KR101052720B1 - Can Compressor - Google Patents

Abstract

The present invention has been made to solve the problems of the conventional can compression device, and to increase the compression efficiency of the can and to minimize the volume of the can can be compressed by the side compression rather than the upper side of the can By selecting the cans of aluminum and cast iron can be separated and discharged according to the material of the cans by electromagnets, the ease of separation and collection work is improved, and the compression unit is driven by a rotating body rotated by a reduction motor. The present invention also relates to a can compressing device, which can be easily installed inside a can vending machine by greatly reducing the volume by a simple configuration, so that the installation place is not restricted.

Can Compressor, Can Compressor, Can Compressor

Description

Can Compressor {CAN COMPRESSION AND SEPARATION MACHINE}

The present invention relates to a can compression device containing a drink or food, such as drinking water, and more particularly, the compression plate is automatically advanced by the lowering of the discarded can can be compressed, as well as the can compression After that, the compressed cans are sorted and discharged separately according to the material of the cans to separate and collect cans made of aluminum and cast iron, and the reduction of production cost can be induced by simplifying the configuration. The present invention relates to a can compressing apparatus which allows the compressing plate to move forward and backward through a rotating body rotated by a driving, so that the compressing force of the can compressing plate is transmitted very strongly, thereby greatly improving the compressing force of the can.

In recent years, the importance of material saving and recycling has emerged, and recycling of metal containers, such as beverage cans, has become a big issue, in particular only a fraction of the total annual production of beverage cans is recovered after use and almost all of them are disposed of as garbage. Given that it is being treated, the importance of recycling beverage cans inevitably has to be done in terms of material savings.

Empty cans after drinking various beverages or liquors contained in conventional can-type containers are discarded as they are, and cannot be collected separately, thereby making it impossible to recycle resources and causing environmental pollution.

Therefore, in order to solve this problem, the cans or bottles that can be recycled in a single trash can are collected separately according to whether the waste can be recycled, but in this case, it is not easy to separate and collect separately. In the case of empty cans, their volume is considerable, which has caused great inconvenience in storage, transportation, and the like.

In particular, beverage cans are made of aluminum, and since raw materials are not produced in Korea, they rely on imports from all over the world. Despite the fact that resource recycling is urgently needed, the collection rate is extremely low due to difficulties in collection. Even though the collection is a huge resource, it is considered as a major contaminant of the surrounding environment.

Based on the more detailed data, according to the long-term 1995 Ministry of Environment data, domestic cans total production is 352,000 tons, recycled amount is only 58,000 tons (14%), and disposal volume is 294,000 That's 86% of tonnes, which is about 25,000 tons of 11-ton trucks and about 4 times the size of Seoul.

The conventional method of squeezing the recycling cans of about 14% recycled is compressed to a large mass by a large compression press, and thus it takes up a lot of volume because it is collected in a circular state without being squeezed immediately after drinking a drink. The collection rate was inevitably lowered due to various inconveniences such as high transportation costs.

Therefore, in order to efficiently collect, store, transport, and recycle the recyclable empty cans, when the empty cans are put in the inlet, the cans that can be processed with a minimum volume by compressing the empty cans automatically There is an urgent need for a compression device.

In the prior art, a device for compressing and separately storing metal containers, such as beverage cans, Utility Model Application No. 20-2000-0001288, has been devised, which is used to compress and separate collection of used aluminum and iron cans. An apparatus comprising: a rack cylinder having a hammer reciprocating in a vertical direction, a can guide housing disposed below the cylinder vertically and open up and down to receive the hammer, and disposed very close to the bottom of the can guide housing; A compression can guide housing having a compression can release lever and a compression can guide housing having a compression can release lever, which is reciprocally transported in a horizontal direction by a separate air cylinder, and which is positioned very close to the lower side of the compression can guide housing and fixed by a frame; And inclined aluminum in contact with the compression can separation lever and having a permanent magnet attached to a bottom surface thereof. A collector plate, an inclined iron can collector plate disposed parallel to and below the aluminum can collector plate, an air cylinder attached to the other outer side of the compressed can guide housing for horizontally moving the compressed can guide housing; It consists of a guide on one side of the can guide housing and connected to the can inlet.

Therefore, when the can is inserted, the hammer of the rack cylinder is vertically lowered by the operation of the air cylinder to compress the injected can, and in particular, a permanent magnet is further formed at the lower side of the housing to cast iron material reacting to the magnet among the materials of the can. The cans are attached by permanent magnets to separate aluminum and cast iron cans at the same time as compression, thereby reducing the volume and space by compression of the cans as well as improving the workability by separate collection according to the material of the cans. .

However, this prior art is a device such as a can vending machine, as the components for compressing the injected cans are constituted by air cylinders and rack cylinders, and these cylinders are configured to be erected vertically. There is a problem that can not be installed inside.

In addition, since the can is compressed by the operation of the cylinder, there is a problem that an additional air supply device for supplying air to the cylinder should be provided, and the components of the conventional can compression device made by a combination thereof are complicated. Degradation of the work efficiency according to the production of the can compression device, of course, there is a problem that the productivity is low.

In addition, since the can is injected is pressed vertically from the upper side to the lower side of the can, not the side portion, due to the thick upper portion of the can is not easy to compress the process, the problem of not minimizing the thickness of the compressed can There is this.

The present invention has been made to solve the problems of the conventional can compression device, and to increase the compression efficiency of the can and to minimize the volume of the can can be compressed by the side compression rather than the upper side of the can The can compression device is designed so that the compression unit is driven by the rotating body rotated by the reduction motor and the volume can be greatly reduced by the simple configuration so that it can be easily installed inside the can vending machine so that the installation location is not restricted. The purpose is to provide.

Can compression device of the present invention as a means for achieving the above object, the two outer plates are respectively located at both ends; Two inner plates positioned inside the two outer plates; Two guide plates extending from a front side inner plate of the two inner plates and configured with an electrical sensor on an upper side, and a supporting piece of a supporting portion on a lower side; A compression plate configured to have two guide plates respectively retracted on both sides and an electromagnet electrically connected to the rear surface; An upper guide rod and a lower support rod connecting the two outer plates, the two inner plates, and the compressed plate, respectively; A bearing unit positioned at a rear surface of the compression plate and arranged in the upper guide rod; A support plate supporting a lower portion of the bearing portion and having a guide protrusion protruding from a lower surface thereof; A rotating body having a spiral groove formed along the outer circumferential surface of the support plate to guide the guide protrusion of the support plate forward and backward; It includes a drive body for rotating the rotating body and a reduction motor for transmitting a driving force to the drive body.

The drive body includes a first rotary gear built in the reduction motor; A second rotary gear meshed with the first rotary gear and rotated by the rotational force of the first rotary gear; A third rotary gear connected to the second rotary gear to rotate along the second rotary gear; And a fourth gear meshed with the third rotary gear and installed in the rotating body to rotate the rotating body.

The electrical sensor may be configured as an electrical sensor electrically connected to supply and cut off power to the driving body and the electromagnet.

Such a can compression apparatus of the present invention, the compression force of the can is always injected as the compression plate is forward and backward acts as a very powerful compression force is transmitted to the rotating body of the cam-type structure in which the driving force of the reduction motor is transmitted through the drive body. It can be greatly improved, and it is possible to maintain a constant and strong can compressing force at all times even after long-term use.
In addition, since the device can be reduced in volume by simplifying the component for compressing the can, it can be easily installed in an existing can vending machine to maximize the range of use.

In addition, since the side of the can is injected by the horizontal forward movement of the compression plate is compressed, the compression efficiency is greatly improved compared to the vertical compression can minimize the volume of the compressed can.

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In addition, the configuration of the drive body is composed of a plurality of gears are combined, the installation of additional components, such as the air supply device of the air cylinder can be omitted, it can be expected to have an economical effect of consolidating production costs.

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

In describing the present invention, the term or word used in the present specification and claims is based on the principle that the inventor can appropriately define the concept of the term in order to best describe the invention of his or her own. It should be interpreted as meanings and concepts corresponding to the technical idea of

1 is a perspective view showing the can compressor of the present invention, Figure 2 is a front configuration diagram showing the configuration of the can compressor of the present invention, Figure 3 is a rear configuration diagram showing the configuration of the can compressor of the present invention, Figure 4 is the can of the present invention It is a conceptual diagram which shows the structure of the drive body of a compressor, FIG. 5 is a block diagram which shows the state which the can was thrown in by the can compressor of this invention, FIG. 6 is a block diagram which shows the state of a can being compressed by the can compressor of this invention, 7 is a block diagram showing the discharge process of the aluminum can by the can compressor of the present invention, Figure 8 is a block diagram showing the discharge process of cast iron can by the can compressor of the present invention.

As shown, the can compressor of the present invention includes two outer plates 10 and 10a respectively positioned at both side ends, and two inner plates 20 and 20a positioned inside the two outer plates 10 and 10a. And, extending from the front side inner plate 20 of the two inner plate 20, 20a and the electrical sensor 33 is configured on the upper side and the support piece 32 of the base 31 is located on the lower side Two guide plates 30 and 30 into which cans are introduced into the inner side, and the two guide plates 30 and 30 are drawn in on both sides, and the electromagnet 41 is electrically connected to the rear side. Compression plate 40 for compressing the can put into the two guide plates 30, 30, the two outer plates 10, 10a and two inner plates 20, 20a and the compression plate 40 An upper guide rod 50 and a lower support rod 50a to be connected to each other, a bearing portion 60 positioned on the rear surface of the compression plate 40 and built on the upper guide rod 50, and the bearing portion 60; Supporting the lower part of the The support plate 70 protruding from the lower surface of the guide protrusion 71 and the guide protrusion 71 of the support plate 70 are inserted therein, but the spiral groove 81 is formed along the outer circumferential surface of the guide protrusion 71 to move forward and backward. It is formed of a rotating body 80, a drive body 90 for rotating the rotor 80 and a reduction motor 91 for transmitting a driving force to the drive body (90).

The upper support rod 50 and the lower support rod 50a connecting the outer plate 10, 10a, the inner plate 20, 20a, and the guide plate 30, 30 are hollowly formed therein. It is fixed by the long bolt 101 and the nut 102 fitted in the longitudinal direction of the outer plate (10) (10a).

Gap between the two guide plates 30 and 30 between the two guide plates 30 and 30 and the compression plate 40 into which the two guide plates 30 and 30 are retracted. As much space is formed, the cans to be compressed are injected into the formed space in the vertical direction.

The support part 31 is configured to be connected to the lower side by a spring 31a, for example, between the two guide plates 30, 30 and the inner side of the compression plate 40, not a can stone When such a material is introduced, the support piece 32 of the support portion 31 is inclined downward as it is, so that the compression plate 30 is not operated by the weight of the foreign matter and falls to the lower side as it is.

The support piece 32 inclined downward by the foreign matter is restored to its original position after the foreign matter falls by the spring 31a.

Accordingly, it is possible to prevent a failure of foreign matters such as stones of the can compressor of the present invention.

In the can compressor of the present invention configured as described above, when the can C is inserted between the two guide plates 30 and 30 and the inner side of the compression plate 40, the can compressor is disposed below the inserted can C. The lower part is supported by the support piece 32 of the support part 31 positioned at the lower side of the guide plate 30, 30 so that the two guide plates 30 and 30 and the compression plate 40 are supported. It is located between the inner side of the.

When the can C is positioned as described above, the driving body 90 and the reduction motor 91 are driven, and the rotation body 80 connected to the driving body 90 is rotated.

In addition, when the rotating body 80 rotates, the spiral groove 81 formed along the outer circumferential surface of the rotating body 80 rotates in the helical direction like the rotating body 80, and is introduced into the spiral groove 81. Guide protrusions 71 of the support plate 70 is advanced in the spiral groove 81 that is rotated in the spiral direction.

When the support plate 70 is advanced by the forward movement of the guide protrusion 71 as described above, the compression plate 40 positioned at the front end side of the support plate 70 is advanced to the can C side into which the can plate C is inserted. ) Is achieved.

In addition, when the compression of the can (C) is completed, the rotating body 80 is rotated in the reverse direction, the compression plate that was compressing the can (C) while the back of the support plate 70 advanced accordingly ( 40 is reversed along the support plate 70.

At this time, in order to rotate the rotation direction of the rotating body 80 in the reverse direction in the state that the compression of the can (C) is completed, in the state that the compression plate 40 is advanced to the distance to compress the can (C) The electric sensor may be further configured at a position of the rotating body 80 to rotate in a reverse direction.

On the upper side of the inner plate 20a which is located at the rear end side of the support plate 70, the stop sensor 72 which is contacted by the support plate 70 and stops the driving and driving of the reduction motor 91 is the reduction motor ( 91) and is electrically connected.

Therefore, when the support plate 70 comes into contact with the stop sensor 72, the driving of the reduction motor 91 is stopped and the magnetic force of the electromagnet 41 is lost.

In addition, in order to enable the rotation direction of the rotating body 80 in both the forward direction and the reverse direction, it is preferable to configure the reduction motor 91 connected to the drive unit 90 as a forward and reverse rotation reduction motor.

As such, when the compression plate 40 is separated from the compressed can C, the naturally compressed can C is discharged to the lower side to be collected, and is limited to the case where the can is made of aluminum.

In addition, when the material of the can is formed of a cast iron material, as shown in FIG. 8, the compressed can C is compressed to the compression plate 40 by an electromagnet 41 formed at the back of the compression plate 40. When it is attached and retracted like the compression plate 40, the compression plate 40 is discharged to the lower side when the compression plate 40 is restored to its original position before the can C is compressed.

This is because when the compression of the injected can (C) is made, the power is supplied to the electromagnet 41 as well as the driving body 90, so that the magnetic force of the electromagnet 41 is formed. When the aluminum material is not discharged as it is, and the material of the can is cast iron material having magnetic force, the support plate 70 is attached to the compression plate 40 by the magnetic force of the electromagnet 41. This is because when the magnetic force of the electromagnet 41 is lost in contact with the sensor 72, the magnetic force is discharged to the lower side.

Therefore, since the discharge is divided into two sides according to the material of the can, the separate collection according to the material of the can can be easily made.

The driving body 90 is meshed with the first rotary gear 92 and the first rotary gear 92 arranged in the reduction motor 91 so as to be rotated by the rotational force of the first rotary gear 92. The second rotary gear (93), the third rotary gear (94) which is connected to the second rotary gear (93) and rotates along the second rotary gear (93) and the third rotary gear (94). And a fourth gear 95 arranged on the rotating body 80 to rotate the rotating body 80.

Accordingly, the driving force of the reduction motor 91 of the driving body 90 is transmitted to the rotating body 80 by the four rotating gears 92, 93, 94, 95. Forward and reverse rotation of is possible.

Of course, the drive body 90 may not be constituted by gears, but may be configured by a sprocket or the like connected by chains.

The electric sensor 33 is electrically connected to supply and cut off power to the driving body 90 and the electromagnet 41, and the electric sensor by touch or the electric sensor by distance or an electric sensor by distance. It may be configured as such.

As described above, the present invention has been described with reference to a preferred embodiment of the present invention as being capable of various modifications, but the present invention is not limited to such an embodiment, and the embodiment is simply applied in combination with the known art. Together with the claims and the detailed description of the present invention it will be seen that the technology that can be used by those skilled in the art that the present invention belongs to be included in the technical scope of the present invention.

1 is a perspective view showing a can compressor of the present invention.

2 is a front configuration diagram showing the configuration of the can compressor of the present invention.

3 is a rear configuration diagram showing the configuration of the can compressor of the present invention.

4 is a conceptual diagram showing the configuration of a drive body of the can compressor of the present invention.

5 is a configuration diagram showing a state in which cans are input by the can compressor of the present invention.

6 is a block diagram showing a state in which the can is compressed by the can compressor of the present invention.

Figure 7 is a block diagram showing the discharge process of the aluminum can by the can compressor of the present invention.

8 is a block diagram showing the discharge process of the cast iron can by the can compressor of the present invention.

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

10, 10a: outer plate 20, 20a: inner plate

30: guide plate 31: support

32: base 33: electric sensor

40: compression plate 41: electromagnet

50: upper guide rod 50a: lower guide rod

60: bearing part 70: support plate

71: guide protrusion 72: stop sensor

80: rotating body 81: spiral groove

90: drive body 91: reduction motor

92: first rotation gear 93: second rotation gear

94: third rotating gear 95: fourth rotating gear

Claims (3)

Two outer plates 10 and 10a respectively positioned at both ends; Two inner plates 20 and 20a positioned inside the two outer plates 10a; Of the two inner plates 20, 20a, extending from the front inner plate 20, the electrical sensor 33 is configured on the upper side, and the supporting piece 32 of the supporting portion 31 is located on the lower side, and cans to the inner side. Two guide plates 30 and 30 into which they are introduced; The two guide plates 30 and 30 are respectively configured to be pulled in on both sides, and the electromagnet 41 is electrically connected to the rear side, and a compression plate for compressing the cans introduced into the two guide plates 30 and 30. 40; An upper guide rod 50 and a lower support rod 50a connecting the two outer plates 10, 10a, two inner plates 20, 20a and the compression plate 40, respectively; In the bearing portion 60 which is located on the back of the compression plate 40 is arranged on the upper guide rod 50, A support plate 70 supporting a lower portion of the bearing part 60 and a guide protrusion 71 protruding from a lower surface thereof; A rotating body 80 into which the guide protrusion 71 of the supporting plate 70 is retracted, and the spiral protrusion 81 is formed along the outer circumferential surface of the guide protrusion 71 to move forward and backward; A driving body 90 for rotating the rotating body 80 and a reduction motor 91 transmitting a driving force to the driving body 90; The drive body 90, A first rotary gear 92 arranged in the reduction motor 91; A second rotary gear 93 meshed with the first rotary gear 92 and rotated by the rotational force of the first rotary gear 92; A third rotary gear 94 connected to the second rotary gear 93 and rotating along the second rotary gear 93; A can compressor, comprising: a fourth gear (95) engaged with the third rotary gear (94) and arranged in the rotary body (80) to rotate the rotary body (80). delete delete

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