KR100539083B1 - Apparatus of pressing a Volume of expanded synthenic resin - Google Patents

Abstract

The present invention relates to a compression type reduction apparatus for foamed waste synthetic resin, and more particularly, compresses the foamed waste synthetic resin such as waste polyurethane and waste styrofoam having a relatively large porosity to a minimum small volume, and then recompresses the feed together. The composition can be adjusted and discharged to the required specific gravity

A compression base plate is installed inside the base frame and has a compression chamber formed with a plurality of through holes on the outer side thereof, and one end of the compression chamber is equipped with a transfer cylinder equipped with a transfer compression plate at the end of the rod. A compression chamber part in which a body housing in which a compression discharge part having a wide diameter is formed is installed; An accommodation space is formed in the upper part of the main body housing and communicates with the compression chamber, and one side is equipped with a receiving case formed with an inlet and several exhaust holes on the outer side, and a compression plate is mounted on the upper end of the housing case. A compression unit in which the cylinder is supported and installed by a pair of guide rods; A cover pad which is lifted and lowered by a pressure cylinder installed on a bracket which is supported by a plurality of support legs by the compressed discharge portion of the main body housing and is connected to an open conveying conduit having an upper part connected to the upper part of the main housing. A congestion chamber composed of; It is supported by the leg at the end of the conveying pipe is configured to be equipped with discharge duct; The compression discharge portion has a mounting groove formed at the end by the main housing, and a support plate having a handle coupled to the mounting groove and a blade plate having a cutting blade formed thereon is provided with the support groove, and at least one cutting portion is drawn in / out. It relates to a compression type reduction apparatus for foamed waste synthetic resin.

Description

Apparatus of pressing a Volume of expanded synthenic resin

The present invention relates to a compression type reduction apparatus for foamed waste synthetic resin, and more particularly, compresses the foamed waste synthetic resin such as waste polyurethane and waste styrofoam having a relatively large porosity to a minimum small volume, and then recompresses the feed together. The present invention relates to a compression type reduction apparatus for expandable waste synthetic resin which can be discharged by adjusting the specific gravity required during the production.

In general, a large amount of foamable synthetic resins, such as styrofoam and polyurethane, are useful for packaging, transportation, and storage in various industrial fields, shopping malls, apartment complexes, and electronic shopping malls. Disposal problems have also become a serious problem.

In other words, the foamed waste synthetic resins, such as used waste styrofoam and waste polyurethane, have a large volume of their own due to their large porosity. If left unattended, the problem caused serious damage to environmental pollution.

In order to solve such a problem, various types of compression type containers such as waste styrofoam or waste polyurethane are compressed and reduced in small volumes so that waste treatment can be easily performed. Since the foamed waste synthetic resin is crushed through the crushing unit installed therein, it is compressed and reduced by one left and right compression operation, so it is compressed to a volume smaller than the volume of the first foamed waste synthetic resin, but the structure of the apparatus for compressing it is complicated. However, there is an inadequate problem to compress a large amount of the left and right compression operation.

In addition, since the cutting is not provided with any cutting means in the process of reducing the compression, the handling is inconvenient during discharging, it is difficult to dispose of waste, and also caused a problem that the specific gravity can not be adjusted in the compression process.

Accordingly, the present invention has been made to solve the conventional problems as described above, the object is to compress the foamed waste synthetic resins such as waste polyurethane and waste styrofoam having a relatively large porosity to a minimum small volume and then re-transport Compression is carried out so that it can be discharged by adjusting to the specific gravity required.

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Still another object of the present invention is to allow transport to be made while cutting to the required size.

Still another object of the present invention is to make cutting more smoothly when cutting.

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Still another object of the present invention is to simplify the structure of the stagnation chamber and to press one side of the compressed material to be conveyed with a larger pressing force even with one pressurized cylinder.

The present invention for achieving the above object, in the apparatus for compressing and reducing the foamed waste synthetic resin in a small volume, the compression base plate is installed on the inside of the base frame and provided with a compression chamber formed with a plurality of holes in the outer surface A compression chamber section in which a main cylinder housing is formed, on which one end of the compression chamber is mounted a transfer cylinder equipped with a transfer compression plate at a rod end, and a compression discharge portion having a wide diameter gradually formed on the other side of the compression chamber; An accommodation space is formed in the upper part of the main body housing and communicates with the compression chamber, and one side is equipped with a receiving case formed with an inlet and several exhaust holes on the outer side, and a compression plate is mounted on the upper end of the housing case. A compression unit in which the cylinder is supported and installed by a pair of guide rods; A cover pad which is lifted and lowered by a pressure cylinder installed on a bracket which is supported by a plurality of support legs by the compressed discharge portion of the main body housing and is connected to an open conveying conduit having an upper part connected to the upper part of the main housing. A congestion chamber composed of; A discharge duct is mounted to be supported by a leg at an end of the transfer pipe; The compression discharge portion has a mounting groove formed at the end by the main housing, and a support plate having a handle coupled to the mounting groove and a blade plate having a cutting blade formed thereon is provided with the support groove, and at least one cutting portion is drawn in / out. Characterized in that.

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In addition, the cutting blade portion of the blade plate is characterized in that it is formed inclined from one side to the other side.

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In addition, the cover pad is one side is hinged by a hinge shaft on one side mounted on the side of the bracket on the conveying pipe path and the rod of the pressure cylinder for raising and lowering the pin is rotatably pinned by the pin shaft on the upper surface of the cover pad It is characterized by.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

Fig. 1 is a schematic side view showing the main structure of the present invention, Fig. 2 is a main view showing the compression chamber of the present invention, and Fig. 3 is a main view showing the stagnation chamber of the present invention.

In the apparatus for compressing and reducing the general foamed waste synthetic resin such as waste styrofoam and waste polyurethane, which are discarded after use as packaging or transportation and storage as shown in the figure,

The present invention is provided with a compression chamber (14) having a plurality of through holes (14b) formed on the base frame (12) so that the compression base plate (14a) is installed inside and the air generated during compression is exhausted on the outer surface thereof. At one end of the seal, a transfer compression plate (15a) is mounted at the end of the rod, and a transfer cylinder (15) for transferring the compressed material first compressed by the compression cylinder described later together with compression is mounted on the other side thereof. A compression chamber part 10 having a main housing 18 in which a compression discharge part 16 is formed so as to gradually discharge a compressed material compressed in the compression chamber with a wide diameter;

A receiving space portion 22 is formed in the upper part of the main body housing in which the expandable waste synthetic resin to be compressed is formed through the compression chamber and the inlet 23 into which the expandable waste synthetic resin to be compressed is injected into one side thereof. In order to smoothly discharge the air generated by the compression, the housing case 24 is formed with several exhaust holes 24a formed thereon, and the foamed waste synthetic resin accumulated in the accommodation space portion is compressed on the upper surface of the housing case from the upper side to the lower side. A compression section 20 in which a compression cylinder 25 having a compression plate 25a mounted at a rod end to be supported by a pair of guide rods 26 is installed to support the rod end;

The upper portion of the main body housing is supported by a plurality of support legs so as to be discharged by adjusting the density of the compressed material conveyed by the compression chamber after being compressed by the compression unit, that is, after adjusting the specific gravity of the compressed product. The transfer pipe 32 is installed to be connected to the upper and lowered by the pressure cylinder 34 is installed on the bracket mounted to the side of the transfer pipe to the upper portion while pressing the compressed material transferred to the transfer pipe discharge rate And stagnant chamber 30 consisting of a cover pad 35 to adjust the;

The discharge duct 40 is mounted to be supported by the end of the transfer pipe to be installed at a higher position than the transfer pipe of the stagnation chamber so that the discharged product is accumulated slowly and smoothly discharged by the phenomenon. It is shown.

In the above, the respective upper side of the compression cylinder 25 and the upper side of the upper guide rod 26 of the housing case 24 is equipped with the respective detection sensor 52 by a general bracket and to the upper end of the corresponding guide rod It is preferable to include a compression setting unit 50 for mounting the detection port 54 to set the compression range of the compression cylinder.

The above-mentioned foamed waste synthetic resin, which is intended to be compressed and compressed according to the above configuration, is injected into the accommodating space part of the accommodating case by operating the compression cylinder after injecting the waste styrofoam or waste polyurethane through the inlet formed in the accommodating case. The synthetic resin is gradually compressed in the compression chamber of the compression chamber by the compression plate of the compression cylinder. In this case, due to the characteristics of the foamed waste synthetic resin having a large porosity, a lot of air is generated due to compression, and the air exhausts the air generated during compression by the through hole of the main body housing and the exhaust hole of the accommodation case to the outside. .

Thus, the compressed material compressed in the compression chamber by the compression cylinder is transferred to the conveying pipe of the stagnation chamber through the compression discharge portion formed on the other side by the transfer compression plate of the transfer cylinder installed to one side of the compression chamber, wherein the compression The discharge part is formed to have a gradually larger diameter from the compression chamber side, so that the compressed material that has been compressed can be smoothly transferred when it is transferred from the compression chamber to the transfer pipe.

The compressed material conveyed to the conveying pipe is pressed by a cover pad which is lifted and lowered by a pressure cylinder installed at an upper portion of the conveying pipe, thereby delaying the conveying speed of the compressed material conveyed from the compression chamber quickly or slowly. As the density of the compressed product is increased by the compressed product compressed and transported in the compression chamber, the specific gravity of the compressed product can be adjusted.

Thus, the compressed material adjusted to the specific gravity required in the stagnation chamber is discharged as a minimum volume through the discharge duct installed at the end of the discharge pipe, the discharge duct is also inclined to a higher position than the transfer pipe, As some congestion occurs, it is not a batch discharge but a smooth discharge.

Therefore, the bulky foamed waste synthetic resin is compressed to a minimum small volume and discharged in a state adjusted to specific gravity, so that the waste treatment can be easily performed.

Figure 4 is a main view showing the transfer setting of the present invention.

In the above-described configuration, as shown in the figure, the end of the tip and the tip of the transfer cylinder 15 of the compression chamber, which is operated to transfer the compressed material compressed in the compression chamber of the compression chamber, to the correct position of the transfer pipe through the compression discharge unit. The respective mounting sensor 154 by each mounting bracket 152, 152a is installed, and one end is fastened to the conveying compression plate 15 on the main body housing 18 so that the sensing hole 156 is installed. The movable table 158 is slidably installed and has a feed setting unit 150 for setting a transfer range.

Accordingly, it is possible to check the transfer range of the transfer cylinder precisely while minimizing the installation space and to perform a smooth transfer operation.

5 is a principal view showing another embodiment of the present invention compression discharge.

As shown in the configuration, when the compressed material is conveyed to the conveying line of the stagnation chamber through the compression discharge unit after being compressed in the compression chamber, the compressed discharge unit so that it can be transported while cutting to the required size At the end 16, a mounting groove 162 is formed at the end of the main housing 18, and a support plate 164a having a handle such as a general eye bolt is coupled to the mounting groove, and a cutting blade 164b is formed at the support plate. It is shown that the blade plate 164c is provided with one or more horizontally or vertically the cutting portion 160 is inserted / drawn out.

Therefore, the compressed material compressed in the compression chamber is cut to the size required by the cutting blade formed on the blade plate of the cutting portion in the process of being transported through the compression discharge portion and discharged through the stagnation chamber to the discharge jaw. Since it is cut to the size required at the time, the handling made thereafter is simple and the waste treatment can be made more easily.

6 is a side view illustrating main parts of the blade plate according to FIG. 5.

As shown in the above configuration, the cutting blade portion 164b formed on the blade plate 164c of the cutting portion is formed to be inclined from one side to the other side.

Accordingly, when the compressed product is cut in the compressed discharge part, the other side is gradually cut from the one side into the cutting blade to be cut more smoothly.

7 is a principal view showing another embodiment of the stagnation chamber of the present invention.

As shown in the above configuration, the cover pad 35 has one side of the conveying pipe 32 so that the compressed material conveyed to the conveying pipe of the stagnation chamber can be made as simple as possible without the need for many cylinders. The rod of the pressure cylinder 34 which is hinged by the hinge shaft 352 on the side mounted bracket on the side) and lifts it up and down is rotatably attached to the pin shaft 354 on the upper surface of the cover pad 35. It is shown to be pin bonded by.

Therefore, while the cover pad is lowered from the hinge shaft on one side as a starting point even with a single cylinder, the cover pad is stagnated with a larger pressing force to one side of the compressed material of the conveying line, so that the specific gravity can be adjusted more effectively and the structure of the stagnation chamber can be adjusted. It's simple to configure.

As described above, the present invention compresses a foamed waste synthetic resin such as waste polyurethane having a relatively high porosity, waste styrofoam, etc. to a minimum small volume by vertical compression, and then recompresses the feed and is required in the stagnation chamber. By adjusting the specific gravity to be discharged and having a cutout at the compressed discharge part, the size of the compressed material discharged through the compressed discharge part is required with the effect that the compressed material can be easily handled and the waste disposal can be easily performed. As the cutting is carried out, the compressed material discharged through the discharge duct may be more easily handled and disposed of.

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In addition, since the cutting can be made while the other side is gradually drawn from one side by the inclined cutting blade when cutting the compressed material, there is also an effect that the cutting can be made more smoothly.

In addition, by simplifying the structure of the stagnation chamber, one side of the compressed material to be conveyed can be pressurized with a larger pressing force even with a single pressurized cylinder. Cost savings can also be achieved.

1 is a schematic side view illustrating main components of the present invention.

2 is a principal view showing a compression chamber of the present invention.

3 is a main view showing a stagnation chamber of the present invention.

Figure 4 is a main part showing a feed setting unit of the present invention.

Figure 5 is a main part showing another embodiment of the present invention compression discharge.

Figure 6 is a side view showing the main portion of the blade plate according to FIG.

Figure 7 is a main part showing another embodiment of the stagnation chamber of the present invention.

Explanation of symbols for the main parts of the drawings

10: compression chamber

   12: base frame 14: compression chamber

   14a: compressed base plate 14b: through hole

   15: transfer cylinder 15a: transfer compression plate

   150: feed setting unit 152,152a: mounting bracket

   154,52: Sensor 156,54: Sensor

   16: compression discharge unit 160: cutting unit

   162: mounting groove 164a: support plate

   164b: cutting blade portion 164c: blade plate

   18: main body housing

20: compression unit

   22: receiving space 23: inlet

   24: housing case 25: compression cylinder

   25a: compression plate 26: guide rod

30: congestion room

   32: transfer pipe portion 34: pressure cylinder

   35: cover pad 352: hinge axis

   354: pin shaft

40: discharge jaw

50: compression setting unit

Claims (6)

delete delete In the device for compressing and reducing the expanded waste synthetic resin into a small volume, A compression base plate 14a is installed inside the base frame 12 and has a compression chamber 14 having a plurality of through holes 14b formed on an outer side thereof. A compression chamber part 10 in which a main cylinder housing 18 in which a compression discharge part 16 having a large diameter is gradually formed from the compression chamber is installed, on which the transfer cylinder 15 to which the 15a) is mounted is mounted; An accommodation space 22 communicating with the compression chamber is formed in an upper portion of the main body housing, and an accommodation opening 23 is mounted at one side thereof, and an accommodation case 24 having several exhaust holes 24a formed at an outer side thereof. A compression part 20 having a compression cylinder 25 mounted with a compression plate 25a at a rod end, supported by a pair of guide rods 26, on an upper surface of the housing case; The pressurized cylinder 34 is installed on a bracket which is supported by a plurality of support legs by the compressed discharge portion of the main body housing and is connected to the transfer pipe 32 having an open top, and is mounted on the bracket mounted to the side of the transfer pipe. A stagnation chamber 30 composed of a cover pad 35 which is lifted up and down by; It is supported by the leg at the end of the conveying pipe is configured to mount the discharge duct (40); The compression discharge portion has a mounting groove 162 formed at the end by the main housing, and a support plate 164a having a handle coupled to the mounting groove, and a blade plate 164c having a cutting blade portion 164b formed thereon. Compression-appropriate apparatus for foamed waste synthetic resin characterized in that it comprises one or more than one cut portion 160 is drawn / drawn out. The method of claim 3, wherein the cutting blade portion (164b) of the blade plate is compression type reduction apparatus for foamed waste synthetic resin, characterized in that formed inclined from one side to the other side. delete According to claim 3, The cover pad 35 is one side is hinged by the hinge shaft 352 on a bracket mounted on the side of the side of the conveying pipe and the rod of the pressure cylinder for raising and lowering the rod of the cover pad Compression reduction device for foamed waste synthetic resin, characterized in that the pinned by the pin shaft 354 rotatably on the upper surface.