KR102445349B1 - scrap waste compression equipment - Google Patents

Abstract

An objective of the present invention is to provide a scrap metal waste compression apparatus capable of efficiently compressing the stored scrap metal waste. The present invention relates to a scrap metal waste compression apparatus, which may comprise: a cylindrical pressing part; and a binding part located at the bottom of the pressing part and binding to a waste cover part located at the top of a waste receiving part in which the waste is accommodated and in contact with the waste.

Description

Scrap waste compression equipment

The present invention relates to an apparatus for compacting scrap metal waste.

In general, scrap iron generated from various construction or industrial wastes is recycled as a raw material for steel materials. compressed to volume.

The crimping device includes a crimping chamber into which scrap iron is put, a crimping plate movably installed inside the crimping chamber, and a hydraulic cylinder for transporting the crimping plate in a direction for crimping the scrap.

On the other hand, the above-mentioned background art is technical information that the inventor possessed for the derivation of the present invention or acquired in the process of derivation of the present invention, and it cannot be said that it is necessarily a known technique disclosed to the general public before the filing of the present invention. .

Korean Patent Registration No. 10-2041756

SUMMARY OF THE INVENTION An object of the present invention is to provide a scrap metal waste compression device capable of efficiently compressing scrap metal waste contained therein.

The technical problems of the present invention are not limited to the technical problems mentioned above, and other technical problems not mentioned will be clearly understood by those skilled in the art from the following description.

The scrap metal waste compression apparatus according to an embodiment of the present invention may include a cylindrical pressing unit.

The scrap metal waste compression apparatus according to an embodiment of the present invention may further include a binding part located at the lower end of the pressurizing part and binding with the waste cover part located at the upper end of the waste accommodating part in which the waste is accommodated and contacting the waste. have.

According to an embodiment, the pressurizing unit is located at the upper end of the binding unit, and may descend in the direction of the waste cover unit and may rise after a pressurizing time with a constant pressure has elapsed.

According to an embodiment, in the binding part, a plurality of holes formed to be penetrated are formed at regular intervals, and a fixing member may be provided in each hole formed to be penetrated.

According to an embodiment, the binding part may be lowered so that the pressing part can pressurize the waste after the fixing member is inserted into the pressing hole formed in the waste cover part at the same interval as the spacing of the holes formed to be penetrated.

According to an embodiment, the fixing member may include: a body portion located inside a hole formed to be penetrable through a binding portion, a contraction portion contracted from an external impact, and a fixing portion positioned at an upper end of the contraction portion; It is formed in a cylindrical structure with a screw thread formed on the outside, and is formed with a smaller diameter than the hole formed to be able to pass through the fastener while rotating and passes through the hole formed to be able to pass through the fastener, located at the upper end of the waste receiving unit in which the waste is accommodated. a screw part inserted into the pressure hole of the waste cover part; an upper end which is formed with a diameter smaller than the central diameter of the body and protrudes from the upper end of the hole formed to be penetrable through the binding unit; and located at the upper end of the screw portion, the screw portion penetrating inside the lower end, located at the lower end of the constriction portion, and formed in a shape in which the diameter increases from the screw portion in the direction of the constriction portion, the uppermost end of the constriction portion It may include; may include a;

According to an embodiment, the body part may be inserted into a hole formed inside the upper part and screw-coupled to the lower side.

According to an embodiment, the upper end portion has protrusion members formed at both lower ends thereof, and the body portion inserted therein may be fixed by the protrusion member.

According to an embodiment, the protrusion member is located at both ends of the lower side of the upper end, but passes through the side surface of the upper end to press the upper end of the body portion located inside, and the body portion is fixed to the inside of the lower end of the upper end. can

According to one embodiment, the body portion is configured on the upper end of the screw portion, and the screw portion may be inserted into a pressing hole formed in the waste cover portion located at the upper end of the waste receiving portion in which the waste is accommodated.

According to one embodiment, the body portion, the upper end may be formed at the upper end, and the engaging portion may be formed at the lower end.

According to an embodiment, the fixing part is formed to have a narrower diameter from the bottom to the top, and is located at the lower end of the upper part, but located at the upper end of the contracting part, to protect and fix the upper end of the contracting part.

According to one embodiment, the constriction part is formed in the shape of a cylinder and is formed to be vertically divided into quarters, and a space into which the pieces cut vertically in the center can be entered when they are contracted due to an external impact may be formed. have.

According to an embodiment, the engaging portion is formed to have a larger diameter than the diameter of the pressing hole, and after the screw is inserted into the pressing hole, the body portion located at the upper end of the engaging portion by the engaging portion, the upper end is the It may be located at the upper end of the pressing hole.

A steam device for curing high-quality concrete according to an embodiment of the present invention may include a column-shaped steam generator.

A steam device for curing high-quality concrete according to an embodiment of the present invention includes: a controller for controlling the steam generator to generate steam in the steam generator by inputting a temperature and humidity suitable for curing concrete; a power supply unit for supplying power to the steam generating unit according to the temperature and humidity values input to the control unit; a measuring unit for measuring the temperature, humidity, and pressure of a site where concrete is cured according to the steam generated by the steam generating unit; and a valve unit provided to discharge the steam generating unit embedded in the steam generating unit in order to generate steam by the steam generating unit.

According to an embodiment, the steam generating unit may generate and discharge steam by steaming water for steam generation built in until the temperature and humidity values input to the control unit in the measurement unit are measured, and when generating steam A support column may be provided on one side to prevent the built-in water for generating steam from shaking.

According to an embodiment, the valve unit maintains a state in which the discharge pipe is blocked to prevent the steam generating unit embedded in the steam generating unit from being discharged while the concrete is cured by the steam generating unit, and the After curing of the concrete by the steam generating unit is completed, after the use of the steam generating unit is completed, the steam generating unit is rotated in one direction by the administrator to discharge the steam generating water built into the steam generating unit, and the state blocking the discharge pipe is released. can be

According to an embodiment, the support pillar may be inserted and fixed in a ground hole drilled in the ground by using a fixing member located at the lowermost end.

According to an embodiment, the fixing member may include: a body portion including a contraction portion that is contracted from an external impact, and a fixing portion positioned at an upper end of the contraction portion; a screw part formed in a cylindrical structure having a screw thread formed on the outside, and inserted into a ground hole drilled in the ground; an upper end portion formed to have a diameter smaller than the central diameter of the body portion and positioned to penetrate through a hole formed so as to be penetrable at the lower end of the support column; and located at the upper end of the screw portion, the screw portion penetrating inside the lower end, located at the lower end of the constriction portion, and formed in a shape in which the diameter increases from the screw portion in the direction of the constriction portion, the uppermost end of the constriction portion It may include; may include a;

According to an embodiment, the body part may be inserted into a hole formed inside the upper part and screw-coupled to the lower side.

According to an embodiment, the upper end portion has protrusion members formed at both lower ends thereof, and the body portion inserted therein may be fixed by the protrusion member.

According to an embodiment, the protrusion member is located at both ends of the lower side of the upper end, but passes through the side surface of the upper end to press the upper end of the body portion located inside, and the body portion is fixed to the inside of the lower end of the upper end. can

According to an embodiment, the body portion may be configured at the upper end of the screw portion, located at the lower end of the support column, the upper end may be formed at the upper end, and the engaging portion may be formed at the lower end.

According to an embodiment, the fixing part is formed to have a narrower diameter from the bottom to the top, and is located at the lower end of the upper part, but located at the upper end of the contracting part, to protect and fix the upper end of the contracting part.

According to one embodiment, the constriction part is formed in the shape of a cylinder and is formed to be vertically divided into quarters, and a space into which the pieces cut vertically in the center can be entered when they are contracted due to an external impact may be formed. have.

According to an embodiment, the locking part is formed to have a diameter larger than the diameter of the ground hole, and after the screw part is inserted into the ground hole, the body part located at the upper end of the locking part by the locking part, the upper end is the It may be located at the top of the ground hole.

According to the above-described aspect of the present invention, the scrap metal waste compression device proposed by the present invention can pressurize the scrap metal only when it engages with the cover located at the receiving part of the scrap metal waste in which the scrap metal waste is accommodated, so that the scrap metal can be efficiently and evenly. Waste can be compacted.

In addition, the binding part is rotated or the position is changed by the screw part which is formed at the lower end of the fixing member provided in the binding part engaged with the cover and is inserted into the pressing hole formed in the waste cover part located at the upper end of the waste receiving part in which the waste is accommodated. As a result, the manager can visually confirm that the screw is not inserted into the pressure hole because it is displaced from the pressure hole, so that it can be dealt with immediately.

In addition, since the fixing member is provided with a constriction portion, when an impact occurs from the outside rather than in the direction in which the binding portion moves to press, an impact is applied to the screw portion inserted into the pressing hole to prevent distortion or damage.

On the other hand, in order to prevent the first divided portion to the fourth divided portion divided and cut of the constriction portion according to another embodiment of the present invention from deviated from the position when returning to the original position after contraction due to an external impact, by providing a shrinkage control line The effect of the contraction part can be utilized to the maximum.

The effects of the present invention are not limited to the above-mentioned effects, and various effects may be included within the range apparent to those skilled in the art from the content to be described below.

2 is a view showing a scrap metal waste compression apparatus according to an embodiment of the present invention.
3 to 6 are views showing the configuration of a scrap metal waste compression apparatus according to another embodiment of the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS [0012] DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS [0014] DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS [0016] Reference is made to the accompanying drawings, which show by way of illustration specific embodiments in which the present invention may be practiced. These embodiments are described in sufficient detail to enable those skilled in the art to practice the present invention. It should be understood that the various embodiments of the present invention are different but need not be mutually exclusive. For example, certain shapes, structures, and characteristics described herein with respect to one embodiment may be implemented in other embodiments without departing from the spirit and scope of the invention.

When a component is referred to as being “connected” or “fastened” to another component, it may be directly connected or engaged with the other component, but it is understood that other components may exist in between. it should be On the other hand, when it is mentioned that a certain element is "directly connected" or "directly fastened" to another element, it should be understood that the other element does not exist in the middle.

In addition, it should be understood that the location or arrangement of individual components within each disclosed embodiment may be changed without departing from the spirit and scope of the present invention. Accordingly, the detailed description set forth below is not intended to be taken in a limiting sense, and the scope of the present invention, if properly described, is limited only by the appended claims, along with all scope equivalents to those claimed. Like reference numerals in the drawings refer to the same or similar functions throughout the various aspects.

Hereinafter, preferred embodiments of the present invention will be described in more detail with reference to the drawings.

2 and 3 are views showing a scrap metal waste compression apparatus according to an embodiment of the present invention.

2 and 3, the scrap metal waste compression apparatus 700 according to an embodiment of the present invention is located at the lower end of the cylindrical pressing parts 710 and 750 and the pressing parts 710 and 750, and the waste It may include a binding part 800 in contact with the waste by binding to the waste cover part 701 located on the upper end of the accommodated waste accommodating part.

The pressing parts 710 and 750 are located on the upper end of the binding part 800 , and descend in the direction of the waste cover part 701 , and may rise after a pressing time with a constant pressure has elapsed.

The fastening part 800 may have a plurality of holes formed to be penetrated at regular intervals, and a fixing member may be provided in each hole formed to be penetrated.

In addition, the fastening part 800 has the same spacing as the gap between the holes formed to be penetrated, and the pressing parts 710 and 750 descend so that the waste can be pressurized after the fixing member is inserted into the pressing hole formed in the waste cover part 701. can

That is, the pressing parts 710 and 750 cannot descend in the direction in which the waste is located unless the fixing member of the binding part 800 is inserted into the pressing hole of the waste cover part 701, and accordingly the manager can take action quickly. can

1 is a view showing the configuration of a steam device for curing high-quality concrete according to another embodiment of the present invention.

Referring to FIG. 1 , a steam device for curing high-quality concrete according to another embodiment of the present invention includes a cylindrical steam generator 190, and a steam generator 190 by inputting a temperature and humidity suitable for curing concrete. The control unit 110 for controlling the steam generation unit 190 to generate steam in The measuring unit 150 and the steam generating unit 190 for measuring the temperature, humidity, and pressure of the site where concrete is cured according to the steam generated in the unit 190 are built into the steam generating unit 190 to generate steam. It may include a valve unit 170 that is provided to discharge water for generating steam.

The steam generating unit 190 may generate and discharge steam by steaming water for generating steam stored in the measuring unit 150 until the temperature and humidity values input to the control unit 110 are measured.

In addition, the steam generating unit 190 may be provided with a support pillar on one side to prevent shaking of the built-in steam generating water when generating steam.

The valve unit 170 may maintain a state in which the discharge pipe is blocked to prevent the steam generating unit 190 from being discharged while the concrete is cured by the steam generating unit 190 .

In addition, the valve unit 170 is a manager to discharge the steam generating water built in the steam generating unit 190 after the use of the steam generating unit 190 is completed after the curing of the concrete is completed by the steam generating unit 190 . By rotating in one direction, the state blocking the discharge pipe may be released.

The support pillar (not shown) may be fixed by being inserted into the ground hole perforated in the ground by using a fixing member located at the lowermost end.

4 to 6 are views showing the configuration of a scrap metal waste compression apparatus according to another embodiment of the present invention.

Referring to FIG. 4 , the fixing member of the scrap metal waste compression apparatus according to another embodiment of the present invention may include a body portion, a screw portion, an upper portion, and a locking portion.

First, an upper end 853 may be formed at the uppermost end of the fixing member 850 .

The upper end 853 may be formed to have a diameter smaller than the central diameter of the body portion 851 , and may protrude from the upper end of the hole formed so as to be penetrated by the binding portion 800 .

The body portion 851 located below the upper end portion 853 may be inserted into a hole formed inside the upper end portion 853 to be screw-coupled.

Protrusion members 8533 may be formed at both lower ends of the upper end portion 853 , and the body portion 851 inserted therein may be fixed by the protrusion member 8533 .

That is, the protrusion member 8533 is located at both lower ends of the upper end portion 853, but passes through the side surface of the upper end portion 853 and presses the upper end of the body portion 851 located inside the body portion 851 so that the upper end portion 853 is formed. Can be fixed to the bottom of the.

Next, the fixing member 850 may include a screw portion 852 and a body portion 851 .

Here, the screw portion 852 is composed of a deformed reinforcing bar or a steel pipe and a steel wire, and is inserted into the perforated pressing hole, and may be inserted into the pressing hole by the body portion 851 of the front side.

The screw portion 852 may be formed in a cylindrical structure having a screw thread formed on the outside, so it rotates and has a smaller diameter than the hole formed so as to be penetrable of the fastening part 800, and thus the fastening part 800 penetrates. It can be easily penetrated through the formed hole so as to be inserted into the perforated pressing hole.

The body portion 851 may be configured on the upper end of the screw portion 852, and the screw portion 852 is inserted into the pressure hole formed in the waste cover portion 701 located at the upper end of the waste receiving portion in which the waste is accommodated. , the upper end 853 and the engaging portion 855 may be formed at the upper end and lower end.

Accordingly, in the screw part 852, when the position of the screw part 852 and the pressing hole (not shown) formed in the waste cover part 701 of the binding part 800 are not the same, the binding part 800 may pressurize the waste. There is no, and the administrator, who has confirmed that the pressurization cannot be performed, can recognize that the position of the binding part 800 has been changed and can change the position of the binding part 800 .

In addition, the body portion 851 is configured on the upper end of the screw portion 852 , and can be largely divided into a fixed portion 8513 and a constricted portion 8511 , and the fixed portion 8513 protects the upper end of the constricted portion 8511 . and may mean a configuration for fixing.

The fixing part 8513 may be located at the lower end of the upper part 853 , and the diameter of the fixing part 8513 may be formed to become narrower from the bottom to the top.

More specifically, the lower end of the fixed portion 8513 may be formed with the same diameter as the constricted portion 8511, and the upper end may be formed with the same diameter as the diameter of the upper end 853 formed with a smaller diameter than the constricted portion 8511. can

In addition, the body portion 851 may be located inside a hole formed to be penetrable of the fastening portion 800 .

At this time, the fixing part 8513 and the upper part 853 may be formed to be separated from each other, and may be formed to be screwed together when combined, or may be formed integrally and formed to be separated.

The constricted portion 8511 may have a cylindrical shape as a whole, and may be vertically divided into quarters.

That is, the constricted portion 8511 may be formed in the shape of a cylinder by gathering the pieces cut into four pieces, and may be formed with the pieces cut into pieces spread apart.

More specifically, the constriction part 8511 is located at the lower end of the fixing part 8513 in a structure of a wing structure that absorbs shock after the screw part 852 at the bottom of the fixing member 850 is inserted into the pressing hole and is located from the upper side to the lower side. It is cut and divided up to, and it is preferable that four or a plurality of these cut surfaces are formed at equal positions on the front to form an even constricted portion 8511 on the front.

Accordingly, a space may be formed in the center of the divided pieces of the constriction part 8511 when the pieces divided and cut in the vertical direction are contracted due to an external impact.

The locking portion 855 is located at the upper end of the screw portion 852 , and the screw portion 852 may be located inside the lower end, and may be located at the lower end of the constriction portion 8511 .

In addition, the locking portion 855 may be formed in a shape in which the diameter increases from the screw portion 852 in the direction of the constriction portion 8511 , and the uppermost end is the diameter in which the divided cut surfaces of the constriction portion 8511 are in close contact with each other. It may be formed with the same diameter as

In addition, the locking part 855 may be formed to have a larger diameter than the diameter of the pressing hole. Accordingly, after the screw part 852 is inserted into the pressing hole, the body part located at the upper end of the locking part 855 by the locking part 855 . 851 and the upper end 853 may be located at the upper end of the pressing hole.

The locking part 855 may be located at the upper end of the pressing hole, and may come into contact with the lower end formed so as to be penetrated by the binding part 800 .

To summarize the above, the locking part 855 and the body part 851 of the fixing member 850 may be located inside a hole formed to be penetrated by the binding part 800 , and the screw part 852 is the binding part. It can be inserted into the pressure hole formed in the waste cover located below the hole formed so as to be penetrated of 800 , and the upper end 853 can be positioned to protrude from the top of the hole formed to be penetrable of the binding part 800 .

5 and 6, it is a view specifically showing another configuration of the shrinking part of the scrap metal waste compression apparatus according to another embodiment of the present invention.

The constricted portion 8511 includes the first divided portion 85111 , the second divided portion 85112 , the third divided portion 85113 , the fourth divided portion 85114 , the magnetically attached portion 85117 , and the central pillar portion 85115 . ) may be included.

The contraction portion 8511 may have a shrinkage control line 85115 on the outer surface thereof, and accordingly, the first to fourth divisions 85111, 85112, 85113, which are the divided and cut pieces of the contraction portion 8511, 85114) can be returned to its original position after being contracted by an external impact.

A device capable of contraction and relaxation such as a spring is provided between each cut surface of the first to fourth divisions 85111, 85112, 85113, and 85114, so that the first to fourth divisions ( 85111, 85112, 85113, 85114) can be returned to the original position by elasticity after the gap is temporarily narrowed.

That is, the first to fourth divisions 85111, 85112, 85113, and 85114 of the constricted portion 8511 cannot return to their original positions as they are contracted and driven by an external shock, and position variations may occur. For this, a shrinkage control line 85115 may be provided.

In addition, the first to fourth divisions 85111 , 85112 , 85113 , 85114 of the contraction portion 8511 may be driven to return to their original positions after the contraction driving is completed by the contraction control line 85115 more easily. can

Grooves may be formed on the outer peripheral surfaces of the first to fourth divisions 85111 , 85112 , 85113 , and 85114 according to the shape of the shrinkage control line 85115 so that the shrinkage control line 85115 can be seated therein.

For example, when the contraction control line 85115 has a circular shape, a groove may be generated in a circular shape, and when the contraction control line 85115 has a rectangular shape, a groove may be generated in a rectangular shape.

On the other hand, a ball for smoothing the movement of the contraction control line 85115 may be provided at the lower end of the groove formed on the outer peripheral surface of the first to fourth division parts 85111 , 85112 , 85113 , 85114 .

Accordingly, the shrinkage control line 85115 is formed by the balls formed at the lower ends of the grooves of the first to fourth divisions 85111, 85112, 85113, and 85114, and the first to fourth divisions 85111, 85112, 85113 , 85114) can be minimized, and the impact generated when driving in place after contraction driving is completed can also be minimized.

In addition, a device capable of making a magnetic field such as a magnetic sticker be attached to the outer surface of the first to fourth division parts 85111, 85112, 85113, 85114, and accordingly, the first division part to the fourth division part The outer surfaces of the installments 85111 , 85112 , 85113 , and 85114 may be magnetic, so that the magnetic attachment part 85117 may be attached thereto.

The magnetic attachment part 85117 is attached to one side of the shrinkage control line 85115 and is magnetic, so that it can be detachably attached to the outer peripheral surface of the first to fourth division parts 85111, 85112, 85113, 85114 by magnetism. can

The above-described embodiments are for illustration, and those of ordinary skill in the art to which the above-described embodiments belong can easily transform into other specific forms without changing the technical idea or essential features of the above-described embodiments. You will understand. Therefore, it should be understood that the above-described embodiments are illustrative in all respects and not restrictive. For example, each component described as a single type may be implemented in a distributed manner, and likewise components described as distributed may also be implemented in a combined form.

The scope to be protected through the present specification is indicated by the following claims rather than the detailed description, and should be construed to include all changes or modifications derived from the meaning and scope of the claims and their equivalents.

700: scrap metal waste compaction device

Claims (3)

In the scrap metal waste compression device comprising; a cylindrical pressing unit,
It is located at the lower end of the pressurizing part and binds to the waste cover part located at the upper end of the waste accommodating part in which the waste is accommodated and a binding part in contact with the waste;
The pressurizing part,
It is located on the upper end of the binding part, descends in the direction of the waste cover part in which the waste is accommodated, and rises after a pressurization time with a constant pressure has elapsed,
The binding part,
A plurality of holes formed to be penetrated are formed at regular intervals, and a fixing member is provided in each hole formed to be penetrated,
The binding part,
After the fixing member is inserted into the pressing hole formed in the waste cover at the same interval as the interval of the hole formed so as to be penetrated, the pressing unit descends to enable pressing the waste,
The fixing member is
a body portion positioned inside the hole formed to be penetrated by the binding portion, the body portion including a contraction portion that is contracted from an external impact, and a fixing portion positioned at an upper end of the contraction portion;
It is formed in a cylindrical structure with a screw thread formed on the outside, and is formed with a smaller diameter than the hole formed to be able to pass through the fastener while rotating and passes through the hole formed to be able to pass through the fastener, located at the upper end of the waste receiving unit in which the waste is accommodated. a screw part inserted into the pressure hole of the waste cover part;
an upper end which is formed with a diameter smaller than the central diameter of the body and protrudes from the upper end of the hole formed to be penetrable through the binding unit; and
It is located at the upper end of the screw portion, the screw portion is positioned inside the lower end, is located at the lower end of the constriction portion, and is formed in a shape that increases in diameter from the screw portion in the direction of the constriction portion, and the top end is divided into the constriction portion Including; and a locking portion formed with the same diameter as the diameter of the cut cut surfaces are in close contact with each other,
The body part,
It is inserted into the hole formed on the inside of the upper part and screwed to the lower side,
the upper part,
Protrusion members are formed at both ends of the lower side, and the body part inserted inside by the protrusion member is fixed,
The protruding member,
Located at both lower ends of the upper end, penetrating the side of the upper end to press the upper end of the body portion located inside, and to enable the body portion to be fixed inside the lower end of the upper end portion,
The body part,
Doedoe configured at the upper end of the screw portion, inserting the screw portion into the pressing hole formed in the waste cover portion located at the upper end of the waste receiving portion in which the waste is accommodated,
The body part,
The upper end is formed at the upper end, and the engaging portion is formed at the lower end,
The fixing part,
The diameter is formed to become narrower from the bottom to the top direction, and located at the lower end of the upper end portion, but located at the upper end of the constriction portion to protect and fix the upper end of the constriction portion,
The contraction part,
It is formed in the shape of a cylinder and is formed to be vertically divided into quarters, and a space is formed in the center to enter when the vertically cut pieces are contracted due to an external impact,
The locking part,
Formed to have a larger diameter than the diameter of the pressure hole, the body portion located at the upper end after the screw portion is inserted, and the upper end portion is located at the upper end of the pressure hole, scrap metal waste compression device.
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