KR101310026B1 - Pusher for Refused Plastic Fuel Product Device - Google Patents

Abstract

[Name] Garbage Compensation Device for Flammable Waste Fuel Rod Manufacturing Device

[Configuration] A frame fixed so as to face a vertical gap (62) formed in a trash compaction cylinder (60);

An elevating device assembled inside the frame and moving up and down;

Lifting device driving means fixed to the frame to move the lifting device upward and downward;

A garbage compaction unit assembled in the elevating apparatus and drawing garbage while entering and retreating into a vertical gap 62 of the garbage compaction cylinder 60;

A control circuit for controlling the operation of each device, and a control box having a power supply device.

Refused Plastic Fuel

Description

{Pusher for Refused Plastic Fuel Product Device}

1 is a front view according to a first embodiment of the present invention;

2 is a partially enlarged view of Fig.

3 is a right side view of Fig.

Figure 4 is a plan view of Figure 1;

5 is a sectional view taken along the line B-B in Fig.

6 is a sectional view taken along the line A-A in Fig.

7 is a reference view showing a state where a waste compaction rod enters the compression cylinder of the present invention.

8 is a reference view showing a state in which a waste compaction rod enters a cylindrical compression cylinder.

Figs. 9, 10, 11, and 12 are reference views showing operating principles of the first embodiment of the present invention.

FIG. 13 is a reference view showing a state in which a piston presses a trash accumulated in the compression cylinder by the operation of the present invention. FIG.

14 is a front view showing an application example of the first embodiment;

15 is a right side view of Fig.

16 is a front view showing still another application example of the first embodiment;

17 is a partially enlarged view of Fig.

Fig. 18 is a right side view of Fig. 16; Fig.

19 is a front view showing still another application example of the first embodiment;

Fig. 20 is a right side view of Fig. 19; Fig.

21 is a front view showing a second embodiment of the present invention.

22 is a right side view of Fig.

Figs. 23 and 24 are reference views showing the operating principle of the second embodiment of the present invention. Fig.

25 is a front view showing an application example of the second embodiment of the present invention.

26 is a right side view of Fig.

27 is a front view showing still another application example of the second embodiment of the present invention.

Fig. 28 is a right side view of Fig. 27; Fig.

29 is a reference diagram showing an example of using the apparatus of the present invention in a twin mode.

The present invention relates to a garbage compaction apparatus for a combustible waste fuel rod manufacturing apparatus.

In recent years, resource depletion has become a serious problem worldwide. As a countermeasure, waste and waste from all fields are recycled to be used as raw materials for products or as fuels to replace fossil energy. It is a fact that it is pushing strongly in policy.

Therefore, the present invention has invented a flammable waste fuel rod manufacturing apparatus having superior performance and many excellent effects as compared with a waste fuel rod manufacturing apparatus using a conventional screw compression method and a waste fuel rod manufacturing apparatus employing a ring-dice compression method, -2009-0044226 filed in the same year, and filed with the patent application No. 10-2009-0076453 as an advanced type. In addition, the above-mentioned patent applications have been filed with the patent application No. 10-2010-0007728 as an advanced type.

However, no problem has been found in the excellent production of waste fuel rods in the patent application which has been filed in the above-mentioned patent application. However, the problem is that when the waste is continuously injected into the compression cylinder, We have not invented the latest technology for tightening garbage.

In other words, it is the most important factor to be connected directly with the productivity, because the dice are used to produce high-quality fuel rods by quickly injecting the garbage into the compression cylinder. On the other hand, among the above-mentioned patent applications, there is a type in which waste is injected into the compression cylinder. However, there is a disadvantage in that when the waste introduced into the compression cylinder is refined, the introduction of the waste into the compression cylinder must be stopped. A problem of poor productivity has been found.

SUMMARY OF THE INVENTION Accordingly, it is an object of the present invention to provide a waste compaction apparatus for a flammable waste fuel rod manufacturing apparatus capable of solving the above-mentioned problem of productivity failure which has been a prior patent application.

The present invention for solving the above-mentioned problems is roughly divided into two embodiments as follows.

[First Embodiment]

A frame fixed to the trash compaction cylinder (60) in front of a longitudinal gap (62) formed in a trash compaction cylinder (60) in the form of a circular tube or a rectangular tube;

A lifting device assembled to the frame and moving up and down;

Lifting device driving means fixed to the frame to move the lifting device upward and downward;

A garbage compaction unit assembled in the elevating apparatus and pumping out the garbage while entering and retreating into the longitudinal vertical crevice 62 of the garbage compaction cylinder 60;

A control circuit for controlling the operation of each device, and a control box having a power supply device.

In the above configuration,

A vertical rail (1) of a symmetrical type in which a guide rail (4) for guiding the vertical movement of the lift device is fixed inward;

And an upper bracket 2 and a lower bracket 3 fixed to the upper and lower sides of the vertical bar 1 to be assembled to the compression cylinder 60.

Further, in the above-

A lift frame (7) having bearing blocks (8) assembled to the guide rails (4) of the frame fixed at upper and lower sides and left and right sides;

A first supporting plate (not shown) fixed to the elevating frame 7 and fixed by the reinforcing bars 9 and fixed on the upper surface thereof with a hook 23 for fixing the hinge fastener 15 and the coil spring 24, 10);

A hinge 14 fixed to a pin 16 while being assembled with a hinge fixture 14 of a first support plate 10 is fixed to a bottom surface and a sliding bed 12 having a locking hook 13 having a symmetrical shape is fixed on an upper surface thereof An assembled second support plate 11;

A coil spring 24 which is assembled to the rod 23 of the first support plate 10 and holds and supports the first support plate 11;

The second support plate 11 is assembled to the sensor fixing table 25 assembled at the rear end of the first supporting plate 10 and the second supporting plate 11 is rotated by the repulsive force generated from the trash according to the garbage compaction action Immediately after detecting the tilted state while compressing the coil spring 24, the operation of the first conveyor belt 63 is stopped as a signal is applied to the control circuit of the control box, and the supply of the trash into the compression cylinder 60 is stopped And a proximity sensor (26) for sensing the position of the subject.

Further, the elevating device driving means having the above-

And a first hydraulic cylinder (5) fixed to the upper bracket (2) of the frame and having a piston rod (6) fixed to the upper surface of the lift frame (7) of the lift device.

Further, the garbage compaction means of the above-

A slider (17) having legs (18) assembled in a lateral direction and symmetrically to be assembled to a latching jaw (13) of a sliding bed (12) of a lift device;

A fork-shaped garbage compactor 21 fixed to the upper surface of the slider 17 and for entering waste into the compression cylinder 60 into the vertical gap 62 of the compression cylinder 60, ;

And a second hydraulic cylinder 19 fixed to a first support shaft 22 assembled on the upper surface of the second support plate 11 and having a piston rod 20 assembled to the slider 17. [

Further, in the above-

A lift frame (7) having bearing blocks (8) assembled to the guide rails (4) of the frame fixed at upper and lower sides and left and right sides;

Is fixed to the upper surface of the lifting frame (7) and is coupled to the piston rod (6) of the lifting device driving means. The lifting device is actuated by the repulsive force generated from the trash according to the compaction action of the trash, A pressure sensing sensor 27 for stopping the operation of the first conveyor belt 63 and stopping the supply of the waste into the compression cylinder 60;

A second supporting plate 11 supported by the reinforcing bars 9a while being fixed at right angles to the elevating frame 7 and having a sliding bed 12 having a symmetrical locking step 13 on the upper surface thereof, . ≪ / RTI >

Further, the garbage compaction means of the above-

A slider 17a provided with left and right symmetrical legs 18a to be assembled to the latching jaws 13 of the sliding bed 12 of the landing gear;

A fork-shaped garbage compactor 21 fixed on the upper surface of the slider 17a and for entering garbage into the compression cylinder 60 by entering into and retracting from the vertical gap 62 of the compression cylinder 60, ;

A decelerating motor 29 fixed to a motor fixing base 28 fixed to the second supporting plate 11;

A pinion 31 fixed to the motor shaft 30 of the three-speed reduction motor 29;

(32) which is assembled on the upper surface of the sliding bed (12) and engages with the pinion (31).

Further, the elevating device driving means having the above-

A deceleration motor 34 fixed to the first support plate 10;

A pinion (36) fixed to a motor shaft (35) of the reduction motor (34);

(33) fixed to one of the vertical bars (1) in the longitudinal direction and meshing with the pinion (36).

[Second Embodiment]

A frame fixed to the trash compaction cylinder (60) in front of a longitudinal gap (62) formed in a trash compaction cylinder (60) in the form of a circular tube or a rectangular tube;

An elevating device assembled inside the frame and moving up and down;

Lifting device driving means fixed to the frame to move the lifting device upward and downward;

A garbage compaction unit fixed to the elevating device and regulating garbage while entering and retreating into the longitudinal vertical crevice 62 of the garbage compaction cylinder 60;

Frame driving means for advancing and retracting the elevating device driving means to the compression cylinder (60) side;

A control circuit for controlling the operation of each device, and a control box having a power supply device.

In the above-described second embodiment,

A vertical rail (1) of a symmetrical type in which a guide rail (4) for guiding the vertical movement of the lift device is fixed inward;

And an upper bracket (2a) fixed to an upper end of the vertical bar (1) to fix the first hydraulic cylinder (5).

Further, in the second embodiment,

A lift frame (7) having bearing blocks (8) assembled to the guide rails (4) of the frame fixed at upper and lower sides and left and right sides;

A first supporting plate (not shown) fixed to the elevating frame 7 and fixed by the reinforcing bars 9 and fixed on the upper surface thereof with a hook 23 for fixing the hinge fastener 15 and the coil spring 24, 10);

A second support plate 11 fixed to the bottom surface of the hinge 14 fixed to the pin 16 while being assembled with the hinge fixture 14 of the first support plate 10;

A coil spring 24 which is assembled to the rod 23 of the first support plate 10 and holds and supports the first support plate 11;

The second support plate 11 is assembled to the sensor fixing table 25 assembled at the rear end of the first supporting plate 10 and the second supporting plate 11 is rotated by the repulsive force generated from the trash according to the garbage compaction action Immediately after detecting the tilted state while compressing the coil spring 24, the operation of the first conveyor belt 63 is stopped as a signal is applied to the control circuit of the control box, and the supply of the trash into the compression cylinder 60 is stopped And a proximity sensor (26) for sensing the position of the subject.

Further, in the second embodiment, the elevating device driving means includes:

And a first hydraulic cylinder (5) fixed to the upper bracket (2a) of the frame and having a piston rod (6) fixed to the upper surface of the lift frame (7) of the lift device.

Further, in the second embodiment, the garbage compaction means includes:

A fork-shaped garbage compactor (not shown) fixed on the upper surface of the second support plate 11 of the lift device for entering and retreating into the vertical crevice 62 of the compression cylinder 60 and for piling up the waste put into the compression cylinder 60 21a.

Further, in the second embodiment, the frame driving means includes:

A slider (40) fixed at right angles to a symmetrical vertical base (1) with a guide rail (4) for guiding the vertical movement of the lift device fixed inward;

A second reinforcing bar (41) for reinforcing and fixing the slider (40) and the vertical base (1);

A sliding bed (38) having a symmetrical locking step (39) for assembling the slider (40);

An auxiliary frame (37) for supporting the sliding bed (38);

A fourth hydraulic cylinder 42 fixed by a second support shaft 44 fixed to the upper surface of the auxiliary frame 37 and provided with a piston rod 43 assembled to the second reinforcement shaft 41, .

Further, in the second embodiment,

A lift frame (7) having bearing blocks (8) assembled to the guide rails (4) of the frame fixed at upper and lower sides and left and right sides;

A second support plate (11) fixed to the lifting frame (7);

A reinforcing bar 9b for reinforcing the second supporting plate 11 and the elevating frame 7;

Is fixed to the upper surface of the lifting frame (7) and is coupled to the piston rod (6) of the lifting device driving means. The lifting device is actuated by the repulsive force generated from the trash according to the compaction action of the trash, And the pressure sensing sensor 45 stops the operation of the first conveyor belt 63 to stop the supply of the waste into the compression cylinder 60. As shown in FIG.

Further, in the second embodiment, the frame driving means includes:

Two sliders 40a fixed at right angles to a symmetrical vertical table 1 in which a guide rail 4 for guiding vertical movement of a lift device is fixed inward;

A third reinforcing bar 41a for reinforcing and fixing the slider 40a and the vertical bar 1;

A sliding bed 38 having a symmetrical latching protrusion 39 for assembling the slider 40a;

An auxiliary frame (37) for supporting the sliding bed (38);

A decelerating motor 47 assembled to a motor fixing base 46 fixed to either one of the sliders 40a;

A pinion 49 assembled to the motor shaft 48 of the reduction motor 47;

(50) fixed to the upper surface of the sliding bed (38) and engaged with the pinion (49).

Hereinafter, the operation and the embodiments of the present invention will be described with reference to the drawings. The components of the present invention are assembled and welded with bolts (or bolts and nuts) The limit switch or sensor technology for checking the up position and the forward / backward position of each slider and the sensor technology and the function of the pressure detection sensor are well known in the art and common sense, so they are not shown in the drawings, It will not be described in detail in the explanation.

The present invention is roughly divided into two embodiments as described above. First, the structure and operation of the first embodiment will be examined.

In the first embodiment,

A frame fixed to the garbage compression cylinder (60) in front of a longitudinal gap (62) formed in a trash compression cylinder (60) in the form of a circular tube or a rectangular tube;

A lifting device assembled to the frame and moving up and down;

Lifting device driving means fixed to the frame to move the lifting device upward and downward;

A garbage compaction unit assembled in the elevating apparatus and pumping out the garbage while entering and retreating into the longitudinal vertical crevice 62 of the garbage compaction cylinder 60;

A control circuit for controlling the operation of each device, and a control box having a power supply device.

In the above,

A vertical rail (1) of a symmetrical type in which a guide rail (4) for guiding the vertical movement of the lift device is fixed inward;

And an upper bracket 2 and a lower bracket 3 fixed to the upper and lower sides of the vertical bar 1 to be assembled to the compression cylinder 60. The guide rails 4 are fixed to the vertical bar 1 by bolts Or fixed by welding.

Next,

A lift frame (7) having bearing blocks (8) assembled to the guide rails (4) of the frame fixed at upper and lower sides and left and right sides;

A hook 23 for fixing the hinge fastener 15 and the coil spring 24 is fixed on the upper surface while being fixed by welding while being held at right angles to the elevating frame 7 and fixed to the upper surface thereof A first support plate (10);

A hinge 14 fixed to a pin 16 while being assembled with a hinge fixture 14 of a first support plate 10 is fixed to a bottom surface and a sliding bed 12 having a locking hook 13 having a symmetrical shape is fixed on an upper surface thereof An assembled second support plate 11;

A coil spring 24 which is assembled to the rod 23 of the first support plate 10 and holds and supports the first support plate 11;

The second support plate 11 is assembled to the sensor fixing table 25 assembled at the rear end of the first supporting plate 10 and the second supporting plate 11 is rotated by the repulsive force generated from the trash according to the garbage compaction action Immediately after detecting the tilted state while compressing the coil spring 24, the operation of the first conveyor belt 63 is stopped as a signal is applied to the control circuit of the control box, and the supply of the trash into the compression cylinder 60 is stopped And a proximity sensor 26 for allowing the sensor to be operated.

As shown in the figure, the lifting frame 7 may be in a downward state and the top portion may be closed. Since the portion of the first supporting plate 10 fixed to the lifting frame 7 by welding is short It is preferable that the reinforcing bar 9 be provided.

Next, the elevating device driving means includes:

And a first hydraulic cylinder 5 fixed to the upper bracket 2 of the frame and having a piston rod 6 fixed to the upper surface of the lift frame 7 of the lift device.

Next, the garbage compaction means,

A slider (17) having legs (18) assembled in a lateral direction and symmetrically to be assembled to a latching jaw (13) of a sliding bed (12) of a lift device;

A fork-shaped garbage compactor 21 fixed to the upper surface of the slider 17 and for entering waste into the compression cylinder 60 into the vertical gap 62 of the compression cylinder 60, ;

And a second hydraulic cylinder 19 fixed to the first support shaft 22 assembled on the upper surface of the second support plate 11 and having a piston rod 20 assembled to the slider 17. [

As shown in FIG. 8, when the compression cylinder 60a is cylindrical, the respective ends of the compression bolt 21a have different lengths so as to maintain a tolerance of about 0.5 mm from the inner surface of the compression cylinder 60a As shown in FIG. 7, even when the compression cylinder 60 is rectangular, each end of the compression bolt 21 maintains a tolerance of about 0.5 mm with the inner surface of the compression cylinder 60, (21) are equally provided.

It is preferable that the number of the bridges 21 and 21a should be at least three or more, and that the number of the compression cylinders 60 and 60a increases as the size of the compression cylinders 60 and 60a increases.

Next,

A lift frame (7) having bearing blocks (8) assembled to the guide rails (4) of the frame fixed at upper and lower sides and left and right sides;

Is fixed to the upper surface of the lifting frame (7) and is coupled to the piston rod (6) of the lifting device driving means. The lifting device is actuated by the repulsive force generated from the trash according to the compaction action of the trash, A pressure sensing sensor 27 for stopping the operation of the first conveyor belt 63 and stopping the supply of the waste into the compression cylinder 60;

A second supporting plate 11 supported by the reinforcing bars 9a while being fixed at right angles to the elevating frame 7 and having a sliding bed 12 having a symmetrical locking step 13 on the upper surface thereof, As shown in Fig.

That is, since the pressure sensor 27 can replace the functions of the coil spring 24 and the proximity sensor 26, the configuration of the first support plate 10 can be omitted.

Next, the garbage compaction means,

A slider 17a provided with left and right symmetrical legs 18a to be assembled to the latching jaws 13 of the sliding bed 12 of the landing gear;

A fork-shaped garbage compactor 21 fixed on the upper surface of the slider 17a and for entering garbage into the compression cylinder 60 by entering into and retracting from the vertical gap 62 of the compression cylinder 60, ;

A decelerating motor 29 fixed to a motor fixing base 28 fixed to the second supporting plate 11;

A pinion 31 fixed to the motor shaft 30 of the three-speed reduction motor 29;

(32) that engages with the pinion (31) while being assembled on the upper surface of the sliding bed (12).

That is, the deceleration motor 29, the pinion 31, and the rack gear 32 are applied instead of the slider 17 advancing and retracting by the second hydraulic cylinder 19 described above.

Next, the elevating device driving means includes:

A deceleration motor 34 fixed to the first support plate 10;

A pinion (36) fixed to a motor shaft (35) of the reduction motor (34);

(33) which is fixed to either one of the vertical bars (1), i.e., the vertical bar on the left side or the vertical bar on the right side, as shown in the drawing, and engages with the pinion (36) .

This type may be advantageous in that the first hydraulic cylinder 5 and the piston rod 6 may be omitted in the above-mentioned configuration, and hence the height of the apparatus is reduced.

Next, in a second embodiment of the present invention,

A frame fixed to the garbage compression cylinder (60) in front of a longitudinal gap (62) formed in a trash compression cylinder (60) in the form of a circular tube or a rectangular tube;

A lifting device assembled to the frame and moving up and down;

Lifting device driving means fixed to the frame to move the lifting device upward and downward;

A garbage compaction unit fixed to the elevating device and regulating garbage while entering and retreating into the longitudinal vertical crevice 62 of the garbage compaction cylinder 60;

Frame driving means for advancing and retracting the elevating device driving means to the compression cylinder (60) side;

A control circuit for controlling the operation of each device, and a control box equipped with a power supply.

In the frame of the second embodiment,

A vertical rail (1) of symmetrical type in which a guide rail (4) for guiding the vertical movement of the lift device is fixed inward;

And an upper bracket 2a fixed to an upper end of the vertical bar 1 to fix the first hydraulic cylinder 5. [

Next, the landing gear of the second embodiment,

A lift frame (7) having bearing blocks (8) assembled to the guide rails (4) of the frame fixed at upper and lower sides and left and right sides;

A first supporting plate (not shown) fixed to the elevating frame 7 and fixed by the reinforcing bars 9 and fixed on the upper surface thereof with a hook 23 for fixing the hinge fastener 15 and the coil spring 24, 10);

A second support plate 11 fixed to the bottom surface of the hinge 14 fixed to the pin 16 while being assembled with the hinge fixture 14 of the first support plate 10;

A coil spring 24 which is assembled to the rod 23 of the first support plate 10 and holds and supports the first support plate 11;

The second support plate 11 is assembled to the sensor fixing table 25 assembled at the rear end of the first supporting plate 10 and the second supporting plate 11 is rotated by the repulsive force generated from the trash according to the garbage compaction action Immediately after detecting the tilted state while compressing the coil spring 24, the operation of the first conveyor belt 63 is stopped as a signal is applied to the control circuit of the control box, and the supply of the trash into the compression cylinder 60 is stopped And this is also the same as that of the first embodiment.

Next, the elevating device driving means of the second embodiment,

And a first hydraulic cylinder 5 fixed to the upper bracket 2a of the frame and having a piston rod 6 fixed to the upper surface of the lift frame 7 of the lift device. same.

Next, in the waste compaction means of the second embodiment,

A fork-shaped garbage compactor (not shown) fixed on the upper surface of the second support plate 11 of the lift device for entering and retreating into the vertical crevice 62 of the compression cylinder 60 and for piling up the waste put into the compression cylinder 60 Unlike the first embodiment, the garbage compaction key 21 is welded or bolted to the second support plate 11 without advancing or retreating through the sliding bed 12 of the second support plate 11, As shown in Fig.

Next, in the frame driving means of the second embodiment,

A slider (40) fixed at right angles to a symmetrical vertical base (1) with a guide rail (4) for guiding the vertical movement of the lift device fixed inward;

A second reinforcing bar (41) for reinforcing and fixing the slider (40) and the vertical base (1);

A sliding bed (38) having a symmetrical locking step (39) for assembling the slider (40);

An auxiliary frame (37) for supporting the sliding bed (38);

A fourth hydraulic cylinder 42 fixed by a second support shaft 44 fixed to the upper surface of the auxiliary frame 37 and provided with a piston rod 43 assembled to the second reinforcement shaft 41, .

That is, since the flat drive means advances and reverses the vertical platform 1, the garbage compact 21 is fixed to the second support plate 11.

Next, the landing gear of the second embodiment,

A lift frame (7) having bearing blocks (8) assembled to the guide rails (4) of the frame fixed at upper and lower sides and left and right sides;

A second support plate (11) fixed to the lifting frame (7);

A reinforcing bar 9b for reinforcing the second supporting plate 11 and the elevating frame 7;

Is fixed to the upper surface of the lifting frame (7) and is coupled to the piston rod (6) of the lifting device driving means. The lifting device is actuated by the repulsive force generated from the trash according to the compaction action of the trash, So that the operation of the first conveyor belt 63 is stopped and the supply of the waste into the compression cylinder 60 is stopped.

Since the pressure sensing sensor 45 can replace the function of the coil spring 24 and the proximity sensor 26 as in the first embodiment described above, the configuration of the first support plate 10 can be omitted .

Next, in the frame driving means of the second embodiment,

Two sliders 40a fixed at right angles to a symmetrical vertical table 1 in which a guide rail 4 for guiding vertical movement of a lift device is fixed inward;

A third reinforcing bar 41a for reinforcing and fixing the slider 40a and the vertical bar 1;

A sliding bed 38 having a symmetrical latching protrusion 39 for assembling the slider 40a;

An auxiliary frame (37) for supporting the sliding bed (38);

A decelerating motor 47 assembled to a motor fixing base 46 fixed to either one of the sliders 40a;

A pinion 49 assembled to the motor shaft 48 of the reduction motor 47;

(50) fixed to the upper surface of the sliding bed (38) and meshing with the pinion (49).

28, the sliders 40a are assembled on the left and right sides of the sliding bed 38 because the sliding pillars 50 are fixed on the upper surface of the sliding bed 38. [

The operation according to the first embodiment of the present invention having the above structure will be described.

The frame of the present invention is fixed to the waste compaction cylinder 60 in front of the vertical gap 62 formed in the compression cylinder 60 as shown in FIG. The reason for this will be described later.

The combustible waste 500 is moved through the inlet 61 of the waste compaction cylinder 60 through the first conveyor belt 63 so as to continue to fall.

At the same time, hydraulic power is applied to the first hydraulic cylinder 5 and the second hydraulic cylinder 19 and the second hydraulic cylinder 19 is operated to move the waste compaction key 21 to the compression cylinder 60 The first hydraulic cylinder 5 is operated immediately after entering the vertical gap 62 and the piston rod 6 is lowered as shown in FIG. 11 so that the elevating device and the entire waste compaction means are lowered. Of course, the garbage 500 continues to enter the waste compaction cylinder 60 at this time.

Therefore, the garbage compaction key 21 moves the garbage 500 entering the garbage compaction cylinder 60 downward, while the garbage compaction garbage 21 stays on the upper side of the dice 67. Of course, at this time, the waste 500 enters the compression cylinder 60.

Next, as shown in FIG. 12, the second hydraulic cylinder 19 is operated again to move the garbage compaction joint 21 backward (at the same time), and at the same time, the first hydraulic cylinder 5 is operated again, (In-position) as shown in FIG. 9. At this time, the waste 500 is also introduced into the compression cylinder 60.

16, 17 and 18 are provided with a deceleration motor 29, a pinion 31, and a rack gear 32 so as to replace the above-described function of the second hydraulic cylinder 19, 19 and 20 are provided with a deceleration motor 34, a pinion 36, and a raising gear 33 so as to replace the function of the first hydraulic cylinder 5 described above. The operation is of a commonsense level and will not be discussed.

As described above, the first hydraulic cylinder 5 and the second hydraulic cylinder 19 are operated repeatedly, and the trash 500 entering the trash compaction cylinder 60 is poured toward the dice 67. As described above, When the operation is continuously repeated, the garbage 500 stacked on the upper side of the dice 67 in the garbage compression cylinder 60 is brought into close contact with the garbage 500, The height of the trash compaction cylinder 60 may be increased to about 1/3 of the height of the trash compaction cylinder 60 or the trash compaction cylinder 60 may be increased to about 1/2 of the height of the trash compaction cylinder 60.

In other words, the height of the garbage may be different depending on the type of garbage. When the garbage is compressed in the garbage compression cylinder 60 as described above, the garbage compaction key 21 of the garbage compaction means, A strong repulsive force is applied from the garbage 500, which is hardened.

When a strong repulsive force is applied to the garbage collected in an appropriate amount, the garbage compaction key 21 can no longer hold the garbage strongly, and the compaction key 21 is lifted up due to the repulsive force of the garbage.

The sliding bed 12 and the second supporting plate 11 are also lifted upward so that the rear side of the first supporting plate 11 with the pin 16 as the center of rotation The coil spring 24 is strongly pressed to be compressed and eventually contacted with the proximity sensor 26. [ In other words, the first support plate 11 is subjected to a seesaw motion around the pin 16 as its center of rotation.

When the rear of the second support plate 11 is detected to be in contact with the proximity sensor 26 through the proximity sensor 26, the signal is applied to the control circuit of the control box immediately, and the control circuit of the control box The operation of the conveyor belt 63 is stopped so that the waste can no longer enter the compression cylinder 60.

When the signal of the proximity sensor 26 is applied to the control circuit of the control box as described above, the first conveyor belt 63 is stopped and the third hydraulic cylinder 64 is immediately operated as shown in FIG. 13 to lower the piston rod 65 The piston 66 is pushed downward through the fuel rod discharge hole 68 of the dice 67 by pressing the garbage 500 which is located below the garbage compression cylinder 60 and formed on the upper side of the dice 67 by a strong pressure Allow fuel rods to be produced.

14 and 15, since the first support plate 11 is fixed to the lifting frame 7 when the garbage compaction key 21 is raised by the repulsive force of the garbage, the repulsive force from the garbage Is transmitted to the lift frame 7 as it is, which eventually actuates the pressure sensor 27.

When the pressure sensing sensor 27 is operated only when a predetermined pressure is applied, the signal generated from the pressure sensing sensor 27 is transmitted to the control circuit of the control box. Therefore, the function of the proximity sensor 26 To be replaced.

12, when the second support plate 11 compresses the coil spring 24 and is sensed by the proximity sensor 26 as described above, the garbage compaction key 21 is immediately backward as shown in FIG. 12, The first support plate 11 is again moved in the direction indicated by the arrows in FIG. 9, FIG. 10, and FIG. 10 by the elasticity of the coil spring 24 when the garbage compaction key 21 is in its original position as shown in FIG. It is natural to be in the same horizontal position.

14 and 15, immediately when the pressure sensor 27 is operated, the waste compaction key 21 comes to the home position as shown in FIG. 14, and the piston 66 descends in succession to produce the fuel rod as described above When the waste compaction key 21 is returned to its original position, the pressure applied to the pressure sensor 27 is released, so that the function of the pressure sensor 27 is restored.

9, the first conveyor belt 63 is returned to its initial position as shown in FIG. 9, and then the first conveyor belt 63 is moved again The garbage is introduced into the trash compaction cylinder 60, and then the above-mentioned operation is continuously repeated. For reference, in the above-mentioned patent, when a certain amount of trash is supplied into the compression cylinder 60 The operation of the first conveyor belt 63 is stopped to prevent the waste from entering the compression cylinder 60, and after the small diameter piston is pushed into the trash, the first conveyor belt 63 is operated again, The waste of the first conveyor belt 63 is put into the compression cylinder 60 and the operation of the first conveyor belt 63 is stopped again so that the waste can not enter the compression cylinder 60 The piston of the small diameter is lowered again, and the function of returning the second-entered garbage to the original position is repeated. When a certain amount of trash is filled in the compression cylinder (60), the large diameter piston Since the fuel rod is produced at the lowest position down to the upper surface of the dice 67, the productivity is inferior. As a result, the present invention is also applicable to the case where the waste is introduced into the compression cylinder The above-mentioned problem can be solved because it continues to enter the inside of the apparatus 60.

The reason for this is that the above-described waste compaction key 21 enters the vertical gap 62 of the waste compression cylinder 60 at the top of the waste compression cylinder 60 and simultaneously reduces the waste while compressing the waste in the compression cylinder 60. [ In the case of the patent as the above-mentioned prior application, when the piston of a small diameter is lowered and the trash is put into the compression cylinder 60, when the trash is put into the compression cylinder 60, The piston is piled up on the piston of the diameter, and when the small-diameter piston rises, the refuse flows backward, and when the small-diameter piston returns to the inside of the large-diameter piston, the trash is caught, 66), the waste can not be put into the compression cylinder (60).

The production of the fuel rod is interrupted until the piston 66 is compressed and discharged through the dies 67, and then the predetermined waste is gathered and collected in the waste compaction cylinder 60 again, as described above. It is preferable to arrange the apparatus of the present invention in a twin manner as shown in Fig. 29 so that the waste is compressed in the remaining waste compaction cylinder when the fuel rod is produced in one of the waste compaction cylinders.

Therefore, when one of the waste compaction cylinders produces fuel rods, the remaining waste compaction cylinders are clogging the waste, and eventually the production of the fuel rods disappears.
As described above, in repeating the operation in which the compaction key 21 enters the vertical crevice 62 of the trash compaction cylinder 60 and recovers the trash while it is retracted, the width of the vertical crevice 62 is practically The size of the trash entering into the trash compaction cylinder 60 is usually at least about 20 cm in width and about the size of the trash, 21 do not discharge the waste through the vertical gap 62. In case of a case where some garbage is discharged through the vertical gap 62, The waste debris is blown from the vertical gap 62 to the waste compaction cylinder 60 due to the outflow pressure of the air generated when the waste descends, And it is confirmed that the operation of the present invention does not hinder the operation of the present invention. The results of the experiment confirmation are the same in the case of the second embodiment which will be described later.

The functions of the coil spring 24, the proximity sensor 26 and the pressure sensor 45 of the second embodiment are the same as those of the first embodiment. I will not.

The second embodiment of the present invention is different from the first embodiment in that the frame driving device advances and retracts without the garbage compaction lever 21 moving forward and backward into the compression cylinder 60, The vertical frame 1 of the frame and the elevator and the garbage compaction fitting 21 fixed to the second supporting plate 11 are moved forward and backward at the same time, There is a difference in that the compression cylinder 60 is advanced and retreated.

21, when the fourth hydraulic cylinder 42 of the frame driving device operates to advance the piston rod 43, the vertical frame 1 fixed on the slider 40 and the vertical frame 1 fixed to the vertical frame 1 The garbage compaction means assembled in the elevating apparatus, and the elevating apparatus driving means are all advanced.

At this time, the garbage compaction key 21 advances into the longitudinal clearance 62 of the compression cylinder 60. Then, by the operation of the first hydraulic cylinder 5, And then descends. As shown in FIG. 24, when the fourth hydraulic cylinder 42 is operated to return the piston rod 43 to its original position, all of the devices fixed to the slider 40 And the garbage compaction key 21 is also backward.

The first hydraulic cylinder 5 is operated again to raise the elevating device and the waste compaction device and the fourth hydraulic cylinder 42 is operated to advance the piston rod 43. Then, When the first hydraulic cylinder 5 is operated to lower the elevating device and the trash compactor 21, the trash is again poured into the garbage compartment. Is repeated.

25 and 26 illustrate a case in which the pressure sensor 45 is applied instead of the coil spring 24 and the proximity sensor 26, 27 and 28 illustrate an example in which the configuration of the first support plate 10 is omitted. Figs. 27 and 28 illustrate an example in which the deceleration motor 47 and the pinion 49, And the frame driving device can be advanced and retracted using the frame 50. [

In the second embodiment of the present invention, as well as the first hydraulic cylinder 5 and the piston rod 6, a decelerating motor, a pinion and a pinion are used instead of the first hydraulic cylinder 5 and the piston rod 6, It is a matter of course that the present invention is based on the technical idea of the present invention and the object of the present invention and the drawings and the specification so as to partially change the parts or to increase or decrease the size, It is obvious that commercial design changes do not go beyond the equivalence level.

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Reference numeral 69 in FIG. 29 is used as a second conveyor belt for supplying waste to the first conveyor belt 63.

As described above, the present invention has the advantageous effect that the garbage in the compression cylinder can be strengthened while the garbage is continuously supplied into the compression cylinder, so that there is a useful effect of solving the problem of the productivity failure which has been caused by the conventional patent.

Claims (16)

A frame fixed to the trash compaction cylinder 60 in front of the longitudinal crevice 62 formed in the trash compaction cylinder 60 in the form of a circular tube or a rectangular tube; A lifting device assembled to the frame and moving up and down; Lifting device driving means fixed to the frame to move the lifting device upward and downward; A garbage compaction unit assembled in the elevating apparatus and drawing garbage while entering and retreating into a vertical gap 62 of the garbage compaction cylinder 60; A control circuit for controlling the operation of each device, and a control box having a power supply device. ≪ Desc / Clms Page number 20 > The apparatus of claim 1, A vertical rail (1) of a symmetrical type in which a guide rail (4) for guiding the vertical movement of the lift device is fixed inward; And an upper bracket (2) and a lower bracket (3) fixed to upper and lower portions of the vertical bar (1) to be assembled to the compression cylinder (60). The elevator system according to claim 1, A lift frame (7) having bearing blocks (8) assembled to the guide rails (4) of the frame fixed at upper and lower sides and left and right sides; A first supporting plate (not shown) fixed to the elevating frame 7 and fixed by the reinforcing bars 9 and fixed on the upper surface thereof with a hook 23 for fixing the hinge fastener 15 and the coil spring 24, 10); A hinge 14 fixed to a pin 16 while being assembled with a hinge fixture 14 of a first support plate 10 is fixed to a bottom surface and a sliding bed 12 having a locking hook 13 having a symmetrical shape is fixed on an upper surface thereof An assembled second support plate 11; A coil spring 24 which is assembled to the rod 23 of the first support plate 10 and holds and supports the first support plate 11; The second support plate 11 is assembled to the sensor fixing table 25 assembled at the rear end of the first supporting plate 10 and the second supporting plate 11 is rotated by the repulsive force generated from the trash according to the garbage compaction action Immediately after detecting the tilted state while compressing the coil spring 24, the operation of the first conveyor belt 63 is stopped as a signal is applied to the control circuit of the control box, and the supply of the trash into the compression cylinder 60 is stopped And a proximity sensor (26) for allowing the fuel to flow into the combustor. The elevator apparatus according to claim 1, And a first hydraulic cylinder (5) fixed to the upper bracket (2) of the frame and having a piston rod (6) fixed to the upper surface of the lift frame (7) of the lift device. Of the garbage compaction device. 2. The waste disposal apparatus according to claim 1, A slider (17) having legs (18) assembled in a lateral direction and symmetrically to be assembled to a latching jaw (13) of a sliding bed (12) of a lift device; A fork-shaped garbage compactor 21 fixed to the upper surface of the slider 17 and for entering waste into the compression cylinder 60 into the vertical gap 62 of the compression cylinder 60, ; And a second hydraulic cylinder (19) fixed to a first support arm (22) assembled on an upper surface of a second support plate (11) and having a piston rod (20) assembled to the slider (17) Garbage compaction device of a waste fuel rod manufacturing apparatus. The elevator system according to claim 1, A lift frame (7) having bearing blocks (8) assembled to the guide rails (4) of the frame fixed at upper and lower sides and left and right sides; Is fixed to the upper surface of the lifting frame (7) and is coupled to the piston rod (6) of the lifting device driving means. The lifting device is actuated by the repulsive force generated from the trash according to the compaction action of the trash, A pressure sensing sensor 27 for stopping the operation of the first conveyor belt 63 and stopping the supply of the waste into the compression cylinder 60; A second supporting plate 11 supported by the reinforcing bars 9a while being fixed at right angles to the elevating frame 7 and having a sliding bed 12 having a symmetrical locking step 13 on the upper surface thereof, And the waste compaction device of the combustible waste fuel rod manufacturing apparatus. 2. The waste disposal apparatus according to claim 1, A slider 17a provided with left and right symmetrical legs 18a to be assembled to the latching jaws 13 of the sliding bed 12 of the landing gear; A fork-shaped garbage compactor 21 fixed on the upper surface of the slider 17a and for entering garbage into the compression cylinder 60 by entering into and retracting from the vertical gap 62 of the compression cylinder 60, ; A decelerating motor 29 fixed to a motor fixing base 28 fixed to the second supporting plate 11; A pinion 31 fixed to the motor shaft 30 of the three-speed reduction motor 29; (32) which engages with the pinion (31) while being assembled on the upper surface of the sliding bed (12). ≪ Desc / Clms Page number 13 > The elevator apparatus according to claim 1, A deceleration motor 34 fixed to the first support plate 10; A pinion (36) fixed to a motor shaft (35) of the reduction motor (34); (33) fixed to one of the vertical bars (1) in the longitudinal direction and meshing with the pinion (36). ≪ Desc / Clms Page number 19 > A frame fixed to the trash compaction cylinder 60 in front of the longitudinal crevice 62 formed in the trash compaction cylinder 60 in the form of a circular tube or a rectangular tube; A lifting device assembled to the frame and moving up and down; Lifting device driving means fixed to the frame to move the lifting device upward and downward; A garbage compaction means fixed to the elevating device and regulating garbage while entering and retreating into a vertical gap 62 of the garbage compaction cylinder 60; Frame driving means for advancing and retracting the elevating device driving means to the compression cylinder (60) side; A control circuit for controlling the operation of each device, and a control box having a power supply device. ≪ Desc / Clms Page number 20 > 10. The method of claim 9, A vertical rail (1) of a symmetrical type in which a guide rail (4) for guiding the vertical movement of the lift device is fixed inward; And an upper bracket (2a) fixed to an upper end of the vertical bar (1) to fix the first hydraulic cylinder (5). The elevator system according to claim 9, A lift frame (7) having bearing blocks (8) assembled to the guide rails (4) of the frame fixed at upper and lower sides and left and right sides; A first supporting plate (not shown) fixed to the elevating frame 7 and fixed by the reinforcing bars 9 and fixed on the upper surface thereof with a hook 23 for fixing the hinge fastener 15 and the coil spring 24, 10); A second support plate 11 fixed to the bottom surface of the hinge 14 fixed to the pin 16 while being assembled with the hinge fixture 14 of the first support plate 10; A coil spring 24 which is assembled to the rod 23 of the first support plate 10 and holds and supports the first support plate 11; The second support plate 11 is assembled to the sensor fixing table 25 assembled at the rear end of the first supporting plate 10 and the second supporting plate 11 is rotated by the repulsive force generated from the trash according to the garbage compaction action Immediately after detecting the tilted state while compressing the coil spring 24, the operation of the first conveyor belt 63 is stopped as a signal is applied to the control circuit of the control box, and the supply of the trash into the compression cylinder 60 is stopped And a proximity sensor (26) for allowing the fuel to flow into the combustor. 10. The apparatus according to claim 9, And a first hydraulic cylinder (5) fixed to the upper bracket (2a) of the frame and having a piston rod (6) fixed to the upper surface of the lift frame (7) of the lift device. Of the garbage compaction device. 10. The waste disposal apparatus according to claim 9, A fork-shaped garbage compactor (not shown) fixed on the upper surface of the second support plate 11 of the lift device for entering and retreating into the vertical crevice 62 of the compression cylinder 60 and for piling up the waste put into the compression cylinder 60 21a). ≪ RTI ID = 0.0 > 11. < / RTI > 10. The image pickup apparatus according to claim 9, A slider (40) fixed at right angles to a symmetrical vertical base (1) with a guide rail (4) for guiding the vertical movement of the lift device fixed inward; A second reinforcing bar (41) for reinforcing and fixing the slider (40) and the vertical base (1); A sliding bed (38) having a symmetrical locking step (39) for assembling the slider (40); An auxiliary frame (37) for supporting the sliding bed (38); A fourth hydraulic cylinder 42 fixed by a second support shaft 44 fixed to the upper surface of the auxiliary frame 37 and provided with a piston rod 43 assembled to the second reinforcement shaft 41, Wherein the waste compaction device comprises: The elevator system according to claim 9, A lift frame (7) having bearing blocks (8) assembled to the guide rails (4) of the frame fixed at upper and lower sides and left and right sides; A second support plate (11) fixed to the lifting frame (7); A reinforcing bar 9b for reinforcing the second supporting plate 11 and the elevating frame 7; Is fixed to the upper surface of the lifting frame (7) and is coupled to the piston rod (6) of the lifting device driving means. The lifting device is actuated by the repulsive force generated from the trash according to the compaction action of the trash, And the pressure sensing sensor (45) stops the operation of the first conveyor belt (63) and stops the supply of the waste into the compression cylinder (60). The waste of the combustible waste fuel rod manufacturing apparatus Compaction device. 10. The image pickup apparatus according to claim 9, Two sliders 40a fixed at right angles to a symmetrical vertical table 1 in which a guide rail 4 for guiding vertical movement of a lift device is fixed inward; A third reinforcing bar 41a for reinforcing and fixing the slider 40a and the vertical bar 1; A sliding bed 38 having a symmetrical latching protrusion 39 for assembling the slider 40a; An auxiliary frame (37) for supporting the sliding bed (38); A decelerating motor 47 assembled to a motor fixing base 46 fixed to either one of the sliders 40a; A pinion 49 assembled to the motor shaft 48 of the reduction motor 47; (50) fixed to the upper surface of the sliding bed (38) and meshing with the pinion (49). ≪ Desc / Clms Page number 20 >

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