KR101275506B1 - Wastes and construction materials vertical dropping apparatus having dropping part - Google Patents

Abstract

PURPOSE: A construction material and waste vertical drop vehicle is provided to remarkably reduce the time and costs by rapidly processing the construction materials and wastes with small human resources. CONSTITUTION: A construction material and waste vertical drop vehicle comprises a pipe unit(110), a pipe support unit, a frame unit, a drop unit(140), and a collection unit. The drop unit comprises a drop body unit, a first connection unit, a second connection unit, a first angle control unit, a second angle control unit, and a length control unit. The first connection unit is connected by penetrating a side of the pipe unit, and the second connection unit is connected to a building(1000). The first angle control unit controls an angle with the pipe unit and is arranged between the drop body unit and the first connection unit. The second angle control unit controls the angle with the building and is arranged between the drop body unit and the second connection unit.

Description

Waste materials and construction materials vertical dropping apparatus having dropping part

The present invention relates to a building material and waste vertical dropping apparatus provided with a dropping portion, and more particularly, a building having a dropping portion which can reduce costs while preventing dust and noise generated while treating building materials and wastes. A material and waste vertical dropping device.

Recently, many building materials and wastes are generated as the reconstruction and extension of buildings, especially the reconstruction and redevelopment of large buildings, such as apartments, have increased.

In particular, in large buildings such as apartments, construction elevators were separately manufactured to process building materials and wastes, and building materials and wastes were treated using construction elevators.

As such, when a construction elevator is used to process building materials and waste, there is a problem that not only a lot of manpower and cost are generated but also dust and noise.

The present invention has been made to solve the problems of the prior art, by dropping the building material and waste vertically into the pipe portion through the drop portion, the drop portion that can significantly reduce the cost while reducing dust and noise to the maximum The object is to provide a building material and waste vertical dropping device provided.

Building material and waste vertical dropping apparatus provided with a dropping portion according to an embodiment of the present invention for achieving the above technical problem is a pipe portion formed by stacking a plurality of pipes having a constant diameter and height, one end of the pipe portion The other end is fastened to the building to support the pipe part, the pipe support part, the frame part formed by being stacked in the same direction as the pipe part while being arranged in the center, one end penetrates the side surface of the pipe part, and the other end is connected to the building. And a collection part disposed at a lower end of the pipe part and formed to collect predetermined building material and waste generated in the building, and collected at the bottom of the pipe part to collect the predetermined building material and waste dropped through the pipe part, and the drop part includes a cylinder. It is disposed in one end body portion formed in the shape, the second body portion It is disposed between the first fastening portion fastened while passing through the side of the pipe portion, the other end of the drop body portion to control the angle between the second fastening portion fastened to the building, the pipe portion, and is disposed between the drop body portion and the first fastening portion And a second angle control unit configured to control the angle between the first angle control unit and the building formed in the corrugated shape in which the hill and the valley are formed, and disposed between the drop body part and the second fastening unit, and the second angle formed in the corrugated shape in which the hill and the valley are formed. It includes a control unit.

delete

Another aspect of the present invention, the building material and waste vertical dropping apparatus provided with a dropping portion is a pipe portion formed by stacking a plurality of pipes having a constant diameter and height, one end is fastened to the pipe portion, the other end is fastened to the building And a pipe support part for supporting the pipe part, a frame part formed by being stacked in the same direction as the pipe part while being arranged in the center, and one end penetrating the side surface of the pipe part, and the other end connected to the building to generate a predetermined construction. A dropping portion formed to provide material and waste to the pipe portion, and a collection portion disposed at the bottom of the pipe portion to collect predetermined building materials and waste dropped through the pipe portion, the dropping portion having a cylindrical shape; It is arranged at one end of the drop body part and fastened while penetrating the side surface of the pipe part. The first fastening portion, the second fastening portion disposed on the other end of the dropping body portion to control the angle between the second fastening portion, the pipe portion to be fastened to the building, and disposed between the dropping body portion and the first fastening portion, the elastic and resilient material An angle between the first angle control unit and the building to be formed, the second angle control unit is disposed between the drop body portion and the second fastening portion, and formed of a material having elasticity and resilience.

In addition, the dropping portion may include a length control unit for controlling the length of the dropping body portion.

In addition, the length control unit may include controlling the length of the drop body portion while rotating the drop body portion clockwise or counterclockwise.

In addition, the dropping portion may be formed in a corrugated shape in which the hills and valleys are formed may include a flexible operation.

In addition, the dropping portion may further include a damper portion for controlling the amount of building material and waste introduced into the dropping portion, and guides the controlled building material and waste to the pipe portion.

In addition, the building may be separated from the other end of the dropping portion while moving the building to store the building material and waste or may include a hopper portion for entering the stored building material and waste fastened to the other end of the dropping portion.

In addition, the hopper portion is disposed in the drop storage unit for storing the building material and waste, disposed at the bottom of the storage unit and disposed at the bottom of the drop discharge unit and the discharge discharge unit for discharging the building material and waste stored in the drop storage unit, and move the hopper unit back and forth, left and right It may include a drop moving unit.

In addition, the drop storage unit may further include a drop damper to control the amount of building materials and waste stored in the drop storage unit, and guide the controlled building material and waste discharged through the drop discharge unit.

In addition, the dropping portion may include a fixing portion for fixing the hopper portion does not move in the dropping portion while being engaged with the hopper portion.

In addition, the fixing portion is fixed to the fixed body portion formed in the "C" shape to fasten the dropping portion and the hopper portion, the fixed hinge portion and the other end of the fixed body and the fixed body portion is connected to one end of the fixed body portion to operate It may be connected to include a fixed control unit for controlling the interval between the dropping portion and the hopper portion.

In addition, the inside of the pipe portion may include a drop guide portion for inducing the building material and waste to fall vertically to the central region of the pipe portion.

In addition, a high pressure pump for receiving liquid from the outside and converting the liquid into a high pressure liquid using a vacuum and a high pressure, and transports the high pressure liquid output from the high pressure pump, the high pressure hose disposed on the outer peripheral surface of the pipe portion The part and one end may penetrate the side surface of the pipe part, and the other end may be connected to the high pressure hose part to receive a high pressure liquid from the high pressure hose part to inject a high pressure liquid into the pipe part.

In addition, the outer circumferential surface of the pipe portion or the outer circumferential surface of the high-pressure hose may include a hot wire portion that can be prevented to prevent freezing.

Building material and waste vertical dropping apparatus provided with a dropping portion according to an embodiment of the present invention forms a dropping portion, a pipe portion and a pipe support portion, and by dropping the building material and waste into the pipe portion through the dropping portion, Building materials and wastes can be processed quickly, resulting in significant time and cost savings.

In addition, the building material and waste vertical dropping apparatus provided with a dropping portion according to an embodiment of the present invention forms a dropping portion, a pipe portion, a pipe support portion and a collecting portion, and dropping the building material and waste into the pipe portion through the dropping portion and In addition, by collecting the dropped building materials and waste to the collection unit, there is an effect that can significantly reduce the dust and noise of the construction site.

1A and 1B are perspective views of a building material and waste vertical dropping apparatus provided with a dropping portion according to an embodiment of the present invention.
Figure 2 is a view showing a hopper fastened to the dropping portion according to an embodiment of the present invention.
3 is a plan view of a hopper according to an embodiment of the present invention.
4 is an enlarged view illustrating an enlarged area in which a hopper portion and a drop portion are fastened according to an embodiment of the present invention;
5 is a front view of the dropping portion fastened between the building and the pipe portion according to an embodiment of the present invention.
Figure 6a is a front view of the first fastening portion disposed in the dropping portion according to an embodiment of the present invention.
Figure 6b is a front view of the first fastening portion disposed in the dropping portion according to another embodiment of the present invention.
Figure 7a is a front view of the length control unit disposed in the dropping unit according to an embodiment of the present invention.
Figure 7b is a cross-sectional view of the dropping portion according to an embodiment of the present invention.
8 is a front view of the delivery unit according to another embodiment of the present invention.
Figure 9 is a front view of the building material and waste vertical dropping apparatus provided with a dropping portion according to another embodiment of the present invention.
10 is a front view of a pipe and a high pressure hose according to another embodiment of the present invention.
11 is a perspective view of a pipe and a high pressure hose according to another embodiment of the present invention.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings. The details of other embodiments are included in the detailed description and drawings. BRIEF DESCRIPTION OF THE DRAWINGS The advantages and features of the present invention and the manner of achieving them will become apparent with reference to the embodiments described in detail below with reference to the accompanying drawings. Like reference numerals refer to like elements throughout.

1A and 1B are perspective views of a building material and waste vertical dropping apparatus provided with a dropping portion according to an embodiment of the present invention.

1A to 1B, the building material and waste vertical dropping apparatus 100 provided with a dropping part according to an embodiment of the present invention includes a pipe part 110, a pipe support part 120, a frame part 130, and a dropping part. 140 and the collection unit 150 is configured.

The pipe part 110 is formed by stacking pipes 110a and 110b formed to have a constant diameter and height. The pipe part 110 has a plurality of pipes (110a, 110b) are stacked to substantially the same height as the building 1000, it can transport the building materials and waste dropped from the building (1000).

In this case, the material of the pipes 110a and 110b may include one formed of steel, aluminum (Al), manganese (Mn), an alloy, or a synthetic resin. Here, the pipe (110a, 110b) may be made of a material containing steel (steel) or alloy to enhance the strength, may be made of a material including aluminum (Al), manganese (Mn) or synthetic resin to strengthen the weight. have.

That is, the pipe part 110 may be damaged by an impact generated when it collides with or collides with building materials and wastes dropped from the building 1000. In order to minimize this, the strength may be enhanced by including steel or alloys.

In addition, the pipe portion 110 may increase the load applied to the lower end of the pipe portion 110 as the pipe (110a, 110b) is stacked a lot. In order to reduce the load, it can be made lightweight including aluminum (Al), manganese (Mn) or synthetic resin.

Accordingly, it may be preferable to stack the strong pipes 110a and 110b at the lower end of the pipe part 110 and the light pipes 110a and 110b at the upper end thereof.

In addition, the pipe part 110 is formed by stacking a plurality of pipes (110a, 110b), the packing portion (not shown) formed while packing between the pipe (110a, 110b) between the stacked pipe (110a, 110b). It may include. As such, the packing part (not shown) may be disposed between the plurality of stacked pipes 110a and 110b, thereby absorbing the impact generated when colliding or colliding with the building material and waste dropped from the building 1000. . In addition, it is possible to distribute the load generated between the plurality of pipes (110a, 110b).

In addition, the pipe part 110 may include at least one bolt and nut, and firmly fix the plurality of pipes 110a and 110b using the bolt and nut. Accordingly, at least two through holes through which bolts may pass may be formed at both ends of the plurality of pipes 110a and 110b.

One end of the pipe support part 120 is fastened to the pipe part 110, and the other end is fastened to the building 1000 to support the pipe part 110. The pipe support part 120 includes a fastening part 121 and a cylinder part 122.

The fastening part 121 is fastened to the pipe part 110 to support the pipe part 110. The fastening part 121 may have a circular shape substantially the same as a cross section of the pipe part 110, and may have a diameter larger than that of the pipe part 110. Accordingly, as illustrated in FIG. 1B, the pipe part 110 may be fastened through the fastening part 121 to firmly support the pipe part 110.

One end of the cylinder 122 may be fastened to the fastening part 121, and the other end may be fastened to the building 1000 to reciprocate by pressure of hydraulic pressure, steam, or gas. The cylinder part 122 may be disposed to reciprocate from side to side, so that the plurality of pipes 110a and 110b are shaken due to an impact generated when colliding or colliding with building materials and waste dropped from the building 1000. Even if the plurality of stacked pipes 110a and 110b is shaken by a strong wind, the pipe 110 may be stably supported.

The frame part 130 is formed by stacking the pipe part 110 in the same direction as the pipe part 110 while being disposed at the center. The frame portion 130 is formed in a hexagonal structure. At this time, by forming an X-shaped or diagonal structure on the side surface of the frame unit 130, the structure of the frame unit 130 may be more robust.

As such, since the rigid frame portion 130 is formed to surround the pipe portion 110, the plurality of stacked pipes 110a and 110b may be prevented from falling down. As a result, a safety accident can be prevented from occurring.

The dropping part 140 has one end penetrating the side surface of the pipe part 110 and the other end is connected to the building 1000 to provide the pipe part 110 with predetermined building materials and waste generated in the building 1000. Is formed. The dropping unit 140 may penetrate the side surface of the pipe unit 110 while maintaining a predetermined angle so that building materials and waste can be easily dropped into the pipe unit 110.

In addition, the dropping portion 140 is formed in a cylindrical shape, it is preferably formed having a diameter smaller than the diameter of the pipe portion (110). A detailed description thereof will be described later.

The collecting unit 150 is disposed at the lower end of the pipe unit 110 to collect predetermined building materials and wastes dropped through the pipe unit 110. The collection unit 150 is located while contacting the building 1000, the upper end is formed flat may support the lower end of the pipe 110.

In addition, at least one door 151 may be formed at a side surface of the collecting unit 150 to discharge the collected building materials and waste to the outside.

The pipe part 110 and the frame part 130 of the building material and waste vertical dropping apparatus 100 provided with the dropping part according to the exemplary embodiment described so far may be stacked using a tower crane or the like.

Figure 2 is a view showing a hopper fastened to the dropping portion according to an embodiment of the present invention, Figure 3 is a plan view of the hopper according to an embodiment of the present invention, Figure 4 is a hopper according to an embodiment of the present invention It is an enlarged view which enlarged the area | region in which a part and a drop part are fastened.

Looking at Figures 2 to 4, the hopper 160 is fastened to the dropping unit 140 according to an embodiment of the drop storage unit 161, the drop discharge unit 162 and the drop moving unit 163. It is configured to include.

Hopper unit 160 is separated from the other end of the dropping unit 140, while moving the building 1000 to store the building material and waste or fastened to the other end of the dropping unit 140, the dropping unit 140 ) Can be inserted.

In this case, the dropping unit 140 coupled to the hopper unit 160 controls the amount of building materials and wastes introduced into the dropping unit 140, and induces the controlled building materials and wastes to be dropped into the pipe unit 110. The damper unit 145 may be included. That is, the dropping part 140 forms the damper part 145 in the area fastened to the pipe part 110, thereby allowing the building material and the waste to be introduced so that the building material and the waste are not simultaneously dropped into the pipe part 110. You can control the amount of. Accordingly, building materials and waste introduced into the dropping unit 140 may be dropped into the pipe unit 110 while maintaining a constant amount without bottlenecks.

In addition, the hopper 160 may be configured to include a drop storage unit 161, drop discharge unit 162, and the drop moving unit 163.

The drop storage unit 161 may store building materials and waste. The drop storage unit 161 may have a predetermined storage space so that building materials and waste can be easily stored. The drop storage unit 161 stores building materials and waste while the hopper unit 160 is separated from the drop unit 140, and stored building materials and waste while the hopper unit 160 is fastened to the drop unit 140. It can be discharged through the dropping discharge portion 162.

In addition, the drop storage unit 161 controls the amount of building materials and waste stored in the drop storage unit 161, and a drop damper unit for inducing the controlled building material and waste discharged through the drop discharge unit 162 ( 164). That is, the drop storing unit 161 may control the amount of the stored building material and the waste so that the stored building material and the waste are not simultaneously discharged to the dropping discharge unit 162 by forming the damper unit 164. Accordingly, building materials and waste stored in the drop storage unit 161 may be discharged to the drop discharge unit 162 while maintaining a constant amount without bottlenecks.

The drop discharge unit 162 is disposed at the bottom of the storage unit to discharge the building materials and waste stored in the drop storage unit 161. The dropping discharge part 162 is closed so that building materials and wastes are not discharged while the hopper part 160 is separated from the dropping part 140 and stored while the hopper part 160 is fastened to the dropping part 140. Can be opened to discharge building materials and waste.

The drop moving part 163 may be disposed at a lower end of the drop discharge part 162 to move the hopper part 160 in front, rear, left and right. The hopper unit 160 may store building materials and wastes while freely moving the building 1000 through the dropping moving unit 163.

In addition, the dropping part 140 may include a fixing part 165 which fixes the hopper part 160 so as not to move in the dropping part 140 while being engaged with the hopper part 160. The fixed part 165 may include a fixed body part 165b, a fixed hinge part 165c, and a fixed control part 165a.

The fixed body portion 165b is formed in a "c" shape to fasten the dropping portion 140 and the hopper portion 160.

The fixed hinge portion 165c is connected to one end of the fixed body portion 165b so that the fixed body portion 165b is coupled to the dropping portion 140 to operate. The fixed hinge portion 165c is disposed across the fixed body portion 165b and the dropping portion 140 to be fastened to the fixed body portion 165b and the dropping portion 140 to be easily moved.

The fixed control unit 165a is connected to the other end of the fixed body unit 165b to control the interval between the dropping unit 140 and the hopper unit 160. The fixed control unit 165a is disposed while penetrating the other end of the fixed body unit 165b to gradually reduce the gap between the dropping unit 140 and the hopper unit 160 and thus the dropping unit 140 and the hopper unit 160. Fixing or gradually increasing the interval between the dropping unit 140 and the hopper 160 may be controlled to separate the dropping unit 140 and the hopper 160.

In addition, a drop induction part 146 may be disposed in the pipe part 110 to induce building materials and waste to fall vertically into the central region of the pipe part 110. The drop induction fixing part 146a may be formed in the pipe part 110 so that the drop induction part 146 may be firmly fixed to the inside of the pipe part 110. As such, the drop induction part 146 is disposed in the pipe part 110, so that building materials and wastes dropped into the pipe part 110 through the drop part 140 are easily guided to the central area of the pipe part 110. Can be. Accordingly, it is possible to prevent the pipe part 110 from being damaged by the building material and waste dropped into the pipe part 110 through the dropping part 140.

5 is a front view of the dropping portion fastened between the building and the pipe portion according to an embodiment of the present invention, Figure 6a is a front view of the first fastening portion disposed in the dropping portion according to an embodiment of the present invention, Figure 7b is Front view of the first fastening portion disposed in the dropping portion according to another embodiment of the present invention.

5 to 6B, the dropping unit 140 according to an embodiment of the present invention includes a dropping body unit 141, a first fastening unit 143a, a second fastening unit 143b, and a first angle control unit 142a. ) And a second angle control unit 142b.

The drop body 141 is formed in a cylindrical shape. The drop body 141 is formed in a cylindrical shape, the interior is formed hollow so that the building material and waste can move from the building 1000 to the pipe unit 110.

The first fastening part 143a is disposed at one end of the drop body part 141 and fastened while penetrating the side surface of the pipe part 110. The first fastening part 143a may be fastened to the pipe part 110 using various methods, and as shown in FIG. 3A, may be formed in a screw shape. Accordingly, the first fastening part 143a may be finished by sealing after being fastened with the pipe part 110.

The second fastening part 143b is disposed at the other end of the drop body part 141 and fastened to the building 1000. The second fastening part 143b may be fastened to the building 1000 to input building materials and waste generated in the building 1000. The second fastening part 143b may also be finished by sealing after being fastened with the building 1000.

The first angle controller 142a controls the angle with the pipe part 110 and is disposed between the dropping body 141 and the first fastening part 143a. The first angle control unit 142a may control the angle between the pipe unit 110 and the dropping body 141 so that building materials and wastes injected into the dropping unit 140 may be easily moved to the pipe unit 110. have.

In addition, the first angle control unit 142a may be formed to include an elastic and resilient material. Accordingly, it is possible to operate flexibly so that the angle with the pipe part 110 can be more easily controlled.

The second angle controller 142b controls the angle with the building 1000, and is disposed between the drop body 141 and the second fastening part 143b. The second angle control unit 142b may control the angle between the building 1000 and the dropping body 141 to allow the building material and waste introduced into the dropping unit 140 to be easily moved to the pipe unit 110. .

In addition, the second angle control unit 142b may be formed to include a material having elasticity and resilience. Accordingly, it is possible to operate flexibly so that the angle with the building 1000 can be more easily controlled.

Also, as illustrated in FIG. 3B, the first angle controller 242a or the second angle controller 242b may be formed in a corrugated shape in which peaks and valleys are formed to operate flexibly. Accordingly, the angle between the dropping part 240 and the pipe part 110 and the angle between the dropping part 240 and the building 1000 can be easily controlled.

Figure 7a is a front view of the length control unit disposed in the dropping unit according to an embodiment of the present invention, Figure 7b is a cross-sectional view of the dropping unit according to an embodiment of the present invention.

7A and 7B, the dropping part 340 according to an embodiment of the present invention includes a dropping body part 341, a first fastening part 343a, a second fastening part 343b, and a first angle control part 342a. ), A second angle controller 342b and a length controller 350.

The function of each of the components corresponding to the dropping portion 340 and the organic relationship between them according to an embodiment of the present invention is the function of each of the components described in FIGS. Since it is substantially the same as the phosphorus relationship, each description thereof will be omitted below.

The length control unit 350 may control the length of the delivery body portion 341. The length control part 350 may control the length of the drop body part 341 while rotating the drop body part 341 in a clockwise or counterclockwise direction.

That is, the length control part 350 rotates the drop body part 341 clockwise or counterclockwise according to the distance between the building 1000 and the pipe part 110 to form the length of the drop body part 341 to be long. It can be formed short. Accordingly, the dropping portion 340 may be disposed between the building 1000 and the pipe portion 110 to be more suitable for the surrounding environment. Therefore, building materials and waste can be more quickly dropped into the pipe part 110.

8 is a front view of a delivery unit according to another embodiment of the present invention.

Referring to Figure 8, the dropping portion 440 according to another embodiment of the present invention may be formed in a corrugated shape in which the peaks and valleys are formed to operate flexibly.

As such, the dropping portion 440 is formed in a corrugated shape in which mountains and valleys are formed to operate flexibly, so that the building 1000 may have various shapes depending on the surrounding environment of the building 1000 or the state in which the pipe portion 110 is stacked. ) And the pipe part 110 may be disposed.

9 is a front view of a building material and waste vertical dropping apparatus provided with a dropping portion according to another embodiment of the present invention, FIG. 10 is a front view of a pipe portion and a high pressure hose portion according to another embodiment of the present invention, and FIG. A perspective view of a pipe and a high pressure hose according to another embodiment of the present invention.

9 to 11, the building material and waste vertical dropping apparatus 500 is provided with a dropping portion according to another embodiment of the present invention pipe portion 510, pipe support portion 520, frame portion 530, dropping portion 540 and the collection unit 550 is configured.

According to another embodiment of the present invention, the function of each component corresponding to the building material and the waste vertical dropping apparatus 500 provided with the dropping portion and the organic relationship therebetween are described in FIGS. 1 to 8. Since the functions for the elements and the organic relationships between them are substantially the same, each description of them will be omitted below.

The high pressure pump 570 receives the liquid from the outside and converts the liquid into a high pressure liquid using a vacuum and a high pressure to output the liquid. The high pressure pump 570 may convert the liquid into a high pressure liquid by using a high pressure and send the liquid to a high place. Accordingly, it is possible to provide a high pressure liquid to the high floor number building 1000 through the high pressure pump 570.

The high pressure hose 580 transports the high pressure liquid output from the high pressure pump 570, and is disposed on the outer circumferential surface of the pipe 510. Since the high pressure hose 580 is provided with a liquid having a high pressure in the high pressure pump 570, it is preferable to include an elastic material.

That is, since the high pressure hose 580 may be damaged by the high pressure liquid provided by the high pressure pump 570, the high pressure hose 580 may include an elastic material so that the high pressure hose 580 may be elastically changed even at high pressure. Can be formed.

In addition, although the high pressure hose 580 is disposed on the outer circumferential surface of the pipe 510, the present invention is not limited thereto, and the high pressure hose 580 may be disposed on the frame 530. That is, the high pressure hose unit 580 may be placed anywhere as long as it can provide the high pressure liquid output from the high pressure pump unit 570 to the high pressure injection unit 590.

The high pressure injection unit 590 has one end penetrating the side surface of the pipe unit 510, and the other end is connected to the high pressure hose unit 580 to receive a high pressure liquid from the high pressure hose unit 580. Spray high pressure liquid inside.

In addition, the high pressure hose mounting member 592 may firmly mount the high pressure hose 580.

In addition, a heating wire 600 may be disposed on the outer circumferential surface of the pipe 510 or the outer circumferential surface of the high pressure hose 580. The hot wire portion 600 is disposed while surrounding the outer circumferential surface of the pipe portion 510 or the outer circumferential surface of the high pressure hose 580, while maintaining a constant interval.

As such, the heat wire part 600 for dissipating heat by receiving electric energy from the outside is disposed surrounding the outer circumferential surface of the pipe part 510 or the outer circumferential surface of the high pressure hose part 580 at a predetermined interval, thereby providing the pipe part 510. Alternatively, heat may be evenly transferred to the high pressure hose unit 580. Accordingly, the liquid flowing in the pipe part 510 or the high pressure hose part 580 may be prevented from freezing. Therefore, it is possible to prevent the pipe part 510 or the high pressure hose part 580 from freezing in advance.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments.

Rather, those skilled in the art will appreciate that many modifications and variations of the present invention are possible without departing from the spirit and scope of the appended claims.

And all such modifications and changes as fall within the scope of the present invention are therefore to be regarded as being within the scope of the present invention.

110: pipe portion 120: pipe support portion
121: fastening portion 122: cylinder portion
130: frame portion 140: dropping portion
150: collector

Claims (15)

A pipe part formed by stacking a plurality of pipes having a constant diameter and height;
One end is fastened to the pipe part and the other end is fastened to the building to support the pipe part;
A frame part formed to be stacked in the same direction as the pipe part while being disposed at the center of the pipe part;
A dropping portion having one end penetrating the side surface of the pipe portion and the other end connected to the building to provide predetermined building material and waste generated in the building portion to the pipe portion; And
And a collecting part disposed at a lower end of the pipe part to collect the predetermined building material and the waste dropped through the pipe part.
The dropping portion
A drop body portion formed in a cylindrical shape;
A first fastening part disposed at one end of the drop body part and fastened while penetrating the side surface of the pipe part;
A second fastening part disposed at the other end of the drop body part and fastened to the building;
A first angle control part controlling an angle with the pipe part, disposed between the drop body part and the first fastening part, and formed of a material having elasticity and resilience; And
Building materials and wastes provided with a dropping portion including a second angle control unit for controlling the angle with the building, disposed between the dropping body portion and the second fastening portion, formed of a material having elasticity and resilience Vertical dropping device.
delete A pipe part formed by stacking a plurality of pipes having a constant diameter and height;
One end is fastened to the pipe part and the other end is fastened to the building to support the pipe part;
A frame part formed to be stacked in the same direction as the pipe part while being disposed at the center of the pipe part;
A dropping portion having one end penetrating the side surface of the pipe portion and the other end connected to the building to provide predetermined building material and waste generated in the building portion to the pipe portion; And
And a collecting part disposed at a lower end of the pipe part to collect the predetermined building material and the waste dropped through the pipe part.
The dropping portion
A drop body portion formed in a cylindrical shape;
A first fastening part disposed at one end of the drop body part and fastened while penetrating the side surface of the pipe part;
A second fastening part disposed at the other end of the drop body part and fastened to the building;
A first angle control part controlling an angle with the pipe part, disposed between the drop body part and the first fastening part, and formed in a corrugated shape in which peaks and valleys are formed; And
A building material including a dropping part including a second angle control part controlling an angle with the building and disposed between the dropping body part and the second fastening part and formed in a corrugated shape in which a hill and a valley are formed; Waste vertical drop device.
The method according to claim 1 or 3,
And the dropping part includes a dropping part including a length control part capable of controlling the length of the dropping body part. 5. The method of claim 4,
And the length control part includes a drop part for controlling the length of the drop body part while rotating the drop body part clockwise or counterclockwise.
The method according to claim 1 or 3,
The dropping portion is formed in a corrugated shape in which the hills and valleys are formed, the building material and waste vertical dropping device is provided with a dropping operation that is flexible.
The method according to claim 1 or 3,
The dropping portion is a building material and waste vertical is provided with a dropping portion further comprises a damper for controlling the amount of the building material and waste introduced into the dropping portion, and guides the controlled building material and waste to the pipe portion Dropping device.
The method according to claim 1 or 3,
The hopper unit is separated from the other end of the dropping portion while moving the building to store the building material and waste or the building material and waste fastened to the dropping portion stored in the other end fastened to the dropping portion; Building material and waste vertical fall device.
The method of claim 8,
The hopper portion
Drop storage for storing the building material and waste;
A discharge discharge unit disposed at a lower end of the storage unit to discharge the building material and waste stored in the discharge storage unit; And
And a dropping unit disposed at a lower end of the dropping discharge unit to move the hopper unit in front, rear, left, and right directions.
10. The method of claim 9,
The drop storage unit controls the amount of the building material and waste stored in the drop storage unit, the building material is provided with a dropping portion further comprising a dropping damper for guiding the controlled building material and waste discharged through the drop discharge unit; And waste vertical dropping device.
The method of claim 8,
And the dropping part includes a dropping part including a fixing part which fixes the hopper part so as not to move in the dropping part while being engaged with the hopper part.
12. The method of claim 11,
The fixed portion
A fixed body part formed in a "c" shape to fasten the dropping part and the hopper part;
A fixed hinge part connected to one end of the fixed body part so that the fixed body part is coupled to the dropping part to operate; And
And a fixed control unit connected to the other end of the fixed body unit to control a gap between the dropping unit and the hopper unit.
The method according to claim 1 or 3,
And a dropping portion provided with a dropping induction portion for inducing the building material and waste to fall vertically into the central region of the pipe portion.
The method according to claim 1 or 3,
A high pressure pump that receives the liquid from the outside and converts the liquid into a high pressure liquid by using a vacuum and a high pressure;
A high pressure hose unit for transporting the high pressure liquid output from the high pressure pump unit and disposed on an outer circumferential surface of the pipe unit; And
One end penetrates the side surface of the pipe portion, the other end is connected to the high pressure hose to receive the high pressure liquid from the high pressure hose to inject the high pressure liquid into the inside of the pipe; Building material and waste vertical dropping device is provided with a drop. 15. The method of claim 14,
Building material and waste vertical dropping device having a discharge portion is disposed on the outer circumferential surface of the pipe portion or the outer circumferential surface of the high-pressure hose portion to prevent freezing.

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