KR101737184B1 - Apparatus for Recycling of Waste Plastic and Method for Disposal of Waste Plastic - Google Patents

Abstract

A method of processing a combustible wastepaper using the squeeze treatment apparatus for reusing waste paper, comprising the steps of: heating the inside of the melting furnace to 350 to 500 ° C or higher for melting and extruding the waste paper; Unlike the conventional method in which the adhesive is introduced, the environmentally friendly treatment method of pressing the waste paper at the same time as the stirring of the waste paper is improved, so that the quality of the resin is not changed and the product can be produced at a low cost, A crushing processing device having a crushing function and a crushing function device configured to be able to deviate from the constraint of the ownership space by realizing miniaturization by a single device device in which a series of crushing function and crushing function can be collectively performed, A method of processing wastewater, comprising the steps of: A body 10 formed of a front cover, a rear cover, and left and right covers so as to have a pair of right and left covers, a pair of right and left covers arranged transversely to each other and rotationally driven by a driving motor, A crushing unit 30 for crushing the particles of the waste paper paper that are arranged transversely through the left and right covers from below the crushing unit and fall from the crushing unit; mediated by being arranged in the horizontal and by the waste water screw paper supplied from the crushing unit pressure-feeding portion emission bonding part 40 to be carried out with a stirring of the glue simultaneously; to be fed under pressure from the crimping portion emissions if the adhesive and the stirred wastewater An ejection nozzle 50 for ejecting ink; And an adhesive supply pipe 43 is extended from the rear cover 12 to a path leading to the crimping portion so that the adhesive supplied from the outside can be introduced into the crimping portion.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a compression bonding apparatus having a crushing function,

The present invention relates to a compression bonding apparatus having a wave crushing function and a method of processing a combustible waste paper using the same.

More specifically, unlike the conventional method in which a heating device of a type having a built-in heating wire for melting and extruding waste paper is heated to a temperature of 350 to 500 ° C or higher inside the melting furnace, , It is possible not only to produce high quality products at low cost but also to be safe from the risk of fire, and in particular to provide a series of crushing function and crushing function in a lump The present invention relates to a compression bonding apparatus having a wave crushing function and a method for processing a combustible waste paper using the same.

Normally, in order to recycle the waste paper having the shape and the volume respectively, it must be crushed and pulverized to the same size, and then molded by extrusion.

For example, conventionally, separate crushers, crushers, and extruders must be provided for crushing, crushing, and extruding processes as described above. This is accomplished by carrying out a crushing operation through a crushing device and transporting the crushed waste water to a crusher And then the pulverized wastepaper is transferred to an extruding device, the pulverized wastepaper is transferred to the extruding device, and the extruding operation is carried out. Thus, a very complicated and inefficient I have maintained the way I work.

The conventional working method as described above causes a processing cost and a waste of manpower when the machine is driven, and there is a serious problem that normal recycling processing is not performed due to such a problem.

In order to solve such a problem, Korean Patent Laid-Open No. 10-1991-0009607 entitled "A synthetic resin molding apparatus using waste resin and Korean Patent Laid-Open No. 10-1997-0015950" 10-1991-0009607 and Korean Patent Laid-Open No. 10-1997-0015950 relate only to the automatic conveyance of the waste paper between works by providing a conveyor for each working section of the crushing device, the crushing device and the extruding device, It could not be a solution.

In addition, as a means for extruding waste resin, high temperature heat is generated through an extrusion device to melt-extrude the waste resin. However, power consumption to the heater is very large in order to generate high temperature heat, There is a restriction that the extrusion apparatus can be owned and used only at a place designated by the user. For the same reason as above, it is time to provide a reproducing apparatus that can easily process the waste paper from anywhere.

The present invention has been made in order to more positively solve the above problems, and it is an object of the present invention to provide a crushing device for crushing waste water as an object to be processed, a crushing device for crushing crushed waste water into smaller particles, The present invention has been made to solve the above-mentioned problems occurring in the prior art.

On the other hand, there is another problem to be solved by reducing the consumption of electric power, reducing the processing cost, and contributing to the natural environment by using an environmentally friendly adhesive instead of the conventional method of cooling and pulverizing the wasted resin to recover the waste water .

It is another object of the present invention to provide a buffer means capable of suppressing the vibration generated during the crushing / crushing operation of the waste paper when the crushing device, the crushing device and the extrusion device are integrally provided.

Another object of the present invention is to provide a processing device in an integrated form so that the crushing roller can be easily separated so as to remove the trapped waste paper when the waste paper is caught in the crushing device.

In order to accomplish the above object, according to the present invention, there is provided a compression bonding apparatus having a crushing function and a method of processing a flammable waste water using the same,

A body 10 formed of a front cover, a rear cover, and left and right covers so as to have a hollow interior; a pair of crushing rollers arranged in a transverse direction through the left and right covers, A crushing unit 30 for crushing the particles of the waste paper that is arranged transversely through the left and right covers below the crushing unit and drops from the crushing unit; are arranged in the lateral to the left and right cover-mediated bonding part 40 the waste water, while if pressure feeding parts discharged by the screw that is carried out with a stirring of the glue simultaneously supplied from the crushing unit in the; as, adhesives and stirred to be pressure-fed from the bonding part And a discharge nozzle 50 for discharging the discharged waste resin. The adhesive agent feed pipe 43 is extended from the rear cover 12 to a path leading to the crimping portion, So that the adhesive can be introduced into the crimping portion.

The crushing unit 20 includes a pair of crushing rollers 21 having a crushing shaft 22 in the form of a round bar and a crushing blade 24 in the form of a cylindrical cutting blade. (23) for preventing the shredding blade from being deviated to the left and right for each coupling position of the shredding blades, and further includes four coupling holes (25) at intervals of 60 degrees from the center axis of the shredding blades 24 are biased in a semicircular shape so as to be individually detachable on the space provided by the concave portion 23 of the shredding shaft 22 and are arranged at the same positions as the coupling holes of the concave portions from the central axis of the divided shredding blades 26) so that the shredding blade (24) is received in the concave portion (23) of the shredding shaft (22) in a bolt connection manner.

The crushing unit 30 includes a rotating roller 31 that rotates in a clockwise direction by forming protrusions in a predetermined pattern, a stationary crusher 30 fixedly coupled to one side of the rotating roller and having a groove on one surface thereof, And a blade 32. The wastewater is pulverized to a particle size of 1 to 2 mm by the rotating roller 31 and the fixed pulverizing blade 32. The pulverized pulverized paper is squeezed downward in a region where the rotating roller and the fixed pulverizing blade are engaged with each other, (33) for discharging the pulverized waste paper and inducing the pulverized waste paper to be pulverized again.

It is also possible to prevent the vibration generated from the rotation of the crushing section 20, the vibration resulting from the rotation of the crushing section 30 and the vibration generated from the rotation of the crushing section 40 by the buffering action of the coil spring (60).

The buffering means 60 includes a buffer body 61 having a circular hollow portion for accommodating the bearing 64 and a buffer body 61 provided on the front cover 11 and the rear cover 12 of the body 10, A support base 62 formed at an upper end and a lower end at predetermined intervals so as to receive the buffering body from the roller shaft hole 14 as a starting point and a support base 62 protruding from one surface of the support base to penetrate the upper and lower ends of the buffering body And a protrusion (63), wherein a coil spring (65) is drawn into the protrusion, and the support body and the buffer body are coupled through the protrusion.

In addition, in a method for processing a combustible wastepaper using a compression bonding apparatus having a crushing function,

(S10) for crushing the target waste paper by a pair of crushing rollers (21) inserted after the target waste resin is charged, a rotating roller (31) composed of rectangular projections taken over from the crushing step, (S20) of grinding to the same size by the rotational action of interlocking of the stationary pulverizing blades (32) of the main part; and a squeezing step (S20) of pulverizing the pulverized waste paper by the pulverizing step (S30), which discriminates whether the waste water is pulverized to have the same size, and the waste water that has not passed through the filtering network is fed back to the pulverizing step; and the waste water passing through the filtering network is fed to the squeezing path 41 of the squeezing unit 40 A pressurizing step (S40) of stacking the waste paper stacked by rotation of the conveyance screw (42) having a thread provided in the pressurizing path and feeding the waste paper in the direction of the discharge nozzle (50); Inflow (S50) for mixing the waste water poured by the pressing step with the adhesive by allowing the waste water to be fed by the pressing step to be mixed with the adhesive, And a cutting step S70 of cutting out the discharged waste resin and providing it in the form of pellets.

Meanwhile, the stirring step (S50) is characterized in that the adhesive is charged at a weight ratio of 10 to 30% by weight based on 100% by weight of the whole waste paper.

According to the present invention having the above-described constitution, it is possible to provide a crushing apparatus for crushing waste water as an object to be processed, a crushing apparatus for crushing the crushed waste resin into smaller particles, and an extrusion apparatus for compressing the crushed waste resin in a uniform form It is possible to arrange the compacting apparatus in a narrow and narrow place where the compression bonding apparatus is disposed. Therefore, since the discharger directly discharges the waste paper by first squeezing and discharging the waste paper, the volume of the waste paper is reduced, There is an effect that the amount of the flammable plastic bag that packs the waste paper is reduced in proportion to the volume of the bag.

On the other hand, by using an eco-friendly adhesive deviating from the conventional method in which pulverized wastes are melted and cooled in order to regenerate the waste water, the power consumption of the heater used for melting the waste water can be reduced to reduce the processing cost, And there is another effect that environmental pollution can be prevented by the absence of the cooling device.

In addition, by combining the vibration generating means and the vibration generating means for each device so as to suppress vibration generated when the crushing device provided in the compression bonding device rotates, vibration generated when the crushing device rotates, and vibration generated when the compression bonding device rotates, The durability and life of the compression bonding apparatus can be increased and noise can be minimized.

Particularly, since the roller shaft of the crushing roller is separated from the cutting blade by the simple bolt connection, the crushing device provided in the crushing treatment device can easily remove the fragments of the waste paper that is caught in the crushing part when the waste paper is broken And it is easy to wash the water, so that the user can use the integral compressor neatly.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a perspective view of a wave crushing and pressing apparatus according to a preferred embodiment of the present invention; FIG.
Fig. 2 is an exploded perspective view of the crushing portion, the crushing portion, the crushing portion and the discharge nozzle shown in Fig. 1; Fig.
3 is an exploded perspective view of a disintegration roller constructed according to a preferred embodiment of the present invention;
FIG. 4 is an exploded perspective view of a crushing section constructed according to a preferred embodiment of the present invention. FIG.
FIG. 5 is an exploded perspective view of a press-bonding portion constructed according to a preferred embodiment of the present invention. FIG.
6 is an exploded perspective view of a shock absorber constituted by a preferred embodiment of the present invention.
7 is a front view collectively showing a process of pulverizing to pulverize the waste paper according to the present invention.
8 is a side view collectively showing a process of pulverizing to pulverize the waste paper according to the present invention.
9 is a side view showing the addition and mixing of an adhesive to the pulverized wastepaper according to the present invention.
10 is a floor chart exemplarily showing a method of recycling a combustible wastepaper according to the present invention.

BRIEF DESCRIPTION OF THE DRAWINGS The above and other objects, features and advantages of the present invention will be more apparent from the following detailed description taken in conjunction with the accompanying drawings, in which: FIG.

In addition, advantages and features of the present invention and methods of achieving them will be apparent from and elucidated with reference to the embodiments described hereinafter in detail with reference to the accompanying drawings. However, it is to be understood that the present invention is not limited to the disclosed embodiments, but may be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. It is intended that the disclosure of the present invention be limited only by the terms of the appended claims. And, throughout the specification, like reference numerals refer to like elements.

The present invention relates to a compression bonding apparatus having a wave crushing function and a method of processing a combustible waste paper using the same.

In contrast to the conventional method in which a heating device of a type in which a heating wire is built in for melting and extruding waste resin is heated to 350 to 500 ° C or more inside the melting furnace, an eco- It is possible to produce a high-quality product at a low cost, as well as to be safe from the risk of fire. In particular, a series of crushing function and crushing function can be performed collectively It is noted that the present invention relates to a compression bonding apparatus having a crushing function and a method of processing a flammable waste paper using the same.

FIG. 1 is a perspective view of a compression bonding apparatus constructed according to a preferred embodiment of the present invention, and FIG. 2 is an exploded perspective view of a crushing portion, a crushing portion, a compression bonding portion, and a discharge nozzle shown in FIG.

As shown in FIG. 1, the compression treatment apparatus of the present invention includes a body 10 having a slope surrounded by a cover to form a hollow portion therein, a charging portion for charging the waste paper on the upper side of the body, A crushing unit 20 and a crushing unit 40. The crushing unit 40 includes a discharge nozzle 50 having eight nozzles on either side of the body, Device. Particularly, the present invention is characterized in that vibration is generated in the compression bonding apparatus 100 by suppressing the vibration generated in the compression bonding apparatus 100 by combining the buffer means 60 separately at the position where the rollers of the crushing portion, the crushing portion and the compression bonding portion are interposed.

As shown in FIG. 2, the compression bonding apparatus 100 of the present invention will be described in more detail. The body 10 includes a front cover, a rear cover, and left and right covers to have a hollow interior. A crushing unit 20 arranged horizontally to induce crushing of the waste paper while a pair of crushing rollers are rotationally driven by a rotational force caused by the driving motor and a crushing unit 20 arranged horizontally through the left and right covers from below the crushing unit A crushing unit 30 for crushing the particles of the waste paper falling from the crushing unit; a crushing unit 30 for crushing particles of waste paper falling from the crushing unit; A discharge nozzle 50 for discharging the waste paper agitated with the adhesive by being pressed from the press contact portion; And an adhesive supply pipe 43 is extended from the rear cover 11 to a path leading to the crimping portion so that an adhesive supplied from the outside can be introduced into the crimping portion.

The body 10 forms a hollow portion therein by slanting the front cover 11, the rear cover 12, and the two side covers 13. Two roller shaft holes 14 are formed at upper ends of the front cover 11 and the rear cover 12 so as to receive the crushing portions. One roller shaft hole 14 is formed in the middle portion to receive the crushing portions. And one roller shaft hole capable of receiving the screw shaft is formed at the lower end. Further, eight discharge holes 15 are further provided starting from the roller shaft hole 14 provided at the lower end of the front cover 11, and the discharge hole is formed in the lower portion of the front cover 11, Holes that are interconnected with each other.

The crushing unit 20 is composed of a pair of crushing rollers in which the crushing blade and the concave portion are meshed with each other and includes a front cover 11 of the body 10 and two rollers Is interposed in the shaft hole (14). The crushing unit 20 is wound around a motor provided separately on the outside of the crushing processing apparatus 100 and rotates with each other to crush the waste paper flowing through the input unit.

The crushing unit 30 is disposed at the lower end of the crushing unit 20 and includes a front cover 11 of the body 10 and a roller shaft hole 14 provided at a middle portion of the rear cover 12 The waste water falling from the crushing part is taken over and the waste water is crushed into the same size and the waste water which is not crushed to a predetermined size is fed back and pulverized several times until it is completely crushed through the screen.

The crushing unit 40 is located at the lower end of the crushing unit 30 and includes a front cover 11 of the body 10 and a roller shaft hole 14 provided at a lower end of the rear cover 12, And takes over the waste resin pulverized to the same size through a screening network of the crushing unit and presses it to the discharge nozzle.

The discharge nozzle 50 is connected to the outer surface of the front cover 11 of the body 10 in the same line as the crimping portion 40 and is connected to the discharge hole 15 provided in the front cover 11 And eight nozzle attachment portions are formed at the same position.

On the other hand, the buffering means 60 in which the coil spring of the double structure is drawn is joined to each roller shaft hole 14 in which the crushing section 20, the crushing section 30 and the crushing section 40 are sandwiched, And suppresses vibration and noise generated when crushing and crushing.

Fig. 3 is an exploded perspective view of the crushing roller, Fig. 4 is an exploded perspective view of the crushing unit, Fig. 5 is an exploded perspective view of the crushing unit, and Fig. 6 is an exploded perspective view of the crushing unit. .

As shown in FIG. 3, the crushing unit 20 is a crushing unit in which a pair of crushing rollers 21 formed at intervals where crushing blades and recesses are mutually mutually engaged and rotated, And then crushed.

The crushing roller 21 comprises a crushing shaft 22 in the form of a round bar and a plurality of cylindrical crushing blades 24 formed in a straight line pattern at a predetermined interval on the outer circumferential surface of the crushing shaft. The shredding shaft 22 is provided with a concave portion 23 having the same width as that of the shredding blades to prevent the shredding blade from being deviated to the left and right for each coupling position of the shredding blades. A coupling hole 25 is further provided. The crushing blade 24 is divided into left and right halves in a semicircular shape so as to be individually detachable on the space provided by the recess 23 and the split crushing blade 24 is divided into two parts in the same manner as the engaging hole 25 provided in the recess 23 And a counter bore 26 is further provided at the position.

The crushing section 20 is a part where the waste paper comes first when the waste paper is processed, and there are cases where impurities remaining in the waste paper are adhered, and a pair of crushing rollers 21 formed at intervals where the crushing blade and the recess are different from each other, So that the waste solution may be caught in the mating portion.

However, the disintegration roller 21, which is easily detachable and attachable by the bolt connection of the present invention, can easily overcome the above-mentioned problems.

4, the crushing unit 30 includes a rotating roller 31 which rotates in a clockwise direction by forming a projection on the outer circumferential surface of the shaft in a predetermined pattern, and a rotating roller 31 fixedly coupled to the right side of the rotating roller, The pulverized waste paper is pulverized by the rotary roller 31 and the stationary pulverizing blade 32, and the lower end of the region where the rotating roller and the stationary pulverizing blade are engaged with each other, (33) to discharge the pulverized waste paper and to re-pulverize the pulverized waste paper.

The left end and the right end of the rotary roller 31 are interposed in a roller shaft hole 14 provided in a middle portion of the front cover 11 and a roller shaft hole 14 provided in a middle portion of the rear cover 12, Is wound around a motor provided separately on the outside of the compression bonding apparatus 100 and rotates clockwise. Although the rotary roller 31 has a rectangular protrusion formed on its outer circumferential surface in a predetermined pattern, the protrusion is not limited to a quadrangle but may be varied in various forms.

On the other hand, the stationary pulverizing blade 32 is formed in a rectangular shape having the same width as that of the rotating roller, and a recessed portion corresponding to the protrusion provided on the rotating roller 31 is formed on one surface, Which are spaced apart from the patterns of the protrusions provided, and are engaged with each other to thereby crush the waste paper.

The sieve 33 is formed in a streamlined shape and has a sloped surface of 30 ° with respect to the horizontal on one side and a hollow portion with a hollow mesh of weft and slope on the other side. The waste water pulverized from the rotary roller 31 and the stationary pulverizing blade 32 falls down by the sieve mesh and the waste water falling on the sieve surface having one side inclined surface collects into the hollow space having the hollow mesh along the inclined path. Since the hollow space portion is formed of weft and slope to form a net, the waste water pulverized to a diameter smaller than the net diameter is discharged through a sieve, and the waste water pulverized to have a diameter larger than the net diameter is discharged from the roller And then re-pulverized.

The left side and the right side are bolted to the left and right covers of the body 10, and the right side is bent and bent to form a "? &Quot;

As shown in Fig. 5, the crimping portion 40 is provided with a nailing-type delivery screw 42 on the axis of a squeezing furnace 41 having a circular pipe shape whose upper end is cut by about 1/3, The screw 42 is interposed between the front cover 11 and the roller shaft hole 14 formed at the lower end of the rear cover 12 to induce rotation in one direction, 12 with a bolt. A "U" -type adhesive injection pipe 43 is provided at the upper end of the conveyance screw 42 coupled to the rear cover 12 to insert the adhesive through the adhesive inlet pipe, It induces mixing with pulverized waste paper. The inlet of the adhesive inlet pipe 43 is protruded from the outer surface of the rear cover 12 so that the adhesive can be introduced. The outlet of the adhesive inlet pipe 43 has a low inclination of about 15 °, So as to smoothly flow into the compression furnace 41. The transfer screw 42, which is made of the above-mentioned nail type, transfers the waste paper injected into the compression furnace 41 to the discharge nozzle 50 and mixes the waste paper with the adhesive evenly . At this time, the waste water pulverized by the crushing unit 20 and the crushing unit 30 is mixed with the adhesive evenly.

More specifically, the conveying screw 42 is conveyed in the direction of the ejection nozzle 50 by the helical vanes formed on the conveying screw while being rotated by the winding of the motor provided outside the press processing apparatus 100. At this time, not only the waste paper and the adhesive injected into the squeeze path 41 are mixed with each other by the helical vanes but also the mixed waste water is collected toward the front cover 11 by the conveyance screw conveyance and is rotated only in one direction Pressure is applied to the mixed resin due to the rotational force of the conveying screw, and is discharged in the form of a noodle through the discharge nozzle (50). Therefore, it can be molded into pellets since it is cut. The present invention does not include a device for cutting the pellet. Therefore, at the time of pellet molding, the user is provided with a cutting device or the like to be formed into pellets.

6, the buffering means 60 is provided on each roller shaft provided in the crushing section 20, the crushing section 30 and the crushing section 40, It is suppressed by buffering action of coil spring.

The buffering means 60 is provided for each of the roller shaft holes 14 formed in the front cover 11 and the rear cover 12 of the body 10 and the buffer means includes a circular hollow And a support base 62 in the form of a rectangle is protruded from the roller shaft hole 14 at a predetermined distance from the roller shaft hole 14 so as to prevent the buffer body from being separated from the front cover and the rear cover. The support base has two protrusions 63 formed at the same position as the width of the buffer body so as to be coupled with the buffer body to draw the coil spring 65. By coupling the buffer body to the protrusions, And acts to suppress the generated vibration by the buffering action of the spring.

More specifically, in order to prevent the detachment of the buffering body 61, the support base 62 formed on the upper portion is provided with two projections 63 on the bottom face, and the support base formed on the lower portion thereof has two projections 63 are provided. The buffer body 61 further includes ring-shaped binding portions for receiving the protrusions provided on the support base 62 on the left and right sides of the buffer body 61, and the binding portions are coupled to the protrusions provided on the support base 62. At this time, a coil spring is drawn between the support and the buffer body at the protrusion, and another coil spring is further pulled back to the end of the protrusion penetrating the coupling portion of the coil spring and the buffer body and fixed with the nut. On the other hand, the buffer body 61 inserts the bearing 64 into the circular hollow portion and attaches the buffer cover 66 to prevent the bearing from coming off.

The buffering means 60 constructed as described above is coupled to the crushing roller of the crushing portion interposed between the front cover 11 and the rear cover 12, the rotating roller of the crushing portion, and the conveying screw of the crushing portion, And also plays a role of suppressing not only vibration but also noise.

The present invention also provides a crushing apparatus having a crushing function and a method of processing a combustible waste paper using the crushing apparatus. The crushing step (S10) comprises crushing the target waste resin by a pair of crushing rollers, The pulverizing step of pulverizing the wastewater taken over from the pulverizing step into the same size by a rotational action of mutual engagement of the rotating rollers made of rectangular projections and the fixed pulverizing blade having the corresponding concave parts; (S30) of feeding waste water having passed through the sieve to the pulverizing step (S30); and a step (S30) of passing the sludge through the sieve Is stacked on a squeezing furnace of a squeeze portion, and the waste sludge stacked by the rotation of the feed screw having a thread provided in the squeezing furnace A stirring step (S50) of mixing the adhesive agent with a waste paper to be fed by feeding the adhesive into the squeezing furnace through the adhesive inlet pipe in the process of being fed by the pressurizing process; A discharging step S60 of discharging the discharged waste resin through the discharge nozzle, and a cutting step S70 of cutting the discharged waste resin in a pellet form. The present invention does not include a device for cutting the pellet. Therefore, at the time of pellet molding, the user is provided with a cutting device or the like to be formed into pellets.

In the stirring step (S50), the amount of the adhesive is charged in a weight ratio of 10 to 30% based on 100 weight% of the entire waste paper according to the pressing force generated by the rotation of the conveying screw. In addition, a compound adhesive or a vinyl acetate resin adhesive which is an environmentally friendly adhesive is used due to the improvement of the natural environment of the present invention, but an adhesive which is cheap and environmentally harmless can be used without being limited to the above adhesive.

According to the present invention, there is provided a crushing apparatus having a crushing function, comprising: a crushing device for crushing waste water as an object to be crushed; a crushing device for crushing crushed waste paper into smaller particles; Since the extruding device for compressing in one form is integrally formed in one space, it is possible to arrange the compacting device in a narrow and narrow place without disposition, and since the discharger directly discharges the waste water by first squeezing and discharging the waste water, Reducing the volume, reducing the amount of combustible plastic bags that wrap the waste paper in proportion to the volume of the waste paper being reduced, and using environmentally friendly adhesives away from the conventional manner of cooling and pulverizing the waste paper to recover the waste paper , The power consumption of the heater used to melt the waste resin is reduced, And it is possible to prevent the risk of fire in advance and to prevent environmental pollution by the absence of the cooling device. In addition, by combining the vibration generating means and the vibration generating means for each device so as to suppress vibration generated when the crushing device provided in the compression bonding device rotates, vibration generated when the crushing device rotates, and vibration generated when the compression bonding device rotates, The crushing device provided in the crushing processing device can separate the roller shaft of the crushing roller and the cutting blade and can attach and detach by simple bolt connection, It is possible to easily remove debris of the waste paper which is caught in the crushing part when crushing, and it is easy to wash the water, so that the user can use the integral compressor in a clean manner.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, Should be clarified. Therefore, it is intended that the present invention cover the modifications and variations of this invention provided they come within the scope of the appended claims and their equivalents.

10. Body 11. Front cover
12. Rear cover 13. Side cover
14. Roller shaft hole 15. Discharge hole
20. Crushing section 21. Crushing roller
22. Crushing shafts 23. Depressions
24. Crushing blade 25. Joint hole
26. Counter bore 30. Crushing section
31. Roller roller 32. Fixed crushing blade
33. Filter 40. Crimp
41. Crimping furnace 42. Feed screw
43. Adhesive feed line 50. Discharge nozzle
60. Buffering means 61. Buffering body
62. Supports 63. Projections
64. Bearings 65. Coil springs
66. Buffer cover 100. Compression treatment device

Claims (7)

delete A crushing apparatus having a crushing and crushing function for crushing, crushing and crushing a waste resin to discharge waste resin,
A body 10 formed of a front cover, a rear cover, and left and right covers so as to have a hollow interior; a pair of crushing rollers arranged in a transverse direction through the left and right covers, A crushing unit 30 for crushing the particles of the waste paper that is arranged transversely through the left and right covers below the crushing unit and drops from the crushing unit; (40) arranged horizontally through the right and left covers and being driven by the adhesive to perform the simultaneous stirring with the adhesive while the waste paper fed from the crushing part is being fed to the discharge part by the screw, And a discharge nozzle 50 for discharging the discharged waste resin. The adhesive agent feed pipe 43 is extended from the rear cover 12 to a path leading to the crimping portion, The adhesive can be introduced into the crimping portion,
The crushing unit 20 comprises a crushing shaft 22 in the form of a round bar and a pair of crushing rollers 21 to which a crushing blade 24 made of a cylindrical cutting blade is coupled, A concave portion 23 for preventing the shredding blade from being deviated to the left and right for each coupling position of the blade is provided and further four coupling holes 25 are formed at intervals of 60 degrees from the center axis of the concave portion, And the counterbore 26 is disposed at the same position as the coupling hole of the concave portion from the center axis of the divided crushing blade. The counter bore 26 is formed in the shape of a semicircle so as to be separately detachable in the space provided by the concave portion 23 of the shredding shaft 22, Wherein the crushing blade (24) is received in the recessed portion (23) of the crushing shaft (22) in a bolt connection manner.
A crushing apparatus having a crushing and crushing function for crushing, crushing and crushing a waste resin to discharge waste resin,
A body 10 formed of a front cover, a rear cover, and left and right covers so as to have a hollow interior; a pair of crushing rollers arranged in a transverse direction through the left and right covers, A crushing unit 30 for crushing the particles of the waste paper that is arranged transversely through the left and right covers below the crushing unit and drops from the crushing unit; (40) arranged horizontally through the right and left covers and being driven by the adhesive to perform the simultaneous stirring with the adhesive while the waste paper fed from the crushing part is being fed to the discharge part by the screw, And a discharge nozzle 50 for discharging the discharged waste resin. The adhesive agent feed pipe 43 is extended from the rear cover 12 to a path leading to the crimping portion, The adhesive can be introduced into the crimping portion,
The crushing unit 30 includes a rotating roller 31 that rotates in a clockwise direction by forming protrusions in a predetermined pattern, a stationary crushing blade (not shown) fixedly coupled to one side of the rotating roller and having a groove on one surface 32, and the wastewater is crushed by the rotating roller 31 and the fixed crushing blade 32, and the crushing wastewater 33 is provided below the area where the rotating roller and the fixed crushing blade mesh with each other, Wherein the pulverized waste paper is discharged and pulverized to pulverize the pulverized waste paper.
A crushing apparatus having a crushing and crushing function for crushing, crushing and crushing a waste resin to discharge waste resin,
A body 10 formed of a front cover, a rear cover, and left and right covers so as to have a hollow interior; a pair of crushing rollers arranged in a transverse direction through the left and right covers, A crushing unit 30 for crushing the particles of the waste paper that is arranged transversely through the left and right covers below the crushing unit and drops from the crushing unit; (40) arranged horizontally through the right and left covers and being driven by the adhesive to perform the simultaneous stirring with the adhesive while the waste paper fed from the crushing part is being fed to the discharge part by the screw, And a discharge nozzle 50 for discharging the discharged waste resin. The adhesive agent feed pipe 43 is extended from the rear cover 12 to a path leading to the crimping portion, The adhesive can be introduced into the crimping portion,
A shock absorbing means 60 for suppressing vibrations resulting from the rotation of the crushing portion 20, vibrations resulting from the rotation of the crushing portion 30 and vibrations resulting from the rotation of the crushing portion 40 by the buffering action of the coil spring 60 ) Having a crushing function.
5. The method of claim 4,
The buffering means 60 includes a buffer body 61 having a circular hollow portion so as to receive the bearing 64 and a support base 61 for preventing the buffering body from separating from the body 10 on the upper and lower sides of the buffering body 62, and two projections 63 protruding from one side of the support and penetrating the upper and lower ends of the buffer body. The coil spring 65 is inserted into the protrusions so that the support and the buffer body pass through Wherein the pressurizing and grinding apparatuses are combined with each other.
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