KR102060833B1 - Construction material transport device - Google Patents

Abstract

The present invention relates to a material transport device for separating aggregates used by mixing the same in concrete or mortar into reused aggregates and discarded aggregates and transferring the same to the reused side and the discarded side. The material transport device comprises: an aggregate hopper unit storing aggregates, and formed to automatically discharge the stored aggregates by selecting one setting of an aggregate discharge amount or an aggregate discharge time set to an aggregate transfer unit side or to manually discharge the same by an operator; the aggregate transfer unit transferring the aggregate discharged from the aggregate hopper unit to the aggregate separation transfer unit side; and an aggregate separating and conveying unit formed to separate the aggregate transferred through the aggregate transfer unit into aggregate for reuse and waste aggregate for disposal.

Description

Construction material transport device

The present invention relates to a material conveying apparatus, and more particularly, to a material conveying apparatus which is an apparatus for conveying aggregate used as construction materials and the like.

Construction waste materials such as aggregate or waste concrete mixed with cement are crushed and conveyed through a conveyor.

Automatic conveyors are used to improve the efficiency of work by separating and sorting waste materials and crushing them through a crusher.

However, there is a problem that the existing device is crushed and generated dust during transporting damage the health of the worker.

In addition, since the dust is scattered in a large amount deposited on the equipment there is a problem that the life of the equipment is shortened.

In addition, the waste material to be transported by grinding is not completely pulverized, there is a problem that the operator must sort by hand.

Korea Patent Registration No. 10-0696308

The present invention provides a construction device for separating the recycled aggregate and the waste aggregate through the process of transporting and separating the aggregate stored in storage.

In addition, the present invention provides a configuration for transporting the recycled aggregate generated by the configuration for separating the aggregate and the waste aggregate generated by the configuration for separating the aggregate to be stored and stored or discharged to the outside.

In addition, the present invention provides a component for preventing scattering by spraying water on the dust generated during the transfer of aggregate and recycled aggregate and waste aggregate.

In addition, it provides a vibrator constituting device to separate the recycled aggregate and the waste aggregate by applying vibration or shock to aggregate aggregated in agglomerates when the aggregate is separated.

In addition, by providing a real-time measurement of the weight of the recycled aggregate transported provides a component of the weighing means that can determine the daily production amount, monthly production amount and the like.

In addition, there is provided a variable means configuration device to facilitate the discharge in multiple directions during the discharge of waste aggregate.

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

The material transfer device for separating the aggregate used in mixing with concrete or mortar according to an embodiment of the present invention into reused aggregates and discarded waste aggregates and transporting them to the reuse side and the waste side, the aggregates are stored and stored. An aggregate hopper unit which is automatically discharged by selecting any one of the aggregate discharge amount or the aggregate discharge time set to the aggregate transfer unit side, or the operator is formed to manually discharge the aggregate; And an aggregate transfer unit for transferring the aggregate discharged from the aggregate hopper unit to an aggregate separation transfer unit. And an aggregate separation and transfer unit configured to separate the aggregate transferred through the aggregate transfer unit into aggregate for reuse and waste aggregate for disposal.

In one embodiment, the aggregate hopper unit, the hopper is formed to store and store the aggregate for discharge and separation; A hopper driving motor which is formed at a lower side of the hopper for discharging the aggregate stored in the hopper to an aggregate discharge conveyor side; In order to transfer the hopper discharged by the operation of the hopper driving motor to the aggregate transport unit side, the aggregate discharge conveyor is formed horizontally in the lower direction of the hopper drive motor, The aggregate transport unit, aggregate aggregate discharged from the aggregate hopper unit second aggregate A first aggregate conveying means formed to horizontally convey the conveying means; And a second aggregate transfer means provided to receive the aggregate transported through the first aggregate transfer means and configured to upwardly transfer the aggregate to the aggregate separation transfer part, wherein the first aggregate transfer means is aggregate discharged from a plurality of hoppers. A first conveying frame horizontally formed in a plurality of hoppers in a lower direction to convey the hoppers; A first conveying belt formed along a first conveying roller to allow aggregate to be seated and conveyed to an upper side of the first conveying frame; A first feed motor connected to a first feed roller formed in one end direction to rotate the first feed roller formed in one end direction among the plurality of first feed rollers; A plurality of first transport rollers formed at a predetermined interval between the first transport conveyor belts to rotate the first transport conveyor belts; It includes a first scattering prevention net is formed on the first conveying frame so that dust generated in the aggregate conveyed along the first conveying belt is not scattered, the first aggregate conveying means is seated on the first conveying belt Further comprising a plurality of first spray nozzles are formed in the first scattering prevention net in order to remove the dust generated from the aggregate to be transported by water, wherein the second aggregate transfer means, the first aggregate transfer means is provided on the side A second transfer frame formed in an oblique form of an upward shape in one direction of the first aggregate transfer means to transfer the aggregate to the separated aggregate transfer part; An aggregate fall prevention member formed on one side of the second transfer frame to prevent the aggregate provided from the first aggregate transfer means from falling down toward the opposite side of the transfer; A second conveying belt formed along a second conveying roller to allow aggregate to be seated and conveyed to an upper portion of the second conveying frame; A second feed motor connected to a second feed roller formed in one end direction to rotate the second feed roller formed in one end direction among the plurality of second feed rollers; It includes a second feed roller which is formed in a plurality of spaced intervals between the second conveying conveyor belt to rotate the second conveying conveyor belt, wherein the aggregate separation conveying unit, separating the aggregate provided from the second aggregate conveying means side An aggregate separation transport frame formed in one direction of the second aggregate transport means; An aggregate separation network formed of a plurality of grooves above the aggregate separation transfer frame to separate the aggregate provided from the second aggregate transfer means into recycled aggregate and waste aggregate; A separation prevention member formed on both sides of the aggregate separation transfer frame such that the waste aggregate separated from the aggregate separation network is not separated from the aggregate separation transfer frame to the outside; It includes a discharge port formed to one side of the aggregate separation transport frame so that the waste aggregate is separated through the aggregate separation network, the aggregate separation transport unit, the aggregate separation network is formed to one side of the aggregate separation network through the vibration in the aggregate separation network Separation vibrator; Further comprising a discharge variable stage formed between the discharge port and the aggregate separation transport frame to be variable to the left and right to discharge the waste aggregate discharged through the discharge direction in multiple directions, and to transport the aggregate separated by the filter through the aggregate separation transfer unit Regenerated aggregate transfer means formed on one side of the aggregate separation transfer unit, The recycled aggregate transfer means, Regenerated aggregate frame is formed so as to rise in a diagonal direction to the aggregate separation transfer unit to transfer the recycled aggregate; A recycled aggregate conveyor belt formed on the recycled aggregate frame to transfer the recycled aggregate separated from the aggregate separation and transporting portion to the lower side; A recycled aggregate transfer motor connected to a recycled aggregate roller formed at one end of the recycled aggregate conveying means to rotate the recycled aggregate roller; Regenerated aggregate conveyor rollers are formed in a plurality of intervals between the regenerated aggregate conveyor belt to rotate the recycled aggregate conveyor belt; It includes a recycled aggregate scattering prevention net formed on the recycled aggregate frame to prevent the scattering of dust generated from the recycled aggregate transported seated on the recycled aggregate conveyor belt, the recycled aggregate transfer means, dust generated during the transfer of reclaimed aggregate Recycled aggregate spray nozzle is formed in the plurality of recycled aggregate scattering prevention net to spray the water; It includes a weight measuring means formed on one side of the recycled aggregate conveyor belt to measure the weight of the recycled aggregate transported by measuring the weight of the recycled aggregate transported seated on the recycled aggregate conveyor belt for each section.

In one embodiment, the material transfer device, waste aggregate hopper portion is formed so that the waste aggregate is discarded in the separated aggregate; And a waste aggregate transfer unit formed to discharge from the waste aggregate hopper to the outside, wherein the waste aggregate hopper unit includes: a waste aggregate hopper formed to store and store the waste aggregate filtered through the aggregate separation transfer unit; A waste aggregate hopper motor formed downward of the waste aggregate hopper to discharge to the outside from the waste aggregate hopper; Waste aggregate discharge conveyor which is formed in the downward direction of the waste aggregate hopper motor to transfer the waste aggregate discharged by the waste aggregate hopper motor to the waste aggregate transfer unit side; The waste aggregate transfer unit, waste aggregate transfer means for transferring the waste aggregate provided from the waste aggregate hopper unit; And a waste aggregate frame variable stage for discharging the waste aggregate provided by the waste aggregate conveying means to a multi-directional place, wherein the waste aggregate conveying means is formed to rise in an oblique direction to convey the waste aggregate. Aggregate transfer frame; A waste aggregate transfer conveyor formed on the waste aggregate transfer frame to transfer the waste aggregate falling from the waste aggregate hopper part; A waste aggregate transfer motor connected to a waste aggregate transfer roller formed at one end of the waste aggregate transfer means to rotate the waste aggregate transfer roller; Waste aggregate transport rollers are formed in a plurality of intervals between the waste aggregate conveyor belt to rotate the waste aggregate conveyor belt; A waste aggregate scattering prevention net is formed in the waste aggregate frame to prevent dust from scattering aggregates that are seated and transported on the waste aggregate conveyor belt, and the waste aggregate transfer means includes dust generated during transfer of waste aggregates. It further comprises a plurality of waste aggregate spray nozzles formed inside the waste aggregate scattering prevention net to spray water to the waste aggregate frame variable stage, slide up or down or rotate left and right to transport the waste aggregate in multiple directions Variable frame formed to be; A slide member formed on one side of the variable frame such that the variable frame is lifted up and down in a slide manner; A rotating member formed on one side of the slide member so that the variable frame can be rotated to the left and right sides; A variable conveying conveyor formed on the variable frame to convey the waste aggregate provided from the waste aggregate conveying means; A variable feed motor in which a waste aggregate frame is formed at one end of the variable end to rotate the variable feed roller; Variable feed rollers are formed in plural at regular intervals between the variable feed conveyor to rotate the variable feed conveyor; It includes a discharge angle adjusting means formed to one side of the rotating member to rotate to a certain angle of the rotating member.

In one embodiment, the material transfer device, the lifting and lowering respectively formed on the second transfer frame and the waste aggregate transfer frame to raise and lower the transfer conveyor in the vertical direction so that the aggregate and the waste aggregate to be transferred from one side to the other side smoothly Including a steel, the elevating portion, the elevating member is formed to the lower side of the second transfer frame and the aggregate transport frame; A fixing member fixed to the ground in a direction corresponding to the elevating member; A first connection frame for connecting between the elevating member and the fixing member, the first connecting frame being formed to cross the second connecting frame; A second connection frame for connecting between the elevating member and the fixing member, the second connecting frame being formed to be tabled with the first connecting frame; A lifting cylinder formed to be connected to the first connecting frame and the second connecting frame to raise and lower the lifting member about the fixed member; A slide member for connection coupling between the lifting cylinder and the first connection frame and connection coupling between the lifting cylinder and the second connection frame; And a slide groove formed in each of the elevating member and the fixing member so that the slide member slides by the elevating cylinder.

By transporting the recycled aggregate generated by the configuration of separating the aggregate of the present invention described above and the waste aggregate generated by the configuration of separating the aggregate transport and storage or storage, or to be discharged to the outside to enable automatic separation The effect of improving productivity can be provided.

In addition, by spraying water to the dust generated during the transfer of aggregate and recycled aggregate and waste aggregate to prevent scattering can prevent the air pollution of the workplace in advance can provide an effect not to harm the health of the worker.

In addition, by applying the vibration or shock to the aggregate aggregated in agglomerates when the aggregate is separated by a vibrator can provide the effect of maximizing the efficiency of the operation by separating the recycled aggregate and waste aggregate smoothly.

In addition, by measuring the weight of the recycled aggregate transported in real time, it is possible to check the daily production amount, monthly production amount, etc. can provide the effect of maximizing the productivity of the work.

In addition, it is easy to multi-directional discharge due to the variable means when discharging the waste aggregate provides the effect of maximizing the work efficiency and space efficiency and the working environment.

The effects of the present invention are not limited to the above-mentioned effects, and various effects may be included within the scope apparent to those skilled in the art from the following description.

1 is a perspective view of a material transport apparatus according to an embodiment of the present invention.
Figure 2 is a detailed view of the aggregate hopper unit for the material conveying apparatus according to an embodiment of the present invention.
Figure 3 is a detailed view of the aggregate transport unit for the material transport apparatus according to an embodiment of the present invention.
4 is a detailed view of the aggregate transfer unit according to another embodiment of FIG.
Figure 5 is a detailed view of the aggregate separation transfer unit for the material transfer device according to an embodiment of the present invention.
6 is a detailed view of the aggregate separation transfer unit according to another embodiment of FIG.
Figure 7 is a detailed view of the recycled aggregate transport means for the material transport apparatus according to an embodiment of the present invention.
8 is a detailed view of the recycled aggregate transport means according to another embodiment of FIG.
9 is a perspective view of a waste material conveying apparatus for a material conveying apparatus according to another embodiment of the present invention.
10 is a detailed view of the waste aggregate frame variable stage of the waste aggregate hopper according to another embodiment of FIG.
11 is a detailed view of the elevating unit according to another embodiment of the present invention.

DETAILED DESCRIPTION OF THE INVENTION The following detailed description of the invention refers to the accompanying drawings that show, by way of illustration, specific embodiments in which the invention may be practiced. These embodiments are described in sufficient detail to enable those skilled in the art to practice the invention. It is to be understood that the various embodiments of the invention are different but need not be mutually exclusive. For example, certain shapes, structures, and characteristics described herein may be embodied in other embodiments without departing from the spirit and scope of the invention in connection with one embodiment. In addition, it is to be understood that the location or arrangement of individual components within each disclosed embodiment may be changed without departing from the spirit and scope of the invention. The following detailed description, therefore, is not to be taken in a limiting sense, and the scope of the present invention is defined only by the appended claims, along with the full scope of equivalents to which such claims are entitled. Like reference numerals in the drawings refer to the same or similar functions throughout the several aspects.

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

1 is a view showing a perspective view according to an embodiment of the present invention.

Referring to Figure 1, the material transfer device 10 for separating the aggregate used in mixing with concrete or mortar into the recycled aggregate and the waste aggregate is disposed, the aggregate hopper unit 100, aggregate transfer unit 200, aggregate It includes a separate transfer unit.

The aggregate hopper unit 100 is a housing for storing and storing aggregate input from the outside, the aggregate is stored and stored before the aggregate is separated into recycled aggregate and waste aggregate, and discharge the aggregate to the aggregate transfer unit 200 side It is for the configuration.

The aggregate transfer unit 200 is a configuration for transferring the aggregate discharged from the aggregate hopper unit 100 to the aggregate separation transfer unit side.

The aggregate separation transfer unit is configured to separate the provided aggregate into recycled aggregate and waste aggregate.

2 is a view showing a detailed view of the aggregate hopper portion 100 according to an embodiment of the present invention.

2, the aggregate hopper unit 100 includes a hopper 110, a hopper driving motor 120, and an aggregate discharge conveyor 130.

The hopper 110 is a chamber for storing and storing the recycled aggregate and the waste aggregate before separating the aggregate into the upper side, the aggregate is discharged to the lower side.

The hopper 110 is formed of one or a plurality depending on the amount of aggregate.

The hopper driving motor 120 is formed under the hopper 110 to discharge the aggregate stored and stored in the hopper 110 to the aggregate discharge conveyor 130 side.

The hopper driving motor 120 is operated according to the discharge time or the discharge amount is set, and is discharged by moving the screw (not shown) formed connected to the hopper driving motor 120, the screw during the operation of the hopper driving motor 120 It is formed to rotate in place so that the aggregate moves out along the groove of the screw.

The aggregate discharge conveyor 130 is formed in the lower direction of the hopper driving motor 120 so that the aggregate discharged by the hopper driving motor 120 is seated.

The aggregate discharge conveyor 130 is horizontally formed so that one side is toward the aggregate transport portion 200 side.

Therefore, the aggregate transported along the aggregate discharge conveyor 130 is provided to the aggregate transfer unit 200 side.

3 is a view showing a detailed view of the aggregate transport unit 200 according to an embodiment of the present invention.

Referring to FIG. 3, the aggregate transfer part 200 includes a first aggregate transfer means 210 and a second aggregate transfer means 220.

The first aggregate transfer means 210 is a means for transferring the aggregate provided from the aggregate hopper portion 100 to the second aggregate transfer means 220, and is formed to be horizontally below the aggregate hopper portion 100. .

The second aggregate transfer means 220 is a means for transferring the aggregate provided from the first aggregate transfer means 210 to the aggregate separation transfer portion side, the second aggregate transfer means 220 is formed from the lower side to the upper side , Characterized in that the aggregate is transported upwards.

Aggregate transported to the upper side is formed to fall to the aggregate separation and transporting side is aggregated aggregate is formed to be the primary separation by the impact due to the fall.

The first aggregate conveying means 210, the first conveying frame 211, the first conveying belt 212, the first conveying motor 213, the first conveying roller 214, the first scattering prevention net 215 ).

The first conveying frame 211 is to form a frame of the first aggregate conveying means 210, the first conveying belt 212 and the first conveying roller 214 is formed in a rectangular frame to form a seat The first transfer frame 211 is formed below the aggregate discharge conveyor 130 of the aggregate hopper unit 100.

The first conveyance belt 212 is formed above the first conveying frame 211, and is formed to be idle by the first conveying roller 214.

The first conveyor belt 212 is rotated in a manner that the belt is rotated at the starting point is returned to the repositioned position. The first conveyor belt 212 is formed to receive the aggregate descending from the aggregate discharge conveyor (130).

The first conveyance belt 212 is formed according to the structure and shape of the first conveying roller 214.

For example, when the first conveying roller 214 is a "V" type, the first conveying belt 212 is formed in a "V" form is formed so that the aggregate is easily transported without leaving the outside.

In addition, it may be formed in the "-" form, the "U" form and the like, in the present invention is preferably formed in the "V" or "U" form.

The first conveying motor 213 is for rotating the first conveying roller 214, and a plurality of first conveying rollers 214 are formed between the first conveying belt 212, which is more specific, one side The first feed motor 213 is connected to the first feed roller 214 formed at the end.

Therefore, when the first feed motor 213 is operated, the first feed roller 214 is rotated, and the first feed conveyor belt 212 is pulled when the first feed roller 214 is rotated. 212 is formed to rotate along the plurality of first feed rollers 214.

The first conveying roller 214 is formed between a plurality of the first conveying conveyor belt 212, the first conveying roller 214 is the first conveying roller (212) when the first conveying conveyor belt 212 is moved in one direction 214 is rotated due to the friction with the first conveyor belt 212, so that the first conveying belt 212 is smoothly moved in one direction as the plurality of first conveying roller 214 is rotated.

The first scatter prevention net 215 is to prevent the dust generated in the aggregate is transported to the first conveying conveyor belt 212 to the outside, the first scatter prevention net 215 is the first transfer frame It is formed to surround the first conveying belt (212) to the upper side (211).

The first scatter prevention net 215 is formed of a synthetic resin material so as not to be torn by the impact during the transfer of aggregate.

The first shatterproof net 215 is formed of a plurality of "∩" shaped frame is formed along the first transfer frame 211.

The second aggregate conveying means 220, the second conveying frame 221, the aggregate fall prevention member 222, the second conveying belt 223, the second conveying motor 224, the second conveying roller 225 ).

The second conveying frame 221 is to form a frame of the second aggregate conveying means 220, the second conveying belt 223 and the second conveying roller 225 is formed in a rectangular frame to form a seat The second transfer frame 221 is formed at a predetermined interval away from one side of the first aggregate transfer means 210, and more specifically, the second transfer frame 221 in a lower direction of one side of the first aggregate transfer means 210. One side is formed.

The second conveying frame 221 is formed in the form of an oblique line in the upper direction of the aggregate separating and transporting portion in the lower direction of the first aggregate conveying means (210).

The aggregate fall prevention member 222 is formed at one end of the second transfer frame 221, and more specifically, the aggregate is dropped to the first aggregate transfer means 210 formed on the first aggregate transfer means 210 side. Is formed so as not to be pushed toward the lower side of the second transfer frame (221).

Aggregate fall prevention member 222 is prevented from being pushed down by the aggregate weight even when the second conveyance belt 223 rotates to the second conveying frame 221 formed in an oblique form. Is formed.

The second conveyance belt 223 is formed above the second conveying frame 221, and is formed to be idling by the second conveying roller 225, that is, to be rotated only in one direction.

The second conveying belt 223 is made of a rotation in which the belt rotated at the starting point is returned to the repositioned position. The second conveyance belt 223 is formed to receive the aggregate is lowered from the first aggregate conveying means (210).

The second conveyance belt 223 is formed according to the structure and shape of the second conveying roller 225.

For example, when the second conveying roller 225 is a "V" type, the second conveying belt 223 is formed in a "V" form is formed so that the aggregate is easily transported without leaving the outside.

In addition, it may be formed in the "-" form, the "U" form and the like, in the present invention is preferably formed in the "V" or "U" form.

The second conveying motor 224 is for rotating the second conveying roller 225, more specifically, a plurality of second conveying rollers 225 are formed between the second conveying belt 223, one side The second feed motor 224 is connected to the second feed roller 225 formed at the end.

Therefore, when the second feed motor 224 is operated, the second feed roller 225 is rotated, and when the second feed roller 225 is rotated, the second feed conveyor belt 223 pulls the second feed conveyor belt. 223 is formed to rotate along the plurality of second feed rollers 225.

The second conveying roller 225 is formed between a plurality of the second conveying conveyor belt 223, the second conveying roller 225 is a second conveying roller (223) when the second conveying conveyor belt 223 is moved in one direction ( 225 is rotated due to the friction with the second conveying belt 223, so that the second conveying belt 223 is smoothly moved in one direction as the plurality of second conveying roller 225 is rotated.

Figure 4 is a view showing a detailed view of another embodiment of the aggregate transport unit 200 of the present invention.

Referring to FIG. 4, the first aggregate transfer means 210 may include a first spray nozzle 216.

The first spray nozzle 216 is for removing dust generated from aggregate moving along the first conveying belt 212 and is formed inside the first scatter prevention net 215 to spray water to the aggregate side. .

The first spray nozzle 216 is formed to spray water toward the aggregate to be transported to form a plurality, the first spray nozzle 216 is a plurality of spray nozzles are formed in one first spray nozzle 216 water is It is sprayed in multiple directions to catch dust.

5 is a view showing a detailed view of the aggregate separation transport unit according to an embodiment of the present invention.

Referring to FIG. 5, the aggregate separating and transporting unit includes an aggregate separating and transporting frame 310, an aggregate separating network 311, a separation preventing member 312, and an outlet 313.

The aggregate separation transfer unit, which is to separate the aggregate falling from the second aggregate transfer means 220 into the recycled aggregate and the waste aggregate, is formed apart from the predetermined interval in the recycle aggregate transfer means 320 upward direction.

The aggregate separation and transporting unit, characterized in that the recycled aggregate and the waste aggregate is separated by the drop impact from the second aggregate transfer means 220.

The aggregate separation and transport frame 310 is formed to be connected to one side of the recycled aggregate transport means 320 as a frame for forming the aggregate separation transport unit. More specifically, the recycled aggregate frame 321 is formed to be seated and coupled to an upper end of one side.

The aggregate separation network 311 is formed so that the impact is applied to the aggregate falling from the second aggregate transfer means 220 side hit, it is formed above the aggregate separation transfer frame 310.

The aggregate separation network 311 is formed with a plurality of separation bars at a predetermined interval, the separation bar is formed to be able to add and adjust according to the size of the recycled aggregate.

Here, the addition of the separation bar is a separation bar is formed to be detachable, the adjustment is formed to adjust the separation between the separation bar and the separation bar by pushing the separation bar to the left and right.

The separation preventing member 312 is to prevent the aggregates falling into the aggregate separation net 311 is not separated to the outside, the separation preventing member 312 is formed on both sides of the aggregate separation transfer frame 310.

The discharge port 313 is to discharge the waste aggregate filtered through the aggregate separation network 311 to the outside, the discharge port 313 is formed in one direction of the aggregate separation transport frame 310.

Therefore, the waste aggregate filtered by the aggregate separation network 311 is transferred to the outlet 313 side by the force of the drop.

Figure 6 is a view showing a detailed view of another embodiment of the aggregate separation transport of the present invention.

Referring to FIG. 6, the aggregate separation transfer part includes a separation vibrator 314 and an outlet port variable stage 315.

The separation vibrator 314 is for giving vibration to the aggregate filtered by the aggregate separation network 311, is formed between the aggregate separation transfer frame 310 and the recycled aggregate frame 321.

As the vibration generated by the separation vibrator 314 is transmitted to the aggregate falling to the aggregate separation network 311 side, the aggregate is separated by the impact during the fall and gives the vibration to the aggregate seated on the aggregate separation network 311 It is configured to be separated into recycled aggregate and waste aggregate.

Accordingly, the primary separation is performed by the impact due to the fall, and the secondary separation is caused by the vibration by the separation vibrator 314.

The outlet variable stage 315 is for converting the discharge direction of the waste aggregate discharged through the outlet 313, the outlet variable stage 315 is formed to one side of the aggregate separation transport frame 310.

The discharge port variable stage 315 is formed to rotate at an angle to the left and right.

7 is a view showing a detailed view of the recycled aggregate transfer means 320 according to an embodiment of the present invention.

Referring to FIG. 7, the recycled aggregate transfer means 320 is for transferring the recycled aggregate separated and dropped from the aggregate separation network 311, and the recycled aggregate transfer means 320 is formed below the aggregate separation transfer part. .

The recycled aggregate transfer means 320, the recycled aggregate frame 321, recycled aggregate conveyor belt 322, recycled aggregate transfer motor 323, recycled aggregate transfer roller 324, recycled aggregate scattering prevention net 325 do.

The recycled aggregate frame 321 is to form a frame of the recycled aggregate transport means 320, the recycled aggregate conveyor belt and the recycled aggregate transport roller 324 is formed in a rectangular frame to form a seat, the recycled aggregate frame ( 321 is formed apart by a predetermined interval in the downward direction of the aggregate separation transfer unit.

The recycled aggregate conveyor belt 322 is formed above the recycled aggregate frame 321, and is formed to be rotated by the recycled aggregate transport roller 324, i.e., only in one direction.

The recycled aggregate conveyor belt 322 is made of a rotation in which the belt rotated at the starting point is returned to the repositioned position. The recycled aggregate conveyor belt 322 is formed to receive the recycled aggregate is lowered in the aggregate separation transfer unit.

The recycled aggregate conveyor belt 322 is formed according to the structure and shape of the recycled aggregate transport roller 324.

For example, when the recycled aggregate conveyance roller 324 is "V" type, the recycled aggregate conveyor belt 322 is formed in a "V" form is formed so that the recycled aggregate is easily transported without leaving the outside.

In addition, it may be formed in the "-" form, the "U" form and the like, in the present invention is preferably formed in the "V" or "U" form.

The recycled aggregate transfer motor 323 is for rotating the recycled aggregate transfer roller 324, more specifically, a plurality of recycled aggregate transfer roller 324 is formed between the recycled aggregate conveyor belt 322, one end The recycled aggregate transfer motor 323 is connected to the recycled aggregate transfer roller 324 formed in the.

Therefore, when the recycled aggregate transport motor 323 is operated, the recycled aggregate transport roller 324 is rotated, and the recycled aggregate conveyance belt 322 is pulled when the recycled aggregate transport roller 324 is rotated. ) Is formed to rotate along the plurality of recycled aggregate feed roller 324.

The recycled aggregate feed roller 324, the recycled aggregate feed roller 324 is formed between a plurality of recycled aggregate conveyor belt 322, the recycled aggregate transfer roller 324 is a recycled aggregate conveyor belt 322 in one direction During movement, the recycled aggregate transport roller 324 is rotated due to friction with the recycled aggregate conveyor belt 322, and as the plurality of recycled aggregate transport rollers 324 rotate, the recycled aggregate conveyor belt 322 smoothly moves in one direction. Be sure to

The recycled aggregate scattering prevention net 325 is to prevent the dust generated from the recycled aggregate is transported seated on the recycled aggregate conveyor belt 322 to the outside, the recycled aggregate scattering prevention net 325 is a recycled aggregate frame ( 321 is formed to surround the recycled aggregate conveyor belt 322 to the upper side.

The recycled aggregate scattering prevention net 325 is formed of a synthetic resin material so as not to be torn by a bump during transport of aggregate.

The recycled aggregate scattering prevention net 325 is formed of a plurality of "∩" type frame, the frame is formed along the recycled aggregate frame 321.

8 is a view showing a detailed view of another embodiment of the recycled aggregate transport means 320 of the present invention.

Referring to FIG. 8, the recycled aggregate conveying means 320 includes a recycled aggregate spray nozzle 326 and a weight measuring means 327.

The recycled aggregate spray nozzle 326 is to remove dust generated from the recycled aggregate moved along the recycled aggregate conveyor belt 322, formed inside the recycled aggregate scattering prevention net 325 to spray water to the recycled aggregate side do.

The recycled aggregate spray nozzle 326 is formed to spray water toward the recycled aggregate is formed and a plurality of recycled aggregate spray nozzle 326 is a plurality of spray nozzles are formed in one recycled aggregate spray nozzle 326 water It is sprayed in multiple directions to form dust.

The weight measuring means 327 is a means for measuring the weight of the recycled aggregate transported along the recycled aggregate conveyor belt 322, is formed on one side between the recycled aggregate conveyor belt 322 and the recycled aggregate transport roller 324 do.

The weight measuring means 327 is configured to measure the weight of the recycled aggregate transported by time or the weight of the recycled aggregate transported daily or the weight of the recycled aggregate being transported.

9 is a perspective view of the waste material conveying apparatus 20 for the material conveying apparatus 10 in another embodiment of the present invention.

Referring to Figure 9, the waste material transfer device 20, for storing and storing the waste aggregate separated through the aggregate separation transfer unit 300, and for the configuration for discharging the waste aggregate stored and stored to the outside .

The waste material transfer apparatus 20 includes a waste aggregate hopper 400 and a waste aggregate transfer unit 420.

The waste aggregate hopper unit 400 is configured to store and store the waste aggregate provided by the aggregate separation transfer unit, and to discharge the stored and stored waste aggregate to the waste aggregate transfer unit 420 side.

The waste aggregate transfer unit 420 is configured to transfer the waste aggregate provided from the waste aggregate hopper unit 400 to an external place.

The waste aggregate hopper unit 400 includes a waste aggregate hopper 410, a waste aggregate hopper motor 411, and a waste aggregate discharge conveyor 412.

The waste aggregate hopper is formed to store and store the waste aggregate provided from the aggregate separation transfer unit 300.

The waste aggregate hopper motor 411 is a driving means for discharging the waste aggregate stored and stored in the waste aggregate hopper 410 toward the waste aggregate transfer unit 420.

The waste aggregate discharge conveyor 412 is formed so that the waste aggregate discharged by the driving of the waste aggregate hopper motor 411 is seated, and the waste aggregate discharge conveyor 412 is in the downward direction of the waste aggregate hopper motor 411. It is formed at regular intervals apart.

The waste aggregate transfer unit 420 includes a waste aggregate transfer unit 421 and a waste aggregate frame variable stage 430.

The waste aggregate transfer means 421 is for transferring the waste aggregate provided from the waste aggregate hopper unit 400 to an external place, and the waste aggregate transfer means 421 is fixed downward in the waste aggregate hopper unit 400. It is formed off the gap. More specifically, the waste aggregate discharge conveyor 412 is formed in the downward direction.

The waste aggregate transfer means 421, waste aggregate transfer frame 422, waste aggregate conveyance belt 423, waste aggregate transfer motor 424, waste aggregate transfer roller 425, waste aggregate scattering prevention network 426 It includes.

The waste aggregate transport frame 422 is to form a frame of the waste aggregate transport means 421, the waste aggregate transport conveyor belt 423 and the waste aggregate transport roller 425 is formed in a rectangular frame to form a seat, The waste aggregate transfer frame 422 is formed at a predetermined interval away from the waste aggregate hopper 400.

The waste aggregate transporting conveyor belt 423 is formed above the waste aggregate transport frame 422, and is formed to be rotated by the waste aggregate transport roller 425 only in one direction.

The waste aggregate conveyance belt (423) is made of a rotation of the belt is rotated at the starting point is returned to the position again.

The waste aggregate conveyance belt 423 is formed according to the structure and shape of the waste aggregate conveyance roller 425.

For example, when the waste aggregate conveyance roller 425 is "V" type, the waste aggregate conveyance belt 423 is formed in the form of "V" so that the waste aggregate is easily transported without leaving the outside.

In addition, it may be formed in the "-" form, the "U" form and the like, in the present invention is preferably formed in the "V" or "U" form.

The waste aggregate feed motor 424 is for rotating the waste aggregate feed roller 425, more specifically, a plurality of waste aggregate feed rollers 425 are formed between the waste aggregate feed conveyor belt 423, one side The waste aggregate transfer motor 424 is connected to the waste aggregate transfer roller 425 formed at the end.

Therefore, when the waste aggregate transport motor 424 is operated, the waste aggregate transport roller 425 is rotated, and the waste aggregate transport conveyor belt 423 pulls the waste aggregate transport conveyor belt 423 during rotation of the waste aggregate transport roller 425. 423 is formed to rotate along the plurality of waste aggregate transfer roller 425.

The waste aggregate feed roller 425 is formed between a plurality of waste aggregate feed conveyor belt 423, the waste aggregate feed roller 425 is a waste aggregate feed roller 423 when the waste aggregate feed conveyor belt 423 moves in one direction ( 425 is rotated due to friction with the waste aggregate conveyance belt 423, the waste aggregate conveyance belt 423 is smoothly moved in one direction as the plurality of waste aggregate transport roller 425 is rotated.

The waste aggregate scattering prevention network 426 is to prevent the dust generated from the waste aggregate is transported to the waste aggregate transporting conveyor belt 423 to the outside, waste aggregate scattering prevention network 426 is waste aggregate transfer The frame 422 is formed to surround the waste aggregate transport conveyor belt 423 to the upper side.

The waste aggregate scattering prevention net 426 is formed of a synthetic resin material so as not to be torn by a bump during transport of the waste aggregate.

The waste aggregate scattering prevention network 426 is formed of a plurality of "∩" type frame, the frame is formed along the waste aggregate transfer frame 422.

The waste aggregate transfer means 421 further includes a waste aggregate spray nozzle 427.

The waste aggregate spray nozzle 427 is to remove dust generated from the waste aggregate that is moved along the waste aggregate transporting conveyor belt 423, and formed inside the waste aggregate scattering prevention network 426 to spray water to the waste aggregate side. do.

The waste aggregate spray nozzle 427 is formed to spray water toward the waste aggregate to be formed in a plurality of transport, the waste aggregate spray nozzle 427 is formed by spraying a plurality of spray nozzles on one waste aggregate spray nozzle 427 It is sprayed in multiple directions to form dust.

10 is a view showing a detailed view of the waste aggregate frame variable stage 430 according to another embodiment of FIG.

Referring to FIG. 10, the waste aggregate frame variable stage 430 adjusts the direction of the waste aggregate discharged to an external place through the waste aggregate transfer unit 420 so that the waste aggregate frame is closed in a multi-directional place rather than in one place. Means for discharging aggregates.

The waste aggregate frame variable stage 430 includes a variable frame 431, a slide member 438, a rotating member 432, a variable conveying belt 434, a variable conveying motor 436, a variable conveying roller 435, And a discharge angle adjusting means 437.

The variable frame 431 is formed to one side of the waste aggregate transfer frame 422, one side is formed in the waste aggregate transfer frame 422, the other side is formed to protrude a predetermined distance.

The slide member 438 is to be formed so that the variable frame 431 slides around the waste aggregate transfer frame 422, the slide member 438 end of the waste aggregate transfer frame 422 It is formed downward.

Therefore, the variable frame 431 is formed to slide along the slide member 438.

The rotating member 432 is for allowing the variable frame 431 to be rotatable in multiple directions, and the rotating member 432 is formed between the waste aggregate transfer frame 422 and the slide member.

The rotating member 432 is controlled by the discharge angle adjusting means 437, the variable frame 431 is protruded about the slide member 438 toward the stationary direction after being rotated.

The variable conveyance belt 434 is formed above the variable frame 431, and is formed to be rotated by the variable conveying roller 435 to be idling, that is, only in one direction.

The variable conveyor belt 434 is composed of a rotation in which the belt rotated at the starting point is returned to the repositioned position.

The variable conveyance belt 434 is formed according to the structure and shape of the variable conveying roller 435.

For example, when the variable feed roller 435 is a "V" type, the variable feed conveyor belt 434 is formed in a "V" form is formed so that the waste aggregate is easily transported without leaving the outside.

In addition, it may be formed in the "-" form, the "U" form and the like, in the present invention is preferably formed in the "V" or "U" form.

The variable feed motor 436 is for rotating the variable feed roller 435, and more specifically, a plurality of variable feed rollers 435 are formed between the variable feed conveyor belts 434, and are formed at one end. The variable feed motor 436 is connected to the variable feed roller 435.

Accordingly, the variable feed roller 435 is rotated when the variable feed motor 436 is operated, and the variable feed conveyor belt 434 is pulled out by pulling the variable feed conveyor belt 434 when the variable feed roller 435 rotates. It is formed to rotate along the variable feed roller 435.

The variable conveying roller 435 is formed between a plurality of variable conveying conveyor belt 434, the variable conveying roller 435 is a variable conveying roller 435 is a variable conveying when the variable conveying belt 434 moves in one direction Rotation due to friction with the conveyor belt 434, so that the variable conveyor belt 434 is smoothly moved to one side as the plurality of variable feed roller 435 is rotated.

The discharge angle adjusting means 437 is a means for adjusting the rotation radius of the rotating member 432, and is formed to adjust automatically or manually according to the operator's selection or the direction in which waste aggregate is discharged.

The rotating member 432 rotates according to the setting, and the variable frame 431 is protruded along the slide member 438 during rotation.

11 is a view showing a detailed view of the elevating unit 500 according to another embodiment of the present invention.

Referring to FIG. 11, the elevating unit 500 is formed on the second conveying frame 221, the recycled aggregate frame 321, and the waste aggregate conveying frame 422, respectively, which are formed by diagonal lines, and the second conveying frame. The second transfer frame 221 is to adjust the drop height of the aggregate by raising and lowering one side of the recycled aggregate frame 321 and the waste aggregate transfer frame 422, and the recycled aggregate frame 321 and Waste aggregate transfer frame 422 is formed to adjust the height of the transfer.

The elevating unit 500, the elevating member 510, the fixing member 511, the first connecting frame 512, the second connecting frame 513, elevating cylinder 514, the rotating member 515, A slide groove 516 is included.

The elevating member 510 is coupled to one lower portion of one side of the second transfer frame 221 and one lower portion of the recycled aggregate frame 321 and one lower portion of the waste aggregate transfer frame 422, respectively.

The fixing member 511 corresponds to the ground in the corresponding direction of the elevating member 510 formed on the second transfer frame 221 and the elevating member 510 formed on the recycled aggregate frame 321. The ground in the direction, and the lifting member 510 formed in the waste aggregate transfer frame 422 is fixed to the ground in the corresponding direction.

The first connection frame 512 is for connecting between the elevating member 510 and the fixing member 511 and is formed to intersect the second connection frame 513.

The second connection frame 513 is for connecting between the elevating member 510 and the fixing member 511 and is formed to intersect the first connection frame 512.

The lifting cylinder 514 is for raising or lowering the lifting member 510 around the fixing member 511, and the lifting cylinder 514 corresponds to each other at the center of the fixing member 511. The first connection frame 512 and the second connection frame 513 is formed of a cylinder.

The pivot member 515 is connected between the lifting cylinder 514 and the first connection frame 512 formed at one side at the center of the fixing member 511 and the lifting lowering formed at the other side at the center of the fixing member 511. The configuration for the connection between the cylinder 514 and the second connection frame 513.

The pivot member 515 is formed in a hinge configuration so that the lifting cylinder 514 and the first connection frame 512, the lifting cylinder 514 and the second connection frame 513 is idling.

The slide groove 516 is formed inside the fixing member 511 and the lifting member 510 such that the rotation member 515 slides during the operation of the lifting cylinder 514.

Accordingly, the pivot member 515 connected to the first connection frame 512 and the pivot member 515 connected to the second connection frame 513 slide along the slide groove 516 during operation of each lifting cylinder 514. It is formed to be moved.

The above-described embodiments are for illustrative purposes, and those skilled in the art to which the above-described embodiments belong may easily change to other specific forms without changing the technical spirit or essential features of the above-described embodiments. I can understand. Therefore, it is to be understood that the above-described embodiments are illustrative in all respects and not restrictive. For example, each component described as a single type may be implemented in a distributed manner, and similarly, components described as distributed may be implemented in a combined form.

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

10: material transfer device 20: waste material transfer device
S: Recycled aggregate P: Waste aggregate
100: aggregate hopper unit 110: hopper
120: hopper drive motor 130: aggregate discharge conveyor
200: aggregate transfer unit 210: first aggregate transfer means
211: first transport frame 212: first transport conveyor belt
213: first feed motor 214: first feed roller
215: first shatterproof network 216: first spray nozzle
220: second aggregate transfer means 221: second transfer frame
222: aggregate fall prevention member 223: second conveying belt
224: second feed motor 225: second feed roller
300: aggregate separation transport unit 310: aggregate separation transport frame
311: aggregate separation network 312: separation prevention member
313: outlet 314: separate vibrator
315: outlet variable stage
320: recycled aggregate transport means 321: recycled aggregate frame
322: recycled aggregate conveyor belt 323: recycled aggregate transfer motor
324: recycled aggregate transfer roller 325: recycled aggregate scattering prevention network
326: recycled aggregate spraying nozzle 327: weight measuring means
400: waste aggregate hopper 410: waste aggregate hopper
411: waste aggregate hopper motor 412: waste aggregate discharge conveyor
420: waste aggregate transfer unit 421: waste aggregate transfer means
422: waste aggregate transfer frame 423: waste aggregate transfer conveyor belt
424: waste aggregate transfer motor 425: waste aggregate transfer roller
426: waste aggregate scattering prevention network 427: waste aggregate spray nozzle
430: closed aggregate frame variable stage 431: variable frame
432: rotating member 434: variable conveying conveyor belt
435: variable feed roller 436: variable feed motor
437: discharge angle adjustment means 438: slide member
500: elevating unit 510: elevating member
511: fixing member 512: first connecting frame
513: second connection frame 514: lifting cylinder
515: rotating member 516: slide groove

Claims (2)

Aggregate transfer unit for transferring the aggregate discharged from the aggregate hopper to the aggregate separation transfer unit side;
Including but not limited to:
An aggregate hopper unit for storing and storing aggregate, and automatically storing the aggregate stored in the aggregate stored at the aggregate transfer unit, or selecting one of the aggregate discharge times, or formed by the operator for manual discharge; And
Including an aggregate separation and transfer portion formed to separate into aggregate for reuse and waste aggregate for disposal of aggregate transported through the aggregate transfer unit,
The aggregate hopper part,
A hopper configured to store and store aggregate for discharge and separation; A hopper driving motor which is formed in the hopper lower side to discharge the aggregate stored in the hopper to the aggregate discharge conveyor side; It includes an aggregate discharge conveyor horizontally formed in the lower direction of the hopper driving motor in order to transfer the hopper discharged by the operation of the hopper driving motor to the aggregate transport unit side,
The aggregate transfer unit, the first aggregate transfer means is formed to horizontally transfer the aggregate discharged from the aggregate hopper to the second aggregate transfer means side; And a second aggregate transfer means formed to receive the aggregate conveyed through the first aggregate transfer means and upwardly transfer the aggregate to the aggregate separation transfer part,
The first aggregate transfer means, the first transfer frame is formed horizontally in the lower direction of the plurality of hoppers for transferring the aggregate discharged from the plurality of hoppers; A first conveying belt formed along a first conveying roller to allow aggregate to be seated and conveyed to an upper portion of the first conveying frame; A first feed motor connected to a first feed roller formed in one end direction to rotate the first feed roller formed in one end direction among the plurality of first feed rollers; A plurality of first transport rollers formed at a predetermined interval between the first transport conveyor belts to rotate the first transport conveyor belts; It includes a first scattering prevention net is formed seated on the first transfer frame so that dust generated in the aggregate conveyed along the first conveying belt is not scattered,
The first aggregate conveying means further comprises a plurality of first spray nozzles formed in the first scattering prevention net in order to remove the dust generated from the aggregate is transported to the first conveying conveyor belt by spraying water,
The second aggregate transfer means may include: a second transfer frame formed in an oblique form of an upward shape in one direction of the first aggregate transfer means to transfer the aggregate provided from the first aggregate transfer means to the separated aggregate transfer part; An aggregate fall prevention member formed on one side of the second transfer frame to prevent the aggregate provided from the first aggregate transfer means from falling down toward the opposite side of the transfer; A second conveying belt formed along a second conveying roller to allow aggregate to be seated and conveyed onto the second conveying frame; A second feed motor connected to a second feed roller formed in one end direction to rotate the second feed roller formed in one end direction among the plurality of second feed rollers; It includes a second feed roller which is formed in a plurality at intervals between the second transport conveyor belt to rotate the second transport conveyor belt,
The aggregate separating and transporting portion, the aggregate separation and transport frame formed in one direction of the second aggregate transport means to separate the aggregate provided from the second aggregate transport means side; An aggregate separation network formed of a plurality of grooves above the aggregate separation transfer frame to separate the aggregate provided from the second aggregate transfer means into recycled aggregate and waste aggregate; A separation prevention member formed on both sides of the aggregate separation transfer frame such that the waste aggregate separated from the aggregate separation network is not separated from the aggregate separation transfer frame to the outside; Including an outlet formed on one side of the aggregate separation transport frame to discharge the waste aggregate is separated through the aggregate separation network,
The aggregate separation transfer unit, the separation vibrator formed on one side of the aggregate separation network for separating the aggregate through the vibration in the aggregate separation network; Further comprising a discharge variable stage formed of a connection between the discharge port and the aggregate separation transport frame to be variable to the left and right to discharge the waste aggregate discharged through the discharge in multiple directions,
It includes a recycled aggregate transfer means formed to one side of the aggregate separation and transfer portion to transfer the aggregate is separated through the aggregate separation transfer portion,
The recycled aggregate transfer means, recycled aggregate frame is formed so as to rise in an oblique direction to the aggregate separation transfer portion in order to transfer the recycled aggregate; A recycled aggregate conveyor belt formed on the recycled aggregate frame to transfer the recycled aggregate separated from the aggregate separation and transporting portion to the lower side; A recycled aggregate transfer motor connected to a recycled aggregate roller formed at one end of the recycled aggregate conveying means to rotate the recycled aggregate roller; Regenerated aggregate conveying rollers are formed in a plurality of spaced intervals between the recycled aggregate conveyor belt to rotate the recycled aggregate conveyor belt; It includes a recycled aggregate scattering prevention net formed on the recycled aggregate frame to prevent the scattering of dust generated from the recycled aggregate is transported seated on the recycled aggregate conveyor belt,
The recycled aggregate transport means, the recycled aggregate spray nozzle is formed in the plurality of recycled aggregate scattering prevention net to remove the dust generated during the transfer of the recycled aggregate sprayed water; It includes a weight measuring means formed on one side between the recycled aggregate conveyor belt to measure the weight of the recycled aggregate transported by measuring the weight of the recycled aggregate transported seated on the recycled aggregate conveyor belt for each section,
Waste aggregate transfer device, the waste aggregate hopper portion is formed so that the waste aggregate is discarded of the separated aggregate; And a waste aggregate transfer unit which is formed to discharge from the waste aggregate hopper to the outside, wherein the waste aggregate hopper unit comprises: a waste aggregate hopper formed to store and store the waste aggregate filtered through the aggregate separation transfer unit; A waste aggregate hopper motor formed downward of the waste aggregate hopper to discharge from the waste aggregate hopper to the outside; Waste aggregate discharge conveyor which is formed in the downward direction of the waste aggregate hopper motor to transfer the waste aggregate discharged by the waste aggregate hopper motor toward the waste aggregate transfer unit; The waste aggregate transfer unit, waste aggregate transfer means for transferring the waste aggregate provided from the waste aggregate hopper unit; And a waste aggregate frame variable stage for discharging the waste aggregate provided by the waste aggregate transport means to a multi-directional place,
The waste aggregate transfer means, waste aggregate transfer frame is formed to rise in an oblique direction to transfer the waste aggregate; A waste aggregate conveyor belt formed on the waste aggregate transfer frame to transfer the waste aggregate falling from the waste aggregate hopper part; A waste aggregate transfer motor connected to a waste aggregate transfer roller formed at one end of the waste aggregate transfer means to rotate the waste aggregate transfer roller; Waste aggregate transport rollers are formed in a plurality of intervals between the waste aggregate conveyor belt to rotate the waste aggregate conveyor belt; It includes a waste aggregate scattering prevention net formed on the waste aggregate frame to prevent dust scattering generated from the waste aggregate transported to the waste aggregate conveyor belt,
The waste aggregate transfer means further comprises a plurality of waste aggregate spray nozzles formed inside the waste aggregate scattering prevention network in order to spray water to remove dust generated during the transfer of waste aggregate,
The waste aggregate frame variable stage, the variable frame is formed so as to rotate the slide up and down or left and right to transport the waste aggregate in multiple directions; A slide member formed on one side of the variable frame such that the variable frame is lifted up and down in a slide manner; A rotating member formed on one side of the slide member so that the variable frame can be rotated to the left and right sides; A variable conveying belt formed on a variable frame to convey the waste aggregate provided from the waste aggregate conveying means; A variable feed motor in which a waste aggregate frame is formed at one end of the variable end to rotate the variable feed roller; A variable feed roller formed in plural at regular intervals between the variable feed conveyors to rotate the variable feed conveyor belts; It includes a discharge angle adjusting means formed to one side of the rotating member to rotate to a certain angle of the rotating member,
The waste aggregate conveying apparatus includes a lifting portion formed in each of the second conveying frame and the waste aggregate conveying frame to elevate the conveying conveyor vertically so that the aggregate and the waste aggregate conveyed from one side to the other side are smoothly conveyed.
Material transfer device. delete

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