KR101542870B1 - Can compressor - Google Patents

Abstract

In order to provide a can compressor which can compress a can manually and easily without using electricity in order to collect wasted cans and to compress the can flatly, the present invention provides a can compressor which comprises: a base part which has a first bracket formed on one surface; a a cam part which has a second bracket on a bottom of one side to be connected to the first bracket of the base part through a hinge, and has another side formed round by being protruded, and forms an arc type plate where a guide groove cut through the inside of the other side along the length direction of the outer circumference of the other side; a pipe type operation part which has one surface fixed to one side of the cam part, and has a handle part extended upward; a guide axis which forms a cover part at both sides of a connection part as forming the connection part cut inward at one side to accommodate a fixed width into the inside from the other side of the cam part, and comprises a rotation axis which connects a guide groove of the cam part inherent to the connection part through a connection hole formed at the cover part at both sides, and has an adhering plate at another side; a compression part which has a support part fixed to one surface of the base part as covering and supporting the guide axis to move left and right as being inherent to the guide axis and a first injection part which injects the can at one side of the support part.

Description

Can compressor

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a can compressor, and more particularly, to a can compressor for compressing a can to be dismounted easily.

Normally, a can made of cast steel or aluminum is used as a packaging container for drinking water, powdered milk or instant food.

The can has various merits such as being able to prevent the deterioration of the packed contents, being very convenient to transport, and not causing the problem of environmental pollution unlike other packaging containers made of synthetic resin such as vinyl, and being able to be recycled And its usage is continuously increasing.

In recent years, cans that are widely used are aluminum cans and canned steel cans. In particular, aluminum cans are lightweight, robust, and easy to mold, It is widely used.

However, unlike other containers such as wrapping paper of vinyl material, since the can is mainly made of a metal material which is not easily deformed in shape such as main steel or aluminum material as described above, the initial volume And has the characteristic of being maintained as it is. Therefore, since the volume is not reduced and the original shape is retained after being used, it has a disadvantage that it is very inconvenient in disposal because of its large volume. In particular, these disadvantages are further highlighted under the waste disposal legislation that sets up dirt collection fees on a volume basis.

For this reason, conventionally, the waste can is compressed by hand or flattened by hand by stepping on foot, and then discarded.

However, in such a case, there is a fear of injury to the hands or the foot, and in the case of a business where a large number of empty cans are discharged, such as a convenience store or a supermarket, there was.

Patent Publication No. 10-2014-0076294 (entitled "Manual Can Compressor")

SUMMARY OF THE INVENTION The present invention has been made to solve the above-mentioned problems, and it is an object of the present invention to provide a can compressor which can easily compress a can manually without using electric power so as to manually compress a can by collecting the can. There is a purpose.

In the configuration of the present invention, a base portion having a first bracket formed on one surface thereof,

A second bracket is formed at a lower end of one end so as to be connected to the first bracket of the base unit by a hinge, the other end of the bracket is protruded to the other end, and the other end is roundly formed, A cam portion provided on an arc-shaped plate on which the cut guide groove is formed,

A tubular operating part having one end of the cam part fixed to one side and a handle part extending upward,

A cover portion is formed on both sides of the binding portion while forming a binding portion which is cut inward at one end so as to receive a predetermined width inward from the other side of the cam portion and the cover portion is formed on the binding portion A pipe-shaped guide shaft having a rotation shaft for coupling and coupling the guide grooves of the cam follower,

And a compression part formed with a support part fixed to one surface of the base part and a first introduction part for introducing a can at one side of the support part while covering and supporting the guide shaft so that the guide shaft is moved in the right and left directions.

Meanwhile, a first receiving portion is formed at one side of the first loading portion of the compression unit and is fixed to the base portion, and an inserting portion having one side opened is formed, and a circular first fastening hole is formed at the other side, A rotating induction portion formed in the longitudinal direction of both ends of the inner circumferential surface of the inner circumferential surface and formed with an indentation extending perpendicularly from the end of the inner circumferential surface,

A second opening portion having an open upper portion of the outer circumferential surface so that the can can be inserted into the second opening portion is formed, A protrusion protruding from an end of the outer circumferential surface so as to be guided to the first receiving portion by being coupled to an indentation formed in an inner circumferential surface of the rotating inducer; A cylindrical second input portion in which a rod is formed,

A polygonal horizontal shaft having a polygonal horizontal axis, a first shaft connected to the first coupling hole of the rotary derivative and restrained by the second shaft hole of the second shaft,

A second shaft extending from an end of the first shaft and having a pushing tab formed on one side of the outer periphery,

A bar-shaped slide bar having an intermittent tab protruded on one surface thereof to be brought into contact with the pushing tab by rotation of the pushing tab of the second shaft, a first elastic body inserted into the outer periphery of the one-

A housing having a slide groove formed in an upper portion of the slide bar so as to expose the intermittent tab while being inserted into the slide bar,

A body 3 fastening hole is formed on one surface of the guide shaft so as to engage the slide bar end portion of the slide groove of the housing so that a cutoff tab is formed on the outer periphery of the guide shaft and is inserted into the outer periphery of the guide shaft, And a guide shaft that further includes a second elastic body.

The present invention also provides a can compressor in which a first opening portion of the rotating derivative is formed so as to be directed to a first charging portion, and further includes an inclination guiding plate extending from a side end portion of the first charging portion.

The can compressor according to the present invention having the above configuration can manually compress the can without manually using the electric power so that the can can be compressed manually by collecting the cans to be disposed, And it is possible to install the apparatus regardless of the place, and has an advantage of being easy to replace and repair.

1 is a perspective view of a can compressor according to the present invention;
Fig. 2 is an assembled view of the can compressor according to the invention of Fig. 1; Fig.
3 is a view showing the shape of a cam portion in a can compressor according to the present invention.
4 is an operational view of a can compressor according to the present invention;
FIG. 5 is a view showing a can compressor structure in which a rotating derivative, a second input part, a first axis, a second axis, and a slide rod-housing are installed in a can compressor according to the present invention.
Fig. 6 is a detailed structural view of the can compressor according to the invention of Fig. 5;
FIG. 7 is a perspective view of a rotating derivative and a second can insertion portion in the can compressor according to the present invention shown in FIG. 6; FIG.
Figure 8 is an assembly view of the can compressor according to the invention of Figure 6;
Fig. 9 is an assembly view of the slide bar and the housing in the can compressor according to the present invention shown in Fig. 6; Fig.
FIG. 10 is a structural view of a can compressor in a can compressor according to the present invention shown in FIG. 6; FIG.
Fig. 11 is a structural view of a can compressor according to the present invention shown in Fig. 10, in which a can inserted into a second input portion is provided on a rotating conductor to rotate the grip portion.
FIG. 12 is a structural view of the can compressor according to the present invention shown in FIG. 11, in which the cam portion and the operation portion are moved upward while the can is moved to the first insertion portion by forward rotation of the grip portion;
FIG. 13 is a structural view of a can compressor according to the present invention shown in FIG. 12, in which a can is compressed by downwardly moving an upward operating portion.

In order to achieve the above object, the present invention will be described in detail with reference to the following detailed description and drawings.

In the configuration of the present invention, as shown in FIGS. 1 and 2, a base 20 having a first bracket 21 formed on one surface thereof,

A second bracket 41 is formed at a lower end of one end so as to be coupled to the first bracket 21 of the base unit 20 and connected to the hinge 22, A cam portion 40 provided on the inside of the other side end and formed in a plate-like shape having a guide groove 42 cut through in the longitudinal direction of the outer periphery of the other side end,

A pipe-shaped operation part 30 having one end of the cam part 40 fixed to one side and formed with a handle part 31 extending upward,

A cover portion 52 is formed on both sides of the coupling portion 51 while forming a coupling portion 51 that is cut inward from one end so as to receive a predetermined width inward from the other side of the cam portion 40, And a rotary shaft 54 for connecting and coupling the guide grooves 42 of the cam portion 40 which is fastened to the fastening portions 51 through the fastening holes 53 formed in the both side cover portions 52, A pipe-shaped guide shaft 50 on which a fastening plate 55 is formed,

A support part 61 fixed to one surface of the base part 20 while covering and supporting the guide shaft 50 so that the guide shaft 50 is moved forward and backward, And a compression section (60) in which a charging section (62) is formed.

The operation of the can compressor 10 will now be described.

First, as shown in FIG. 2 and FIG. 4 (a), a can is inserted into the first input portion 62 of the compression portion 60, and the first bracket 21 of the base portion 20 is fitted with a cam The operation part 30 fixed to one end of the cam part 40 rotates up and down because the second bracket 41 of the operation part 40 is coupled to the hinge 22. Thus, And a second bracket 41 formed at a lower end of the second bracket 41 is coupled to the first bracket 21 and connected to the cam portion 40 connected to the hinge 22, The cam portion 40 is moved downward at the same time when the operating portion 30 is pressed with the hinge 22 as a reference.

The lower part of the cam part 40 passes through the lower part of the base part 20 and is exposed to the bottom surface of the base part 20 so that the lower part of the cam part 40 can be passed through the through part 24 Is formed.

At this time. The cam portion 40 is provided with a guide shaft 50 engaged with a guide groove 42 formed in the other end in the longitudinal direction of the outer periphery of the other side end, The guide groove 42 of the cam portion 40 is opened through the binding hole 53 of the cover portion 52 formed on both sides of the binding portion 51 while a part of the other side end of the cam portion 40 is brought into contact with the engaging portion 51 And a rotating shaft 54 which is fastened through the rotating shaft 54 is provided.

Therefore. The operation portion 30 is moved downward by the depression of the operation portion 30 and the cam portion 40 is moved downward as shown in FIGS. 2 and 4 (b) The distance between the second bracket 41 of the first bracket 40 and the rotation axis 54 of the guide shaft 50 engaged with the guide groove 42 of the cam portion 40 with respect to the inner hinge 22 is gradually increased The guide groove 42 of the cam portion 40 presses the rotary shaft 54 to move the guide shaft 50 forward.

At this time, the fastening plate 55 formed on the other end of the guide shaft 50 moved forward pushes the can accommodated in the first input portion 62 to compress the can.

1 and 2, a support portion 61 that covers the outer circumference of the guide shaft 50 while being fixed to the base portion 20 so that the guide shaft 50 moved in the forward direction is linearly moved Respectively.

3, the cam portion 40 is formed in an arc-shaped plate shape, and is not limited to the present invention. The cam portion 40 may be formed in a shape of a second A guide groove 42 is formed in the bracket 41 and the other side end in the longitudinal direction of the other end of the cam portion 40. The guide groove 42 is formed to extend from the second bracket 41 to one end of the guide groove 42 The cam portion 40 having the length L1 and the length L2 to the other end of the guide groove 42 is made different from each other, that is, the lengths from the second bracket 41 to the guide groove 42 are all the same The guide shaft 50 remains in a stopped state even when the cam portion 40 is downwardly moved.

It is preferable that the guide groove 42 is formed so that the length between the inner ends of the guide grooves 42 of the cam portion 40 to the other ends gradually decreases with respect to the second bracket 41 of the cam portion 40 Do.

The other end of the cam portion 40 is formed in a round shape so that the other end of the cam portion 40 moves downward without any restriction to the coupling portion 51 formed at one end of the guide shaft 50. [ .

As shown in FIG. 2, when the can is compressed by the movement of the guide shaft 50 in the first loading part 62, the can is larger than the compressed size. On the other hand, A can 23 having a predetermined width can be formed and the can which is compressed by the compression of the guide shaft 50 can be easily discharged downward through the discharge port 23. [

4 to 9, the first accommodating portion 110 is formed at one side of the first input portion 62 of the compression portion 60 and is fixed to the base portion 20, A first coupling hole 130 is formed at the center of the other side of the first coupling hole 130 and a second coupling hole 130 is formed in the longitudinal direction of both ends of the inner peripheral surface of the first coupling hole 130, (100) in which a first opening (150) having an outer peripheral side opened is formed,

The second receiving portion 210 is formed to be able to receive the can while being inserted into the first receiving portion 110 of the rotating derivative 100. The upper portion of the outer circumferential surface is opened A second opening part 220 is formed and a grip part 230 for guiding the rotation to the left and right is formed on one side and a polygonal second fastening hole 240 passing through the other side center is formed, A second insertion portion 200 of a cylindrical shape having a protruding bar 250 protruding from an outer circumferential surface of the first accommodating portion 110 so as to be guided to the first accommodating portion 110,

And is fixed to the second fastening hole 240 of the second input portion 200 through the first fastening hole 130 of the rotary member 100 and fastened to the base portion 20 without binding A horizontal polygonal first shaft 300 on which a support 310 is formed,

A second shaft 400 extending from an end of the first shaft 300 and having a tapered tab 410 formed on one surface thereof,

An intermittent tab 510 protruding from one surface is formed to be in contact with the jam tab 410 by rotation of the jam tab 410 of the second shaft 400, A rod-like rod 500 having an elastic body 520 inserted therein,

A housing 600 having a slide groove 610 formed at an upper portion thereof so as to expose the intermittent tab 510 while the slide bar 500 is inserted therein and is fixed to the base portion 20;

A third fastening hole 56 is formed on one side of the guide shaft 50 so that the end of the slide rod 500 is fastened to the slide groove 610 of the housing 600, And the second elastic body 58 is further inserted into the outer periphery of the guide shaft 50 so as to be interrupted by the cut tab 57 and the end of the support portion 61 of the compression portion 60. [ (50). ≪ / RTI >

The second charging part 200 may be connected to the first receiving part 110 of the rotary conductor 100 and may be connected to the second receiving part 210 of the second charging part 200. In this case, Is moved to the first input portion 62 of the compression portion 60 and the guide shaft 50 is moved rearward to position the cam portion 40 and the operation portion 30 before the can is compressed, The can compressor (10) further includes a structure for rotating the cam portion (40) by rotation of the operation portion (30) to move the guide shaft (50) to compress the can.

7, 8, and 10, the can 200 is inserted into the second accommodating portion 210 through the second open portion 220, The protruding bar 250 formed at the end of the outer circumferential surface of the second input portion 200 before being coupled to the inner circumferential surface of the rotary guide 100 to couple the second input portion 200 to the rotary guide 100, The second coupling hole 240 formed at the center of the other side of the second input portion 200 is inserted into the first coupling portion 110 through the insertion portion 120 of the rotary coupling 100, The first shaft 300 protrudes to the inside of the first receiving portion 110 through the first fastening hole 130 formed at the center of the other side of the first shaft 300,

6 and 8, the rotary connector 100 is fixed to the base portion 20. At this time, the fixing portion 160 is seated on the lower surface of the rotary connector 100, The lower end portion of which is fixed to the base portion 20.

As shown in FIG. 11, the grip portion 230 formed on one side of the second insertion portion 200, which is internal to the first accommodation portion 110, is rotated to rotate the second insertion portion 200, The can accommodated in the accommodating portion 210 moves through the second opening portion 220 and the first opening portion 150 to the first input portion 62 of the compression portion 60. At this time, The protrusion rod 250 of the part 200 is guided along the guiding groove 140 of the rotary guide 100 so that the turning radius of the second guiding part 200 coincides with the length of the guiding groove 140 So that the position of the second opening part 220 of the second input part 200 faces the position of the first opening part 150 of the rotating electrical conductor 100.

8 and 11, the first shaft 300 coupled to the second coupling hole 240 of the second input portion 200 is rotated simultaneously with the rotation of the second input portion 200 The first coupling hole 130 of the rotary coupling 100 is formed without being constrained by the rotation of the first shaft 300 and the first coupling hole 130 is formed in the end of the first shaft 300 The elongated second shaft 400 rotates at the same time and the jumping tab 410 of the second shaft 400 is rotated by the rotation of the second shaft 400 to rotate the slide bar 500 as shown in FIG. The end of the slide bar 500 is in contact with the third fastening hole 56 formed on one side of the guide shaft 50, The rod 500 moves to one side and the end of the slide bar 500 bound to the third fastening hole 56 is released and the guide shaft 50 is moved backward (as shown in FIG. 12).

At this time, the second elastic body 58, which is internalized on the outer periphery of the guide shaft 50, is interposed between the cut-off tab 57 formed on the outer periphery of the guide shaft 50 and the end portion of the support portion 61 of the compression portion 60, 50 move backward.

That is, the second elastic body 58 has an expanding force, and the slide bar 500 restrained by the third fastening hole 56 of the guide shaft 50 is released and the second elastic body 58 having the expanding force causes the guide shaft 50 The cam portion 40 and the operating portion 30 are moved upward (as shown in FIG. 12) to provide the state before the can is compressed.

The rotation of the slide bar 500, that is, the second shaft 400, released by the pushing tab 410 by the rotation of the second shaft 400 simultaneously rotates the pushing tab 410, The slide bar 500 moved in one direction by pushing the intermittent tab 510 of the slide bar 500 is received in the inside of the housing 600 and inserted into the first elastic body inserted into the outer periphery of one side of the slide bar 500 The end of the slide bar 500 may be brought into contact with the outer circumferential surface of the guide shaft 50 by a force to move back to the original state due to the expansion force of the operation member 520, The grip portion 230 is reversely rotated again by the grip portion 230 so that the first shaft 300 rotates reversely and the second grip portion 230 rotates counterclockwise, The shaft 400 is rotated in the reverse direction so that the pushing tab 410 of the second shaft 400 releases the intermittent tap 510 of the slide bar 500, Id rod 500 is inserted into the third coupling hole 56 of the guide shaft (50) ends of the slide rod 500 to move to the outer peripheral guide shaft (50).

13, the guide shaft 50 is moved to the first input portion 62 by the movement of the cam portion 40 by the operation of the operation portion 30, The end of the slide bar 500 is engaged with the third fastening hole 56 of the guide shaft 50 so that the guide shaft 50 is moved backward.

The operation of the actuating part 30 and the cam part 40 for compressing the can by the movement of the guide shaft 50 operates in the same manner as the above-described process.

8, the position of the first opening 150 of the rotary guide 100 is formed so as to be directed to the first loading portion 62 and extends from the side end of the first loading portion 62 And a tilting guide plate (63).

The second input portion 200 which is in the first receiving portion 110 of the rotary guide 100 rotates and the can accommodated in the second receiving portion 210 of the second input portion 200 rotate The second opening part 220 of the charging part 200 and the first opening part 150 of the rotating electrical conductor 100 are moved to the upper part of the inclined guide plate 63, And is provided so as to be smoothly moved to the input portion 62.

Although the present invention has been described with reference to the preferred embodiments thereof with reference to the accompanying drawings, it will be apparent to those skilled in the art that many other obvious modifications can be made therein without departing from the scope of the invention. Accordingly, the scope of the present invention should be interpreted by the appended claims to cover many such variations.

The first bracket 21, the hinge 22, the operating portion 30, the handle portion 31, the cam portion 40, the second bracket 41, the guide groove 32, the guide shaft 50, The first fastening hole 56 is formed in the first fastening hole 56 and the second fastening hole 56 is formed in the second fastening hole 56. The second fastening hole 57 is formed by a second elastic body 58. The compressed portion 60 is supported by the support portion 61 The first inlet portion 62, the induction plate 63, the rotating derivative 100, the first receiving portion 110, the inserting portion 120, the first fastening hole 130, the guide groove 140, the first opening portion 150, 2, the second receiving portion 210, the second opening portion 220, the grip portion 230, the second fastening hole 240, the protruding rod 250, the first axis 300, the support 310, 400, jaw tab: 410, slide bar: 500, intermittent tab: 510, first elastic body: 520, housing: 600, slide groove: 610

Claims (4)

A base 20 having a first bracket 21 formed on one surface thereof,
A second bracket 41 is formed at a lower end of one end so as to be coupled to the first bracket 21 of the base unit 20 and connected to the hinge 22, A cam portion 40 provided on the inside of the other side end and formed in a plate shape having a guide groove 42 cut out in the longitudinal direction of the outer periphery of the other side end,
A pipe type operation part 30 having one end of the cam part 40 fixed to one side and formed with a handle part 31 extending upward,
A cover portion 52 is formed on both sides of the coupling portion 51 while forming a coupling portion 51 that is cut inward from one end so as to receive a predetermined width inward from the other side of the cam portion 40, And a rotary shaft 54 for connecting and coupling the guide grooves 42 of the cam portion 40 which is fastened to the fastening portions 51 through the fastening holes 53 formed in the both side cover portions 52, A pipe-shaped guide shaft 50 on which a fastening plate 55 is formed; And
A support part 61 fixed to one surface of the base part 20 while covering and supporting the guide shaft 50 so that the guide shaft 50 is moved forward and backward, And a compression section (60) in which a charging section (62) is formed. The compressor according to claim 1, further comprising: a first receiving portion (110) formed at one side of the first loading portion (62) of the compression portion (60) and fixed to the base portion (20) A first coupling hole 130 is formed at the center of the other side and an indentation 140 is formed in the longitudinal direction of both ends of the inner circumferential surface so as to bend vertically at the end, (100) in which a first opening (150) having an outer peripheral side opened is formed,
The second receiving portion 210 is formed to be able to receive the can while being inserted into the first receiving portion 110 of the rotating derivative 100. The upper portion of the outer circumferential surface is opened A second opening part 220 is formed and a grip part 230 for guiding the rotation to the left and right is formed on one side and a polygonal second fastening hole 240 passing through the other side center is formed, A second insertion portion 200 of a cylindrical shape having a protruding bar 250 protruding from an outer circumferential surface of the first accommodating portion 110 so as to be guided to the first accommodating portion 110,
And is fixed to the second fastening hole 240 of the second input portion 200 through the first fastening hole 130 of the rotary member 100 and fastened to the base portion 20 without binding A horizontal polygonal first shaft 300 on which a support 310 is formed,
A second shaft 400 extending from an end of the first shaft 300 and having a tapered tab 410 formed on one surface thereof,
An intermittent tab 510 protruding from one surface is formed to be in contact with the jam tab 410 by rotation of the jam tab 410 of the second shaft 400, A rod-like rod 500 having an elastic body 520 inserted therein,
A housing 600 having a slide groove 610 formed at an upper portion thereof so as to expose the intermittent tab 510 while the slide bar 500 is inserted therein and is fixed to the base portion 20;
A third fastening hole 56 is formed on one side of the guide shaft 50 so that the end of the slide rod 500 is fastened to the slide groove 610 of the housing 600, And the second elastic body 58 is further inserted into the outer periphery of the guide shaft 50 so as to be interrupted by the cut tab 57 and the end of the support portion 61 of the compression portion 60. [ (50). ≪ / RTI > The guide member according to claim 1 or 2, wherein a guide (42) of the cam portion (40) is formed so that a length between one end of the guide groove (42) and the other end thereof is gradually reduced with reference to the second bracket (41) And a groove (42) is formed. The apparatus according to claim 2, wherein a position of the first opening (150) of the rotary guide (100) is formed so as to face the first loading part (62) Further comprising a photo guide plate (63).

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