KR102128620B1 - Cutting apparatus - Google Patents

Abstract

The present invention relates to a cutting apparatus capable of cutting a material constituting a product according to dimensions after designing a drawing for an ordered product in a product manufacturing system. The cutting apparatus includes: a supply unit supplying a material; a transfer unit including a discharge unit discharging the material; and a cutting unit disposed between the supply unit and the discharge unit, and cutting the material.

Description

Cutting device {CUTTING APPARATUS}

The present invention relates to a cutting device, and relates to a cutting device capable of automatically cutting various types of materials constituting a product according to dimensions after designing a drawing for a product ordered in a product manufacturing system.

In general, pipes are generally made of aluminum, copper, and steel, and mainly circular pipes or square pipes having a square or rectangular cross section are manufactured.

However, these are not typical pipes, but the inside is circular, and the outside is not circular, or some of the pipes are formed in a square shape and the other portions are also formed in a curved or concave shape. Such a pipe is called a release pipe.

A typical pipe cutting operation is a circular cutter or the like operated by a cylinder such as pneumatic pressure, which performs an operation with an automatic cutting machine for cutting a pipe, or a cutting operation using a rotary cutter such as a manual cutting machine.

Patent Publication No. 10-2020-0023907

The present invention provides a cutting device capable of cutting materials constituting a product according to dimensions after designing drawings for products ordered in a product manufacturing system.

Another object of the present invention is to provide a cutting device capable of securing structural stability by reinforcing a cutting blade for cutting a material.

Another object of the present invention is to provide a cutting device that can protect the health of the operator by removing the foreign material on the material and cutting it.

Another object of the present invention is to provide a cutting device capable of protecting a worker's health by removing foreign substances secondary to cutting a material.

Another object of the present invention is to provide a cutting device capable of making a product from a clean material by cutting and washing and drying the material.

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

Cutting device according to an embodiment of the present invention, a supply unit for supplying a material, a transfer unit including a discharge unit for discharging the material, disposed between the supply unit and the discharge unit, and includes a cutting unit for cutting the material.

And, further comprising a reinforcement that is detachably coupled to both sides of the cutting portion,

The reinforcing part, an additional reinforcement connecting the connecting points of the vertical reinforcing wall and the horizontal reinforcing wall and the vertical reinforcing wall and the plurality of vertical reinforcing walls arranged so as to intersect vertically and horizontally in the frame part having both sides open. Includes walls.

In addition, it further includes a vibration generating unit for generating vibration in the supply unit to remove foreign matter on the material located in the supply unit,

The vibration generating unit is disposed at the bottom of the supply unit, an upper surface is opened and an empty space is formed inside, an elastic support unit vertically disposed in the inner space of the kes and formed in a curved shape, an upper surface and a supply unit of the elastic support unit The support portion coupled to the bottom surface, the first motor disposed on one side and the other side of the supply portion, respectively eccentrically coupled to the motor shaft of the first motor, and repeatedly rotated in the up and down direction with the power of the first motor A first hitting unit repeatedly hitting the upper surface of the supply unit, which is movable in the horizontal direction on the case, wherein one side is coupled to the elastic support unit and a projection projecting a portion outwardly of the case, the projection repeatedly in the horizontal direction It includes a second hitting portion that is operated by alternately striking the first motor.

In addition, it further includes a first suction fan for sucking foreign matter from the lower portion of the supply.

In addition, it further includes a hairy part that shakes off foreign substances on the material located in the discharge part,

The hair part is rotated repeatedly in the up and down direction by the power of the second motor and the second motor, and the rotating part located on the horizontal line and the material located in the discharge part, and the rotating part is installed at regular intervals , An air passage is formed inside, a plurality of air discharge holes are formed at regular intervals on the bottom surface facing the material, and a plurality of hair thinning hair units are formed on the outer surface, air for supplying air to the air passage of the hair unit Includes supply.

In addition, it further includes a second suction fan that sucks foreign substances from the lower portion of the discharge portion.

In addition, further comprising a washing unit for collecting and washing the material passing through the hair,

The washing unit includes a storage box in which washing water for washing the material is stored, a vortex generating unit formed in an inverted cone shape, a third motor rotating the vortex generating unit in place to generate vortex in the washing water, and the vortex generating unit is the It includes a first cylinder that raises or lowers the third motor so that it enters or withdraws from the storage box, and a second cylinder that moves the first cylinder such that the vortex generation unit moves forward or backward with respect to the storage box.

And, further comprising a drying unit for drying the material washed by the washing unit,

The drying unit, the housing in which the material is accommodated, a heating unit for supplying high-temperature heat for drying the material in the inner space of the housing, fixed to each of the inner side walls of the housing, and concentrating the heat in the housing to the material Blower, the material is disposed so as to be spaced apart from each other to trap heat, the guard portion is formed with a plurality of through holes for passing the heat transferred by the blower in the direction of the material, the inner space of the guard portion first It includes a partitioning section that divides into a space and a second space, and a heat conduction medium that is accommodated in any one of the first space and the second space and absorbs heat in the enclosure and transfers it to the material.

According to one aspect of the present invention described above, after designing a drawing for a product ordered in a product manufacturing system, there is an effect that the material constituting the product can be cut to fit.

And, there is an effect that can secure structural stability by reinforcing the cutting edge for cutting the material.

In addition, there is an effect that can protect the health of workers by removing and then cutting the foreign matter on the material.

In addition, after cutting the material, there is an effect of protecting the health of the worker by removing the foreign material secondarily.

In addition, by cutting and washing and drying the material, there is an effect that can make the product from a clean material.

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

1 is a perspective view of a cutting device according to an embodiment of the present invention.
Figure 2 is a front view showing a cutting device according to an embodiment of the present invention.
Figure 3 is a side view showing a vibration generator applied to the cutting device according to an embodiment of the present invention.
Figure 4 is a perspective view showing a vibration generating unit applied to the cutting device according to an embodiment of the present invention.
Figure 5 is a partial cross-sectional view showing the arrangement relationship of the elastic support, support, projection, and second striking portion applied to the cutting device according to an embodiment of the present invention.
Figure 6 is a side view showing the arrangement of the hair portion and the material applied to the cutting device according to an embodiment of the present invention.
7 is a perspective view showing a hair part applied to a cutting device according to an embodiment of the present invention.
Figure 8 is a cross-sectional view showing a combined state of the rotation unit and the hair unit applied to the cutting device according to an embodiment of the present invention.
9 is a view showing a washing unit applied to the cutting device according to an embodiment of the present invention.
10 is a view showing a drying unit applied to a cutting device according to an embodiment of the present invention.
Figure 11 is a cross-sectional view showing a coupling state of the guard unit and the partition and the heat conduction medium applied to the cutting device according to an embodiment of the present invention.

For a detailed description of the present invention, which will be described later, reference is made to the accompanying drawings that illustrate, by way of example, specific embodiments in which the present invention may be practiced. These examples are described in detail enough to enable those skilled in the art to practice the present invention. It should 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 implemented in other embodiments without departing from the spirit and scope of the invention in connection with one embodiment. In addition, it should be understood that the location or placement of individual components within each disclosed embodiment can be changed without departing from the spirit and scope of the invention. Therefore, the following detailed description is not intended to be taken in a limiting sense, and the scope of the present invention, if appropriately described, is limited only by the appended claims, along with all ranges equivalent to those claimed. In the drawings, similar reference numerals refer to the same or similar functions throughout several aspects.

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

1 is a perspective view of a cutting device according to an embodiment of the present invention, Figure 2 is a front view showing a cutting device according to an embodiment of the present invention, Figure 3 is a cutting device according to an embodiment of the present invention The side view showing the applied vibration generating unit, Figure 4 is a perspective view showing a vibration generating unit applied to the cutting device according to an embodiment of the present invention, Figure 5 is an elastic support applied to the cutting device according to an embodiment of the present invention, Is a partial cross-sectional view showing the arrangement relationship of the support, the protrusion, the second striking portion, Figure 6 is a side view showing the arrangement of the hair and the material applied to the cutting device according to an embodiment of the present invention, Figure 7 is a present invention 8 is a perspective view showing a hair part applied to a cutting device according to an embodiment, and FIG. 8 is a cross-sectional view showing a combined state of a rotation unit and a hair unit applied to a cutting device according to an embodiment of the present invention, and FIG. 9 is a FIG. 10 is a view showing a washing unit on a cutting device according to an embodiment of the present invention, FIG. 10 is a view showing a washing unit on a cutting device according to an embodiment of the present invention, and FIG. 11 is cutting according to an embodiment of the present invention. It is a cross-sectional view showing a bonding state of the guard unit, the partition unit, and the thermal conductive medium applied to the device.

The cutting device 1 according to the present embodiment is a product for designing drawings for a product ordered in a product manufacturing system, and then cutting the material P constituting the product according to dimensions.

The cutting device 1 according to the present embodiment capable of providing such an effect is a transfer part 10, a cutting part 20, a reinforcement part 30, a vibration generating part 40, a hair part 60, a washing part (80), may include a drying unit (90).

As shown in Figure 1 and 2, the transfer unit 10 is a predetermined distance from the supply unit 11 and the supply unit 11 for supplying the material (P) to the cutting unit 20 and the cut material (P) It may include a discharge unit 12 for discharging.

The supply part 11 of the first square frame 111 formed in a substantially rectangular shape, and a plurality of first transfer rolls 112 and first square frames 111 arranged to be spaced apart from each other in the inner space of the first square frame 111 It may be disposed to be spaced apart from each other on the bottom surface may include a plurality of first support legs 113 to float the first square frame 111 to a predetermined height.

The first transfer roll 112 has an axis fixed to the inner wall surface of the first square frame 111 on both sides and can be rotated in place by friction with the material P.

Therefore, the material P is placed on the upper portion of the first transfer roll 112 and then cut in a predetermined length by pushing in the direction of the cutting unit 20.

The discharge part 12 is a second rectangular frame 121 formed in a substantially rectangular shape, a plurality of second transfer rolls 122 and a second rectangular frame 121 arranged to be spaced apart from each other in the inner space of the second rectangular frame 121 It may be arranged to be spaced apart from each other on the bottom surface of the second square frame 121 to include a plurality of second support legs 123 to float.

The second transfer roll 122 has an axis fixed to the inner wall surface of the second square frame 121 on both sides and can be rotated in place by friction with the material P.

Therefore, the material P cut by the cutting unit 20 is placed on the upper portion of the second transfer roll 122, and then pushed and discharged.

The cutting die 100 is disposed between the supply part 11 and the discharge part 12.

The upper plate 101 of the cutting die 100 is disposed to be horizontal with the first transfer roll 112 and the second transfer roll 122 to support the material P that has passed through the first transfer roll.

In addition, a movement guide hole 101a for guiding the transfer of the cutting unit 20 is formed in the upper plate 101 in the longitudinal direction.

The cutting portion 20 may be formed in a circular saw blade shape, a tip made of cemented carbide may be mounted, or the whole may be made of high speed steel.

The cutting unit 20 is disposed on one side of the top plate 101 and can be rotated in place by the power of the motor. Then, the cutting unit 20 is battery or backward relative to the top plate 101 by a pneumatic cylinder or a hydraulic cylinder, the material (P) located on the top plate 101 while moving along the movement guide hole (101a) in the process To cut.

The reinforcing portion 30 is to reinforce the cutting portion 20, in the vertical and horizontal directions inside the frame portion 31 and the frame portion 31, which are coupled to be spaced apart from each other on one side and the other side of the reinforcing portion 30. It may include a plurality of vertical reinforcement wall 32, the horizontal reinforcement wall 33 and the additional reinforcement wall 34 connecting the connection points of the vertical reinforcement wall 32 and the horizontal reinforcement wall 33 arranged to intersect. .

At this time, the frame portion 31, the vertical reinforcing wall 32, the horizontal reinforcing wall 33 and the additional reinforcing wall 34 are formed of a material having excellent rigidity such as metal. In addition, a plurality of reinforcing parts 30 may be applied to stably reinforce the entire cutting part 20.

The frame part 31 may be formed in a ring shape, and one surface facing the cutting part 20 and the other surface opposite thereto are made of an open structure.

A plurality of fastening parts 311 are formed on one surface of the frame part 31 through the through hole 20a formed in the cutting part 20 and spirals are formed on the outer periphery.

Therefore, by passing the fastening portion 311 through the through-hole 20a on one side of the cutting portion 20, and then fastening the nut to the fastening portion 311 on the other side of the cutting portion 20, the frame portion 31 is opened. It can be stably coupled to the cutting portion 20.

The vertical reinforcement wall 32 has an upper end and a lower end, respectively, which are connected to the ceiling surface and the bottom surface of the frame part 31.

Since the frame portion 31 is formed in a ring shape, the vertical reinforcement walls 32 are formed to have different lengths.

The horizontal reinforcement wall 33 has left and right ends connected to both inner wall surfaces of the frame part 31, respectively.

Since the frame portion 31 is formed in a ring shape, the horizontal reinforcement walls 33 are formed to have different lengths.

The additional reinforcement walls 34 are arranged in an inclined shape between the vertical reinforcement walls 32 and the horizontal reinforcement walls 33.

The upper and lower ends of the additional reinforcing wall 34 are respectively formed in a pointed shape to connect the connection points of the vertical reinforcing wall 32 and the horizontal reinforcing wall 33.

Such, the reinforcement portion 30 reinforces and increases the durability and rigidity while increasing the cross-section thickness of the cutting portion 20, furthermore, the frame portion 31, vertical reinforcement wall 32, horizontal reinforcement wall 33 and additional reinforcement The wall 34 divides and bears the impact force generated by the cutting portion 20 cutting the material P, so that the cutting portion 20 is not bent or broken.

2 to 4, the vibration generating unit 40 generates vibration in the supply unit 11 to remove foreign substances on the material P located in the supply unit 11, and the case 41 ), an elastic support 42, a support 43, a first motor 44, a first striking part 45, a protrusion 46, and a second striking part 47.

The case 41 is respectively disposed at the bottom of the first support leg 113.

The case 41 may be formed in a quadrangular box shape in which a central portion of the upper surface is opened and an empty space is formed inside.

The elastic support portion 42 is vertically disposed in the inner space of the case 41.

The elastic support portion 42 is formed to have an approximately'C' cross-sectional shape, and may be made of synthetic resin or metal.

Therefore, the elastic support portion 42 can be compressed when an external force is applied in the vertical direction and restored to the original shape when the external force is extinguished.

The support portion 43 may be formed in a substantially'TT' cross-sectional shape, and the bottom surface penetrates the top surface of the case 41 and is fixed to the top surface of the elastic support portion 42, and the top surface is formed on the bottom surface of the first support leg 113. Is fixed. Therefore, the elastic support part 42 elastically supports the entire supply part 11.

At this time, since the support portion 43 is configured to be moved in the horizontal direction by the second hitting portion 47, which will be described later, a certain area of the upper surface of the case 41 is elongated so that the support portion 43 can be moved a certain distance in the horizontal direction. Incision.

Furthermore, the support 43 is lowered when the elastic support 42 is compressed and raised when expanded.

The first motor 44 may be formed of an AC motor or a DC motor in which the motor shaft is rotated in the forward or reverse direction.

The first motor 44 is composed of two pairs, and is disposed on the upper one side and the other side of the first square frame 111, respectively.

The first striking portion 45 is composed of two pairs and is eccentrically coupled to the motor shaft of the first motor 44, and is rotated repeatedly by the power of the first motor 44, while the upper surface of the first square frame 111 is rotated. Hitting repeatedly.

At this time, the first motor 44 is rotated at an angle of 90 degrees to the upper side while the first striking portion 45 is in contact with the upper surface of the first square frame 111, and then rotated at an angle of 90 degrees in the downward direction. Repeat.

Therefore, the first striking portion 45 is repeatedly raised or fell, and when felling, strikes the upper surface of the first square frame 111.

In this case, the elastic support portion 42 repeatedly compresses and expands, and eventually the supply portion 11 repeatedly fluctuates in the up and down directions, buried in the material P seated on the first transfer roll 112. Dust or other foreign matter is separated.

If the first motor 44 and the first striking section 45 are configured to swing the supply section 11 in the vertical direction, the protrusions 46 and the second striking section 47 swing the supply section 11 in the horizontal direction. It is a striking configuration.

The protrusion 46 is movable in the horizontal direction on the hole 41a formed in the side wall of the case 41.

The protruding portion 46 has one end coupled to the central portion of the elastic support portion 42, and a portion protrudes to the outside of the case 41.

The second striking portion 47 may be formed of a solenoid to repeatedly strike the end of the protruding portion 46 protruding out of the case 41.

Specifically, the second striking portion 47 is located on the horizontal line with the main body 471, the protruding portion 46, the central portion is accommodated in the inner space of the main body 471, the left and right body 471 Protruding to both sides of the right side may include a striking rod 472 that is forward or backward with respect to the projection (46).

As the well-known solenoid applied to the second striking portion 47, when the power is applied, the striking rod 472 is advanced, and when the power is cut off to the second striking portion 47, the striking rod 472 stops working. do.

In addition, a coil spring 473 is mounted on the left side of the second striking portion 47.

In addition, a cap 474 that can be moved with the striking rod 472 is mounted on the left end of the striking rod 472.

The cap 474 compresses the coil spring 473 when advancing against the protrusion 46, and is pushed by the coil spring 473 when the compressed coil spring 473 expands. Due to this, the hitting rod 472 equipped with the cap 474 is also restored to the original position.

Additionally, first and second detection sensors S1 and S2 positioned diagonally to each other are disposed on the front and rear sides of the striking rod 472 protruding toward the rear side of the main body 471, and the cap 474 is made of 1,2 The sensing pieces 475 sensed by the sensing sensors S1 and S2 are formed to protrude downward.

Accordingly, when the striking rod 472 advances to strike the protruding portion 46, the first sensor S1 senses the sensing piece 475 and transmits a detection signal to an electrically connected controller portion (not shown), The controller cuts off the power applied to the second striking portion 47.

And, when the power is cut off, the striking rod 472 is automatically retracted to return to its original position due to the expansion of the coil spring 473. When the striking rod 472 returns to its original position, the second sensing sensor S2 detects the sensing piece 475 and transmits a detection signal to the controller, and the controller applies power to the second striking unit 47 to strike the striking rod Advance 472.

The striking rod 472 strikes the protruding portion 46 while repeating the advancing and retracting according to the same principle.

In this case, the supply unit 11 is repeatedly swung in the horizontal direction, so that dust or other foreign matter on the material P seated on the first transfer roll 112 is separated.

Then, the dust or other foreign matter separated from the material P is sucked into the first suction fan 50 disposed under the first square frame 111 and processed.

In this way, when removing the dust or other foreign matter on the material (P), it is possible to prevent dust or other foreign matter from being scattered during the process of cutting the material (P) with the cutting unit (20).

Although not shown in the drawing, the second strike unit 47, the first sensor S1, and the second sensor S2 may be applied in a state accommodated in a separate case (not shown), wherein the striking rod 472 At least a portion of the case must protrude to the outside of the case to strike the protrusion 476.

It is revealed that the first motor 44 and the second striking portion 47 described above can be alternately operated at regular time intervals.

Meanwhile, as illustrated in FIGS. 6 to 8, the hair part 60 is cut by the cutting part 20 to shake off dust or other foreign substances on the material P transferred to the discharge part 12. That is, it may include a second motor 61, the rotation unit 62, the hair unit 63, the air supply unit 64.

The second motor 61 is disposed on the upper side of one side of the discharge unit 12. The second motor 61 may be formed of an AC motor or a DC motor in which the motor shaft is rotated in the forward or reverse direction.

The rotation unit 62 is eccentrically coupled to the motor shaft of the second motor 61, and is rotated repeatedly in the up and down directions with the power of the second motor 61.

In addition, at the end of the rotating part 62, a material P positioned at the discharge part 12 and a horizontal bar 621 positioned on a horizontal line are formed at the end.

On the horizontal bar 621, a plurality of hair units 63 are formed at regular intervals.

The hair unit 63 may be elastically bent when in contact with the material P located in the discharge part 12, and when separated from the material P, a synthetic resin or plastic material can be restored to its original form. It can be formed of.

And, the hair unit 63 is formed with a plurality of hair thinning (631) to shake off the dust or other foreign matter on the material (P) located on the outer periphery of the outlet (12).

At this time, the second motor 61 is rotated at an angle of 90 degrees upward while the hair unit 63 and the thinning hair 631 are in contact with the upper surface of the material P, and then at an angle of 90 degrees downward. Repeat the rotation.

Therefore, the hair unit 63 and the thinning hair 631 are repeatedly contacted or separated from the material P located in the discharge part 12 to shake off dust or other foreign matter.

The horizontal bar 621 and the hair unit 63 described above are formed in a pipe structure, and air passages connected to each other are formed therein. Then, the hair unit 63 is formed with a plurality of air discharge holes (63b) facing the material (P) on the bottom surface.

In addition, the air supply unit 64 is formed of a known air injection device, and a supply hose 641 provided therein is installed through one side of the horizontal bar 621 to supply air to the air passage.

Therefore, while the hair unit 63 and the hair thinning 631 are rotated repeatedly, air is discharged through the air discharge hole 63b in the process of brushing off dust or other foreign matter on the material P, and thus the material P Can remove dust and other foreign substances efficiently.

Furthermore, the air discharged through the air discharge hole 63b drops dust or other foreign matter to the ground, and the dust or other foreign matter is sucked into the second suction fan 70 disposed under the second square frame 121. Is processed.

In this way, when removing the dust or other foreign matter on the material (P), by removing the powder generated in the process of cutting the material (P) it can be prevented from inhaling the operator.

Meanwhile, as illustrated in FIG. 9, the washing unit 80 is provided as a separate configuration on one side of the discharge unit 12 and collects and washes the material P that has passed through the hair portion 60.

To this end, the washing unit 80 may include a storage box 81, a vortex generation unit 82, a third motor 83, a first cylinder 84, and a second cylinder 85.

The storage box 81 may be formed in a rectangular box shape with an upper surface open and an empty space formed therein, and wash water for washing the material P is stored in the inner space.

The vortex generating portion 82 is formed in an inverted cone shape to generate vortex in the washing water stored in the storage box 81.

The third motor 83 provides rotational power to the vortex generator 82, and may be formed of an AC motor or a DC motor in which the motor shaft rotates in the forward or reverse direction.

The first cylinder 84 is to raise or lower the third motor 83 so that the vortex generating portion 82 is drawn in or out of the storage box 81, and may be formed of a hydraulic cylinder.

The second cylinder 85 is to transfer the vortex generating portion 82 to the upper portion of the storage box 81, or to release the vortex generating portion 82 from the upper portion of the storage box 81, to be formed into a rodless cylinder. Can.

Next, the operation of the washing unit 80 configured as described above will be described.

First, the materials P are stored inside the storage box 81. At this time, the materials (P) are preferably stored at regular intervals so that the washing water can be evenly contacted.

In addition, in the process of storing the material P in the storage box 81, the vortex generation unit 82 maintains a detached state from the storage box 81.

When all the materials P are stored in the storage box 81, the second cylinder 85 is operated to place the motor and the vortex generating unit 82 on the upper side of the storage box 81.

Thereafter, the first cylinder 84 is operated to lower the third motor 83 and the vortex generator 82.

In this case, only the vortex generator 82 is fresh water, and the vortex generator is spaced a predetermined distance from the upper side of the material P.

Thereafter, the third motor 83 is operated to rotate the vortex generator 82 in place.

When the vortex generating portion 82 is rotated in place, vortices are generated in the washing water to effectively separate dust or other foreign substances on the material P.

Meanwhile, as illustrated in FIGS. 10 and 11, the drying unit 90 is provided in a separate configuration on one side of the washing unit 80, and the material P washed by the washing unit 80 is dried.

To this end, the drying unit 90 includes a housing 91 in which the material P is accommodated, a blowing unit 93 that concentrates heat in the housing 91 to the material P, and heat of high temperature inside the housing 91 The heating part 92 for supplying the material, the guard part 94 that is disposed with the material P interposed therebetween to trap heat, the partition part 95 for partitioning the internal space of the guard part 94, and the guard part 94 ) May include a thermal conductive medium (96) that is accommodated in any one of the partition space.

The enclosure 91 may be formed in a rectangular box shape with an upper surface open and an empty space formed therein, and an accommodation space in which the material P is accommodated is formed.

The heating part 92 is located in the receiving space through the upper surface of the housing 91, the supply hose 941 provided in itself.

Therefore, when the heating unit 92 is operated, high-temperature heat is supplied to the receiving space of the enclosure 91.

The heating unit 92 may be formed of a type that applies hot air or a type that can radiate heat through a heating coil.

When the heating section 92 is formed of a type that applies hot air, it is composed of a blower and a heater installed in the blower, and the air at normal temperature supplied to the blower may be heated with hot air while passing through the heater to spray hot air.

The blower section 93 is composed of two pairs, and is fixed to the inner side walls of the enclosure 91.

The blowing unit 93 may include a motor and a rotating blade that generates wind while being rotated in place by the power of the motor.

The blowing section 93 transfers the heat in the enclosure 91 in the direction of the guard section 94 to concentrate the material P.

The guard unit 94 functions to increase the drying efficiency of the material while preventing heat loss by maximally trapping heat generated by the heating unit on the material.

To this end, the guard part 24 is composed of two pairs, and is arranged to face each other with the materials P interposed therebetween in the inner space of the enclosure 91 to confine heat. Due to this, the heat is efficiently contacted with the material P for a long time, thereby improving the drying efficiency.

At this time, the guard portion 94 may reflect and transfer the heat of the heating portion 92 to the material (P) side, it may be formed of a metal or similar material having good thermal conductivity.

In addition, a plurality of through holes 94a for passing the heat transferred by the blowing unit 93 in the direction of the material P is formed in the guard unit 94 along the longitudinal and transverse directions.

The partition 95 divides the inner space of the guard 94 into a first space 94b and a second space 94c.

At this time, the first space 94b may be disposed close to the blower, and the second space 94c may be disposed close to the material.

In addition, a plurality of passage holes 95a through which the heat transferred by the blowing unit 93 passes in the direction of the material P is formed in the compartment 95 along the longitudinal and transverse directions.

The thermal conductive medium 96 may be accommodated in either the first space 94b or the second space 94c, and the drawing shows an example accommodated in the first space 94b.

The heat conduction medium 96 absorbs heat supplied from the heating part 92 and performs a function of transferring it to the material.

That is, as the heat-conducting medium 96 continuously transmits the absorbed heat back to the material P, it is to improve the drying efficiency of the material P while preventing heat loss. In addition, the second space 94c simultaneously performs the function of trapping the function of the air layer and the heat, so that heat radiated from the heat conducting medium 96 and heat of the heating unit 92 are counted outside the enclosure 91. By suppressing it, the drying efficiency of the material P is improved.

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

The scope to be protected through the present specification is indicated by the claims, which will be described later, rather than the detailed description, and should be interpreted to include all modified or modified forms derived from the meaning and scope of the claims and equivalent concepts thereof. .

1: Cutting device 10: Transfer part
11: Supply unit 111: first square frame
112: first transfer roll 113: first support leg
12: discharge unit 121: second square frame
122: second transfer roll 123: second support leg
20: cutting portion 20a: through hole
30: reinforcement 31: frame
311: fastening part 32: vertical reinforcement wall
33: horizontal reinforcement wall 34: additional reinforcement wall
40: vibration generating unit 41: case
41a: hole 42: elastic support
43: support 44: first motor
45: first hitting portion 46: protrusion
47: second hitting portion 471: main body
472: Strike rod 473: Coil spring
474: cap 475: detection piece
50: first suction fan 60: hair part
61: second motor 62: rotating part
621: horizontal bar 621a, 63a: air passage
63: hairy unit 63b: air outlet hole
631: hair thinning 64: air supply
641,921: Supply hose 70: Second suction fan
80: washing unit 81: storage box
82: eddy current generating unit 83: third motor
84: first cylinder 85: second cylinder
90: drying unit 91: housing
92: heating section 93: blowing section
94: guard 94a, 95a: through hole
94b: first space 94c: second space
95: compartment 96: heat conduction medium
100: cutting die 101: top plate
101a: Moving Guide Hall

Claims (2)

Transfer part including a supply unit for supplying a material and a discharge unit for discharging the material,
It is disposed between the supply portion and the discharge portion, and includes a cutting portion for cutting the material,
Reinforcement part detachably coupled to both sides of the cutting part,
Vibration generating unit for generating vibration in the supply unit to remove the foreign matter on the material located in the supply unit,
A first suction fan for sucking foreign matter from the lower portion of the supply,
A hair part that shakes off foreign substances on the material located in the discharge part,
A second suction fan for sucking foreign matter from the lower portion of the discharge portion,
Washing unit for collecting and washing the material passing through the hair,
Further comprising a drying unit for drying the material washed by the washing unit,
The reinforcement,
Frame part with both sides open
A plurality of vertical reinforcing walls and horizontal reinforcing walls arranged to intersect in the vertical and horizontal directions inside the frame portion,
And an additional reinforcement wall connecting the connection points of the vertical reinforcement wall and the horizontal reinforcement wall,
The vibration generating unit,
The case is disposed at the bottom of the supply unit, the upper surface is opened and an empty space is formed inside,
An elastic support portion vertically disposed in the inner space of the case and formed in a curved shape,
A support portion coupled to the upper surface of the elastic support portion and the bottom surface of the supply portion,
A first motor disposed on one side and the other side of the supply unit,
A first hitting unit that is eccentrically coupled to the motor shaft of the first motor, and repeatedly rotates in the up and down directions with the power of the first motor, repeatedly hitting the upper surface of the supply unit,
It is movable in the horizontal direction on the case, one side is coupled to the elastic support portion and a protrusion projecting part of the case to the outside,
It includes a second hitting portion that is operated alternately with the first motor repeatedly hitting the protrusion in the horizontal direction,
The hair part,
Second Motor,
It is rotated repeatedly in the up and down direction by the power of the second motor, and the rotating portion located on the horizontal line and the material located in the discharge portion,
It is installed at regular intervals in the rotating part, an air passage is formed inside, a plurality of air discharge holes are formed at regular intervals on the bottom surface facing the material, and a plurality of hair thinning units are formed on the outer surface.
It includes an air supply for supplying air to the air passage of the hair unit,
The washing unit,
A storage box in which washing water for washing the material is stored,
Vortex generating part formed in inverted cone shape,
A third motor that rotates the vortex generating portion in place to generate vortex in the washing water,
A first cylinder that raises or lowers a third motor so that the vortex generation unit is drawn in or out of the storage box.
And a second cylinder for moving the first cylinder such that the vortex generating unit moves forward or backward with respect to the storage box,
The drying unit,
The housing in which the above material is accommodated,
A heating unit that supplies high-temperature heat to dry the material in the interior space of the housing,
A blower that is fixed to each of the inner side walls of the enclosure, and concentrates heat in the enclosure to the material,
Guard portions are arranged to be spaced apart from each other with the material interposed therebetween, and a plurality of passage holes are formed to pass the heat transferred by the blower in the direction of the material,
A partition unit for dividing the inner space of the guard unit into a first space and a second space,
Cutting device which is accommodated in any one of the first space and the second space, and includes a heat conduction medium portion that absorbs heat in the enclosure and transfers it to the material. delete

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