CN109317049B - Granulator system - Google Patents

Abstract

The granulator system comprises a horizontal portal frame, wherein a guide mechanism, a pressure mechanism, a cutting mechanism and a receiving structure are sequentially arranged in the portal frame according to procedures; the pressure mechanism comprises a pressure unit and a driven roller, the pressure unit comprises two rotating side plates which are arranged in parallel, the two rotating side plates are connected through an upper pressing plate at the upper end part of the pressure unit, a rotating shaft and a pressing roller are arranged between the two rotating side plates in parallel, and two ends of the rotating shaft penetrate through the rotating side plates at corresponding positions to be connected with two inner sides of the portal frame in a rotating mode; the cutting mechanism comprises a main cutter roller and a back cutter, wherein two ends of the main cutter roller are erected on the inner side surface of the portal frame, and two ends of the back cutter are fixed at two ends of the portal frame; the receiving mechanism comprises a receiving plate which is inserted in the portal frame. The invention has the advantages that: the horizontal portal frame is used, so that the two ends of the guide mechanism, the pressure mechanism, the cutting mechanism and the receiving mechanism are all supported, and the stability of the granulator system is improved.

Description

Granulator system

Technical Field

The invention relates to the technical field of plastic extrusion production, in particular to a granulator system.

Background

The color master batch is increasingly widely used at present, wherein when the color master batch is produced, one process needs to cut the color master batch to obtain plastic particles with qualified length.

In the prior art, the cutting process comprises the following sub-processes:

1. conveying the strip-shaped plastic into a granulator system through a guide mechanism;

2. pressing the strip-shaped plastic to be cut by using a pressure mechanism;

3. and cutting the material by using a cutting mechanism.

In the existing granulator system, a guide mechanism, a pressure mechanism and a cutting mechanism are all arranged on one mounting surface and then are covered by a cover body, and all the mechanisms are positioned in a cavity formed by the mounting surface and the cover body.

The guiding mechanism, the pressure mechanism and the cutting mechanism are supported by only one mounting surface, and the granulator system works for a long time and has deviation under the action of gravity, so that a new granulator system is urgently needed to solve the problems.

Disclosure of Invention

In order to overcome the defects in the prior art, the invention provides a granulator system.

In order to achieve the above purpose, the present invention adopts the following technical scheme:

the granulator system comprises a horizontal portal frame, wherein a guide mechanism, a pressure mechanism and a cutting mechanism are sequentially arranged in the portal frame according to procedures, and a material receiving structure is arranged below the guide mechanism, the pressure mechanism and the cutting mechanism;

the pressure mechanism comprises a pressure unit and a driven roller, the pressure unit comprises two rotating side plates which are arranged in parallel, the two rotating side plates are connected through an upper pressing plate at the upper end part of the pressure unit, a rotating shaft and a pressing roller are arranged in parallel between the two rotating side plates, two ends of the rotating shaft penetrate through the rotating side plates at corresponding positions to be rotationally connected with two inner sides of a portal frame, and the pressing roller rotates by taking a central axis of the rotating shaft as an axis and taking a distance from the central axis of the pressing roller to the central axis of the rotating shaft as a radius;

the cutting mechanism comprises a main cutter roller and a back cutter, wherein two ends of the main cutter roller are erected on the inner side surface of the portal frame, two ends of the back cutter are fixed at two ends of the portal frame, and strip-shaped plastic conveyed by the compression roller and the driven roller enters between the main cutter roller and the back cutter;

the material receiving mechanism comprises a material receiving plate, the material receiving plate is inserted in the portal frame in a drawing mode, a fifth baffle plate inclining inwards is further arranged on the side edge of the lower end portion of the portal frame, a certain angle is formed between the fifth baffle plate and the portal frame, and the bottom of the material receiving plate is supported by the included angle.

The guide mechanism is limited and comprises a guide supporting plate and a guide rod, wherein two ends of the guide supporting plate are respectively fixed on two inner sides of the portal frame, and two ends of the guide rod are arranged on lug plates on the guide supporting plate.

Limiting the pressure mechanism, wherein a limiting rod is further arranged above the rotary side plate, the guide supporting plate is arranged at the front end of a station of the pressure mechanism, and when the rotary shaft rotates to enable the compression roller to be far away from the maximum position of the driven roller, the limiting rod props against the upper end face of the guide supporting plate.

The upper cover body is characterized in that the upper cover body is limited in structure, the system further comprises an upper cover body, when the upper cover body is covered on the portal frame, the first baffle plate and the second baffle plate on the inner side surface of the upper cover body are arranged on two sides of the pressure mechanism in parallel, the upper surface of the upper cover body of the portal frame is further provided with a force application mechanism, a force application end of the force application mechanism penetrates through the upper cover body and is positioned between the first baffle plate and the second baffle plate, and when the granulator system works, the force application end of the force application mechanism props against the upper pressing plate.

The outer frame of the whole system is limited, a fourth baffle plate is arranged below the guide supporting plate, and when the upper cover body is covered, the first baffle plate, the guide supporting plate, the fourth baffle plate and the portal frame form a cavity.

And the receiving plate passes through a square notch formed in the fourth baffle and is externally withdrawn and inserted in the portal frame.

The material receiving mechanism is further limited, the material receiving mechanism further comprises a material checking unit, the material checking unit is located between the material receiving plate and the cutting mechanism, two end faces of the material checking unit comprise a small-caliber face and a large-caliber face, the small-caliber face penetrates through a hole in the fourth baffle to extend out of the fourth baffle, the large-caliber face is fixed on the inner side face of the portal frame, a notch for feeding material particles output by the output end of the cutting mechanism is formed in the middle face connected with the two end faces of the material checking unit, a sampling groove is formed in the material checking unit, the material particles enter the sampling groove from the notch, the sampling groove extends to the small-caliber face, and a material taking door for taking out the material is arranged on the small-caliber face.

And the bottom in the sampling groove is inclined, and the horizontal height close to the large-caliber surface is higher than the height of the small-caliber surface.

The cutting mechanism is limited, the system further comprises a driving wheel and a driving gear, a rotating shaft at one end of the main knife roll penetrates through the left side face of the portal frame to be connected with a central shaft of the driving wheel, and the other end of the main knife roll extends out of the right side face of the portal frame to be connected with the driving gear.

The system also comprises a driven gear, wherein the driving gear is meshed with the driven gear, and the driven gear is fixedly connected with one end of the driven roller.

The invention has the advantages that:

(1) The horizontal portal frame is used, so that the two ends of the guide mechanism, the pressure mechanism, the cutting mechanism and the receiving mechanism are all supported, and the stability of the granulator system is improved.

(2) The guiding mechanism can enable the strip-shaped materials to horizontally enter the granulator system.

(3) The setting of gag lever post can prevent that the compression roller from touching the guide backup pad and damaging when keeping away from the biggest position of driven voller when rotating.

(4) The first baffle can prevent that the material granule after the cutting from flying into pressure mechanism department or granulator system outside, also prevents that operating personnel from stretching into pressure mechanism because the maloperation is with the hand in, and the material granule of second baffle prevents cutting mechanism from entering into pressure mechanism in, to damaging compression roller and or driven voller, first baffle prevents that the material granule from flying out the granulator system.

(5) The fourth baffle not only plays a role in supporting the material receiving plate, but also plays a role in preventing materials from flying out of the portal frame.

(6) The material checking unit can obtain whether the material particles are qualified or not without multiple switching devices, and the closing device is not required to reset the outlet of the material after the material particles are qualified.

(7) The bottom in the sampling groove is inclined, so that the material can automatically roll down to the object taking door.

(8) The main knife roller is driven by the driving wheel, and the cutting part and the power part in the cutting mechanism are isolated by the side wall of the portal frame, so that the material particles are prevented from entering the power part to influence the normal operation of the granulator system.

(9) Through the meshing of driving gear and driven gear, the driven roller just need not additional actuating mechanism like this, and that is pressure mechanism and cutting mechanism only need a power part just can drive both simultaneous working to thereby change gear ratio through replacing driving gear and driven gear, still effectively prevent that pressure mechanism conveying's speed and cutting mechanism's speed of cutting are inconsistent.

Drawings

Fig. 1 is a front view of a pelletizer system according to the present invention.

Fig. 2 is a top view of the interior of the gantry.

Figure 3 is a cross-sectional view of the pelletizer system with the stop bar against the guide support plate.

Fig. 4 is a cross-sectional view of the pelletizer system with the press roll pressing against the driven roll.

Fig. 5 is a structural view of the right side of the gantry.

Fig. 6 is a structural view of the pressure unit.

Fig. 7 is a structural diagram of the material viewing unit.

The meaning of the reference symbols in the figures is as follows:

41-Portal frame 42-left cover 43-right cover

44-upper cover 441-lifting portion 442-lifting cylinder 4421-lifting rod

443-first baffle 444-second baffle 445-securing holes

45-control mechanism

401-main knife roller 402-back knife 403-driven roller 404-third baffle

405-drive wheel 406-drive gear 407-driven gear 408-counter gear

461-guide bar 4611-spacer 462-guide support plate 4621-passing hole

463-ear plate

471-rotating shaft 472-press roller 473-upper press plate 4731-pressure receiving groove 474-limit rod

475-rotating side plate

481-fourth baffle 482-handle 483-receiving plate 484-material viewing unit

4841-Small-diameter surface 4842-Large-diameter surface 4843-notch 4844-sampling groove

410-fifth baffle

9-strip-shaped plastic 10-material particles

Detailed Description

As shown in fig. 1 to 7, a granulator system comprises a horizontal gantry 41, left and right covers 42 and 43 provided on left and right sides of the gantry 41, an upper cover 44 covering over the gantry 41, and a control mechanism 45 for driving and controlling the operation of the granulator system. The portal frame 41 and the upper cover 44 are arranged to prevent the particles from splashing during cutting.

As shown in fig. 1, 3 and 4, the upper cover 44 is provided with a lifting portion 441, and in this embodiment, the lifting portion 441 is a through slot formed in the upper cover 44, so as to facilitate the opening of the upper cover 44. The upper cover 44 and the gantry 41 form a box shape. The first and second shutters 443, 444 are provided on the panel inside the gantry 41, the lift cylinder 442 is further mounted on the upper surface of the upper cover 44, the lift cylinder 442 is used as a biasing mechanism, the lift rod 4421 of the lift cylinder 422 is used as a biasing end, the lift rod 4421 of the lift cylinder 442 passes through the upper cover 44 to lift up inside the gantry 41, and the lift rod 4421 is located between the first shutter 443 and the second shutter 444. The lift rod 4421 presses against the pressure mechanism. Fixing holes 445 are also provided around the upper cover 44 for fixing the upper cover 44 to the upper end surface of the gantry 41. Wherein the lifting portion 441 is located between an edge of the upper cover 44 and the first barrier 443.

The portal frame 41 is provided with a guide mechanism, a pressure mechanism and a cutting mechanism in sequence according to the procedure from the inlet, and a receiving mechanism is also arranged below the cutting mechanism. The above mechanisms are described in detail respectively.

1. Guiding mechanism

As shown in fig. 1, 3 and 4, the guide mechanism includes a guide support plate 462 and a guide rod 461, both ends of the guide support plate 462 are respectively fixed to both inner surfaces of the gantry 41, and both ends of the guide rod 461 are provided on an ear plate 463 provided on the guide support plate 462. When the strip-shaped plastic 9 is pulled, the guide rod 461 rotates, wherein the guide rod 461 is provided with a separation ring 4611, so that a plurality of strip-shaped plastics 9 are separated, the strip-shaped plastics 9 are prevented from being overlapped or wound in the moving process, and are deformed by pressing after passing through the pressure mechanism, so that unqualified material particles 10 are generated. The guide support plate 462 is provided with a material passing hole 4621, and the strip-shaped plastic 9 passes through the guide rod 461 and then enters the portal frame 41 from the material passing hole 4621. A fourth baffle 481 is further provided below the guide support plate 462, and when the upper cover 44 is closed, the first baffle 443, the guide support plate 462, and the fourth baffle 481 are vertically engaged to prevent the granular material from flying out from the end face of the inlet of the strip-shaped plastic 9. The fourth barrier 481 is further provided with a handle 482. The fourth barrier 481 is conveniently taken, put and mounted.

2. Pressure mechanism

As shown in fig. 1-6, a pressure mechanism is provided within the gantry 41 behind the station of the guide mechanism, the pressure mechanism comprising a pressure unit and a driven roller 403. The pressure unit comprises two parallel rotating side plates 475, the two rotating side plates 475 are connected through an upper pressing plate 473 at the upper end part of the pressure unit, a rotating shaft 471 and a pressing roller 472 are arranged between the two rotating side plates 475 in parallel, two ends of the rotating shaft 471 penetrate through the rotating side plates 475 at corresponding positions to be connected with two inner side surfaces of the portal frame 41 in a rotating mode, the pressing roller 472 takes the central axis of the rotating shaft 471 as the axis, and the distance from the central axis of the pressing roller 472 to the central axis of the rotating shaft 471 is taken as a radius to rotate. Under the working state of the granulator system, the compression roller 472 is positioned right above the driven roller 403, the strip-shaped plastic 9 moves between the compression roller 472 and the driven roller 403 after being conveyed to the pressure mechanism, the driven roller 403 provides conveying power, the jacking rod 4421 jacks the middle part of the upper end face of the upper pressing plate 473, and in detail, in order to conveniently position the jacking pressure, the middle part of the upper pressing plate 473 is provided with a compression groove 4731 which does not penetrate the upper pressing plate 473.

And limiting rods 474 are arranged above the two rotating side plates 475, and when the press roller is in a non-working state, the upper pressing plate 473 is pulled to enable the pressure unit to rotate around the center of the rotating shaft 471 until the limiting rods 474 abut against the upper end surfaces of the guide support plates 462, so that the press roller 472 is prevented from being collided with the guide support plates 462, and the press roller 472 is prevented from being damaged. In detail, when the stopper 474 abuts against the guide support plate 462, the surface formed from the central axis of the pressing roller 472 to the central axis of the rotary shaft 471 is parallel to the surface of the guide support plate 462.

In this embodiment, to make the pressure roller 472 more wear resistant, the pressure roller 472 is a PU rubber roller or a rubber roller.

3. Cutting mechanism

As shown in fig. 1-5, the cutting mechanism is arranged in the portal frame 41 and is positioned behind a station of the pressure mechanism, the cutting mechanism comprises a main cutter roller 401 and a back cutter 402, wherein two ends of the main cutter roller 401 are erected on the inner side surface of the portal frame 41, a rotating shaft at one end of the main cutter roller 401 penetrates through the left side surface of the portal frame 41 to be connected with a central shaft of a driving wheel 405, and the other end of the main cutter roller extends out of the right side surface of the portal frame 41 to be connected with a driving gear 406. The driving wheel 405 is connected with a control mechanism 45 below the portal frame 41 through a belt, the driving wheel 405 is driven to rotate by the control mechanism 45 through the belt, and the driving wheel 405 drives the main knife roller 401 and the driving gear 406 to rotate. In this embodiment, the drive pulley 405 is a belt drive pulley.

As shown in fig. 2, the upper surface of the main cutter roller 401 is inclined so that the end surfaces of the strip-shaped particles are in a flat state. Because both ends of the main knife roller 401 are supported by the portal frame 41, the main knife roller 401 is more stable when rotating, and the height difference between both ends of the main knife roller 401 can not occur when working for a long time, thereby affecting the inconsistent length of the material particles 10.

In this embodiment, the driving gear 406 is meshed with the driven gear 407, and the driven gear 407 is fixedly connected to one end of the driven roller 403, so that one power driving component can be shared to simultaneously power the main cutter roller 401 and the driven roller 403. Wherein the number of teeth of the driven gear 407 and the driving gear 406 can be replaced to adjust the rotation speed of the driven roller 403, thereby changing the speed of conveying the material, and when the rotation speeds of the main knife roller 401 are consistent, the length of the material particles 10 can be changed. The length of the material particles 10 may also be varied when the control mechanism 45 controls the rotational speed of the drive wheel 405.

Preferably, a counting gear 408 meshed with the driving gear 406 is further arranged on the right side surface of the portal frame 41, and the counting gear 408 transmits data into the control mechanism 45. This allows the rotation speed of the driving gear 406, the gear ratios of the driving gear 406 and the driven gear 407 to be adjusted, respectively, as one parameter. When the upper cover 44 is closed, the second shutter 444 is positioned above the back knife 402 and between the pressure roller 472 and the main knife roller 401, thus preventing the material from entering the pressure mechanism when cutting.

A third baffle 404 is arranged below the back knife 402 and is fixed on two side walls inside the portal frame 41, and the upper surface of the third baffle 404 abuts against the lower surface of the back knife 402, so that the material particles 10 are prevented from being blocked between the back knife 402 and the driven roller 403 to influence the rotation of the driven roller 403, and more supporting force is provided for the back knife 402.

4. Material receiving mechanism

As shown in fig. 1, 3, 4 and 7, the receiving mechanism comprises a receiving plate 483, wherein two sides of the receiving plate 483 are provided with baffle plates, and the baffle plates are used for preventing materials of the receiving plate 483 from falling from the baffle plates. The lower end of the fourth baffle 481 is provided with a square notch through which the receiving plate 483 passes, the lower side of the gantry 41 is provided with a fifth baffle 410 inclined inward, and the fifth baffle 410 and the gantry 41 form an angle that supports the bottom of the receiving plate 483.

The receiving mechanism further comprises a material checking unit 484, two end surfaces of the material checking unit 484 comprise a small-caliber surface 4841 and a large-caliber surface 4842, the small-caliber surface 4841 penetrates through a hole in the fourth baffle 481 to extend out of the fourth baffle 481, and the large-caliber surface 4842 is fixed on the inner side surface of the portal frame 41. The material is looked over and is provided with the breach 4843 that supplies material granule 10 to get into on the middle part face that the unit 484 both ends face is connected, is provided with sampling groove 4844 in the unit 484 is looked over to the material, and the bottom in the sampling groove 4844 is the slope form, and material granule 10 enters into in the sampling groove 4844 from breach 4843, because sampling groove 4844's slope, material granule 10 moves small-bore face 4841 department, is provided with on the small-bore face 4841 and gets the thing door, when opening, can obtain the material granule 10 of sample. Optimally, the material viewing unit 484 is of a conical structure, so that the notch 4844 is formed in the larger surface, and the material particles 10 falling from the cutting mechanism are easily obtained, so that the sampling is more convenient. When sampling is not required, the material viewing unit 484 is rotated such that the notch 4843 faces downward. The material particles 10 are not easily retained on the back of the material viewing unit 484.

The working steps of the material receiving mechanism are as follows:

1. inserting the receiving plate 483 into the square notch to prevent the material particles 10 from falling;

2. the material checking unit 484 is rotated, the material checking unit 484 is connected with the material particles 10, the material particles 10 are taken out from the material taking door to be checked, when the material is qualified, the material checking unit 484 is rotated again, the material particles 10 in the material checking unit 484 fall onto the material receiving plate 483, the material receiving plate 483 is finally pulled out, and the material enters the next process. When the material is unqualified, the granulator system is controlled to stop working, the material checking unit 484 is rotated until the material particles 10 fall onto the material receiving plate 483, the material receiving plate 483 is pulled out, the material is scrapped, and parameters of the granulator system are checked or the granulator system is maintained.

The left cover body 42 and the left side surface of the portal frame 41 form a hollow cavity with a driving wheel 405 arranged inside, and the right cover body 43 and the portal frame 41 form a hollow cavity with a driving gear 406, a driven gear 407 and a counting gear 408 arranged inside. The speed regulating mechanism is thus separated from both sides of the gantry 41.

Wherein the receiving mechanism may be omitted, and only the third barrier 481 is used to block the empty frame between the guide support plate 462 and the outer housing of the control mechanism 45.

The above embodiments are merely preferred embodiments of the present invention and are not intended to limit the present invention, and any modifications, equivalent substitutions and improvements made within the spirit and principles of the present invention should be included in the scope of the present invention.

Claims (8)

1. The granulator system is characterized by comprising a horizontal portal frame (41), wherein a guide mechanism, a pressure mechanism and a cutting mechanism are sequentially arranged in the portal frame (41) according to procedures, and a material receiving structure is arranged below the guide mechanism, the pressure mechanism and the cutting mechanism;

the pressure mechanism comprises a pressure unit and a driven roller (403), the pressure unit comprises two rotary side plates (475) which are arranged in parallel, the two rotary side plates (475) are connected through an upper pressing plate (473) at the upper end part of the pressure unit, a rotating shaft (471) and a pressing roller (472) are arranged in parallel between the two rotary side plates (475), two ends of the rotating shaft (471) penetrate through the rotary side plates (475) at corresponding positions to be rotationally connected with two inner sides of a portal frame (41), the pressing roller (472) takes a central axis of the rotating shaft (471) as an axis, and the distance from the central axis of the pressing roller (472) to the central axis of the rotating shaft (471) is taken as a radius to rotate;

the cutting mechanism comprises a main cutter roller (401) and a back cutter (402), wherein two ends of the main cutter roller (401) are erected on the inner side surface of the portal frame (41), two ends of the back cutter (402) are fixed at two ends of the portal frame (41), and strip-shaped plastic (9) conveyed by the compression roller (472) and the driven roller (403) enters between the main cutter roller (401) and the back cutter (402);

the material receiving structure comprises a material receiving plate (483), wherein the material receiving plate (483) is inserted in a portal frame (41), a fifth baffle (410) inclining inwards is further arranged on the side edge of the lower end part of the portal frame (41), and the fifth baffle (410) and the portal frame (41) form a certain angle so as to be used for supporting the bottom of the material receiving plate (483);

the guide structure comprises a guide supporting plate (462) and a guide rod (461), wherein two ends of the guide supporting plate (462) are respectively fixed on two inner sides of the portal frame (41), and two ends of the guide rod (461) are arranged on the lug plates (463) on the guide supporting plate (462);

the material receiving mechanism further comprises a material checking unit (484), the material checking unit (484) is located between the material receiving plate (483) and the cutting mechanism, two end faces of the material checking unit (484) comprise a small-caliber face (4841) and a large-caliber face (4842), the small-caliber face (4841) penetrates through a hole in the fourth baffle (481) to extend out of the fourth baffle (481), the large-caliber face (4842) is fixed on the inner side face of the portal frame (41), a notch (4843) for allowing material particles (10) output by the output end of the cutting mechanism to enter is formed in the middle face connected with the two end faces of the material checking unit (484), a sampling groove (4844) is formed in the material checking unit (484), the material particles (10) enter the sampling groove (4844) from the notch (4843), the sampling groove (4844) extends to the small-caliber face (4841), and a material taking door for taking out the material particles (10) is arranged on the small-caliber face (4841).

2. A granulator system according to claim 1, characterized in that above the rotating side plates (475) there is also a stop lever (474), the guide support plates (462) being arranged at the front end of the pressure mechanism station, the stop lever (474) being arranged against the upper end face of the guide support plates (462) when the rotating shaft (471) rotates to bring the pressing roller (472) away from the maximum position of the driven roller (403).

3. The granulator system according to claim 2, further comprising an upper cover (44), wherein when the upper cover (44) is covered on the gantry (41), the first baffle (443) and the second baffle (444) on the inner side of the upper cover (44) are disposed on two sides of the pressure mechanism in parallel, the upper surface of the upper cover (44) of the gantry (41) is further provided with a force application mechanism, and a force application end of the force application mechanism passes through the upper cover (44) and is located between the first baffle (443) and the second baffle (444), and when the granulator system is in operation, the force application end of the force application mechanism abuts against the upper pressing plate (473).

4. A granulator system according to claim 3, characterized in that a fourth baffle (481) is also provided below the guiding support plate (462), the first baffle (443), the guiding support plate (462), the fourth baffle (481) and the gantry (41) forming a cavity when the upper cover (44) is closed.

5. A granulator system according to claim 4, characterized in that the receiving plate (483) is inserted back and forth inside and outside the gantry (41) through a square slot made in the fourth baffle (481).

6. A granulator system according to claim 1, characterized in that the bottom of the sampling tank (4844) is inclined and the level near the large-caliber surface (4842) is higher than at the small-caliber surface (4841).

7. A granulator system according to claim 1, characterized in that the system further comprises a drive wheel (405) and a drive gear (406), wherein the spindle at one end of the main cutter roller (401) is connected to the central shaft of the drive wheel (405) through the left side of the gantry (41), and the other end extends out of the right side of the gantry (41) and is connected to the drive gear (406).

8. A granulator system according to claim 7, characterized in that the system further comprises a driven gear (407), the driving gear (406) being in mesh with the driven gear (407), the driven gear (407) being fixedly connected with one end of the driven roller (403).