JP3168801U - Dehydrating raw material production machine - Google Patents

Abstract

Provided is a dehydration raw material manufacturing machine for producing a dehydration raw material from plastics or a collected object obtained by mixing plastics. A dewatering raw material manufacturing machine includes a screen drum having an inner hole and a body having an inner hole. The screen drum further has a raw material input port 24 and a screen hole 23 communicating with the inner hole, is coaxially butt-joined to one end of the inner hole and one end of the inner hole, and the other end of the inner hole seals the end plate. In addition, a tooth portion 33 is provided on the wall surface of the bore, and the end plate is provided with an extrusion hole communicating with the plurality of bores. A rotatable shaft member 5 is provided in the screen drum and the body, and a spiral blade piece 51 is provided in the area of the screen drum around the shaft member. Dehydration. Further, the outer periphery of the shaft member is further provided with a spiral blade 551 whose teeth are combined with each other in the body region. The spiral blade 551 is wound by the spiral blade, rolled by the body teeth, and the raw material material is subjected to a uniform raw material feed process. In addition, the shaft member forms a buffer shaft 52 between the spiral blade piece 51 and the spiral blade 551, and this buffer shaft forms a buffer space in accordance with the inner hole. [Selection diagram] Fig. 1

Description

The present invention relates to a dewatering raw material manufacturing machine, and its application range is plastic powder after collection, plastic film fragments, plastic recycling raw materials such as pulverized plastics, wood powder, wood pulverized material, papers, etc. Recycled plastic waste after dehydration, raw material smelting, raw material manufacturing machine after washing step for single raw material of fiber recycling raw material such as pulverized material, plant stem pulverized material, etc. Achieve use, collect recycled materials of wood and paper, or mix plastic waste of wood, plant stems and paper into sticks or strips, low temperature furnace (RPF) or high temperature furnace (RDF) As a fuel, reduce waste pollution and make full use of resources, it has the following technical fields:

1. A single-stage spiral blade piece is provided on the outer periphery of the shaft member, used to feed the raw material in the direction of the fuselage in accordance with the raw material supply port, and in accordance with the screen opening of the screen drum. Form an effect.

Second, the buffer shaft formed between the spiral blade and the spiral blade of the shaft member can be used, and the buffer space formed by the buffer shaft and the inner hole of the screen drum can be used. A plurality of turbulent plug blocks and shunts that increase the pressure to achieve a complete dehydration drying effect of the raw material, and further extend to the screen drum bore provided at one end adjacent to the screen drum body; and The inner hole of the screen drum is relatively limited, and the spiral drum blade feed is used, and the screen drum inner hole wall surface is pushed by the collected object material to advance, and the existing traveling path needs to be changed. As a result, the recovered object material is constantly changed from its original position, and the object material is not stuck to the inner wall surface of the screen drum, and the problem that the recovered object material returns to the screen drum is improved. Door can be.

3. Improve the material homogenization technology and greatly increase the material processing radial depth, improve the material feed homogenization quality efficiently.

4. In the process of homogenizing the raw material feed of the object raw material after dehydration and drying using the combination of the spiral blade on the sword holder fixedly installed by the shaft member and the body central tooth part, toward the end plate extrusion hole Form an extruding hot press and achieve the effect of hardening the product.

5. A single-rolling cutting device can be used for consistency, and the recovered object material after homogenization can be sent out in granular form as required by the operator, or the length can be controlled to a predetermined length. It is sent in the form of a strip or rod.

An approximation to the technical field of the present invention is the M319146 Separation Type Dehydration Feeder, which is a processing technology that can homogenize the recovered plastic after crushing and dehydration. After that, the screen drum is constructed with a main shaft, the main shaft is provided with a blade, the screen drum is provided with a raw material inlet, and when the main shaft is rotated, the recovered plastic fed from the raw material inlet is collected. Dehydrated and extruded from the spindle output, which is characterized by:

A raw material feed device is installed at the main shaft output end of the screen drum, and the raw material feed device includes a hollow socket and a raw material feed head. The socket has a conical inner hole that communicates with the screen drum and diffuses outward, the inner hole is provided with polishing teeth, and the raw material feed head is installed correspondingly in the socket and interlocked with the main shaft In addition, a tooth block is provided on the outer periphery of the raw material feed head, and there is a radial gap between the tooth block and the abrasive teeth. The radial gap is subjected to frictional deformation of the recovered plastic under control. Can be melted and formed into irregular shapes such as popcorn, for example, delivered, and then processed by an extruder to produce a recycled product of good quality.

Patent Publication 2000-510397

However, the patent prior art document has the following defects:
1. In actual use, the main spindle blade piece of the prior art entrains the recovered plastic, and its progress is a fixed rotational direction path. During the entrainment process, when the material feed device provided at the end feeds, In addition to changing the position of the raw material, there is no need to change the existing travel path for the recovered plastic.In the process of supplying the raw material, once the recovered material is melted by excessive heat, When a situation where it cannot be delivered occurs, it is impossible to move forward by continuously receiving a press, causing a situation where the recovered object material is caught, and once the recovered plastic comes out of the range in which the main spindle blade can be wound, the inner wall of the screen drum When the situation of difficult dehydration occurs, the recovered plastic is completely inside the screen drum, that is, the machine is stopped and new Clear can be recovered for the first time successfully used to, in actual use, it is very inconvenient.
2. The raw material feed head rotates in the socket to perform “tooth-to-tooth” raw material feed. Although the feed can be completed, the radial depth of the raw material feed region is not large, so the basis for the entire homogenization treatment is not large, and there is room for improvement in the quality of the grains.
3. After the raw material feed head and socket rub the recovered plastic with teeth-to-tooth, the recovered plastic often generates high heat at high speed friction, generates a complete melting state, and in the absence of a cutting device, Delivered in continuous strips, broken into continuous strips of recovered plastic in other processes, sent into transport and extruders for convenient subsequent processing, and subjected to completely molten recovered plastic sticking The state of the art often has gaps in the raw material feedhead and socket, and is completely deficient in operation, so the prior art has a defect that the particulate recovered plastic cannot be consistently automated and delivered, It has a defect that it cannot be used for long-term operation.
4. In the above prior art, the delivery is controlled by the predetermined value of the gap between the raw material feed head and the socket, according to the actual demand of the operator, the granular size of the recovered plastic to be sent or the length of the object raw material to be sent Can not do it.

In view of the above-mentioned deficiencies in the prior art, the present inventors have made active efforts and researches, and after several tests and improvements, have finally developed the present invention having practical effects.

The dehydrating raw material production machine provided by the present invention is
Rack,
It is attached to the rack, has a coaxial inner hole, is provided with a screen hole that can communicate with a plurality of inner holes in the radial direction, and further provided with a raw material inlet that allows a recovered object raw material to be introduced into the inner hole, A screen drum provided with a turbulent plug protruding into a plurality of inner holes at one end adjacent to the body;
A body hole is provided that penetrates the left and right ends, one end of the hole is coaxially abutted and connected to one end of the screen drum inner hole, and a toothed portion is provided on the wall surface of the hole.
The other end of the medium hole is hermetically sealed, and has a plurality of extrusion holes communicating with the inside and outside of the plurality of holes. These extrusion holes are end plates installed along the direction of the medium hole axis;
A shaft member that concentrically straddles the inner hole and the inner hole, the outer periphery of the shaft member is provided with a spiral blade piece in the screen drum range, and the shaft member pushes out both of the collected materials fed from the raw material feed to the body when rotating. In particular, a spiral blade is provided on the outer periphery of the shaft member in the body region, and the spiral direction of the spiral blade is the same as that of the spiral blade piece. A buffer shaft having a relatively small diameter is provided, and the buffer shaft includes a shaft member located in the screen drum range,
A cutting device attached to the outer surface of the end plate and used for cutting the recovered object material to be sent out from the extrusion hole;
including.

The present invention has at least the following advantages:
(A) The spiral blade piece 51 provided on the shaft member 5 of the present invention can be adjusted to the raw material input of the raw material input port 24 and the screen hole 23 of the screen drum 2, and the first stage of dehydration drying is performed simultaneously with the induction of the raw material. A buffer shaft 52 is formed between the spiral blade piece 51 and the spiral blade 551, and a buffer filling space is formed between the inner hole 20 of the screen drum 2 and the buffer shaft 52 to completely dewater the recovered object material, and Further, it is necessary to prevent the turbulent plug 27 protruding and extending into the inner hole 20 of the screen drum 2 and the diversion, and the recovered object raw material sent out to the wall surface of the inner hole 20 by the spiral blade 551 being involved needs to change the original traveling path. Even if it is changed, it is possible to constantly change and change, and the situation that the material material of the prior art is stuck in the inner hole 20 of the screen drum 2 without causing the situation of sticking to the wall surface of the inner hole 20 of the screen drum 2 And avoid, completely dehydrated, to achieve the effect that no embolic the inner hole 20 of the screen drum 2.
(B) The present invention homogenizes the raw material feed processing for the recovered object raw material, which is to increase the radial depth of the raw material feed processing by winding the helical blade 551 of the shaft member 5 and rolling the tooth portion 33 of the body 3. Greatly increased, feeds all the recovered material raw materials located in the body 3 together, greatly improves the basics of the homogenization treatment, improves the quality of the production of grains of the recovered material raw materials or strips, Further, when the object raw material is pushed out through the extrusion hole 45 of the end plate 4 by causing the material raw material to be frictionally pressed by the forced engagement of the spiral blade 551 and the tooth portion 33, the product has a close effect on the product. Can be achieved.
(C) On the outside of the end plate 4 of the present invention, a cutting device 6 is attached, and the homogenized object raw material that is continuously output is cut into granular, strip-like or rod-like shapes of a predetermined length. Save time, improve efficiency and achieve the principle of economic effect and new functions in synchronous machining.

It is combination sectional explanatory drawing of this invention. It is a decomposition explanatory view of a screen drum, a body, an end plate, and a shaft member of the present invention. It is decomposition | disassembly explanatory drawing of the cutting device of this invention. It is a three-dimensional combination explanatory drawing of this invention. It is local combination cross-sectional explanatory drawing of FIG. It is explanatory drawing of 2nd Example of this invention. It is explanatory drawing of 3rd Example of this invention. It is explanatory drawing of 3rd Example of this invention. It is explanatory drawing of 4th Example of this invention. It is explanatory drawing of 5th Example of this invention.

In order to make the structure, features and other objects of the present invention easier to understand, preferred embodiments will be given and described in detail below in conjunction with the drawings.

1 to 5, the present invention includes the following.
As shown in FIG. 1, the rack is formed by welding vertical and horizontal beams and plate pieces, a base surface 11 is formed on the top surface of the rack, and a fixed base 12 on the base surface 11 and a shift located on the right side of the fixed base 12. The box 13 is fixedly installed, the fixing base 12 has a shaft hole 120 penetrating in a taper shape, a gear set is incorporated inside the speed change box 13, and a belt ring capable of interlocking the gear set is attached to the right end of the speed change box 13, A main motor 14 is attached to the lower side of the gearbox 13 of the rack, and is used to link the gear set in the gearbox 13 via the belt 15 to the motor 14 so that the gear set can output a reduced power.

  As shown in FIGS. 1 and 2, the screen drum 2 has inner holes 20 coaxially passing through the left and right ends, and fixed rings 21 and 22 are provided on the outer circumferences of both ends, respectively. The fixing ring 21 passes the screw plug, is fixedly installed on the left side surface of the fixing base 12, and is separately provided between the screen drum 2 and the base surface 11. A bracket 211 is provided between the screen drum 2 and the base surface 11 so that the screen drum 2 can be laid down on the base surface 11. The screen drum 2 further includes a plurality of inner holes 20 in the radial direction. Is provided in the upper half of the right end with a raw material charging port 24 that communicates the inside and outside of the inner hole 20 in the radial direction. The raw material charging port 24 is fixedly installed with a raw material charging funnel 25 that diffuses upward. And The raw material introduction funnel 25 guides the raw material to be introduced into the inner hole 20, and the fixed ring 22 at the left end of the screen drum 2 equally divides the assembly holes 26 penetrating the inner hole 20 in a plurality of radial directions. The assembly hole 26 is provided with a turbulent plug 27 attached thereto, and the turbulent plug 27 can be protruded into the inner hole 20, and the drainage funnel 16 is provided at a position below the screen drum 2 range of the rack. The drainage or impurities flowing out from the screen hole 23 can be collected.

As shown in FIGS. 1 and 2, the body 3 has an inner hole 30 penetrating both left and right ends. The inner diameter of the inner hole 30 corresponds to the inner hole 20 of the screen drum 2, and the body 3. The right end is fixed to the fixed ring 22 at the left end of the screen drum 2 via the screw plug 31, and the inner hole 30 is confronted and joined concentrically with the inner hole 20. The recessed grooves 32 that are installed at intervals are recessed, thereby forming the tooth portions 33 that are installed at intervals.

  2, 4, and 5, the end plate 4 is fixed to the left end of the body 3 through a screw plug 41, and is used to seal the inner hole 30 of the body 3. A bearing hole 42 is recessed at the concentric position of the center hole 30 on the right side of the plate 4, an inner screw hole 43 concentric with the bearing hole 42 is provided on the left side of the end plate 4, An annular region 44 capable of increasing the thickness is provided, is concentrically arranged with the bearing hole 42, has a maximum diameter smaller than the middle hole 30, and a minimum diameter larger than the bearing hole 42, and the annular region 44 includes a plurality of inner holes 30. An extrusion hole 45 that communicates the inside and the outside is provided, and the extrusion hole 45 is installed along the axial direction of the middle hole 30, and a plurality of equally-spaced arc wires are arranged. Form a vortex spiraling in diameter.

1, 2, and 5, the right end of the shaft member 5 is installed so as to be rotatable relative to the shaft hole 120 of the fixed base 12, and the left end is an end plate 4 is installed in the bearing hole 42 so that the shaft can rotate, and the shaft member 5 is concentrically straddled across the inner hole 20 of the screen drum 2 and the middle hole 30 of the body 3, and a shaft coupler is connected to the right end of the shaft member 5. The gear set of the transmission box 13 is driven to rotate, and a spiral blade piece 51 is provided in the range of the inner hole 20 of the screen drum 2 on the outer periphery of the shaft member 5, and the right end of the spiral blade piece 51 is connected to the screen. The left end of the drum 2 is aligned between the left side of the raw material input port 24 and the body 3, and the spiral blade piece 51 is positioned between the left end of the spiral blade piece 51 and the right end of the body 3. Used to form a buffer shaft 52 having a smaller diameter, the right side of the raw material inlet 24 of the shaft member 5 and A rib shaft 53 is provided between the left side of the base 12, and the rib shaft 53 is provided at a corresponding portion of the inner hole 20 of the screen drum 2 to improve the situation where the object raw material is clogged to the right side of the raw material inlet 24. In addition, a bolt shaft 54 is formed at a portion of the shaft member 5 facing the inner hole 30 of the body 3, and the bolt shaft 54 has a smaller diameter than the buffer shaft 52, and the buffer shaft 52 of the bolt shaft 54. It is convenient to form the class drop 541 at the position where the sword is welded. The bolt shaft 54 can be inserted into the bolt hole 550 of the sword holder 55, and is within the range of the middle hole 30 of the body 3 around the sword holder 55. A spiral blade 551 is provided, and the spiral direction of the spiral blade 551 is the same as that of the spiral blade piece 51, and the outer diameter of the buffer shaft 52 is much smaller than the outer diameter of the spiral blade piece 51 and the spiral blade 551. The left end of the cover shaft 5 has a small diameter. Are connected to each other, and have a screw hole 561 on the end surface of the cover shaft 56, and the cover 58 is put on the outer periphery of the cover shaft 56 by the intermediate cover 57, and the key 58 and the groove 580 engage with each other between the outer periphery of the cover shaft 56 and the intermediate cover 57. Is used to pass through the intermediate cover 57 by a screw 571 and screw it into the screw hole 561, and to securely fix the sword holder 56 between the class drop 541 and the intermediate cover 56, and to fix the sword to the bolt shaft 54. The holder 55 is securely interlocked and rotated together, and the spiral blade 551 has the advantage of being convenient for repair and replacement. The outer periphery of the intermediate cover 57 is covered with a bearing ring 59, and the bearing ring 59 A shaft is joined in the bearing hole 42 of the plate 4 and used to support the end plate 4 at the left end of the shaft member 5 so as to be able to rotate. As can be seen from this, when the motor 14 interlocks with the rotation of the shaft member 5 and interlocks with the spiral blade piece 51, the spiral blade piece 51 forces the recovered object material into the inner hole 20 of the screen drum 2. The first stage of dewatering, collecting and discharging waste water and impurities in the screen hole 23 and the waste water funnel 16, gradually moving the object raw material, reducing the filling of the buffer shaft 52, In the buffer space formed by the hole 20, complete dehydration is performed, followed by blocking and diversion of the turbulent plug 27 and winding of the spiral blade 551, so that the traveling direction can be changed, and no embolization situation occurs, Thereafter, the forcedly entrained spiral blade 551 is used to stretch the fully dehydrated object material onto the teeth 33 of the body 3 so that the recovered object material can be further substantially bonded, for example, plastic or plus The recovered object raw material mixed with the hook generates heat by its own friction, and the surface is melted or semi-moltened into the recovered object raw material mixed with the homogenized recovered plastic or plastic, and the pressure is maintained by the spiral blade 551 entrainment. The elongated and homogenized close collection object material is fed into the extrusion hole 45, and the object material can be an object material of plastic or wood, paper, plant fiber or a mixture thereof.

As shown in FIGS. 1 to 5, the cutting device 6 has a rotating member 61 coaxially attached to the left side surface of the end plate 4, and has a fisheye hole 610 penetrating in the center of the rotating member 61. The two bearings 62 and 63 are placed in the fish eye hole 610, and the rotation member 61 is surrounded by the rotation of the plug shaft 64 via the two bearings 62 and 63. The left end of the plug shaft 64 has a relatively large diameter. It is a head 641, the right end is a screw thread 642 having a relatively small diameter, the end face of the head 641 has a toggle portion 643 that can be toggle-driven, and the screw thread 642 passes through the fish eye hole 610, A shaft portion 644 having a diameter between the head 641 and the screw thread 642 can be formed between the left and right ends of the plug shaft 64 and can be screwed into the inner screw hole 43 of the end plate 4. Inserted in the bearing holes 620 and 630 of the two bearings 62 and 63 The two bearings 62 and 63 are joined and restricted between the head 641 and the fisheye hole 610, and the rotation member 61 surrounds the rotation of the plug shaft 64. The rotation member 61 further includes two symmetrical sword sockets 611. 612, the blade sockets 611 and 612 are fixedly connected to the blades 65 and 66, respectively, the two blades 65 and 66 are interlocked with the rotating member 61, and are rotated and cut along the annular region 44 of the end plate 4. The driving member 67 is connected to the left end surface of the rotating member 61 by a screw plug 613, and a driving hole 670 corresponding to the shape is provided at a position coaxial with the plug shaft 64 of the driving member 67. The right end of the intermediate shaft 68 is engaged, and the starter 69 is fixedly installed at the left end of the intermediate shaft 68. The rotary member 61 is interlocked with the starter 69 via the intermediate shaft 68 and the drive member 67 at a constant speed. Rotation of The elongated recovered object raw material output from the extrusion hole 45 is cut into a predetermined length of granular or elongated shape by the blades 65 and 66, and the length of the generated object raw material is determined by the rotating member. The starter 69 includes a motor 691, a gear box 692 interlocking between the motor 691 and the intermediate shaft 68, and a line transmission attached to the rack. The gear box 692 is a rotating member. The line transmission 693 can interlock the line movement of the motor 691, the gear box 692, and the raw material collection mask 7, and the raw material collection mask 7 can clutch the end plate 4. This is advantageous for maintenance or cleaning.

A raw material delivery device 9, as shown in FIG. 1, which has a raw material collection mask attached to the left side surface of the end plate 4, and the raw material collection mask 7 is fixedly connected to the front plate 694 of the starter 69. A material collection mask 7 is manufactured by having an internal space in which the hole 45, the rotation member 61, and the drive member 67 are provided, and the intermediate shaft 68 is passed through the material collection mask 7 and connected to an external starter 69. The function of concentrating the granular or elongated object raw material and outputting from the lower end is achieved.

As can be seen from the above description of the structure, the present invention has at least the following advantages:
(A) The spiral blade piece 51 provided on the shaft member 5 of the present invention can be adjusted to the raw material input of the raw material input port 24 and the screen hole 23 of the screen drum 2, and the first stage of dehydration drying is performed simultaneously with the induction of the raw material. A buffer shaft 52 is formed between the spiral blade piece 51 and the spiral blade 551, and a buffer filling space is formed between the inner hole 20 of the screen drum 2 and the buffer shaft 52 to completely dewater the recovered object material, and Further, it is necessary to prevent the turbulent plug 27 protruding and extending into the inner hole 20 of the screen drum 2 and the diversion, and the recovered object raw material sent out to the wall surface of the inner hole 20 by the spiral blade 551 being involved needs to change the original traveling path. Even if it is changed, it is possible to constantly change and change, and the situation that the material material of the prior art is stuck in the inner hole 20 of the screen drum 2 without causing the situation of sticking to the wall surface of the inner hole 20 of the screen drum 2 And avoid, completely dehydrated, to achieve the effect that no embolic the inner hole 20 of the screen drum 2.
(B) The present invention homogenizes the raw material feed processing for the recovered object raw material, which is to increase the radial depth of the raw material feed processing by winding the helical blade 551 of the shaft member 5 and rolling the tooth portion 33 of the body 3. Greatly increased, feeds all the recovered material raw materials located in the body 3 together, greatly improves the basics of the homogenization treatment, improves the quality of the production of grains of the recovered material raw materials or strips, Further, when the object raw material is pushed out through the extrusion hole 45 of the end plate 4 by causing the material raw material to be frictionally pressed by the forced engagement of the spiral blade 551 and the tooth portion 33, the product has a close effect on the product. Can be achieved.
(C) On the outside of the end plate 4 of the present invention, a cutting device 6 is attached, and the homogenized object raw material that is continuously output is cut into granular, strip-like or rod-like shapes of a predetermined length. Save time, improve efficiency and achieve the principle of economic effect and new functions in synchronous machining.

  Referring to FIG. 6, this is a second embodiment of the present invention, in which a fixing hole 280 that penetrates the inside and outside of the inner hole 20 is mainly provided in the screen drum 2 series so that the screw plugs 28 can be passed one by one. A plurality of turbulent flow plates 29 are fixedly installed on the wall surface of the inner hole 20, and the turbulent flow plates 29 are installed along the axial direction of the inner hole 20 so as to be able to protrude and extend into the inner hole 20. 29 can continuously change the traveling direction of the collected object material along the inner hole 20 of the screen drum 2, and the height of the collected object material formed on the wall surface of the inner hole 20 of the turbulent flow plate 29 and the screen drum 2 can be changed. Is continuously rolled in the inner hole 20 of the screen drum 2, its original position is changed, and it is advanced in the direction of the spiral blade 551, the raw material is fed into the body 3 by the spiral blade 551, and the collected object Raw material stagnated and screened Emboli problems to occur stick to the inner bore 20 walls of Ndoramu 2 reliably improved.

  7 and 8, which is a third embodiment of the present invention, a housing groove 811 is formed in the outer periphery of the body 3, and the housing groove 811 is provided with a heat exchange pipe 81 and is mounted on the body 3. An assembly groove 821 is further provided at the left end that is butt-joined and joined to the end plate 4, and this assembly groove 821 is further provided with a heat exchange pipe line 82, and the two heat exchanges 81, 82 are installed so that the temperature of the body 3 is increased. Adjustment is made so that the operating temperature of the fuselage 3 can be controlled, the stability of homogenizing the raw material feed of the spiral blade 551 and the fuselage 3 is improved, and a central hole 50 having one end passing through the shaft center of the shaft member 5 is provided. The one end through which the center hole 50 passes is connected to the communication pipe line 17 and connected to the outside of the right side of the rack so as to be axially rotatable. On the other hand, the weight of the shaft member 5 can be reduced. Increase the heat dissipation of the heat exchange pipes Distillation makes it possible (not shown), can be adjusted stably and precisely required operating temperature.

Referring to FIG. 9, this is a fourth embodiment of the present invention. In addition to installing two heat exchange pipes 81, 82 in the body 3, a heating member 83 is further installed, and the heating member 83 is singly or Used to preheat the fuselage 3 via the heat exchange line 81, and to manipulate and reduce the heat treatment time of the fuselage 3, the two heat exchange lines 81, 81 have a temperature relative to the fuselage 3 during operation. In a situation where a temperature sensor (not shown) is installed in the body 3 after adjustment, a temperature-appropriate signal can be generated and input to the microprocessor, and the heating member 83 and the two heat exchange lines 81 and 82 can be input via the microprocessor. In this way, the control of the operation timing of the body 3 can be automated, and thus, the operation temperature of the body 3 can be stably maintained within the set range, and is used in accordance with the operation temperature required for the object material.

  Referring to FIG. 10, it is a fifth embodiment of the present invention, and the raw material collection of the raw material delivery device 9 is provided with a guide mask 70, which connects a gas supply pipe 71 to a blower 72 and a raw material discharge pipe 73. Is connected to the raw material collecting drum 74, and after the blower 72 is started, an air flow is formed in the internal space of the guide mask 70, and the raw material is produced in the air flow in the particles or strips and rods to the raw material discharge pipe 73. The raw material collecting drum 74 automatically collects the raw material after being manufactured by the grains, strips, and rods, and at the same time, the product achieves the effect of heat radiation cooling and prevents re-adhesion with each other. Can be achieved.

In the present invention, preferred embodiments have been disclosed as described above, but these are not intended to limit the present invention in any way, and anyone who is familiar with the technology has an equivalent scope that does not depart from the spirit and scope of the present invention. Of course, various fluctuations and hydration colors can be added.

DESCRIPTION OF SYMBOLS 1 Rack 11 Base surface 12 Fixed socket 120 Shaft hole 13 Shift box 14 Main motor 15 Belt 16 Drainage funnel 17 Communication pipe line 2 Screen drum 20 Inner hole 21, 22 Fixed ring 211 Bracket 23 Screen opening 24 Raw material supply port 25 Raw material supply funnel 26 Assembly hole 27 Turbulent plug 28 Screw plug 280 Screw hole 29 Turbulent plate 3 Body 30 Medium hole 31 Screw plug 32 Recessed groove 33 Tooth part 4 End plate 41 Screw plug 42 Bearing hole 43 Inner screw hole 44 Annular region 45 Extrusion hole 5 Shaft member 50 Center hole 51 Spiral blade piece 52 Buffer shaft 53 Rib shaft 54 Bolt shaft 541 Class drop 55 Sword holder 550 Bolt hole 551 Spiral blade 56 Cover shaft 561 Screw hole 57 Intermediate cover 571 Screw 58 Key 580 Groove 59 Bearing ring 6 Cutting Device 61 Rotating member 610 Fish eye hole 611, 612 Sword socket 613 Screw cap 62, 63 Shaft 620, 630 Bearing hole 64 Plug shaft 641 Head 642 Thread 643 Toggle portion 644 Shaft portion 65, 66 Blade 67 Drive member 670 Drive hole 68 Intermediate shaft 69 Starter 691 Motor 692 Gear box 693 Line transmission 694 Front plate 7 Raw material collection Mask 70 Guide mask 71 Gas supply pipe 72 Blower 73 Raw material discharge pipe 74 Raw material collection drums 81 and 82 Heat exchange pipe line 811 Housing groove 821 Assembly groove 83 Heating member 9 Raw material delivery device

Claims (14)

Rack,
It is attached to the rack, has a coaxial inner hole, is provided with a screen hole that can communicate with a plurality of inner holes in the radial direction, and further provided with a raw material inlet that allows a recovered object raw material to be introduced into the inner hole, A plurality of turbulent plugs are provided at one end adjacent to the fuselage, and the turbulent plugs are screen drums that extend into the inner holes;
A body hole is provided that penetrates the left and right ends, one end of the hole is coaxially abutted and connected to one end of the screen drum inner hole, and a toothed portion is provided on the wall surface of the hole.
The other end of the medium hole is hermetically sealed, and has a plurality of extrusion holes communicating with the inside and outside of the plurality of holes. These extrusion holes are end plates installed along the direction of the medium hole axis;
A shaft member that concentrically straddles the inner hole and the inner hole, the outer periphery of the shaft member is provided with a spiral blade piece in the screen drum range, and the shaft member pushes out both of the collected materials fed from the raw material feed to the body when rotating. In particular, a spiral blade is provided on the outer periphery of the shaft member in the body region, and the spiral direction of the spiral blade is the same as that of the spiral blade, and the shaft member is further provided between the spiral blade and the spiral blade. A buffer shaft having a relatively small diameter is provided, and the buffer shaft includes a shaft member located in the screen drum range,
A cutting device attached to the outer surface of the end plate and used for cutting the object raw material fed from the extrusion hole;
A raw material delivery device;
Including dehydrating raw material production machine. The dehydrating raw material manufacturing machine according to claim 1, wherein a plurality of grooves are provided along the axial direction at intervals on the wall surface of the inner hole of the body to form teeth that are installed at intervals. The spiral blade is protruded on the outer periphery of the sword holder, has a bolt hole at the center of the sword holder, and forms a bolt shaft at a portion opposite to the middle hole of the body of the shaft member. The bolt shaft of the shaft member is smaller in diameter than the buffer shaft, and is convenient for forming a class drop at a position where the buffer shaft of the bolt shaft is welded. A small cover shaft is coaxially connected, a screw hole is formed on the end surface of the cover shaft, a key and a groove are provided between the outer periphery of the cover shaft and the intermediate cover so as to cover the outer periphery of the cover shaft. The intermediate cover is penetrated, screwed into the screw hole, and used to fix the sword holder between the class drop and the intermediate cover. The outer periphery of the intermediate cover is covered with a bearing ring. The shaft is joined into the bearing hole of the end plate, and the bearing The dewatering raw material manufacturing machine according to claim 1, wherein the hole is recessed at a concentric position corresponding to the inner hole of the end plate. An inner screw hole concentric with the center of the body is provided on the outer surface of the end plate, and the cutting device is provided with a rotating member coaxial with the inner screw hole on the outer surface of the end plate, and a fisheye hole penetrating through the center of the rotating member. The fisheye hole is provided with a bearing, and the rotating member surrounds the rotation of the plug shaft through the bearing. The plug shaft can be screwed into the thread of the inner screw hole, and the bearing is inserted into the fisheye hole. The rotary shaft is further provided with a sword socket, and the sword socket is used to incorporate a blade and interlock the rotational cutting along the end plate extrusion hole of the blade with the rotary member. Dehydrating raw material production machine. A drive member is screwed onto an end surface of the rotary member away from the end plate, and a drive hole having a shape corresponding to a position coaxial with the plug shaft of the drive member is provided, and this drive hole engages one end of the intermediate shaft, The other end of the intermediate shaft is fixedly installed with a starter that can interlock the rotation surrounding the plug shaft of the rotating member, and the starter is a motor, a gear box that interlocks between the motor and the intermediate shaft, and a line transmission that is attached to the rack. The gearbox is composed of the rotating member, the line gear adjusts the motor, gearbox, raw material collection mask line movement, the raw material collection mask is the end plate The dehydrating raw material manufacturing machine according to claim 4, wherein The end plate has an annular region on the outer surface, and the annular region is concentrically arranged with the inner hole and has a maximum diameter smaller than the inner hole, and the annular region has a plurality of extrusion holes penetrating the inside and outside of the plurality of holes. The dewatering raw material manufacturing machine according to claim 1, wherein the extrusion hole is used to form a vortex structure in which a plurality of equally spaced arc wires are arranged to rotate from a small diameter of the annular region to a large diameter of the annular region. The rack has a fixed base fixed, the inner hole of the screen drum penetrates both right and left ends, the other end of the inner hole seals the fixed base, and the fixed base is capable of rotating the end corresponding to the shaft member. A shaft hole to be connected, the motor driving the rotation of the shaft member, the spiral blade piece of the shaft member is laid on the raw material inlet of the screen drum, and one end of the spiral blade piece is connected to the raw material inlet and the fuselage The shaft member is positioned between the spiral blade piece multi-end and the middle hole end to form a buffer shaft, and the raw material charging port and the fixing base have a rib shaft, and this rib shaft is an inner hole of the screen drum. The dehydrating raw material manufacturing machine according to claim 1, wherein the dehydrating raw material manufacturing machine is provided at a corresponding part of the shaft so as to be rotatable. The dewatering raw material production according to claim 1, wherein a plurality of turbulent flow plates are incorporated in the wall surface of the inner hole of the screen drum, and the turbulent flow plates are installed along the direction of the inner hole axis so as to be able to protrude into the inner hole. Machine. The dehydrating raw material manufacturing machine according to claim 1, wherein the body is attached with a heat exchange pipe line. An accommodation groove is provided on the outer periphery of the fuselage, and the accommodation groove is provided with a heat exchange pipe, and a built-in groove is provided in an end face where the end plate of the fuselage is abutted and joined, and the built-in groove further includes a heat exchange pipe. The dehydrating raw material manufacturing machine according to claim 9, wherein the dehydrating raw material manufacturing machine is used for attaching and adjusting the temperature of the trunk. The dehydrating raw material manufacturing machine according to claim 1, wherein the body further includes a heating member, and the body can be preheated by the heating member. The dehydrating raw material manufacturing machine according to claim 1, wherein the shaft member is installed through the central hole in the shaft center. A raw material delivery device is attached to the outer surface of the end plate, and the raw material delivery device is composed of at least one raw material collection mask. The raw material collection mask has an internal space provided with an extrusion hole, and is generated in this internal space. The dehydrated raw material manufacturing machine according to claim 1, wherein the material raw material is concentrated and sent out. A raw material delivery device is attached to the side surface of the end plate. This raw material delivery device is combined with a blower that connects at least a gas supply pipe with a guide mask, and further, a raw material discharge pipe is connected to a raw material collection drum, and after the blower is started, the inside of the guide mask The dehydration according to claim 1, wherein an airflow is formed in the space, the airflow is caused to act on the object raw material sent out by the extrusion hole, the object raw material is cooled, guided through the raw material discharge pipe, and automatically collected on the raw material collecting drum. Raw material production machine.

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