KR20160056182A - Integrated inclined transfer conveyor - Google Patents

Abstract

The inclined conveying integral conveyor according to the present invention comprises at least two supporting portions separated from each other, a belt portion provided on the supporting portion, an angle adjusting member provided between the supporting portions and having both sides connected to the supporting portion, And an angle supporting roller provided so as to maintain a distance between the chains;
The belt unit includes sprockets spaced apart from each other in the longitudinal direction of the angle regulating member 130 so as to be rotatably supported on the supporting members and spaced apart from each other in the width direction and spaced apart in the width direction, A plurality of belt units disposed between the chains in the width direction and connected by hinge pins and a plurality of hinge pins passing through the belt unit in the width direction and having both ends rotatably connected to the chain To an inclined conveyor for inclined conveyance.

Description

Integrated inclined transfer conveyor < RTI ID = 0.0 >

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an inclined conveyor for inclined conveyance, and more particularly, to an inclined conveyor for inclined conveyance in which angle adjustment is enabled to convey articles at various heights.

A conveyor is a belt-like conveying device that continuously conveys and transports objects, such as a belt type, body recognition, and Java LASIK.

Conventional belt type and sieve recognition conveyors have a disadvantage in that when conveying objects from a low position to a high position, objects conveyed on the belt can not be conveyed due to the slip phenomenon.

A Z-type belt conveyor has been disclosed in Korean Patent Registration No. 10-1242044 (Mar.

Referring to FIG. 1, a Z-type belt conveyor 1 includes a Z-shaped frame 10, a conveyance belt 20, and a power source 30.

The 'Z' -shaped frame 10 includes a horizontal supply section a, an elevation section b which is inclined to transport an object transported to the supply section a upward, And a horizontal discharge section (c) for discharging the object to be transferred to the elevation section (b).

The conveyance belt 20 is installed inside the frame 10 to convey the object. The conveyance belt 20 is formed by connecting a plurality of belt members 21 to form a plate portion 40 at the time of connection.

The belt member 21 has a front plate bracket 41 and a rear plate bracket 42, which are made of a pair of metal materials, and are connected to each other by bolts and nuts. The conveyor belt 20 thus connected is protruded on the upper surface at a predetermined height in a direction perpendicular to the conveying direction to form the plate portion 40.

In addition, the rear plate bracket 42 is formed with a bending stopper 42a so as to prevent the plate 40 from being bent due to the article being conveyed.

The power source 30 supplies power to the conveyance belt 20 so that the conveyance belt 20 can convey the object. And receives the power from the power source 30 to drive the roller. The rollers allow the conveyor belt 20 to move along the 'Z' shaped frame 10 to convey the article.

The roller includes a driving roller 31, a driven roller 32, and a guide roller 33.

The driving roller 31 rotates the conveyance belt 20 and is installed at an end of the discharge section c. The driven roller 32 is installed on the other side of the driving roller 31 and is installed at the end of the supplying section a. The guide roller 33 is installed between the drive roller 31 and the driven roller 32 and is configured to rotate in the direction of the arrow A A plurality of guide rollers 33 are installed.

The conventional Z-type belt conveyor 1 having such a structure can move a slippage phenomenon such as sludge and powdery substances due to a plurality of plate portions 40 when the object is conveyed, To a higher position.

However, the conventional Z-type belt conveyor can not move the conveyor at various angles, so that it is difficult to transport the conveyor at various heights and there is a problem that it can not be conveyed in the horizontal direction.

Korean Registered Patent No. 10-1242044 (March 31, 2013)

SUMMARY OF THE INVENTION It is an object of the present invention to provide a monolithic conveyor for inclined conveyance which is capable of adjusting the angle of a conveyor and conveying the articles at various heights,

The inclined conveying integral conveyor according to the present invention comprises at least two supporting portions separated from each other, a belt portion provided on the supporting portion, an angle adjusting member provided between the supporting portions and having both sides connected to the supporting portion, And an angle supporting roller provided so as to maintain a distance between the chains;

The belt unit includes sprockets spaced apart from each other in the longitudinal direction of the angle regulating member 130 so as to be rotatably supported on the supporting members and spaced apart from each other in the width direction and spaced apart in the width direction, A plurality of belt units disposed between the chains in the width direction and connected by hinge pins and a plurality of hinge pins passing through the belt unit in the width direction and having both ends rotatably connected to the chain The present invention provides an integral conveyor for slant conveying.

The angle regulating member may include a first rotating portion connected to one supporting portion and a second rotating portion connected to the other supporting portion, the rotation angle of the first rotating portion and the second rotating portion being maintained And a fixing member which is adjustable in angle.

In the above, the supporting portion may include side walls spaced apart from each other in the width direction, and connecting portions extending in the width direction and having both ends connected to the side walls; And the belt portion is located between the side walls at the upper portion of the connecting portion.

In this case, the sprockets are formed in pairs so as to face each other on both side walls of the support part.

The angle support roller is rotatably provided around a rotation axis of the angle adjusting member and is spaced apart from the inside of the angle adjusting member in the width direction.

In the above, an angle auxiliary roller is further included; The angle regulating member is provided to be rotatable around a rotation axis of the angle regulating member and has an upwardly extending arm, the angle assisting roller is rotatably provided on the arm so as to be inward in the width direction, And passes between the angle supporting rollers.

The first hinge may be disposed at a central portion of the belt unit so that the second hinge is spaced apart from the first hinge in the width direction and the other side is inserted between the second hinge. Wherein a first hinge of the belt unit is inserted between second hinges of an adjacent belt unit,

The hinge pin is rotatably inserted through the second hinge and the inserted first hinge so as to be rotatable in the width direction so that a plurality of belt units are coupled in order, and both ends of the hinge pin are connected to the chain .

The inclined conveyor for inclined conveying according to the present invention is integrally formed and is easy to install and can be adjusted at various angles, thus facilitating the conveyance of articles at various heights.

1 is a side view and partly enlarged cross-sectional view showing a conventional Z-type belt conveyor,
FIG. 2 is a perspective view showing an inclined conveyor for inclined conveyance according to the present invention,
FIG. 3 is a perspective view of the integral conveyor for inclined conveyance according to the present invention,
4 is an enlarged side view of a part of the integral conveyor belt portion for inclined conveyance according to the present invention,
5 is an enlarged plan view showing a part of the integral conveyor belt portion for inclined conveyance according to the present invention,
6 is a perspective view illustrating a part of the integral conveyor belt portion for inclined conveyance according to the present invention,
7 is a side view showing an angle adjusting member of the inclined conveying unit according to the present invention,
8 is a perspective view showing a first rotating part of the angle adjusting member according to the present invention,
9 is a perspective view showing a second rotating part of the angle adjusting member according to the present invention,
10 is a perspective view of the angle adjusting member according to the present invention,
11 is a perspective view showing a fixing member of an angle adjusting member according to the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, an inclined conveyor according to the present invention will be described in detail with reference to the accompanying drawings.

FIG. 2 is a perspective view showing an inclined conveyor for inclined conveyance according to the present invention, FIG. 3 is a perspective view illustrating a side wall of a supporting part on one side of an inclined conveyor for inclined conveyance according to the present invention, FIG. 5 is an enlarged plan view of a part of the integral conveyor belt portion for inclined conveyance according to the present invention, and FIG. 6 is a plan view showing the integral conveyor belt portion for inclined conveyance according to the present invention. FIG. 7 is a side view showing an angle adjusting member of the inclined conveying type conveyor according to the present invention, and FIG. 8 is a perspective view showing a first rotating part of the angle adjusting member according to the present invention And FIG. 9 is a perspective view showing a second rotating part of the angle adjusting member according to the present invention. A perspective view showing removal of a part of the second rotation part, 11 is a perspective view showing a fixing member of the angle adjusting member according to the present invention.

In the following description, referring to Fig. 2, it is assumed that the conveying direction of the supporter 100 is the "longitudinal direction", the y-axis direction is the "width direction", the direction away from the origin is "outward""Inward", and the z-axis direction is "up-down".

2 to 3, the inclined conveyor 100 for inclined conveyance according to the present invention includes a support portion 110, a belt portion 120, and an angle adjusting member 130. The support portions 110 are spaced apart from each other and provided at least two. In the following description, for the sake of convenience of explanation, it is assumed that the support portions 110 are two.

The support portion 110 is provided below the belt portion 120 to be described later. The support portion 110 includes a side wall 111 and a connection portion 113. The support part 110 is spaced apart from the neighboring support part 110. A pedestal may be provided under the support portion 110.

The side walls 111 extend in a plate-like longitudinal direction. The side walls 111 are spaced apart from each other in the width direction. Sidewalls 111 of neighboring supports 110 are spaced apart in the longitudinal direction. A first connecting member 1313 or a second connecting member 1333 of an angle adjusting member 130 to be described later is connected to one side and both sides of the outer surface of the side wall 111. [ The second connecting member 1333 or the first connecting member 1313 of the angle adjusting member 130 is provided at one side of the adjacent side wall 111. [ The connection part 113 is provided at the lower end of the side wall 111.

The connection part 113 extends in the longitudinal direction of the side wall 111 in a plate shape. The connection portion 113 extends in the width direction and is connected at both ends to the lower portion of the side wall 111.

The belt unit 120 includes a sprocket 121, a chain 125, a belt unit 127, a hinge pin 129, an angle support roller 123, and an angle assistance roller 124.

The belt portion 120 is provided between the side walls 111 at an upper portion of the connection portion 113. The belt 120 extends in the longitudinal direction. Both ends of the belt part 120 are provided to be located outside the longitudinal direction of the angle adjusting member 130 to be described later. The belt portion 120 is provided over two support portions 110.

As shown in FIGS. 3 and 4, the sprocket 121 is rotatably disposed inside the side wall 111. The sprockets 121 are spaced apart from each other in the width direction. The paired sprockets 121 are spaced apart from each other in the longitudinal direction and are provided in the neighboring support portions 110, respectively. The sprocket 121 spaced in the longitudinal direction is provided on the outer side of the angle adjusting member 130 in the longitudinal direction.

The sprocket 121 is formed with a tooth portion 1211 along the circumferential direction. In the groove of the tooth portion 1211, a roller provided in a chain 125 to be described later is inserted and rotated. A rotating shaft 1213 is provided at the center of the sprocket 121. The rotating shaft 1213 is connected to the center of a sprocket 121 paired with the sprocket 121. A power unit is connected to any one of the sprockets (121). The power unit is connected to the rotating shaft 1213 of the sprocket 121.

The chain 125 is spaced apart from the inner side of the side wall 111. The chains 125 are spaced apart from each other in the width direction. The chain (125) is engaged with the sprocket (121). A pinhole 1251 penetrating in the width direction is formed in the chain 125. The pinhole 1251 is spaced along the length of the chain 125. A hinge pin 129 protruding from an end of a belt unit 127 to be described later is inserted into the pinhole 1251 of the chain 125. The chain 125 is provided with a roller rotatably mounted on the hinge pin 129. The roller is engaged with the sprocket 121.

The belt unit 127 is provided between the chains 125 in the width direction. The belt unit 127 is made of metal, plastic, rubber, or the like. The belt unit 127 includes a plurality of belt units 127 and is connected to a hinge pin 129, which will be described later.

5 to 6, the belt unit 127 is provided with a plate-shaped body and first and second hinges 1271 and 1273 on both sides in the longitudinal direction. A second hinge 1273 is provided at one side of the body of the belt unit 127 in the width direction. The second hinge 1273 is protruded in the longitudinal direction. The second hinge 1273 is integrally formed at one side of the body of the belt unit 127 in a hollow shape having through holes extending in the width direction.

A first hinge 1271 is provided at the center of the belt unit 127 so as to be inserted between the second hinges 1273 of the neighboring belt unit 127. The first hinge 1271 is protruded in the longitudinal direction. The first hinge 1271 is integrally provided on the other side of the body of the belt unit 127 in a hollow shape having a through hole extending in the width direction. The first hinge 1271 may be equal to or less than the second hinge 1273. The first hinge 1271 and the second hinge 1273 may be reversed. The hollow interior of the first hinge 1271 and the second hinge 1273 is a hinge hole into which a hinge pin 129 to be described later is inserted.

The first hinge 1271 of the belt unit 127 is inserted between the second hinge 1273 of the adjacent belt unit 127. The hinge pin 129 is inserted into the hinge hole formed in the second hinge 1273 and the first hinge 1271. The hinge pin 129 is coupled through the second hinge 1273 and the first hinge 1271 in order. The hinge pin 129 rotatably passes through the second hinge 1273 and the first hinge 1271 inserted in the width direction of the second hinge 127. Both ends of the hinge pin 129 are engaged with the second hinge 1273, And is protruded in the width direction. Both ends of the hinge pin 129 are connected to the pinhole 1251 of the chain 125.

The belt unit 127 may have a receiving member (not shown) at an upper end or a longitudinal end thereof in a direction orthogonal to the conveying direction. The support member extends in the width direction at an upper portion of the belt unit 127. The supporting member is provided to be spaced apart in the longitudinal direction. The support member serves to prevent the conveyed object from slipping during the slant conveyance.

The angle supporting roller 123 is provided in the width direction of the belt portion 120 in the longitudinal direction in the sprocket 121. The angle supporting roller 123 is provided between the supporting portions 110. The angle supporting roller 123 is provided to be spaced from the inside of the angle adjusting member 130 in the width direction. The angle supporting roller 123 is provided so that the vertical distance of the chain 125 is kept constant. The idle roller may be spaced apart from the sprocket 121 and the angle supporting roller 123 in the longitudinal direction so as to support the belt portion 120 between the angle supporting roller 123 and the angle supporting roller 123 . The idler rollers are rotatably provided on the side wall 111 on both sides.

At the center of the angle supporting roller 123, a rotation axis extends in the width direction. The rotation shaft is connected to the center of the fixing member 135 of the angle adjusting member 130, which will be described later. The angle support roller 123 is rotatably provided around the rotation axis of the angle adjusting member 130.

The angle-assisting roller 124 is spaced apart from the angle-supporting roller 123 and extends in the width direction. The angle-assisting roller 124 is connected to an arm that is rotatable about the rotation axis.

The arm is provided between the angle assist roller 124 and the angle adjusting member 130. The arm is provided in a hollow body through which the rotating shaft passes. The arm is connected to a hollow body through which the rotating shaft passes, and is extended in the upward direction and inward in the width direction of the belt unit 127. One end of the arm is connected to a hollow body, and the other end of the arm is rotatably supported by the angle assistance roller 124. The chain 125 passes between the angle support roller 123 and the angle assist roller 124. The angle assistance roller 124 serves to prevent the chain 125 and the belt unit 127 from being separated from the angle supporting roller 123.

The angle regulating member 130 is provided between the outer surfaces of the support portion 110. Both sides of the angle adjusting member 130 are connected to the spaced apart support portions 110, respectively. The angle regulating member 130 is connected to a rotation shaft passing through the angle supporting roller 123. The angle regulating member 130 is spaced apart from the angle supporting roller 123 in the width direction.

 The angle adjusting member 130 includes a first rotating part 131, a second rotating part 133, and a fixing member 135.

7 to 11, the angle regulating member 130 is formed such that the first rotation plate 1311 of the first rotation part 131 is located inside the second rotation plate 1331 of the second rotation part 133 And is connected to the fixing member 135.

The first rotating part 131 is provided with a first rotating plate 1311 and a first connecting member 1313.

The first linking member 1313 is provided as a hollow body having one side opened. The first linking member 1313 may be provided with a non-porous body. A first rotating plate 1311, which will be described later, is provided on the opened side of the first connecting member 1313. A first support hole 1312 is formed in a side surface of the first connection member 1313 in a width direction. The first support hole 1312 is spaced apart from the other end of the first connection member 1313. The first support holes 1312 are spaced apart from each other in the longitudinal direction and are provided at least one. The first connection member 1313 penetrates the first support hole 1312 and is installed on the side wall 111 of the support portion 110 by a member such as a bolt or a screw.

The first rotating plate 1311 is formed as a hollow circular shape with one side opened. The opened side of the first rotating plate 1311 is connected to the opened side of the first connecting member 1313. The first rotating plate 1311 may be formed of a non-porous body.

A first pinhole 1315 and a first fixing hole 1317 are formed in the first rotating plate 1311. The first pinhole 1315 is formed to pass through the center of the first rotating plate 1311 in the width direction. The connection pin 1353 of the fixing member 135, which will be described later, is inserted through the first pinhole 1315.

A first fixing hole 1317 is formed radially spaced apart from the first pinhole 1315. The first fixing hole 1317 is formed to be larger than the width of a fixing pin 1359 to be described later. The first fixing holes 1317 are spaced apart in the circumferential direction to form a plurality of first fixing holes 1317. The first fixing holes 1317 are formed as a pair of first fixing holes 1317 at positions facing each other. The gap between the neighboring first fixing holes 1317 is formed to be larger than the width of the latching portion 1334 to be described later. The fixing pin 1359 is inserted into the first fixing hole 1317. The fixing pins 1359 are simultaneously inserted and fixed in the first fixing holes 1317 formed at mutually opposing positions.

The second rotating portion 133 is provided with a second rotating plate 1331 and a second connecting member 1333.

The second connection member 1333 is provided as a hollow body having one side opened. The second linking member 1333 may be formed of a non-porous member. And a second rotating plate 1313, which will be described later, is provided in the width direction on the opened side of the second linking member 1333.

A second support hole 1332 is formed through the side surface of the second connection member 1333 in the width direction. The second support hole 1332 is spaced apart from the other end of the second connection member 1333. The second support holes 1332 are spaced apart from each other in the longitudinal direction and are provided at least one. The second connection member 1333 is installed on the side wall 111 of the support portion 110 through a bolt or a screw through the second support hole 1332. [

The second rotating plate 1331 is formed in a circular plate shape and has one side connected to the opened side of the second connecting member 1333. The second rotating plates 1331 are spaced apart from each other in the width direction and are paired with each other. The second rotary plate 1331 defines a second rotary plate 1331 located on the outer side in the width direction as the "outer plate" and the second rotary plate 1331 located on the inner side in the width direction as the "inner plate".

A second pinhole 1335 and a second fixing hole 1337 are formed on the outer plate of the second rotary plate 1331. A second pinhole 1335 is formed at the center of the second rotating plate 1331. The connection pin 1353 of the fixing member 135 is inserted into the second pinhole 1335. Two second fixing holes 1337 are formed radially from the second pinhole 1335. The second fixing holes 1337 are formed at positions opposite to each other. The second fixing hole 1337 is formed larger than the width of the fixing pin 1359. In the second fixing hole 1337, a locking protrusion 1359a provided at an end of a fixing pin 1359 to be described later is inserted. The locking protrusion 1359a is inserted and fixed to the second fixing hole 1337 at the same time.

A spring fixing hole 1339 is formed on the outer plate of the second rotating plate 1331 so as to be spaced from the periphery of the second rotating plate 1331. One end of a spring 1352 to be described later is inserted and fixed in the spring fixing hole 1339.

A second pinhole 1335, a second fixing hole 1337, and a locking portion 1334 are formed on the inner plate of the second rotating plate 1331. The second pinhole 1335 and the second fixing hole 1337 are formed at the same positions of the second pinhole 1335 and the second fixing hole 1337 formed in the outer plate. The locking part 1334 is formed to be connected to the second fixing hole 1337. The engaging portion 1334 extends from the second fixing hole 1337 in the circumferential direction. The engaging portion 1334 is smaller than the width of the fixing pin 1359 and larger than the width of the engaging projection 1359a.

The fixing member 135 includes a pressing member 1351, a spring 1352, a connecting pin 1353, a rotating lever 1357, and a fixing pin 1359. The fixing member 135 is inserted into the pinholes 1315 and 1335 formed in the first rotating plate 1311 and the second rotating plate 1331 and the fixing holes 1317 and 1337. The fixing member 135 allows the angle of rotation to be adjusted by maintaining the rotation angle of the first rotation part 131 and the second rotation part 133.

The rotation lever 1357 is provided in the form of a bar. The connection pin 1353 and the fixing pin 1359 provided on the rotation lever 1357 are protruded in the same direction.

The fixing pin 1359 is spaced from both ends of one side of the rotation lever 1357. The fixing pin 1359 is inserted into the first supporting hole 1312 of the first rotating plate 1311 and the second supporting hole 1332 of the second rotating plate 1331 in order. At the end of the fixing pin 1359, a tuck is formed and a locking protrusion 1359a is provided. The width of the locking protrusion 1359a is smaller than the width of the fixing pin 1359. [

A shaft hole for inserting the rotation shaft and a connection pin 1353 to be described later is formed at the center of the rotation lever 1357. A jaw portion is formed on the inside of the shaft hole so as to be inwardly spaced from one side. A rotation shaft passing through the angle supporting roller 123 is inserted into one side of the shaft hole. When the pressing member 1351 to be described later is pressed, the end portion of the rotating shaft is hooked on the jaw portion. The rotation shaft is inserted to be rotatable. The width of the inside of the jaw is equal to or larger than the width of the connection pin 1353 and smaller than the width of the rotation shaft. The connecting pin 1353 is inserted into the center of the rotation lever 1357 at the center.

The connection pin 1353 is inserted into a shaft hole of the rotation lever 1357. The connection pin 1353 is inserted into the first pinhole 1315 of the first rotary plate 1311 and the second pinhole 1335 of the second rotary plate 1331 in order. The spring 1352 is passed through the end of the connection pin 1353 and a pushing member 1351 is provided.

The pushing member 1351 is provided at the end of the connecting pin 1353. [ The pressing member 1351 is provided as a hollow body having one side opened. The opening side of the pushing member 1351 is provided toward the connection pin 1353. [

The spring 1352 passes through the connection pin 1353 and is provided between the outer plate of the second rotary plate 1331 and the pressing member 1351. One end of the spring 1352 is fixed to the inside of the pressing member 1351. The other end of the spring 1352 is inserted and fixed in the spring fixing hole 1339 formed in the outer plate of the second rotating part 133.

Now, the operation of the angle adjusting member 130 for adjusting the angle of the present invention will be described. The angle adjusting member 130 is angularly adjusted by pressing the pressing member 1351 inward in the width direction.

When the pressing member 1351 is not pressed, the spring 1352 generates an external force in a direction to move the pressing member 1351 away from the outer plate of the second rotating plate 1331, ).

The other end of the spring 1352 is inserted and fixed in the spring fixing hole 1339 so that the fixing member 135 can be rotated in the one direction A As shown in Fig.

When the pressing member 1351 is pressed, the fixing pin 1359 is separated from the first fixing hole 1317 and the second fixing hole 1337. The rotation lever 1357 is rotated by the action of the spring 1352 so that the locking protrusion 1359a is guided to the locking portion 1334. The fixing pin 1359 is caught by the jaw attaching portion 1334 of the fixing pin 1359. The fixing pin 1359 is maintained in a state of being separated from the first fixing hole 1317 and the second fixing hole 1337 of the outer plate of the second rotating plate 1331.

The connection members 1313 and 1333 are adjusted in a state where the fixing pin 1359 is disengaged to align the support holes 1312 and 1332 at a desired angle. When the rotation lever 1357 is rotated in a direction opposite to the A direction in a state where the support holes 1312 and 1332 are aligned with each other, the fixing pin 1359 is inserted into the support holes 1312 and 1332 and fixed.

While the integral conveyor for inclined conveyance according to the present invention has been described with reference to the embodiments shown in the drawings, it is to be understood that the present invention is merely illustrative and that various modifications and equivalent other embodiments are possible for those skilled in the art . Accordingly, the scope of the true technical protection should be determined by the technical idea of the appended claims.

100: One-piece conveyor for inclined feed
110: support part 111: side wall
113: connection part 120: belt part
121: Sprocket 123: Angular support roller
124: angle assist roller 125: chain
127: Belt unit 129: Hinge pin
130: Angle adjusting member 131:
133: second rotating part 135: fixing member
1351: pushing member 1352: spring
1353: connecting pin 1357: rotating lever
1359: Fixing pin

Claims (7)

A belt portion 120 provided on the support portion 110 and an angle adjusting member 120 provided between the support portion 110 and both sides of which are connected to the support portion 110. The support portion 110 includes at least two support portions 110 spaced apart from each other, (130) and an angle supporting roller (123) provided between the support part (110) and acting to maintain a distance between the chains (125);
The belt unit 120 includes sprockets 121 spaced apart from each other in the longitudinal direction of the angle regulating member 130 and rotatably mounted on the supporting unit 110 and spaced apart from each other in the width direction, A plurality of belts 127 spaced apart from each other in the width direction and meshing with the sprocket 121 and a belt unit 127 positioned between the chain 125 in the width direction and connected by a hinge pin 129, And a plurality of hinge pins (129) piercing through the belt unit (127) in the direction of the chain (125) and rotatably connected to the chain (125) at both ends. The apparatus according to claim 1, wherein the angle regulating member (130) comprises a first rotation part (131) connected to one support part (110) and a second rotation part connected to the other support part 133 and a fixing member 135 for maintaining a rotation angle of the first rotation part 131 and the second rotation part 133 so that the angle can be adjusted. [3] The apparatus of claim 2, wherein the support portion comprises a side wall spaced apart from each other in the width direction, and a connection portion extending in the width direction and having both ends connected to the side wall; Characterized in that the belt part (120) is located between the side walls (111) at the upper part of the connection part (113). The integrated conveyor (100) according to claim 3, wherein the sprockets (121) are paired with each other on both side walls (111) of the support part (110). [3] The apparatus according to claim 2, wherein the angle support roller (123) is rotatable about a rotation axis of the angle regulating member (130) and is spaced apart from the angle regulating member (130) Integrated conveyor (100) for inclined conveyance. 3. The apparatus of claim 2, further comprising an angle assistance roller (124); The angle regulating member 130 is provided with an arm extending upwardly and rotatable about a rotation axis of the angle regulating member 130 and the angle assisting roller 124 is rotatably mounted on the arm so as to be inward in the width direction , And the chain (125) passes between the angle assistance roller (124) and the angle support roller (123). The hinge unit according to claim 1, wherein a second hinge (1273) is provided at one side of the belt unit (127) spaced apart from each other in the width direction, and a first hinge 1271; The first hinge 1271 of the belt unit 127 is inserted between the second hinge 1273 of the adjacent belt unit 127,
The hinge pin 129 is rotatably supported by the second hinge 1273 and the first hinge 1271 inserted in the width direction so that a plurality of belt units 127 are sequentially coupled to the hinge pin 129, Is connected to the chain (125). ≪ RTI ID = 0.0 > 1 < / RTI >

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