KR20220169563A - Scrap compressors - Google Patents

Abstract

The present invention relates to a scrap compressor for efficient waste treatment by reducing the volume of scrap waste generated after producing a material for a vehicle sound absorbing material. According to the present invention, the scrap compressor comprises: an inlet into which scrap is put; a cutting feeder which cuts the scrap introduced into the inlet; a rotary feeder which transfers the cut scrap to a discharge port; a compressor for compressing the cut scrap conveyed to the discharge port; and the discharge port which wraps and discharges the scrap compressed by the compressor. According to the present invention, since the volume of generated scrap waste is minimized and discharged, there is an effect of preventing environmental pollution and reducing waste disposal costs.

Description

Scrap compressors

The present invention relates to a scrap compactor, and more particularly, by cutting and compressing scrap generated after cutting materials for the production of sound-absorbing materials for vehicles, problems such as difficulty in processing due to a large volume of scrap, environmental pollution, and increase in processing cost. It is about equipment that can solve the problem.

Mobile equipment including a vehicle has an entrance for a person to board, and a door is installed at the entrance for reasons such as occupant safety and air resistance reduction. When a person boards, the door opens or closes, and when it is closed, the contact part between the door and the doorway becomes a passage for air. In particular, when moving at high speed, air friction noise occurs at the contact area due to increased air resistance, friction noise between tires and the ground, noise generated by high temperature and high pressure combustion gas flow in the exhaust system, and noise generated by the engine that damages the vehicle body or air. Noise transmitted through the engine is transmitted to the ears of passengers and becomes an element that impairs the quietness of the vehicle. In the case of engine transmission noise, an engine cover and a hood insulator are generally used to suppress engine transmission noise, but there is a limit to sufficiently removing engine transmission noise.

In order to solve this problem, sound absorbing materials are installed on the front, rear, sides, top and bottom of the vehicle during the manufacturing process.

In general, in order to manufacture a sound absorbing material, a material is produced by cutting a nonwoven fabric having a wide flat shape, and scrap of a wide flat shape is generated after cutting the material. The generated scraps cannot be recycled and must be disposed of. However, due to their large volume, the amount of waste generated is very large, and this also causes difficulties in processing and increases in processing costs. In addition to this, environmental pollution problems occur during the disposal process, which is causing difficulties for companies producing sound-absorbing materials.

Most sound-absorbing material manufacturers dispose of scraps generated in this way by rolling them in a round shape and wrapping them in wraps, but the conventional method does not have a significant effect on volume reduction because it does not have a significant effect on volume reduction.

Therefore, an object of the present invention is to improve the existing sound absorbing material scrap treatment method to solve the problem of manpower, cost, and labor of the sound absorbing material production company generated during the sound absorbing material treatment process, and to solve the environmental pollution problem during the disposal process.

An inlet into which scrap is input, a cutting feeder that cuts the scrap input into the inlet, a rotary feeder that transfers the cut scrap to the outlet, a compressor that compresses the cut scrap transferred to the outlet, and a wrapping and discharge of the compressed scrap by the compressor. Include an outlet.

According to the present invention, it is possible to solve the problem of wasting manpower and labor by automating the scrap treatment process generated after the production of the sound absorbing material by a machine, and has the advantage of reducing waste treatment costs.

In addition, there is an advantage in that environmental pollution problems can be prevented by reducing the volume of sound-absorbing material scrap.

1 is a perspective view of the internal structure of a scrap compressor according to an embodiment of the present invention.
2 is a cross-sectional view of a scrap compactor according to an embodiment of the present invention.
3 is a case of a scrap compactor according to an embodiment of the present invention.
4 is a perspective view of a cutting feeder of a scrap compactor according to an embodiment of the present invention.
5 is a perspective view of a relaxed state of a compressor of a scrap compactor according to an embodiment of the present invention.
6 is a perspective view of a compressed state of a compressor of a scrap compactor according to an embodiment of the present invention.
7 is a flowchart of a moving path of scrap according to an embodiment of the present invention.
8 is a flow chart of scrap compression and discharge steps according to an embodiment of the present invention.

Objects, specific advantages and novel features of the present invention will become more apparent from the following detailed description and preferred embodiments taken in conjunction with the accompanying drawings. In addition, the terms used are terms defined in consideration of functions in the present invention, which may vary according to the intention or management of the operator of the participant. Therefore, definitions of these terms should be made based on the overall contents of this specification.

In adding reference numerals to components of each drawing, it should be noted that the same components have the same numerals as much as possible even if they are displayed on different drawings. In addition, in describing the present invention, if it is determined that a detailed description of a configuration or function may obscure the gist of the present invention, the detailed description will be omitted. In addition, in describing the components of the present invention, terms such as first, second, A, B, (a), (b) can be used. These terms are used to distinguish the component from other components. However, the term does not limit the position, order, or order of the corresponding component. When an element is described as being “connected,” “coupled to,” or “connected” to another element, that element may be directly connected or connected to the other element, but intervening elements may be “connected.” It will be understood that it can be "connected", "coupled" or "connected".

All means of transportation on which people board, including cars, include entrances and exits. In particular, in the case of a means of moving at high speed, noise and air may flow into the interior through a gap between the entrance and the main body. In this case, the occupant is exposed to serious noise including engine noise and air friction noise. In order to prevent this problem, a sound absorbing material for absorbing noise is installed on the frame and case of the moving means.

In order to produce a sound absorbing material, a process of laminating after cutting a wide and thin flat nonwoven fabric is required. After cutting the nonwoven fabric, unusable waste is generated, which is generally referred to as scrap. Since the scrap generated by cutting does not have a large volume difference from the volume before cutting, there is a problem in occupying a large volume, which causes various problems in the scrap disposal process. In general, in the scrap disposal process, a person directly rolls the scrap into a round shape, wraps it, moves it to a waste storage area, and then sends it to a waste treatment area when a large amount is accumulated. There is a limit to the rounding of large-volume scraps by hand, so there is no significant effect on volume reduction, and because of the large volume, the frequency of the process of moving to the waste disposal site increases, and the processing cost becomes a level that cannot be ignored. . As a result, most sound-absorbing material manufacturing companies are experiencing problems in the waste disposal process.

The present invention relates to a scrap compactor for cutting and compressing scrap in order to solve this problem, and the volume can be minimized through mechanical compression after cutting the scrap.

An embodiment of the present invention will be described through drawings.

1 is a perspective view of a scrap compactor according to an embodiment of the present invention.

Scraps generated in the sound-absorbing material production process are put into the scrap compressor through the inlet. The inputted scrap is cut into multiple pieces while passing through the cutting feeder. The cut scraps are moved to the outlet through the rotary feeder, and the scrap accumulated in the outlet is compressed by the compressor to reduce the volume. Scrap whose volume has been reduced is lapped by the rotation of the outlet drum and then discharged through the outlet door.

At this time, the discharge door is in a closed state during the compression and lapping of the scrap, and is switched to an open state only during discharge. In the lapping, the end of the lap mounted on the lap hook is caught on the outlet drum and wrapped together with the outlet drum rotation, and remains compressed even after lapping.

An embodiment of the cutting feeder will be described with reference to FIG. 4 .

The cutting feeder cuts the scrap input through the inlet and moves the cut scrap to the lower rotary feeder. The cutting feeder is composed of a plurality of rotating drums, and blades for cutting scrap are installed on at least one drum at regular intervals. Each drum has a structure that can be attached and detached in the axial direction for easy replacement when the blade is worn out. In addition, it is possible to combine and use various types of drums to cut various scraps including iron scraps as well as sound absorbing material scraps. The drum is rotated by an installed motor, and it is possible to change the type of motor or control the output according to the type of scrap.

Referring to FIG. 2, a process in which the scrap cut by the cutting feeder is moved to the discharge port by the rotary feeder will be described.

The rotary feeder plays a role of smoothly sending the scraps cut and moved by the cutting feeder to the discharge port. If there is no rotary feeder, there is a possibility of overloading the motor by interfering with the drum rotation of the cutting feeder due to the accumulation of scraps in the passage of the scraps, causing mechanical failures and errors, or accumulated scraps in the discharge port.

A rotary feeder is a cylinder with grooves at regular intervals, which rotates at a constant speed. Scrap cut by the cutting feeder is accumulated in the groove located at the top of the rotary feeder, and as the groove moves downward by the rotation of the rotary feeder, the scrap also moves downward and is delivered to the discharge port. It is a structure in which scraps fall and accumulate in the discharge port when the groove is facing downward. The rotary speed of the rotary feeder may be changed according to the input speed of scrap.

Referring to FIG. 1, a process in which the scrap moved to the discharge port by the rotary feeder is compressed and discharged will be described.

The outlet is a place where the cut scraps are finally gathered, and is also a passage through which the scraps accumulated in the outlet are compressed and wrapped and discharged to the outside. The outlet includes a sensor that detects accumulated scrap, and when the sensor accumulates more than a certain amount of scrap, a compressor operates to compress the scrap. During compaction, the scrap is moved to the outlet drum, where the scrap is compressed and the outlet drum rotates to lap the scrap. A lap hook for holding a lap is installed on the top of the outlet drum. After the lap is passed through the lap hook, the end of the lap is fixed to one side of the outlet drum so that the lap is unwound along with the rotation of the outlet drum and the scrap is wrapped. In this process, it is possible to prevent the scrap from increasing in volume, thereby maintaining the compressed state of the scrap. When the wrapping is completed, the wrap is cut by the cutting part installed at the lower part of the wrap hook.

The discharge door is normally kept closed, and is opened only when scrap is discharged after wrapping.

A weight sensor, a laser sensor, etc. may be used as a sensor for detecting the accumulation of scrap in the outlet, but it is most preferable to measure the volume through a laser sensor so that the scrap accumulated in the outlet does not affect the rotation of the rotary feeder.

When the sensor detects an increase in the volume of the scrap, the signal is sent to the control unit, and the control unit operates the compressor according to the signal of the sensor; an outlet drum rotation step; opening the outlet door; Through the process of sending a signal to the discharge door closing step; the scrap compression and discharge steps are automatically executed.

The inlet, cutting feeder, rotary feeder, outlet, and compressor are easy to attach and detach. In particular, the cutting feeder and the rotary feeder are coupled inside a separate inner case, and each inner case is assembled. After being assembled in this form, each part can be replaced with a part suitable for the use environment according to the type of scrap input, the direction of discharge, and the input amount of scrap.

The above description is only illustrative of the technical idea of the present invention, and various modifications and variations can be made to those skilled in the art without departing from the essential characteristics of the present invention. Therefore, the embodiments disclosed in the present invention are not intended to limit the technical idea of the present invention, but to explain, and the scope of the technical idea of the present invention is not limited by these embodiments. The protection scope of the present invention should be construed according to the claims below, and all technical ideas within the equivalent range should be construed as being included in the scope of the present invention.

1: scrap compactor case 100: inlet
200: cutting feeder 210: drum
220: blade 230: motor
300: rotary feeder 310: home
400: compressor 500: outlet drum
600: outlet door 700: lap hook

Claims (5)

An inlet into which scrap is put;
a cutting feeder for cutting the scrap introduced into the inlet;
A rotary feeder for transferring the cut scrap to a discharge port;
a compressor for compressing the cut scrap conveyed to the outlet;
a discharge port through which the scrap compressed by the compressor is lapped and discharged; Scrap compactor comprising a. According to claim 1,
The cutting feeder,
It consists of a plurality of drums,
Scrap compactor, characterized in that at least one drum comprises a blade for cutting the scrap. According to claim 1,
The outlet is
A sensor that measures the accumulated amount of scrap;
A controller that determines whether the compressor operates according to the sensor signal;
Scrap compactor comprising a. According to claim 3,
The control unit executes a discharging process when detecting the sensor signal,
The discharge process,
compression step;
an outlet drum rotation step;
scrap discharging step; Scrap compactor comprising a According to claim 4,
In the step of rotating the outlet drum,
A scrap compressor characterized in that the scrap is lapped simultaneously with rotation.

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