10 located on one side of the compression space 12 and a first A gate device (20) that opens and closes the lower part of the compression space (12) by operating the cylinder (21) so that the support (22) moves back and forth in the horizontal direction; and is located on one side of the compression space (12) in the direction of the inlet (11). A flattening device (30) consisting of a pusher (32) that moves in the horizontal direction by a second cylinder (31) to push the material and perform a flattening operation; and a flattening device (30) located on the upper side of the compression space (12) and used by a third cylinder (41). It is characterized in that it includes a compression device (40) made of a square-shaped compression plate (42) that moves up and down.

Description

Waste paper compressors with improved compression efficiency}

The present invention relates to a waste compressor with improved compression efficiency, and more specifically, to a waste compressor that compresses waste into a hexahedral shape, where the compression efficiency of waste is improved by evenly spreading the upper side of the waste loaded in the waste compressor. It's about compressors.

Waste refers to paper that is torn or unusable due to deviation from certain specifications. After the waste is collected by a waste compression company, the waste is compressed to a certain size.

The compressed waste is then supplied to paper manufacturers for recycling. When compressing waste, it is usually compressed into a hexahedral shape, and the compressed waste is tied up using a PP band or wire to prevent it from disintegrating.

The waste compressor includes a device that manually supplies and compresses waste, such as (Patent Document 01), and a device that automatically supplies and compresses waste, such as (Patent Document 02).

When the waste is supplied into the waste compressor as above, the waste is piled high near the input port where the waste is supplied, and the waste is piled low in the direction opposite to the input port. In this state, when the waste is pressed from above, the compression rate of the area where the waste is piled low becomes lower than the compression ratio of the area where the waste is high, which lowers the compression efficiency (compressed volume compared to weight), and the area where the waste is relatively less compressed becomes disturbed. There is a problem that you may lose.

Republic of Korea Patent No. 10-0907026 “Recycling Compressor” Republic of Korea Patent No. 10-2013-0053877 “Waste paper compression device”

The present invention was created to more actively solve the above-mentioned problems, and the main solution is to increase the compression efficiency of the waste by constructing a device that can make the height of the waste paper loaded in the waste compressor uniform before compressing the waste. It's a task.

In order to achieve the above-mentioned problems, the configuration of the waste compressor with improved compression efficiency proposed in the present invention is as follows.

The waste compressor with improved compression efficiency of the present invention has an inlet 11 through which waste is supplied from the outside on one side, and a compression space 12 in which the waste from the inlet 11 is loaded and compressed. At the lower part of (12), there is a seating space (13) where the waste material in the compressed space (12) can fall vertically and settle, and on one side of the seating space (13) there is an outlet (14) through which the compressed waste material is discharged. A case 10 having a gate device located on one side of the compression space 12 and opening and closing the lower part of the compression space 12 by operating the first cylinder 21 so that the pedestal 22 moves back and forth in the horizontal direction. 20); And a flattening device (30) consisting of a pusher (32) located on one side of the compression space (12) in the direction of the inlet (11) and moving in the horizontal direction by the second cylinder (31) to push the waste material to perform a flattening operation. It is characterized by including a compression device (40) located on the upper side of the compression space (12) and made of a square-shaped compression plate (42) that moves up and down by the third cylinder (41).

In addition, the pressing plate 42 is composed of a square upper plate 42a formed at a certain distance from the third cylinder 41 and a square lower plate 42b attached to the lower surface of the upper plate. The compression device 40 includes a disk 43a located between the upper plate 42a and the lower plate 42b and configured to rotate, and a shaft 43b that penetrates the upper plate 42a on the upper surface of the disk 43a. is formed, and the rotating body 43 is provided with a first gear 43c on the upper surface of the shaft 43b; and the upper surface of the upper plate 42a rotates by driving the motor 44a, and the first gear 43c ) a driving unit 44 made of a second gear 44b configured to engage; and a joint 45 fixed to the lower cylinder rod of the third cylinder 41 and having a protruding end 45a formed on the lower side; and a joint housing 46 located on the upper surface of the first gear 43c and formed to surround the upper surface and side of the protruding end 45a so that the joint 45 is pulled up and down by the third cylinder 41. It is characterized by including.

According to the present invention, which has the above-described structure, the leveling device 30 is used to even out the height of the waste paper in the compression space 12, thereby improving the compression efficiency of the waste paper, saving space for storing the waste paper, and reducing the waste compression rate. This has the effect of reducing the disruption of compressed paper that may occur due to this low temperature.

In addition, the grip in contact with the lower surface 43a2 of the rotating body 43 moves by the rotation of the rotating body 43, and a flattening operation on the upper side of the grip is performed, and the pressing plate lowered by the third cylinder 41 ( Compression is achieved by being pressurized by 42) and the rotating body 43, which has the effect of enabling effective compression regardless of the height of the waste contained in the compression space 12.

1 is a diagram illustrating a state in which waste is being input into a waste compressor with improved compression efficiency configured according to a preferred embodiment of the present invention.
Figure 2 is a usage state diagram in which the flattening process of the waste contained in the waste compressor is performed by the flattening device 30 after going through the process of Figure 1.
Figure 3 is a usage state diagram in which the waste is compressed by the compression device 40 after going through the process of Figure 2.
Figure 4 is a usage state in which the gate device 20 is opened after the process of Figure 3 and the paper is pushed down by the pressing plate 42.
Figure 5 is a use state diagram in which the grip is received in the seating space 13 through the process of Figure 4.
Figure 6 is a usage state diagram in which the waste paper is transferred to the conveyor 60 by the discharge device 50 after going through the process of Figure 5.
Figure 7 is a perspective view of a compression device 40 constructed according to another embodiment of the present invention.
Figure 8 is a perspective view seen from the bottom of Figure 7.
Figure 9 is a side cross-sectional view of Figure 7.

Hereinafter, the configuration of the present invention and its operations and effects will be described collectively with reference to the accompanying drawings.

The advantages and features of the present invention and methods for achieving them will become clear by referring to the embodiments described in detail below along with the accompanying drawings. However, the present invention is not limited to the embodiments disclosed below, and may be implemented in various different forms. The present embodiments are merely provided to ensure that the disclosure of the present invention is complete, and are provided by those skilled in the art in the technical field to which the present invention pertains. It is provided to fully inform those who have the scope of the invention, and the present invention is only defined by the scope of the claims. In addition, the same reference numerals refer to the same elements throughout the specification.

The present invention is to improve the efficiency of the waste compression space by evenly spreading the upper side of the waste paper loaded in the waste compressor in a waste compressor with improved compression efficiency for compressing waste into a hexahedral shape, as shown in Figures 1 to 6. It is composed of a case 10, a gate device 20, a flattening device 30, a compression device 40, a discharge device 50, and a conveyor 60.

The case 10 has an input port 11 formed on one side to receive waste paper from the outside. The inlet 11 has a downward inclination angle, so that the waste material slides down due to gravity.

Inside the case 10, a compression space 12 is formed in which the waste material coming down from the input port 11 is loaded and compressed, and a pedestal 22 is formed on one side of the compression space 12 by the operation of the first cylinder 21. A gate device 20 is provided that operates back and forth in the horizontal direction to open and close the lower part of the compressed space 12.

As shown in Figure 1, when waste is supplied to the compression space 12, the pedestal 22 blocks the lower part of the compression space 12, so the waste is loaded on the upper surface of the pedestal 22. At this time, the waste material accommodated in the compressed space 12 is piled high in the direction of the input port 11, and in the direction opposite to the input port 11, it is piled at a lower height compared to the input port 11.

If the upper side of the waste is pressed and compressed in the above state, only the waste located in the direction of the input port 11 in the compression space 12 is compressed, and the waste in the direction opposite to the input port 11 is compressed compared to the waste in the direction of the input port 11. Quantity becomes insufficient.

As shown above, if the waste is not compressed sufficiently, such as in the opposite direction of the input port 11, the compression efficiency decreases, and the volume compared to the weight of the waste increases, increasing the quantity of compressed waste that must be produced, so the compressed waste is stored at the factory. The space that must be used for this increases.

In addition, phages that are not sufficiently compressed are dispersed by wind or external shocks, making storage and transportation difficult.

Therefore, in order to solve the above problem, the present invention is provided with a flattening device 30 consisting of a pusher 32 that moves in the horizontal direction by a second cylinder 31 on one side of the compression space 12 in the direction of the inlet 11. .

As shown in Figure 1, in a state where waste is piled high in the compression space 12 in the direction of the input port 11, the pusher 32 advances as shown in Figure 2 and moves the waste piled high in the direction of the input port 11 in the opposite direction to the input port 11. By pushing it out, the upper height of the waste paper loaded in the compression space 12 is made flat.

On the upper side of the compression space 12, a compression device 40 consisting of a square-shaped compression plate 42 that moves up and down by a third cylinder 41 is provided.

And after the upper side of the waste within the compression space 12 is flattened by the pusher 32 as above, the pressing plate 42 is lowered as shown in FIG. 3 to compress the waste evenly.

After the grip is compressed, the support 22 moves backwards as shown in FIG. 4 so that the grip can fall downward, and the compression plate 42 pushes the upper side of the grip downward.

As shown in Figure 4, the compressed grip is pushed down by the compression plate 42, and the side of the compressed grip is pressed against the inner side of the compression space 12 by the force to expand the compressed grip.

Therefore, since the compressed waste does not fall smoothly even if the support 22 is missing from the lower part of the compressed waste, the upper surface of the compressed waste is pushed against the pressing plate 42 as described above.

At the lower part of the compression space 12, there is a seating space 13 where the waste material in the compression space 12 can be vertically dropped and settled. As shown in FIG. 4, the upper part 13a of the seating space 13 is a compression space. (12) It is formed so that the space becomes larger in the diagonal direction.

When the compressed grip is lowered to a certain height, the area where the side of the compressed grip is in contact with the inner surface of the compression space (12) decreases, and the self-weight of the compressed grip is greater than the force to secure the compressed grip to the compression space (12). As the size increases, the naturally compressed paper exits the compression space (12) and falls into the seating space (13).

In order to reduce damage caused by impact when the compressed waste material falls into the seating space (13) as described above, the design should be made to minimize the height at which the compressed waste material freely falls, and a shock absorber (not shown) is installed at the bottom of the seating space (13). ) may be provided.

On one side of the seating space 13, an outlet 14 through which the compressed waste is discharged is formed, and on one side of the seating space 13 opposite the outlet 14, a pusher operates in the horizontal direction by the fourth cylinder 51 ( A discharge device 50 consisting of 52 is provided, and a pusher 52 pushes the compressed waste toward the discharge port 14.

A conveyor 60 is provided outside the outlet 14 to transport the compressed waste coming out of the outlet 14, and a banding device is provided on the upper side of the conveyor 60 to tie the compressed waste with a PP band or wire. (not shown) may be provided.

As described above, by using the flattening device 30 to even out the height of the waste in the compression space 12, the compression efficiency of the waste is improved, saving space for storing the waste, and reducing compression that may occur due to the low compression ratio of the waste. It can reduce the disorder of the phages.

In Example 1, as shown in FIG. 2, the pusher 32 of the flattening device 30 advances and pushes the waste piled high in the direction of the inlet 11 in the compression space 12 in the direction opposite to the inlet 11, thereby pushing the waste material into the inlet 11 ( 11) Waste in the opposite direction may be piled higher than waste in the direction of the input port (11).

Additionally, if the waste material is excessively loaded in the compressed space 12 compared to the height at which the pusher 32 is located, it may be difficult to flatten the height of the waste material using only the leveling device 30.

Therefore, Example 2 is intended to ensure that the flattening operation of the upper side of the waste contained in the compression space 12 is performed more efficiently. As shown in FIGS. 7 to 9, the compression device 40 is the third cylinder 41 of Example 1. ) and the configuration of the pressing plate 42 is the same as that of Example 1, except that it further includes a rotating body 43, a driving unit 44, a joint 45, and a joint housing 46.

The pressing plate 42 of Example 2 consists of a square upper plate 42a formed at a certain distance from the third cylinder 41 and a square lower plate 42b attached to the lower surface of the upper plate.

In addition, a rotating body 43 is provided through the center of the upper plate 42a and the lower plate 42b, so that when the pressing plate 42 is lowered, the rotating body 43 is lowered, and the rotation of the rotating body 43 By this, the upper height of the waste can be made even without being affected by the height of the waste contained in the compressed space 12.

For the above operation, the rotating body 43 consists of a disk 43a, a shaft 43b, and a first gear 43c.

The disk 43a is configured between the upper plate 42a and the lower plate 42b. A protruding end 43a1 is formed on the side of the disc 43a, so that the lower surface of the protruding end 43a1 is supported by the lower plate 42b, and the upper surface of the disc 43a is supported by the upper plate 42a, so that the disc 43a ) moves together with the up and down movement of the pressing plate 42.

The disk 43a is configured to be rotatable between the upper plate 42a and the lower plate 42b, and a knurling pattern is formed on the lower surface 43a2 of the disk 43a, increasing friction between the lower surface 43a2 and the grip. By doing so, the efficiency of movement of the grip according to the rotation of the disk 43a can be increased.

A shaft 43b passing through the upper plate 42a is formed on the upper surface of the disk 43a, and a first gear 43c is provided on the upper surface of the shaft 43b.

A driving unit 44 consisting of a second gear 44b that rotates by driving a motor 44a is provided on the upper surface of the upper plate 42a. The second gear 44b is engaged with the first gear 43c, and when the second gear rotates, the first gear 43c rotates.

A joint 45 is fixed to the lower cylinder rod of the third cylinder 41. A protruding end 45a is formed on the lower side of the joint 45. The upper surface of the first gear 43c is provided with a joint housing 46 that is formed to surround the upper surface and the side surface of the protruding end 45a and is pulled when the joint 45 is moved up and down by the third cylinder 41.

The joint housing 46 is fixed to the upper surface of the first gear 43c so that it rotates simultaneously when the first gear 43c rotates, and the joint 45 is configured not to rotate when the joint housing 46 rotates.

Describing the operation of the compression device 40 consisting of the above configuration, the compression plate 42, the rotating body 43, the driving part 44, the joint 45, and the protruding end (40) are operated by the operation of the third cylinder 31. 45a), the joint housing 46 is lowered, and the rotating body 43 and the joint housing 46 are rotated by the operation of the drive unit 44.

At this time, the compression plate 42 has the shape of a square plate and the side surface is configured to come into close contact with the inner surface of the compression space 12, so that the compression plate 42 does not rotate due to the driving unit 44.

As a result, the grip in contact with the lower surface 43a2 of the rotating body 43 moves by the rotation of the rotating body 43, and the upper side of the grip is flattened, and the pressing plate lowered by the third cylinder 41 ( Compression is achieved by being pressurized by 42) and the rotating body 43, so that effective compression can be achieved regardless of the height of the waste contained in the compression space 12.

The present invention described above has been described with reference to an embodiment shown in the drawings, but this is merely illustrative, and various modifications and other equivalent embodiments can be made by those skilled in the art. should be clarified. Therefore, the true technical protection scope of the present invention should be interpreted in accordance with the attached claims, and all technical ideas within the equivalent scope should be interpreted as being included in the scope of the present invention.

10. Case 11. Inlet 12. Compressed space
13. Seating space 13a. Upper part 14. Discharge port
20. Gate device 21. First cylinder 22. Base
30. Flattening device 31. Second cylinder 32. Pusher
40. Compression device 41. Third cylinder 42. Compression plate
42a. Upper plate 42b. Lower plate
43. Rotating body 43a. Disk 43a1. Protruding end
43a2. Bottom 43b. Shaft 43c. First gear
44. Drive unit 44a. Motor 44b. Second gear
45. Joint 45a. Protruding end 46. Joint housing
50. Discharge device 51. Fourth cylinder 52. Pusher
60.Conveyor

Claims (2)

delete An inlet 11 for receiving waste from the outside is formed on one side, and a compression space 12 is formed in which waste from the inlet 11 is loaded and then compressed, and a compression space 12 is provided at the lower part of the compression space 12. A case (10) provided with a seating space (13) where the waste material can be vertically dropped and settled, and having an outlet (14) through which the compressed waste material is discharged on one side of the seating space (13);
A gate device (20) located on one side of the compression space (12) and opening and closing the lower part of the compression space (12) by operating the first cylinder (21) so that the pedestal (22) moves back and forth in the horizontal direction;
A flattening device (30) consisting of a pusher (32) located on one side of the compression space (12) in the direction of the inlet (11) and moving in the horizontal direction by the second cylinder (31) to push the waste material to perform a flattening operation;
A compression device (40) located on the upper side of the compression space (12) and consisting of a square-shaped compression plate (42) that moves up and down by a third cylinder (41);
Including,
The pressing plate 42 consists of a square upper plate 42a formed at a certain distance from the third cylinder 41 and a square lower plate 42b attached to the lower surface of the upper plate,
The compression device 40,
A disk 43a is located between the upper plate 42a and the lower plate 42b and is configured to rotate, and a shaft 43b passing through the upper plate 42a is formed on the upper surface of the disk 43a, and the shaft 43b ) A rotating body 43 provided with a first gear 43c on its upper surface;
On the upper surface of the upper plate 42a, a driving unit 44 is rotated by the driving of the motor 44a and includes a second gear 44b configured to engage with the first gear 43c;
A joint 45 is fixed to the lower cylinder rod of the third cylinder 41 and has a protruding end 45a formed on the lower side of the joint 45;
A joint housing 46 located on the upper surface of the first gear 43c and formed to surround the upper surface and the side surface of the protruding end 45a so that the joint 45 is pulled up and down by the third cylinder 41;
A waste compressor with improved compression efficiency, further comprising: