CN210281619U - Spin dryer chip supply separator with part separation function - Google Patents

Abstract

The utility model discloses a drier smear metal supply separator with part separation function, including the part separator device, the outside interval curb plate that is equipped with of multistage separator device, multistage separator device upper end is connected with the conveyer, the conveyer upper end is connected with first funnel, multistage separator device lower extreme is connected with centrifuge, one side of centrifuge is equipped with the tangential export, multistage separator device and centrifuge junction are equipped with the chute, the multistage separator device middle part is connected with eduction gear, the eduction gear below is equipped with the second funnel, the multistage separator device includes first spout component and second spout component. When the separator is operated, an operator can easily see the separation condition of materials, and the multi-stage material separation is allowed to be carried out before the separated materials enter the centrifugal drier, so that the material separation program is better controlled and adjusted, and the service life of the equipment is prolonged.

Description

Spin dryer chip supply separator with part separation function

Technical Field

The utility model relates to a machining makes technical field, especially relates to a drier smear metal supply separator with part separation function.

Background

A separator for use in a system for separating metal chips from cooling lubricant fluid produced during machining operations such as lathes, milling machines and the like separates heavy metal parts prior to the metal chips and oil entering a centrifuge and feeds the separated relatively light metal chips and cooling lubricant fluid into the centrifuge, i.e., separates unwanted, large and heavy materials from a mixture of smaller materials and fluid (e.g., metal chip debris and cooling lubricant fluid). Most of the existing systems use vibrating screens to separate parts mixed into the cuttings, which, while satisfactory in many applications, have found their deficiencies in certain applications. In some cases, heavy metal pieces, strips and relatively long pieces of metal (e.g. bar stock) are not separated from the lighter chip fragments but are carried to the centrifuge, causing damage to centrifuge components and the separation process cannot be visually monitored.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a drier cuttings supply separator with part separation function possesses the separation effectually, and equipment long service life's characteristics have solved the problem among the prior art.

In order to achieve the above object, the utility model provides a following technical scheme: a spin dryer chip supply separator with a part separation function comprises a multistage separator device, wherein a spacing side plate is arranged outside the multistage separator device, a conveyor is connected to the upper end of the multistage separator device, a first hopper is connected to the upper end of the conveyor, a centrifuge is connected to the lower end of the multistage separator device, a tangential outlet is formed in one side of the centrifuge, a chute is formed in the joint of the multistage separator device and the centrifuge, a discharge device is connected to the middle of the multistage separator device, a discharge side plate is arranged at the lower end of the discharge device, a second hopper is arranged below the discharge device, the multistage separator device comprises a first chute component and a second chute component, the second chute component is adjacent to the first chute component, and the first chute component extends in the direction away from the conveyor, the first chute component comprises a first bottom plate, a first end, a second end and a first top plate, the first bottom plate comprises a straight plate, the straight plate is provided with an arc-shaped part, the arc-shaped part is positioned close to a blanking opening, the blanking opening is separated from the first end or the second end of the first chute component and positioned on the first bottom plate of the first chute component, an air blower is arranged below the first bottom plate and comprises an air outlet and a rotating wheel, the rotating wheel is arranged in the middle of the air blower, the air outlet is positioned on one side of the arc-shaped part, one side of the arc-shaped part is correspondingly provided with a vertical plate, the vertical plate comprises a deflection plate and is arranged on one side of the blanking opening opposite to the arc-shaped part, a tubular chute is arranged on one side of the first bottom plate, the chute is positioned in an inlet guide cone of the centrifuge and forms a small opening, and the opening is arranged between the end part, the second chute component comprises an outlet end, an inlet end, a second bottom plate and a second top plate, the second top plate and the second bottom plate are connected with a vertical chute, the vertical chute goes deep into the centrum of the centrifuge, the lower end of the vertical chute is provided with a chute outlet, the second bottom plate is connected with a chute, one end of the first top plate is fixed with one end of an arc-shaped section plate through welding, the first top plate is provided with a plate opening, the plate opening can be provided with a pore plate, the pore plate is provided with a hole, the other end of the arc-shaped section plate is welded with one end of the second top plate, the lower end of the plate is arc-shaped and extends towards the arc-shaped section plate, a discharge port is arranged at the joint of the multistage separator device and the centrifuge, the discharge port is connected with the rotary drum through a guide cone, the guide cone extends to the, the top end of the conical side wall is provided with a wedge-shaped wire mesh, an annular cavity is formed between the conical side wall and the side wall of the centrifuge, the upper edge of the rotary drum is provided with a side opening, the upper end of the rotary drum is connected with an annular chamber through the side opening, and the annular cavity is connected with a tangential outlet.

Preferably, a first baffle is arranged at the blanking opening and comprises a support leg with an angle, a fastening device, a second baffle and a third baffle.

Preferably, the blanking mouth is adjacent with the atmoseal device, and the atmoseal device includes a plurality of equidistance blades, and wheel hub is connected to the blade, and wheel hub swivelling joint has the rotation axis, and rotation axis one end is connected with the bearing, the outward flange of blade and the internal surface contact of arc part, and the rotation axis is connected with the motor.

Preferably, the discharging device comprises a discharging bottom plate and a discharging side plate, the discharging side plate is connected with the discharging bottom plate, and the discharging device is connected with a centrifuge.

Preferably, a flange is arranged at the joint of the first end and the conveyor.

Preferably, a first side plate and a slanted top plate are mounted on one side of the first top plate.

Compared with the prior art, the beneficial effects of the utility model are as follows:

the chip supply separator of the drying machine with the part separation function of the utility model can make the operator easily see the separation condition of the materials when the separator operates, allowing for multiple stages of material separation before the separated material enters the centrifugal dryer, wherein the separated debris material and fluid enter a centrifugal drier, the separation system utilizes the action of gravity, but the separated parts do not depend on the gravity completely, but are separated under the assistance of the gravity, a multi-stage separation mode is adopted, and in addition, in the separation device, the material is divided into a plurality of stages so as to smoothly separate and remove the unnecessary material from the system, and finally, the device is not a completely closed device, the operator can check the separation at each separation stage, thereby providing better control and adjustment of the material separation process and extending the useful life of the equipment.

Drawings

FIG. 1 is an overall structure diagram of the present invention;

FIG. 2 is a sectional side cross-sectional view of the multi-stage separator arrangement of the present invention;

FIG. 3 is a view showing the internal structure of the multistage separator apparatus of the present invention;

FIG. 4 is a connection diagram of the multistage separator device and the gas seal device according to the present invention;

FIG. 5 is a cross-sectional view taken along line 5-5 of FIG. 4 in accordance with the present invention;

FIG. 6 is a view showing the structure of the blower of the present invention;

FIG. 7 is a side view of the multi-stage separator apparatus of the present invention;

fig. 8 is a front view of the multistage separator apparatus of the present invention;

FIG. 9 is a cross-sectional view taken along line 9-9 of FIG. 8 in accordance with the present invention;

FIG. 10 is a cross-sectional view taken along line 10-10 of FIG. 9 in accordance with the present invention;

fig. 11 is a connection diagram of the multistage separator device and the centrifuge of the present invention.

In the figure: 1. a first hopper; 2. a conveyor; 3. a multi-stage separator device; 30. a first chute member; 31. a partition side plate; 32. a second chute member; 33. a first base plate; 34. A second base plate; 35. a second top plate; 36. a first end; 37. a second end; 38. a first top plate; 381. a first side plate; 382. a slanted top plate; 39. a straight plate; 4. a chute; 40. an arc-shaped portion; 41. a blanking port; 42. an outlet end; 43. a vertical plate is vertical; 44. an opening; 45. an inlet end; 46. a guide cone; 47. an arc-shaped section plate; 48. a vertical chute; 49. a chute outlet; 5. a centrifuge; 51. a tangential outlet; 6. a discharge device; 61. a discharge side plate; 62. a discharge floor; 7. a second hopper; 8. a gas seal device; 81. a blade; 82. a hub; 83. a rotating shaft; 9. a blower; 91. a rotating wheel; 92. an air outlet; 10. an aperture; 11. an orifice plate; 12. A flange; 13. a bearing; 14. a first baffle plate; 141. a support leg; 142. a fastening device; 143. A second baffle; 144. and a third baffle.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Referring to fig. 1-6, a chip supply separator of a spin dryer with a function of separating parts comprises a part separator device, a multi-stage separator device 3 is externally provided with a spacing side plate 31, the upper end of the multi-stage separator device 3 is connected with a conveyor 2, the upper end of the conveyor 2 is connected with a first hopper 1, the lower end of the multi-stage separator device 3 is connected with a centrifuge 5, one side of the centrifuge 5 is provided with a tangential outlet 51, the joint of the multi-stage separator device 3 and the centrifuge 5 is provided with a chute 4, the middle part of the multi-stage separator device is connected with a discharge device 6, the lower end of the discharge device 6 is provided with a discharge side plate 61, the discharge device 6 in a U-shaped metal plate shape comprises a discharge bottom plate 62 and a discharge side plate 61, the discharge side plate 61 is connected with a discharge bottom plate 62, the discharge device 6 is connected with the centrifuge 5, the lower part of the discharge device 6 is provided with a second hopper 7, the multi-stage separator device, the second chute member 32 is adjacent to the first chute member 30, the first chute member 30 extends in a direction away from the conveyor 2, the first chute member 30 in the shape of a rectangular metal plate comprises a first bottom plate 33, a first end 36, a second end 37 and a first top plate 38, a first side plate 381 and an inclined top plate 382 are mounted on one side of the first top plate 38, the first bottom plate 33 comprises a straight plate 39, the straight plate 39 is provided with an arc-shaped portion 40, the arc-shaped portion 40 is located close to the blanking opening 41, the air sealing device 8 is adjacent to the blanking opening 41, the air sealing device 8 comprises a plurality of equidistant blades 81, the blades 81 are connected to a hub 82, the hub 82 is rotatably connected to a rotating shaft 83, one end of the rotating shaft 83 is connected to a bearing 13, the outer edge of the blades 81 is in contact with the inner surface of the arc-shaped portion 40, the rotating shaft 83 is connected to a motor or other driving device, the blanking opening 41 is, and is located on the first bottom plate 33 of the first chute member 30, an air blower 9 is arranged below the first bottom plate 33, the air blower 9 comprises an air outlet 92 and a rotating wheel 91, the rotating wheel 91 is arranged in the middle of the air blower 9, the air outlet 92 is located on one side of the arc-shaped part 40, a vertical upright plate 43 is correspondingly arranged on one side of the arc-shaped part 40, the vertical upright plate 43 comprises a deflection plate and is arranged on one side of a blanking port 41 opposite to the arc-shaped part 40, a first baffle plate 14 is arranged at the blanking port 41, the first baffle plate 14 comprises an angled support leg 141, a fastening device 142, a second baffle plate 143 and a third baffle plate 144, a tubular chute 4 is arranged on one side of the first bottom plate 33, the chute 4 is located in an inlet guide cone 46 of the centrifuge 5 and forms a small opening 44, the opening 44 is arranged between the end of the first bottom plate 33 and the tubular chute 4, the, A second bottom plate 34 and a second top plate 35, the second bottom plate 34 are connected with a vertical chute 48, the vertical chute 48 extends into the centrum of the centrifuge 5, the lower end of the vertical chute 48 is provided with a chute outlet 49, the second bottom plate 34 is connected with a chute 4, one end of the first top plate 38 is fixed with one end of an arc-shaped section plate 47 by welding, the first top plate 38 is provided with a plate opening 44, the plate opening 44 can be provided with a pore plate 11, the pore plate 11 is provided with a hole 10, the other end of the arc-shaped section plate 47 is welded with one end of the second top plate 35, the lower end of the plate is arc-shaped and extends towards the arc-shaped section plate 47, the joint of the multistage separator device 3 and the centrifuge 5 is provided with a discharge port, the discharge port is connected with a rotary drum by a guide cone 46, the guide cone 46 extends to the bottom of the rotary, an annular cavity is formed between the conical side wall and the side wall of the centrifuge 5, and the upper part of the rotary drum

The rim has an edge opening through which the upper end of the drum is connected to an annular chamber which is connected to a tangential outlet 51. in operation, material to be separated, such as heavy metal or long metal pieces, metal shavings and lubricating oil, is fed by a conveyor to the material receiving end of the first chute member 30. the mixture slides under gravity from the inclined floor and then falls from the drop opening 41. unwanted material, such as bars and the like, falls onto the arcuate portion 40 and is directed towards the opening 44 and the vertical plate before reaching the opening 44. unwanted material is separated from the mixture and is removed through the end of the first chute member 30 through the opening 44 at the top, and the operator can see that a first level of separation has occurred between the first chute member 30 and the opening 44, as the material flows past the end of the material receiving opening 44 in the second chute member 32, the mixture of metal chips and oil is entrained in an air flow having a pressure different from the normal substantially atmospheric pressure, which is generated by the centrifuge 5, and driven by the means of the centrifuge 5, air is sucked into the centrifuge 5, and a negative air pressure is generated in the second chute member 32, the centrifuge 5 can be powered by an electric motor to rotate the drum and the blades 81, so that a negative pressure occurs in the chute 4, and a desired air flow is provided for the mixture through the drop opening 41, and the change in the air flow directly below the drop opening 41 causes lighter metal chips and lubricant to enter the second chute member 32, while heavier, undesired chips fall by gravity into the discharge means 6 and then into the hopper, and the lighter metal chips and lubricant enter the second chute 4 after separation of the heavier materials, or are conveyed to the centrifuge 5, where the lubricant is separated from the chips, the separation of material in the second stage takes place substantially outside the ends of the chute members so that when the separation system is in progress the operator or other associated person can observe the separation process and in order to increase the air flow at the inlet to the second chute member 32, it is sometimes necessary to shut off the occurrence of large amounts of air which is drawn through the drop opening 41 or into the first chute member 30, and to avoid this problem the opening 44 can be eliminated in which the plate has been extended to contact the inner wall of the chute, and in addition an air seal 8 can be provided to prevent air or other fluid from passing through the discharge outlet, the first chute member 30 comprising a bottom plate, spaced apart first side plates 38131 and a top plate provided with the opening 44, if desired, an orifice plate 11 with the orifice 10 mounted over the opening 44, the orifice plate 11 being removable so that the operator can see the first stage of separation which occurs in the first chute member 30, the rotary air seal 8 is located in the first chute member 30 and is located adjacent the drop opening 41. the rotary air seal 8 comprises a plurality of equally spaced vanes 81, the vanes 81 are connected to a hub 82, the hub 82 is arranged to rotate on a rotatable shaft 83, the shaft is connected to a motor or other suitable drive means, the outer edges of the vanes 81 are in contact with the inner surface of the arcuate portion 40 sufficient to form an air seal that prevents substantial air from entering the centrifuge 5 through the opening 44, the air flow through the drop opening 41 is generated by a centrifugal dryer, the centrifugal dryer draws air into the dryer such that there is a negative pressure in the second chute member 32, the air pressure of the desired air flow in the second chute member 32 can also be generated by a positive pressure and passed through the discharge area, and can be generated by a blower 9 located below the floor, when the blower 9 is activated, which creates a positive pressure in the drop opening 41 and the second chute member 32 sufficient to entrain material falling from the opening 44, the blower 9 may be connected by any suitable means, such as by being bolted to the floor, and the outlet end 42 of the second chute member 32 may be disconnected from the centrifuge 5.

7-11, which delivers material and lubricant to a parts separator outlet, the separator end being separated from a conical chip inlet in centrifuge 5, the parts separator device comprising a first chute member 30 extending in a first direction from a receiving end and a second chute member 32 extending in the first direction, the second chute member 32 being adjacent a drop opening 41 at end 42 of a first chute outlet 49, the second chute member 32 being disposed at an angle B of about 30 ° to the first chute member 30, a top plate extending along the top of the first chute member 30 and continuing through the plate and ending in a tubular chute in contact weld with one end of a bottom plate, the tubular chute being spaced from the centrifuge 5 feed opening cone, a first baffle plate 14 comprising angled legs 141 adjustably mounted on the bottom plate by suitable fastening means 142, fastener means for allowing the baffle plate to be adjustably mounted along the bottom plate, the baffles are movable in the direction of arrow "a" to increase or decrease the size of the drop opening 41, the second baffle 143 is adjustably mounted to the inclined plate by suitable fastening means 142, the baffles are movable in the direction of arrow "B" to increase or decrease the size of the feed opening 44 of the second chute member 32 and the size of the material discharge opening of the first chute member 30, the third baffle 144 is adjustably mounted to the base plate by suitable fastening means 142, the baffles are movable in the direction of arrow "C" to increase or decrease the size of the opening 44 at the receiving end of the second chute member 32, a rotary air seal assembly disposed in the first chute member 30 is mounted approximately midway along the length of the base plate, the assembly includes a plurality of equidistant, relatively stiff but flexible paddle blades 81 attached to a hub 82, the hub 82 is located on a rotatable shaft 83, the shaft is connected to suitable bearings 13, which bearings 13 are in turn connected to a first side plate 381, the shaft is connected to a motor or other suitable drive means for driving the impeller blades 81 in a counter-clockwise direction, the outer edges of the blades 81 being spaced closely from the plate so that the blades 81 act somewhat sealingly, the blades 81 also act in contact with the material of the chute 4 and assist in its sliding movement along the bottom plate so as to increase the velocity or momentum of the material as it approaches the drop opening 41, a mounting bracket is mounted on the bottom plate, the bracket including an inclined top plate 43, the bottom plate being connected by mounting arms to the inclined top plate 43, a blower 9 having a motor and an air chute 4 is mounted on the bottom plate, the blower 9 generating an air flow having a positive pressure, the air passing through the drop opening 41 and the second chute member 32, a circular tubular chute along the length of the chute for feeding entrained metal chips and lubricant oil to the centrifuge 5, the material to be separated enters the first chute member 30 from the conveyor belt, slides down the upper surface of the bottom plate, acquires momentum as the paddle wheel blades 81 contact the material and push it toward the drop opening 41, separates unwanted heavy material from the opening 44, drops into the discharge chute, while the remaining metal fragments and lubricant entrained in the air flow generated by the blower 9 enter the receiving end of the second chute member 32, and transported along the length of the second chute member 32 in the direction of arrow "d", and ultimately to the centrifuge 5, if desired, the blower 9 can be eliminated, and instead, the tubular chute can be connected directly to the centrifuge 5, by the action of the rotating blades 81 in the centrifuge 5, the air flow required for the separation at the drop opening 41 and for the transport of the entrained metal chips and air through the second chute 4 is created, in this embodiment it being understood that the air pressure in at least the second chute is negative.

The working principle is as follows: the fluid generating means comprises a blower 9 connected to the apparatus, the blower 9 being located below and adjacent the discharge opening for generating a positive fluid pressure over the discharge opening and the length of the second chute member 32, the fluid generating means being a centrifugal device located adjacent the outlet end 42 of the second chute member 32, the length of the second chute member 32 and the passage through the outlet opening generating a negative fluid pressure separating heavy, unwanted material from lighter cuttings material and lubricating oil

Wherein the first chute member 30 includes means for effecting material separation within the first chute member 30 prior to passage of the material through the drop opening 41, a storage area associated with the first chute member 30 for receiving the material to be separated and subsequently discharged through the discharge opening, an arcuate member on the floor of the outlet end 42 of the first chute member 30, the arcuate member being sufficient to direct unwanted material above the drop opening 41 into the storage area of the first chute member 30, the first chute member 30 being open along a substantial portion of the top of the chute member to permit viewing of the material within the first chute member 30 upon access to the drop opening 41, a fluid seal substantially preventing fluid from passing through the discharge opening through which the first chute member 30 is drawn, a rotary seal within the first chute, the top plate of the first chute member 30 being closed at least at the location of the rotary air seal 8, the first and second chute members 32 being substantially rectangular along the respective lengths of each chute member, the separator apparatus further comprising baffle means for adjusting the size of the opening 44 at the inlet end 45 of the second chute member 32, the baffle means for adjusting the size of the discharge opening, the first chute member 30 being free of any substantial fluid pressure generated by the fluid generating means other than atmospheric pressure, the rotating paddle wheel means comprising a plurality of vanes 81 for assisting the movement of the material and lubricant as it moves from the inlet end 45 of the first chute member 30 to the outlet end 42 of the first chute member 30 and increasing the momentum of the material and lubricant to be separated, and first baffle 14 means for increasing or decreasing the size of the discharge opening, the first baffle 14 means being adjustably connected to the floor of the first chute member 30, and second baffle 143 means for increasing or decreasing the size of the inlet opening 44 in the chute member, the second baffle 143 means is adjustably attached to the inclined plate of the first chute member 30, the second baffle 143 means further comprising baffles adjustably attached to the chute member, the mixture of waste material, such as metal chips, lubricating oil cooling fluid or other liquid and relatively large unwanted metal pieces, is received into the hopper 10 and discharged to one end of a conventional conveyor 212, the conveyor screw or belt of the conveyor 212 transports the mixture to the upper end of the conveyor 2 and discharges the material into the multistage separator device 314, after separation in the device 14, the light waste material is discharged through the discharge opening 15 into the spin dryer 16, the material passes the chips and the cooling lubricating fluid into the bottom of the bowl 19 through the centrifugal spin dryer inlet guide cone 4617, the bowl 19 is driven by a conventional motor, the material is subjected to centrifugal force in the bowl such that it moves upwardly along the interior of the conical side wall 21 of the bowl 19, when the material reaches the wedge wire mesh 22, oil is separated from the debris, and through the wire mesh 22, the oil collects in the annular chamber 23 and is discharged through a suitable drain, not shown, which continues to move upwardly through the screen 22 to the upper edge 24 of the rotating drum 19, and then centrifugally enters the annular chamber 25, throwing and blowing the chips out of the annular chamber 19 through a tangential outlet 5126 connected to the chip receiving means.

In summary, the following steps: the spin dryer chip supply separator with the part separation function of the utility model has the advantages that when the separator runs, the operator can easily see the separation of the material, allowing for multiple stages of material separation before the separated material enters the centrifugal dryer, wherein the separated fragment material and fluid enter a centrifugal drier, the separation system utilizes the action of gravity, but the separated parts do not depend on the gravity completely but are separated under the assistance of the gravity, a multi-stage separation mode is adopted, in addition, in the separation device, the material is divided into a plurality of stages so as to smoothly separate and remove the unnecessary material from the system, and finally, the device is not a completely closed device, the operator can check the separation at each separation stage, thereby providing better control and adjustment of the material separation process and extending the useful life of the equipment.

It is noted that, in this document, relational terms such as first and second, and the like are used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (6)

1. A drier chip supply separator with parts separation, comprising a multi-stage separator device (3), characterized in that: the multistage separator device (3) is externally provided with a spacing side plate (31), the upper end of the multistage separator device (3) is connected with a conveyor (2), the upper end of the conveyor (2) is connected with a first hopper (1), the lower end of the multistage separator device (3) is connected with a centrifugal machine (5), one side of the centrifugal machine (5) is provided with a tangential outlet (51), the joint of the multistage separator device (3) and the centrifugal machine (5) is provided with a chute (4), the middle part of the multistage separator device (3) is connected with a discharge device (6), the lower end of the discharge device (6) is provided with a discharge side plate (61), a second hopper (7) is arranged below the discharge device (6), the multistage separator device (3) comprises a first chute component (30) and a second chute component (32), and the second chute component (32) is adjacent to the first chute component (30), the first chute component (30) extends along a direction far away from the conveyor (2), the first chute component (30) comprises a first bottom plate (33), a first end (36), a second end (37) and a first top plate (38), the first bottom plate (33) comprises a straight plate (39), the straight plate (39) is provided with an arc-shaped part (40), the arc-shaped part (40) is located near a blanking port (41), the blanking port (41) is separated from the first end (36) or the second end (37) of the first chute component (30) and is located on the first bottom plate (33) of the first chute component (30), an air blower (9) is arranged below the first bottom plate (33), the air blower (9) comprises an air outlet (92) and a rotating wheel (91), the middle part of the air blower (9) is the rotating wheel (91), and the air outlet (92) is located on one side of the arc-shaped part (40), a vertical upright plate (43) is correspondingly arranged on one side of the arc-shaped part (40), the vertical upright plate (43) comprises a deflection plate and is arranged on one side of the blanking port (41) opposite to the arc-shaped part (40), a tubular chute (4) is arranged on one side of the first bottom plate (33), the chute (4) is positioned in an inlet guide cone (46) of the centrifuge (5) and forms a small opening (44), the opening (44) is arranged between the end part of the first bottom plate (33) and the tubular chute (4), the second chute component (32) comprises an outlet end (42), an inlet end (45), a second bottom plate (34) and a second top plate (35), the second top plate (35) and the second bottom plate (34) are connected with a vertical chute (48), the vertical chute (48) extends into the centrifuge (5), and a chute outlet (49) is arranged at the lower end of the vertical chute (48), the second bottom plate (34) is connected with a chute (4), one end of the first top plate (38) is fixed with one end of an arc-shaped section plate (47) through welding, a plate opening (44) is formed in the first top plate (38), a pore plate (11) can be installed on the plate opening (44), a pore (10) is formed in the pore plate (11), the other end of the arc-shaped section plate (47) is welded with one end of the second top plate (35), the lower end of the plate is arc-shaped and extends towards the arc-shaped section plate (47), a discharge port is arranged at the joint of the multistage separator device (3) and the centrifuge (5), the discharge port is connected with a rotary drum through a guide cone (46), the guide cone (46) extends to the bottom of the rotary drum, the rotary drum comprises a conical side wall and blades (81), a wedge-type metal wire mesh is installed at the top end of the conical side wall, and a circular cavity is formed between the conical side, the upper edge of the rotary drum is provided with a side opening, the upper end of the rotary drum is connected with an annular chamber through the side opening, and the annular chamber is connected with a tangential outlet (51).

2. A dryer spin dryer cuttings supply separator with parts separation as defined in claim 1 wherein: the blanking port (41) is provided with a first baffle (14), and the first baffle (14) comprises an angled support leg (141), a fastening device (142), a second baffle (143) and a third baffle (144).

3. A dryer spin dryer cuttings supply separator with parts separation as defined in claim 1 wherein: blanking mouth (41) are adjacent with atmoseal device (8), and atmoseal device (8) include a plurality of equidistance blades (81), and wheel hub (82) is connected in blade (81), and wheel hub (82) swivelling joint has rotation axis (83), and rotation axis (83) one end is connected with bearing (13), the internal surface contact of the outward flange of blade (81) and arc portion (40), and rotation axis (83) are connected with the motor.

4. A dryer spin dryer cuttings supply separator with parts separation as defined in claim 1 wherein: the discharging device (6) comprises a discharging bottom plate (62) and a discharging side plate (61), the discharging side plate (61) is connected with the discharging bottom plate (62), and the discharging device (6) is connected with the centrifugal machine (5).

5. A dryer spin dryer cuttings supply separator with parts separation as defined in claim 1 wherein: and a flange (12) is arranged at the joint of the first end (36) and the conveyor (2).

6. A dryer spin dryer cuttings supply separator with parts separation as defined in claim 1 wherein: a first side plate (381) and a slanted top plate (382) are mounted on one side of the first top plate (38).

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