KR101511943B1 - Eco-friendly binder for Notebook bundle - Google Patents

Abstract

The present invention relates to an eco-friendly binder for inlay bundles which can be reused environmentally friendly in relation to the growth of plants, and more particularly to a degradable binder formed by inserting and impregnating seeds and nutrients. A coil binder formed by inserting and impregnating seeds and nutrients, and a seed bar having a seed bar into which seeds and nutrients are inserted and impregnated; The use of notes makes it possible to form seeds and nutrients in the binder that is discharged as garbage so that they can be recycled when growing plants.

Description

Eco-friendly binder for Notebook bundle}

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to an eco-friendly binder for bundling inks, and more particularly, to an eco-friendly binder for bundling inks that can be reused eco-friendly in connection with the growth of plants.

Generally, when binding notebooks, notebooks, books, calendars, etc., it is common to bond them with a paste or with a spring.

Although the iron is widely used as the spring, there is a problem that the tip of the spring made of iron is sharp, which may injure a user, especially a child.

For this reason, plastic springs have been developed for the safety of the user, but the plastic is weak in strength and weak in binding force, so it is difficult to use in thick books or notebooks, its use range is narrow and it is difficult to recycle, Have disadvantages

In order to solve this problem, a ring-shaped spring made of paper has been developed. However, the spring is formed by bending it into a ring shape and then bonding the end portion thereof. However, the bonding process is complicated and time-consuming because the adhesive is applied to the end portion of the ring shape and the portion is pressed and attached.

In addition, in the case of the binder made of the metal material, the synthetic resin material, and the paper material, when the use is completed for the purpose of memo, there is a problem that the binder is discharged without being separated and discharged to cause environmental pollution. In addition to the function of the binder, There was a problem.

Therefore, when the seeds are inserted into the binder while impregnating the seeds with the nutrients related to the plant growth, the improved notes or notebook binder which can be reused as nutrients while germinating the seeds are used .

1. Registration No. 10-0755015 (Paper Spring) 2. Publication No. 10-2012-0039403 (Spring book binding note) 3. Registration No. 20-0292009 (note and calendar fastening structure) 4. Registration No. 20-0425196 (Notch spring inside fitting)

SUMMARY OF THE INVENTION Accordingly, the present invention has been made keeping in mind the above problems occurring in the prior art, and it is an object of the present invention to provide an eco-friendly binder for bundling inks, which enables seeds and nutrients to be discharged into waste, There is a purpose.

Another object of the present invention is to store seeds in a binder and to impregnate the binder with nutrients related to growth.

In addition, another object of the present invention is to divide and use the binder itself or the seed bar.

Another object of the present invention is to make it possible to apply the technology without being restricted by various types of binders, thereby making it possible to utilize environmentally friendly binders which are difficult to be separated at the time of disposal.

In order to accomplish the above object, the present invention provides a binder for binding notebooks, notes, and calendars to prevent and prevent separation of inlay and cover sheets stacked in a plurality of sheets, the binder being sandwiched between perforations formed in the inlay and the cover, The degradable binder is formed with a body having a receiving hole into which a seed is inserted at a center along a longitudinal direction of the body and a part of the body is inserted into the perforation hole at one side of the body, The present invention provides an eco-friendly binder for inlay bundles, characterized in that circular ring pieces are integrally formed at regular intervals.

As described above, the present invention has the effect of enabling seeds and nutrients to be formed in a binder discharged as waste by the use of knots, thereby enabling recycling at the time of plant growth.

In addition, there is an effect that the seeds are stored in the binder and the binder itself is impregnated with nutrients related to the growth.

In addition, there is an effect that the binder itself or the seed bar can be divided and used.

In addition, it is possible to apply the technology without being limited by various forms of the binder, thereby making it possible to utilize the binder which is difficult to be separated at the time of disposal, eco-friendly.

BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is an exploded perspective view showing an eco-
3 and 4 are a perspective view and a perspective view, respectively, of a fixing piece of the degradable binder 100A according to the present invention,
FIGS. 5 and 6 are an exploded perspective view and an assembled perspective view showing a notebook and an eco-friendly binder for bundling inlay according to a second embodiment,
7 is an enlarged perspective view of a degradable coil binder 100B according to the present invention.
8 and 9 are an exploded perspective view and an assembled perspective view showing an eco-friendly binder for binding notes and inlay bundles according to a third embodiment,
10 is an exploded perspective view of the seed bar,
Fig. 11 is an example in which a seed is grown using a decomposable binder 100A in a flower pot.

BRIEF DESCRIPTION OF THE DRAWINGS The above and other 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.

As shown in FIGS. 1, 5 and 8, the eco-friendly binder for bundling inlay according to the present invention includes a notebook, a note, and a calendar (not shown) for preventing separation and transfer of the cover 11 and the cover 12, 10), comprising: a degradable binder (100A) formed by inserting and impregnating a seed (S) with nutrients; A degradable coil binder 100B formed by inserting and impregnating seeds S with nutrients and a degradable nutrient binder 100C having a seed bar S and a seed bar 30 formed by inserting and impregnating nutrients .

The label 12 is placed on the upper and lower sides of the inlaid sheet 11 stacked in a plurality of sheets and then the separable binder 100A is attached to the base unit 14 using a separate punching apparatus. The degradable coil binder 100B and the degradable nutrient binder 100C are to be inserted.

The seeds (S) may be composed of seeds, vegetables or fruit seeds, flowers, trees, flowers and the like, which are suitable for various crops. You can configure it.

Constituent characteristics of the binder are as follows.

1. As shown in FIGS. 1 to 4, the degradable binder 100A includes a notebook, a note, and a calendar 10 for preventing and turning off the inlay 11 and the cover 12 stacked in a plurality of sheets. And is inserted into the perforation hole 13 formed in the inlay 11 and the cover 12 and is formed by inserting or impregnating the seed S and nutrients.

The degradable binder 100A has a body 20 formed with a receiving hole 21 through which the seed S is inserted in the center along the longitudinal direction.

Circular ring pieces 22, which are partially cut to be inserted into the perforation holes 13, are integrally formed at equal intervals at one side of the body 20.

The stopper 23 is formed to close the opening end of the receiving hole 21 so that the stopper 23 can be easily inserted into the receiving hole 21 on the opposite side of the insertion end 23a, So that the hook hole 23c protrudes through the hook end 23c so as to be disassembled.

At this time, when the stopper 23 is difficult to disassemble, the hooking hole 23b can be easily pulled by inserting a hook into the hooking hole 23b.

In addition, the ring piece 22 constitutes a cutting groove 24 at a portion connected to the body 20, and the cutting groove 24 is formed by using a metal mold, So that it can be easily separated by the user.

At this time, growth-related nutrients required for germination and growth of the seed S are impregnated in the body 20 and the annular piece 22, and the body 20 and the annular piece 22 are made of hydrophilic starch .

It is preferable that the decomposable binder 100A is manufactured by the injection method using the mold for the body 20 and the annular piece 22.

In other words, the decomposable binder 100A is inserted into the receiving hole 21 with one end thereof being closed by the plug 23, and the seeds S are inserted into the receiving hole 21, 10, the ring piece 22 is inserted into the perforation hole 13 and fastened.

5 to 7, the degradable coil binder 100B includes a notebook or a notebook 10, a calendar 10, and a cover 10 for preventing and turning off the cover 11 and the cover 12 stacked in a plurality of sheets, And is formed by being inserted into the perforation hole 13 formed in the inlay 11 and the cover 12 and inserted and impregnated with the seed S and nutrients.

The degradable coil binder 100B is formed in the shape of a hollow tube so that the receiving hole 21 into which the seed S is inserted is formed at the center.

In addition, a stopper 23 for closing both end openings of the resolvable coil binder 100B is formed, and the stopper 23 is formed in the shape of a circular cap.

In addition, it is preferable that the degradable coil binder 100B is composed of hydrophilic starch which dissolves in water impregnated with growth-related nutrients necessary for germinating seeds S to grow.

At this time, the resolvable coil binder 100B is manufactured by a method of drawing and discharging in the form of a hollow tube which forms the receiving hole 21.

That is, in the degradable coil binder 100B, the seed S is inserted into the receiving hole 21 with one end closed by the stopper 23, and the open end is closed with a stopper, (13) of the main body (10).

3. As shown in FIGS. 8 to 10, the degradable nutrient binder 100C includes a notebook or a notebook 10, a calendar 10, and a cover 10 in order to prevent separation and transfer of the cover 11 and the cover 12, A seed bar 30 in which a seed S and nutrients are inserted and impregnated is installed in a degradable nutrient binder 100C impregnated with nutrients.

The degradable nutrient binder (100C) is formed into a coil shape that is formed of water-soluble hydrophilic starch impregnated with growth-related nutrients required when the seed (S) germinates and grows.

The seed bar 30 connected to the decomposable nutrient binder 100C is formed of a bar body 31 formed of hydrophilic starch impregnated with growth-related nutrients required for germination and growth of the seed S, An insertion hole 32 into which the seed S is inserted is formed.

A stopper 23 for closing the openings of both ends of the insertion hole 32 is formed on the opposite side of the insertion end 23a inserted into the receiving hole 21, And is configured so as to pass through the handle 23c protruding from the hook hole 23b so as to be easily disassembled.

At this time, when the stopper 23 is difficult to disassemble, the hooking hole 23b can be easily pulled by inserting a hook into the hooking hole 23b.

In addition, protrusions (33) fitted to the degradable nutrient binder (100C) are formed at equal intervals along the length of the bar body (31).

At this time, the projecting end (34) is hooked to the degradable nutrient binder (100C) so that the projection (33) is caught in the degradable nutrient binder (100C) in an arrow shape.

In general, the degradable binder 100A, the degradable coil binder 100B, the degradable nutrient binder 100C, and the seed bar 30 are all composed of starch, which is an intracellular substance that can be decomposed well in water or soil. For example, nutrients are constituted by impregnating nutrients related to plant growth.

The operation and effect of the present invention constructed as described above will be described below.

As shown in FIGS. 1 to 11, the notebook 12, the note 10, and the calendar 10 may be formed by arranging the cover 12 on the upper and lower portions of the inlaid sheet 11 stacked in a plurality of sheets, The perforation hole 13 is formed by using the apparatus.

Thereafter, the degradable binder 100A is manufactured so that the body 20 and the ring piece 22 are integrated with each other using a mold injection method. Then, one end of the accommodation hole 21 is closed with a stopper 23, The remaining open end is closed with a stopper 23 to complete the manufacture so that one circular hole 22 is formed in one perforation hole 13 of the notebook 10, ), Respectively, to complete the production of a notebook, a notebook, and a calendar (10).

In addition, the degradable coil binder 100B is formed into a coil shape while being pulled out into a hollow tube shape using an injection method. Then, one end of the insertion hole 32 is closed with a stopper 23, The remaining open end is covered with a stopper 23 to close the end, and one end is inserted into the perforation hole 13 of the notebook 10 or the notebook 10, and at the same time, The resolvable coil binder 100B is continuously stitched along the perforation hole 13 to complete the manufacture of the notebook, the notebook, and the calendar 10.

In addition, the degradable nutrient binder (100C) is formed into a coil shape while being pulled out by using an injection method in a state impregnated with nutrients required for plant growth. Then, the binder is applied to the perforation hole (13) And then the projections 33 of the seed bar 30 are engaged with one side of the degradable nutrient binder 100C so as to be engaged with the perforated holes 13. [ Thereby completing the production of a notebook, a notebook, and a calendar (10).

In this case, when a notebook, a notebook, or a calendar 10 is used using the degradable nutrient binder 100C having the degradable binder 100A, the degradable coil binder 100B, and the seed bar 30, the degradable nutrient binder 100C, The user uses the inlay 11 as a memo function in a state of passing over the cover 12 along the line of the cover 12 and then separates or separates the pieces along the line 14a from the main unit 14.

Thereafter, after using the inlays 11, the decomposable nutrient binder 100C, to which the separating agent binder 100A, the decomposable coil binder 100B and the seed bar 30 are bonded, .

At this time, the main unit 14 and the label 12 are separated from the decomposable binder 100A, the decomposable coil binder 100B, and the decomposable nutrient binder 100C to which the seed bar 30 is attached, and discharged into the paper as recycled garbage do.

Next, in order to use the degradable binder 100C, the decomposable coil binder 100B, and the seed bar 30 combined with the degradable nutrient binder 100C in conjunction with plant growth, they are placed at the bottom of a separate pot 200 (C) containing nutrients related to the growth of the seed (S) is appropriately placed on the upper part of the sand (B) with the sand (B) laid on the upper part of the large gravel (A) .

When the preparation for the seed (S) vegetation of the pollen (200) is completed, the degradable binder (100A), the degradable coil binder (100B) and the plug (23) of the seed bar (30) S) is taken out by an amount to be planted, and then seeded into the culture soil (C) at a suitable number.

At this time, the annulus piece 22 of the degradable binder 100A is separated from the body 20 and is buried in the culture soil C, and the degradable coil binder 100B is inserted into the insert The seed bar 30 and the degradable nutrient binder 100C are cut by a necessary amount and buried in the culture soil C. The seed bar 30 and the degradable nutrient binder 100C are cut as much as the holes 32 and buried in the culture soil C.

Next, when water is sprayed on the pots 200 and placed in the shade, the seeds germinate and sprouts grow. When a certain period of time is elapsed, the claws 22, the coil binders buried in the cultivation soil C, The binder 100C is melted by the hydrophilic property and is absorbed into the culture soil C to provide the nutrients necessary for the seed S to germinate and grow.

The body 20 or the seed bar 30 of the decomposable binder 100A may be used upright on the culture soil C without being cut into a short length so as to be long. Is gradually decomposed into nutrients, and the remaining part is capable of guiding the shoots such as germinated vines.

Accordingly, when the note function is completed, the conventional notebook or notebook which is generally used has a problem that the binder combined with the cover or the main unit is discarded as waste without being separated and discharged. However, the present invention is applicable to a notebook, The seeds S are stored using the degradable binder 100A, the degradable coil binder 100B and the decomposable nutrient binder 100C having the seed bar 30 bonded together. The seeds S can be utilized as nutrients So that environmental pollution due to the binder can be prevented.

Even if the decomposable binder 100A, the decomposable coil binder 100B and the decomposable nutrient binder 100C having the seed bar 30 bonded together are discarded without separating from the inlay 11 or the label 12, , It can be decomposed naturally in water or soil to provide the germination and nutrients of the seed (S), thereby ensuring the growth of the seed (S) in a harsh environment.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is clearly understood that the same is by way of illustration and example only and is not to be construed as limited to the embodiments set forth herein. Various changes and modifications may be made by those skilled in the art.

10: notebook or notebook, calendar 11: inlay
12: Cover 13: Perforated hole
14: Headquarters 14a:
20: body 21: receiving hole
22: ring 23: stopper
23a: insertion end 23b: hook hole
23c: Handle end 24: Cutting groove
30: Seed bar
31: bar body 32: insertion hole
33: projection 34:
100A: Degradable binder 100B: Coil binder
100C: binder 200: pollen
A: Gravel B: Sand
C: Culture soil S: Seeds

Claims (10)

In a binder for binding a notebook, a notebook, and a calendar (10) for preventing separation and transfer of the inlaid sheets (11) and the covers (12) stacked in multiple sheets,
A degradable binder 100A which is sandwiched by perforation holes 13 formed in the cover 11 and the cover 12 and is formed by inserting and impregnating seeds and nutrients,
The degradable binder 100A is formed with a body 20 having a receiving hole 21 through which a seed S is inserted in a center along the longitudinal direction,
Wherein an annular ring piece (22) partially cut away to be inserted into the perforation hole (13) is integrally formed at an equal interval at one side of the body (20). delete 2. The apparatus according to claim 1, wherein a stopper (23) is formed to close the open end of the receiving hole (21)
Wherein the ring piece (22) comprises a cutting groove (24) at a portion connected to the body (20). [3] The method according to claim 1, wherein the body (20) and the annulus (22) are impregnated with growth-related nutrients necessary for germination and growth of the seed (S)
Wherein the body (20) and the annular piece (22) are made of hydrophilic starch soluble in water. In a binder for binding a notebook, a notebook, and a calendar (10) for preventing separation and transfer of the inlaid sheets (11) and the covers (12) stacked in multiple sheets,
A degradable coil binder 100B which is sandwiched between the perforation holes 13 formed in the cover 11 and the cover 12 and is formed by inserting and impregnating the seeds S and nutrients,
The degradable coil binder 100B is formed in the shape of a hollow tube so that a receiving hole 21 into which the seed S is inserted is formed at the center,
, And constitutes a cap (23) for closing both end openings of the resolvable coil binder (100B). delete 6. The eco-friendly binder for inlay bundling according to claim 5, wherein the degradable coil binder (100B) is composed of a hydrophilic starch dissolved in water impregnated with growth-related nutrients necessary for germinating seeds (S) to grow. In a binder for binding a notebook, a notebook, and a calendar (10) for preventing separation and transfer of the inlaid sheets (11) and the covers (12) stacked in multiple sheets,
A seed bar 30 formed by inserting and impregnating the seeds S with nutrients is installed in the degradable nutrient binder 100C impregnated with nutrients,
The degradable nutrient binder 100C is formed into a coil shape formed of water-soluble hydrophilic starch impregnated with growth-related nutrients required when the seed S germinates and grows,
The seed bar 30 connected to the degradable nutrient binder 100C is formed of hydrophilic starch which is impregnated with growth-related nutrients required for germination and growth of the seed S and is soluble in water, An insertion hole 32 into which the seed S is inserted is formed along the inner surface of the insertion hole 32,
Wherein a protrusion (33) fitted to the degradable nutrient binder (100C) is formed in one side of the bar body (31) in the longitudinal direction. delete 9. The connector according to claim 8, wherein a stopper (23) for closing both openings of the insertion hole (32) is formed,
Wherein the projecting end (34) is engaged with the decomposable nutrient binder (100C) so that the projection (33) is engaged with the decomposable nutrient binder (100C) in an arrow shape.

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