KR101656460B1

KR101656460B1 - waste mattress decomposition processing device

Info

Publication number: KR101656460B1
Application number: KR1020160005411A
Authority: KR
Inventors: 유성옥
Original assignee: 주식회사 에치케이텍
Priority date: 2016-01-15
Filing date: 2016-01-15
Publication date: 2016-09-12

Abstract

The present invention can cut a central part of a waste mattress to easily select a spring embedded in the waste mattress, and can also easily recycle the selected spring by compressing or crushing it, And more particularly to a waste mattress disintegration apparatus capable of reducing costs while reducing costs.
A lift 100 having an upper plate 130 installed to be adjustable in height through a lifting lever 120 connected to the upper portion of the lower plate 110 in an X-shape; A turntable 200 rotatably installed on the upper plate 130 to support the waste mattress 10; A cutter 300 for cutting a central portion of the waste mattress 10 rotating together with the turntable 200; A first conveyor 400 for conveying the cut mattress 11 cut at the center by the cutter 300; Disassembling rollers (500) (510) for disassembling the cut mattress (11) conveyed along the first conveyor (400) to sort the decomposed mattress (12) and the spring (13); A second conveyor 600 for conveying the selected spring 13 by the decomposition rollers 500 and 510; And a processing member (700) for processing the spring (13) transferred along the second conveyor (600).

Description

The present invention relates to a waste mattress decomposition processing device,

The present invention relates to a waste mattress disintegration apparatus, and more particularly, to a waste mattress disintegration apparatus that cuts off a central portion of a waste mattress to easily select a spring embedded in the waste mattress and compresses or breaks the selected spring, The present invention also relates to a waste mattress disintegration apparatus which can reduce the installation cost and the processing cost economically by simplifying the structure.

Generally, waste mattresses are household waste that can recycle resources. Such waste mattresses can be used for recycling. That is, other products can be manufactured through recycling by sorting them with springs and fibers.

Such a waste mattress is transferred to a recycling center or a recycling factory to select each usable part. However, since most of the recycling selection tasks are performed by hand, many workers are required and classified as industries that are inferior due to poor working conditions Especially, in case of waste mattress, since it is made of metal, fiber, and wood because it is bulky, it is difficult to disassemble and the processing time is considerably long, so recycling costs such as labor costs are not properly recycled. .

However, in the case of waste mattresses, there were problems that were difficult to dispose of even after shredding unlike other general waste due to the spring. That is, when the crushed mattress is incinerated in an incinerator, a problem that the broken spring is caught in the incinerator and the operation of the incinerator is stopped has occurred. Therefore, in order to process the mattress, It can not be recycled and it can not be buried in the ground as it is.

Therefore, in order to bring the waste mattress to the incinerator, it is inevitable for the operator to manually remove the built-in spring by dismantling the waste mattress. However, according to these manual operations, the waste of the labor force was so great as to dismantle only about 5 pieces of the waste mattress per day per worker, and the operation speed was considerably lowered to handle a large number of waste mattresses pouring out.

In order to achieve this, the following Patent Document No. 10-0797116 discloses a method of finely crushing collected mattresses and then performing full automation of the mattress processing by selecting only the spring coils by the magnetic force of the magnets, A mattress processing method and apparatus with a built-in spring coil suitable for preventing the waste of the mattress and increasing the recyclability of the mattress remarkably.

However, since the structure of the mattress processing apparatus described in the prior art is very complicated as a whole, there is a problem that the installation cost is increased not only economically but also the processing cost is increased.

Patent Document: Registration No. 10-0797116 (Registered Date: January 16, 2008)

It is an object of the present invention to provide a waste mattress disintegration apparatus that cuts a central portion of a waste mattress to easily select a spring embedded in the waste mattress .

It is another object of the present invention to provide a waste mattress disintegration device that can be easily recycled by compressing or crushing a selected spring.

It is another object of the present invention to provide a waste mattress disintegration apparatus that can simplify the structure, reduce the installation cost economically and reduce the processing cost.

To achieve the above object, according to the present invention, an upper plate is provided so that the height of a lift can be adjusted through a lifting lever connected to an upper portion of an upper plate of an upper plate, and a turntable supporting a waste mattress is rotatably installed on an upper portion of the upper plate , A central portion of a waste mattress that rotates as the turntable is cut with a cutter, a cutting mattress cut at the center by the cutter is transferred to a first conveyor, and a cut mattress conveyed along the first conveyor is disassembled, And the springs selected by the splitting roller are transferred to the second conveyor and the springs conveyed along the second conveyor are treated with the processing member.

Further, in the present invention, a plurality of slide grooves are formed on the turntable, and a fixture for supporting the waste mattress is movably fixed to the slide grooves by fixing bolts.

Further, in the present invention, a plurality of claws corresponding to each other are formed on the outer surface of the decomposition roller, and the decomposition roller is driven in normal and reverse directions.

Further, in the present invention, the processing member may include a compression passage for receiving a spring, a pressure plate provided on the upper portion of the compression tube so as to be vertically movable and pressing the spring, and a spring installed on one side of the compression cylinder, And a cylinder for operating the pressure plate, the compression plate, and the door, respectively. The compression valve includes a compression plate for compression, a door for releasing a compressed spring provided on the other side of the compression cylinder.

Further, in the present invention, a barrel hollow is formed in a rear lower portion of the compression barrel, and an intermittent member having an intermittent groove, a release groove, a rod insertion hole and a pin guide hole is fixed by a bracket to a lower portion of the inside of the barrel, And an interlocking rod protruding to the lower portion of the outer surface of the door through the inner hole of the door is rotatably mounted on the interlocking groove and the release groove while being elevated along the pin guide hole.

According to the present invention, an intermittent cylinder for interrupting the operation of the door is provided in the rear lower portion of the compression cylinder, and a rod hole for inserting the intermittent rod of the intermittent cylinder is formed in a rear lower portion of the compression cylinder. And serves as a stopper protruding to the lower surface of the outer surface.

Further, in the present invention, the processing member comprises a crushing passage for receiving a spring, a crushing roller for crushing a spring embedded in the crushing tube, and a recovery cylinder for collecting the crushing spring crushed in the crushing roller.

According to the waste mattress decompositionally treating apparatus of the present invention, the central portion of the rotating waste mattress, such as a turntable, is cut with a cutter and the cut mattress cut at the center is disassembled with decomposition rollers, .

In addition, there is an effect that the selected spring can be easily recycled by compressing or crushing with a processing member.

In addition, since the structure of the waste mattress disintegration processing apparatus is simple, it is economically possible to reduce the installation cost and the processing cost.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a schematic view showing the entire structure of the present invention. FIG.
FIGS. 2A and 2B are a plan view and a front view showing another embodiment of the turntable according to the present invention;
Figure 3 is an exploded perspective view of the turntable and fixture according to Figures 2a and 2b;
4A and 4B are views showing an example of a treatment member according to the present invention.
Fig. 5 is an exemplary view showing the installation state of the door according to Figs. 4a and 4b. Fig.
6A and 6B are views showing an operating state of the door according to FIG.
7 is a perspective view showing an intermittent member and an intermittent rod according to the present invention.
8A and 8B are views showing an operating state of the intermittent cylinder according to the present invention;
9 is an exemplary view showing another embodiment of the treatment member according to the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, the technical structure of the present invention will be described in detail with reference to the accompanying drawings.

1 to 9, the apparatus for decomposing a waste mattress of the present invention comprises an upper plate 130 provided to be adjustable in height through a lifting lever 120 connected to an upper portion of an upper plate 110 in an X- A lift 100; A turntable 200 rotatably installed on the upper plate 130 to support the waste mattress 10; A cutter 300 for cutting a central portion of the waste mattress 10 rotating together with the turntable 200; A first conveyor 400 for conveying the cut mattress 11 cut at the center by the cutter 300; Disassembling rollers (500) (510) for disassembling the cut mattress (11) conveyed along the first conveyor (400) to sort the decomposed mattress (12) and the spring (13); A second conveyor 600 for conveying the selected spring 13 by the decomposition rollers 500 and 510; And a processing member (700) for processing the spring (13) transferred along the second conveyor (600).

In the present invention, the waste mattress disintegration apparatus disassembles the waste mattress 10 to sort the decomposed mattress 12 and the springs 13 and treats the selected springs 13, The processing apparatus includes a lift 100, a turntable 200, a cutter 300, a first conveyor 400, a decomposition roller 500 (510), a second conveyor 600, and a processing member 700.

The lift 100 is installed in the front of the first conveyor 400 so as to be vertically movable and rotatably supports the turntable 200. A lower plate 110 is installed below the lift 100, The upper portion of the lifting lever 120 is connected to the upper portion of the lifting lever 120, and the upper plate 130 is connected to the upper portion of the lifting lever 120. At this time, the elevation lever 120 of the lift 100 can be adjusted to the height of the upper plate 130 by being broken or unfolded through a cylinder, a motor, or the like.

The turntable 200 rotatably supports the upper part of the upper plate 130. The turntable 200 serves to rotatably support the waste mattress 10 and the turntable 200 has a rectangular or circular shape And the like. At this time, a rotating shaft 201 rotatably connected to the upper plate 130 through a bearing B is provided at the lower center of the turntable 200. Meanwhile, the turntable 200 can be automatically rotated using a manual or motor.

According to another embodiment of the present invention, as shown in FIGS. 2A, 2B, and 3, a slide groove 210 is formed in the center of both upper sides of the turntable 200 in the longitudinal direction, A slide groove 210 is formed in the width direction of the turntable 200. The slide groove 210 formed on both sides of the turntable 200 and the front and rear sides of the turntable 200 are positioned below the center of the waste mattress 10 cut by the cutter 300 A fixing member 220 for supporting a lower central portion of the waste mattress 10 is fixed with a fixing bolt 230 movably. At this time, if the plurality of fixtures 220 are used, the waste mattress 10 can be firmly fixed.

The cutter 300 cuts the central portion of the waste mattress 10 rotating in the same manner as the turn table 200 in the longitudinal direction. The cutter 300 can be manually operated by an operator, It may be installed on one side of the turntable 200 so as to be movable laterally and automatically.

The first conveyor 400 transports the cutting mattress 11 cut at the center by the cutter 300. The first conveyor 400 rotates the cut mattress 11 between the decomposition roller 500 and the decomposition roller 500, (510). At this time, the first conveyor 400 is installed between the turntable 200 and the decomposition roller 500 (510).

The decomposition rollers 500 and 510 decompose the cut mattress 11 transported along the first conveyor 400. The decomposition rollers 500 and 510 decompose the cut mattress 11 to produce a decomposed mattress 11, (12) and the spring (13). At this time, the decomposition roller 500 is transferred between the decomposition roller 500 and the decomposition roller 510, and the decomposition rollers 500 and 510 decompose the cut mattress 11 conveyed therebetween, And a spring (13).

A plurality of claws 501 and 511 corresponding to each other protrude from the outer surface of the decomposition rollers 500 and 510 and the decomposition rollers 500 and 510 are driven in the forward and reverse directions. At this time, since the decomposition rollers 500 and 510 decompose the cut mattress 11 while driving in the forward and reverse directions, the decomposed mattress 12 is recovered by the recovery bin 520 installed at the lower part, 2 conveyor 600, and the decomposed mattress 12 recovered in the recovery bin 520 can be collected and easily recycled.

The second conveyor 600 transports the selected spring 13 by the disintegration rollers 500 and 510 and the second conveyor 600 transfers the spring 13 to the processing member 700 Role. At this time, the second conveyor 600 is installed between the decomposition roller 500 (510) and the processing member 700.

The processing member 700 processes the spring 13 conveyed along the second conveyor 600 such that the processing member 700 compresses or breaks the spring 13 of the selected waste mattress 10 . At this time, the spring 13 that has been compressed or crushed by the processing member 700 can be collected and easily recycled.

4a to 6b, the processing member 700 includes a compression cylinder 710 for receiving the spring 13, and a compression cylinder 710 for moving the compression cylinder 710 upward and downward A compression plate 712 installed on one side of the compression cylinder 710 to move left and right to compress the spring 13, A door 713 for opening and closing the other side of the cylinder 710 for discharging the compressed spring 13 and a cylinder 714 for operating the pressure plate 711 and the compression plate 712 and the door 713, (715) and (716).

Here, the compression cylinder 710 is installed behind the second conveyor 600, and the spring 13 transferred along the second conveyor 600 is stored in the compression cylinder 710 while being dropped. At this time, a discharge port 710a is formed on the other side of the compression cylinder 710, and a door 713 is installed on the discharge port 710a so as to be openable and closable.

The pressure plate 711 is vertically movably installed on the upper portion of the compression cylinder 710. The compression plate 711 is moved downward from the compression cylinder 710 as shown in FIG. And presses down. At this time, the pressure plate 711 is lowered so as to maintain a height at which the compression plate 712 can operate in the right and left direction.

The compression plate 712 is installed on one side of the compression cylinder 710 so as to be movable laterally. The compression plate 712 is moved to the other side after the pressure plate 711 descends as shown in FIG. 4B, 13).

The door 713 is opened and closed at a discharge port 710a formed at the other side of the compression cylinder 710. The door 714 is rotated through the hinge 713a to the discharge port 710a as shown in FIG. Lt; / RTI > 6A, when the spring 13 is compressed by the compression plate 713, the door 714 maintains the closed state firmly. On the other hand, after the spring 13 is compressed, as shown in FIG. 6B When the door 714 is opened and pushed by the compression plate 713, the compressed spring 13 is discharged to the outside.

The cylinder 714 moves the pressure plate 711 up and down. The rod 714a of the cylinder 714 is connected to the upper portion of the pressure plate 711.

The cylinder 715 moves the compression plate 712 to the left and right. The rod 715a of the cylinder 715 is connected to the outside of the compression plate 712.

The cylinder 716 opens and closes the door 713. The cylinder 716 is rotatably connected to the outside of the compression cylinder 710 by the shaft pin P1 as shown in FIGS. 6A and 6B, and the cylinder 716 Is rotatably connected to the outside of the door 713 by an axial pin P2. When the rod 716a of the cylinder 716 is operated as shown in FIG. 6A, the door 713 rotates downward about the hinge 713a to keep the door 713 closed. On the other hand, When the rod 716a is operated as shown in FIG. 6B, the door 713 is maintained in an opened state while rotating the hinge 713a upward. As shown in FIG. 6B, when the door 713 is opened, When the plate 712 is further moved to the other side, the compressed spring 13 is discharged to the outside through the discharge port 710a.

4A to 7, a compression hole 710b is formed in a rear lower portion of the compression cylinder 710 and an intermittent groove 721b is formed in a lower portion of the compression hole 710b. And an end stop groove 722 and an intermittent member 720 formed with a rod insertion hole 723 and a pin guide hole 724 are fixed via a bracket K and the rod insertion hole 723 of the intermittent member 720 Is provided with a fixing pin 731 which is selectively lifted up and down along the pin guide hole 724 and interposed in the intermittent groove 721 and the release groove 722. The outer surface of the door 713 An intermittent rod 730 protruding from the main body 710 is rotatably mounted.

The barrel inner hole 710b is formed in the rear lower portion of the compression barrel 710. An intermittent bar 730 is inserted into the inner barrel 710b so as to be movable upward and downward.

The intermittent member 720 is firmly fixed to a lower portion of the inner cavity 710b through a bracket K. The intermittent member 720 is fixedly fitted with a fixing pin 731 of the intermittent rod 730 The intermittent member 720 is formed with the intermittent groove 721 and the breakage groove 722. The intermittent member 720 is provided with the rod insertion hole 723 for supporting the intermittent rod 730 in an ascending and descending manner, A pin guide hole 724 for movably guiding the fixing pin 731 of the intermittent bar 730 up and down is formed.

The intermittent rod 730 is vertically movable up and down on the rod insertion hole 723 and the inner shaft hole 710b. The intermittent rod 730 is provided with an intermittent groove 721 And a release pin 731 that is selectively fitted in the release groove 722 are formed. 6A, when the fixing pin 731 is lifted up to be engaged with the intermittent groove 721, the intermittent rod 730 is lifted up and caught on the lower outer surface of the door 713. In this state, The stopper rod 730 is lowered when the stopper pin 731 is lowered to be engaged with the release groove 722 as shown in FIG. 6B, so that the door 713 can be opened do. 6B, the door 713 is opened by operating the rod 716a of the cylinder 716 as shown in FIG. 6B after the intermittent rod 730 is lowered as shown in FIG. 6B .

8A and 8B, an intermittent cylinder 740 for interrupting the operation of the door 713 is installed in the rear lower portion of the compression cylinder 710, and the compression cylinder 710 A rod hole 710c through which the intermittent rod 741 of the intermittent cylinder 740 is inserted is formed in the rear lower portion of the door 713. The intermittent rod 721 serves as a stopper protruding to the lower portion of the outer surface of the door 713 . 8A, when the intermittent cylinder 740 is operated, the intermittent rod 741 rises and the lower outer surface of the door 713 is caught by the intermittent rod 741. In this state, the door 713 is not opened On the other hand, when the intermittent cylinder 740 is operated as shown in FIG. 8B, the intermittent rod 741 is lowered, so that the door 713 can be opened in this state. Accordingly, in order to open the door 713, the door 713 is opened by first lowering the intermittent rod 741 as shown in FIG. 8B and then operating the rod 716a of the cylinder 716 as shown in FIG. 8B .

According to another embodiment of the present invention, as shown in FIG. 9, the processing member 700 includes a crushing cylinder 750 for accommodating a spring 13, a crushing cylinder 750 built in the crushing cylinder 750, And a collecting cylinder 753 for collecting the crushing springs crushed by the crushing rollers 751 and 752. The crushing rollers 751 and 752 crush the crushing springs 751 and 752, respectively.

Here, the crusher 750 is installed behind the second conveyor 600, and the spring 13 fed along the second conveyor 600 is supplied to the crusher 750 while being dropped. At this time, a guide 750a for guiding the spring 13, which falls as shown in FIG. 7, between the crushing roller 751 and the crushing roller 752 is provided on one side of the crushing cylinder 750, A discharge port 750b for discharging the crushed broken spring to the collection box 753 is formed.

The crushing rollers 751 and 752 are embedded in the crushing chamber 750. The crushing rollers 751 and 752 serve to crush the spring 13 supplied along the guide 750a. At this time, the crushing spring broken by the crushing rollers 751 and 752 is discharged to the collection box 753 through the discharge port 750b.

The collection box 753 collects the crushing springs crushed by the crushing rollers 751 and 752. The collection box 753 is installed below the outlet 750b of the crushing box 750. [

Accordingly, the present invention is characterized in that the central part of the waste mattress 10 rotating like the turntable 200 is cut by the cutter 300 and the cutting mattress 11 cut at the center is disassembled by the disassembling rollers 500 and 510 There is an advantage that the decomposition mattress 12 and the spring 13 can be simply selected.

In addition, the present invention has an advantage that the selected spring 13 can be easily recycled by compressing or crushing it with the processing member 700.

In addition, since the structure of the waste mattress disintegration apparatus is simple, the present invention has an advantage that the installation cost can be economically reduced and the processing cost can be reduced.

100: Lift 110: Lower plate
120: lift lever 130: top plate
200: turntable 300: cutter
400: first conveyor 500, 510: decomposition roller
600: second conveyer 700: processing member

Claims

A lift (100) having an upper plate (130) installed to be adjustable in height through a lift lever (120) connected to the upper part of the lower plate (110) A turntable 200 rotatably installed on the upper plate 130 to support the waste mattress 10; A cutter 300 for cutting a central portion of the waste mattress 10 rotating together with the turntable 200; A first conveyor 400 for conveying the cut mattress 11 cut at the center by the cutter 300; Disassembling rollers (500) (510) for disassembling the cut mattress (11) conveyed along the first conveyor (400) to sort the decomposed mattress (12) and the spring (13); A second conveyor 600 for conveying the selected spring 13 by the decomposition rollers 500 and 510; And a processing member (700) for processing the spring (13) conveyed along the second conveyor (600)
A slide groove 210 is formed in the center of both upper sides of the turntable 200 in the longitudinal direction and a slide groove 210 is formed in a widthwise direction of the upper front and rear portions of the turntable 200, The fastener 220 which is positioned below the center of the waste mattress 10 cut by the cutter 300 and supports the lower center of the waste mattress 10 can be moved Fixed with a fixing bolt 230,
Wherein a decomposing roller (520) for recovering the decomposed mattress (12) is provided below the decomposition rollers (500, 510).

delete

The image forming apparatus according to claim 1, wherein a plurality of claws (501, 511) corresponding to each other are respectively protruded on the outer surface of the decomposition rollers (500, 510), and the decomposition rollers (500, 510) Wherein the waste mattress decompositionally treating apparatus comprises:

The processing apparatus according to claim 1, wherein the processing member (700) comprises a compression cylinder (710) for receiving a spring (13) A compression plate 712 installed on one side of the compression cylinder 710 so as to be movable from side to side so as to compress the spring 13 and a compression plate 712 provided on the other side of the compression cylinder 710 A door 713 for discharging the compressed spring 13 and cylinders 714, 715 and 716 for operating the pressure plate 711, the compression plate 712 and the door 713, respectively The waste mattress decompositionally treating apparatus.

The apparatus according to claim 4, wherein a sealing cavity (710b) is formed in a rear lower portion of the compression cylinder (710) and an intermittent groove (721), a release groove (722) 723 and the pin guide hole 724 are fixed to the rod insertion hole 723 of the intermittent member 720 along the pin guide hole 724 The intermittent rod 730 protruding to the lower portion of the outer surface of the door 713 through the inner hollow 710b is rotatably fitted to the intermittent groove 721 and the disengagement groove 722, Wherein the apparatus is equipped with an apparatus for decomposing a waste mattress.

The compression cylinder (710) according to claim 4, wherein an intermittent cylinder (740) for interrupting the operation of the door (713) is provided at a rear lower portion of the compression cylinder (710) Wherein a rod hole 710c is formed in which the intermittent rod 741 is inserted and the intermittent rod 741 is configured to serve as a stopper protruding below the outer surface of the door 713. [

The processing apparatus according to claim 1, wherein the processing member includes a crushing cylinder for accommodating a spring, a crushing roller disposed inside the crushing cylinder for breaking the spring, , And a collection box (753) for collecting the crushing springs crushed by the crushing rollers (751) and (752).