KR100372763B1 - Reducing volume machine having pressure adjusting means - Google Patents

Abstract

The present invention relates to a compression reducer having a pressure regulating means, and more particularly, by installing pressure adjusting means at the outlet of the stagnation chamber, which is the final compression path of the compression reducer, waste styrofoam compressed with air or When the waste polyurethane exits through the outlet of the stagnation chamber, the pressure control means adjusts the outlet cross-sectional area of the stagnation chamber to control the discharge pressure, thereby rapidly discharging compressed styrofoam or waste polyurethane from the stagnation chamber. It is an object of the present invention to provide a compression reducer having a pressure adjusting means which can be easily and easily achieved.

Description

Reducing volume machine having pressure adjusting means

The present invention relates to a compression reducer having a pressure regulating means, and more particularly, by installing pressure adjusting means at the outlet of the stagnation chamber, which is the final compression path of the compression reducer, waste styrofoam compressed with air or By adjusting the outlet pressure of the stagnation chamber with the pressure control means when the waste polyurethane is discharged through the outlet of the stagnation chamber, the discharge of waste styrofoam or waste polyurethane compressed and reduced from the stagnation chamber can be made quickly and easily. It is about a compression reducer having a pressure control means.

Conventionally, the compression reducer is a mechanical device that reduces the volume by minimizing the porosity of waste styrofoam or waste polyurethane. By using waste styrofoam or waste polyurethane, it is possible to drastically reduce the transportation cost required for transportation. The waste waste styrofoam can be crushed and regenerated, and its utility value is very high.

1,2,3 is a view showing a compressed waste styrofoam reducer having a pressure control means of the present invention, the compressed waste styrofoam reducer is already described by the applicant of the "multi-stage compression type styrofoam reducer" The device has been filed under the name (application number: 1995-20531) and registered (registration number: 145102).

Here, the shortcomings of the conventional stagnation chamber installed in the reducer will be described while briefly explaining the configuration and the operating relationship of the compressed pastyrofoam reducer and the waste polyurethane reducer.

The compressed waste styrofoam reducer includes a grinding means 30 including two upper and lower grinders, an extrusion conveying means 32 including a screw shaft, a primary compression cylinder 34, and a secondary compression / transfer cylinder ( 36) and the compression means of the three stages including the stagnation chamber (10).

Therefore, when the waste styrofoam is introduced through the inlet of the hopper 40, finely crushed by two upper and lower grinders, the crushed styrofoam pieces are conveyed in one direction by the screw shaft and collected at the end thereof. The styrofoam pieces are first compressed by the primary compression cylinder 34 which vertically reciprocates, thereby reducing its volume.

The first compression process as described above is performed several times, and the rotational speed of the screw shaft and the stroke number according to the time of the cylinder are automatically controlled.

Next, the waste styrofoam after the first compression process is secondarily compressed by the secondary compression / transfer cylinder 36 and moved to the stagnant chamber 10 in the state where the secondary compression is in progress. Is compressed one more time as it passes through the stagnation chamber 10.

That is, due to the area difference between the wide inlet and the narrow outlet of the stagnation chamber 10, the waste styrofoam is compressed toward the outlet.

As a result, when the finished styrofoam exits the exit of the stagnation chamber, its volume is reduced to 1/10 compared to the styrofoam before treatment, which had a porosity of 98%.

However, since the waste styrofoam has different compression characteristics from those of general materials, the following problems occur when the waste styrofoam is finally compressed and discharged from the stagnation chamber of the container.

The stagnant chamber has a rectangular cross section, and the area of the inlet part is larger than that of the outlet part. Thus, the waste styrofoam finally fails to exit through the stagnation chamber.

The reason is that the secondary compression cylinder is a hydraulic cylinder, and when the styrofoam is compressed by the hydraulic cylinder, a large amount of air is compressed together, so when the waste styrofoam is compressed and discharged from the stagnation chamber, If the discharge pressure of the waste styrofoam is different from each other, it will occur.

More specifically, the compression reducer compresses / reduces waste styrofoam due to the area difference between the outlet and the inlet. However, since the compressed materials and the porosity of these waste materials are different from each other according to product specifications, Even if given, there is a problem that does not properly discharge the compressed / reduced waste styrofoam.

Accordingly, the present invention has been made in order to solve the above problems, by improving the structure of the discharge portion of the stagnant chamber of the compression type waste styrofoam container or compression type waste polyurethane container to a pressure control structure, the hydraulic cylinder It is an object of the present invention to provide a compression reducer having a pressure control means for the waste material compressed by the compressed material to be easily discharged to the outside while once again compressed in the stagnation chamber.

1 is a structural diagram showing a compressed waste styrofoam reducer including a pressure adjusting means according to the present invention,

2 is a front structural diagram of a compressed waste styrofoam reducer including a pressure regulating means according to the present invention,

Figure 3 is a side structure diagram of a compression type waste styrofoam container comprising a pressure regulating means according to the invention,

4 is a front structural view of a compressed waste polyurethane container including a pressure regulating means according to the present invention,

5 is a side structural view of a compressed waste polyurethane container including a pressure regulating means according to the present invention,

6 is a plan view of the compressed waste polyurethane container comprising a pressure regulating means according to the invention,

7 is a perspective view showing a state in which the pressure adjusting means according to the present invention is installed in the compression type reducer;

Figure 8 is a side structural view showing a state in which the pressure adjusting means according to the present invention is installed in the compression reducer.

<Explanation of symbols for the main parts of the drawings>

10: stagnation chamber 12: top cover

14 support 16 bolt

18: pressure control wheel 20: pressure control wheel guide

22: outlet support 24: exit height adjuster

30: grinding means 32: extrusion conveying means

34: 1st compression cylinder 36: 2nd compression cylinder

40: hopper 44: gate cylinder

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

In a compression reducer comprising a primary compression cylinder 34 for vertical reciprocating motion, a secondary compression / transfer cylinder 36 for horizontal reciprocating motion, and a stagnation chamber for finally discharging waste styrofoam, It is characterized in that the pressure control means for controlling the pressure by changing the cross-sectional area at the outlet of the stagnation chamber.

The pressure control means is a pressure control wheel 18 is rotatably mounted on the upper surface, the bolting hole is formed on both sides and the top cover 12 is fixed to the hinge rotatably up and down at the top of the outlet of the stagnation chamber 10 ) And a support 14 having a bolting hole at both sides and fixedly hinged to both sides of the outlet portion of the stagnation chamber 10 to be rotated from side to side, and adjusting the outlet cross-sectional area of the stagnation chamber 10. In order to adjust the position of the top cover 12 and the support 14 by the hinge movement to be fixed to the respective bolting holes by bolting.

The pressure adjusting wheel 18 is inserted through the pressure adjusting wheel guide 20 is guided to move up and down is characterized in that it is installed while wrapping the top cover 12 and the support (14).

In another embodiment of the present invention, the first compression cylinder 34 for reciprocating up and down, the second compression / transfer cylinder 36 for reciprocating left and right, and the stagnant chamber for reducing waste polyurethane In the compression type reducer having a pressure regulating means, at the outlet of the secondary compression / transfer cylinder 36, a separate gate cylinder 44 for adjusting the discharge timing of the waste polyurethane is installed to enable vertical movement, The outlet portion of the stagnation chamber 10 is characterized in that the pressure control means for controlling the pressure by changing the cross-sectional area is installed.

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

1, 2 and 3 are perspective views showing a state in which a pressure reducer according to the present invention is installed, and in particular, the pressure reducer is a compressed waste styrofoam container, as described above. Grinding means 30 including two mills up and down, extrusion conveying means 32 including a screw shaft, the primary compression cylinder 34, and the secondary compression / transfer cylinder 36 and the stagnation chamber 10 Consists of three compression means including a.

The stagnation chamber 10 is a rectangular path having a predetermined length, and the area of the outlet is narrower than the area of the inlet, and the pressure adjusting means as shown in FIGS. 7 and 8 attached to the outlet is provided. Is installed.

The pressure control means is composed of a top cover 12 and a support 14, the top cover 12 is mounted to the hinge so as to be able to rotate up and down on the upper end surface of the exit chamber 10.

In addition, the upper surface of the top cover 12 is formed of a circular knob-shaped pressure regulating wheel 18 is integrally rotatable, a plurality of bolting holes are formed in both sides in the longitudinal direction.

The support 14 is hingedly mounted on both sides of the outlet part of the stagnation chamber 10 so as to be rotated from side to side. On both sides of the support 14, a plurality of bolting holes corresponding to the bolting holes of the upper cover 12 are provided. Is formed.

At this time, the bolting hole of the support 14 is formed in an elliptical shape that is somewhat larger than the diameter of the bolt and vertically long.

In addition, a portion of the upper cover 12 and the support 14 is surrounded by the pressure control wheel guide 20 is mounted thereon, the upper surface of the pressure control wheel guide 20 to the upper cover 12 The formed pressure regulating wheel 18 is rotatably penetrated.

On the other hand, at the ends of the top cover 12 and the support 14 is provided with an outlet support 22 and an outlet height adjuster 24 supporting them, to assist the discharge and transport of the styrofoam.

Here, after the compressed styrofoam is compressed by the primary compression cylinder 34 which moves up and down and the secondary compression cylinder 36 which moves left and right, the compressed styrofoam reducer is compressed again in the stagnation chamber 10. Herein, the operation of the pressure regulating means according to the present invention will be described below in order to achieve the purpose of easily discharging the waste styrofoam by adjusting the pressure when the waste styrofoam is discharged.

After changing the cross-sectional area of the outlet by moving the upper cover 12 and the support 14 by hinges, the upper cover 12 and the support 14 are fastened to each other using the fixing bolts 16, By rotating the pressure control wheel 18 penetrated through the pressure control wheel guide 20 to press the top cover 12, so as to withstand the discharge pressure of the waste styrofoam discharged to the discharge portion of the stagnation chamber 10. .

More specifically, to adjust the area of the discharged once again, first loosen the fixing bolt 16 so that the top cover 12 can be rotated up and down about the hinge point of the top cover, and then the pressure adjustment wheel Rotating (18) removes the force holding the top cover 12 and moves the top cover 12 up and down to adjust the area in the up and down direction, and furthermore, the bolt that fastens the support 14 ( It is possible to adjust the area of left and right by adjusting the amount of loosening.

As the area of the discharge portion of the stagnation chamber 10 is adjusted by the pressure adjusting means as described above, the waste styrofoam compressed and reduced together with the air is easily discharged.

On the other hand, Figures 4, 5, and 6 shows a compression type waste polyurethane container having a configuration similar to that of the compression type waste styrofoam container, the difference in the point that the object to be compressed is waste polyurethane If you look at the configuration briefly, an injection chute into which waste polyurethane is introduced, a primary compression cylinder 34 for compressing the injected waste polyurethane while moving up and down, and a compression in the primary compression cylinder It consists of a secondary compression cylinder 36 for compressing the waste polyurethane once again while moving in one direction, and a stagnation chamber 10 attached to the outlet of the secondary compression cylinder.

Particularly, at the outlet of the secondary compression cylinder 36, a gate cylinder 42 for restricting the discharge of the waste polyurethane in the uncompressed state to the stagnation chamber 10 is provided.

Of course, the pressure adjusting means as described above is provided at the outlet of the stagnation chamber 10 of the compressed waste polyurethane container to facilitate the discharge of the waste polyurethane.

Accordingly, the waste polyurethane is compressed by the primary compression cylinder 34 and compressed by the secondary compression cylinder 36, and then, when the gate cylinder 44 is opened, the waste polyurethane is closed into the stagnant chamber 10. Due to the narrowing area difference in the longitudinal direction of the stagnation chamber 10 at the same time as the urethane is released, the compression is once again, and the porosity is greatly reduced.

Accordingly, when the waste polyurethane exiting the stagnation chamber 10 is not properly discharged, by adjusting the cross-sectional area of the discharge portion by using the pressure adjusting means, the waste polyurethane is easily discharged.

On the other hand, the pressure adjusting means of the present invention described above is only one embodiment that can adjust the pressure by adjusting the cross-sectional area of the outlet of the stagnation chamber 10, the pressure by adjusting the cross-sectional area of the outlet of the stagnation chamber 10 The adjustable structure can be modified in various forms.

As described above, according to the stagnation chamber structure capable of adjusting the pressure of the compression reducer according to the present invention, by adjusting the cross-sectional area of the outlet portion of the stagnation chamber to control the discharge pressure of the waste styrofoam or waste polyurethane, As waste styrofoam or waste polyurethane having different degrees of compression is smoothly compressed with air in the stagnation chamber, and easily discharged from the stagnation chamber to the outside, the processing capacity and speed of the container can be improved. The efficiency of the work can be increased, and if the waste styrofoam or waste polyurethane is blocked before being discharged near the pressure control means in the stagnation chamber, the waste styrofoam and waste polyurethane can be easily discharged by simply dismantling the top cover and support. There is an advantage.

Claims (4)

Pressure regulating means including a primary compression cylinder 34 for vertical reciprocating motion, a secondary compression / transfer cylinder 36 for horizontal reciprocating motion, and a stagnation chamber 10 for finally discharging waste styrofoam. In the compression reducer having, Compression reducer having a pressure adjusting means characterized in that the pressure adjusting means for changing the pressure and changing the cross-sectional area at the outlet of the stagnation chamber (10) is installed. According to claim 1, wherein the pressure adjusting means is a pressure control wheel 18 is rotatably mounted on the upper surface, the bolting hole is formed on both sides and the hinge is rotatably up and down on the upper end of the outlet of the stagnation chamber (10) It consists of a fixed top cover 12, and the support 14 having a bolting hole on both sides and fixed to the hinge 14 so as to be rotated from side to side on both sides of the outlet of the stagnation chamber 10, the stagnation chamber 10 Compression reducer having a pressure adjusting means, characterized in that the upper cover (12) and the support (14) to adjust the position by the hinge movement in order to adjust the outlet cross-sectional area of the bolted hole in each bolting hole. The pressure regulating wheel guide 20 of claim 1 or 2, which guides the pressure regulating wheel 18 to be inserted and inserted to move up and down, surrounding the top cover 12 and the support 14. Compression reducer having a pressure regulating means characterized in that installed. Compression with a pressure control means including a primary compression cylinder 34 for up and down reciprocating motion, a secondary compression / transfer cylinder 36 for reciprocating left and right, and a stagnation chamber for finally discharging waste polyurethane. In the formula container, At the outlet of the secondary compression / transfer cylinder 36, a separate gate cylinder 44 which controls the discharge timing of the waste polyurethane is installed to move up and down, and at the outlet of the stagnation chamber 10, a cross-sectional area is provided. Compression reducer having a pressure regulating means, characterized in that the pressure regulating means is installed to change the pressure.