CN216826661U - Pretreatment device before granulator processing - Google Patents

Abstract

The utility model relates to the technical field of granulation equipment, in particular to a pretreatment device before granulator processing, which comprises a first feeding channel and a second feeding channel, wherein the first feeding channel is provided with a first transmission component, the first feeding channel and the second feeding channel are fixedly connected through the side surface, the discharge hole of the second feeding channel is communicated with the feed hole of the granulator, and the second feeding channel is provided with a second transmission component and an electromagnetic component; still include the intercommunication control assembly, intercommunication control assembly fixed mounting is in the junction of first feedstock channel and second feedstock channel, and first feedstock channel and second feedstock channel pass through the intercommunication control assembly intercommunication, the magnetic field direction orientation of electromagnetism subassembly communicates the control assembly. This application has realized screening out the function of impurity among the metal feedstock through first feedstock channel, second feedstock channel and intercommunication control assembly, and it is more to have solved the granule impurity that the granulator produced, leads to the quality extremely unstable, appears the condemned defect in batches often.

Description

Pretreatment device before granulator processing

Technical Field

The utility model relates to a granulation equipment technical field specifically is a preprocessing device before granulator processing.

Background

The granulating equipment is a forming machine which can manufacture materials into specific shapes. The method generally comprises the following steps: a roller dry-method granulator, a drum granulator and a dry-method rolling granulator. In order to improve the recycling rate of materials and reduce the production cost, the existing granulator generally uses leftover materials and scraps generated by processing as raw materials, so that the product quality produced by the granulator is influenced by the quality of the raw materials, and the raw materials need to be pretreated before use to screen out impurities in the raw materials. Most of pretreatment devices before processing of the existing granulator are used for plastic raw materials, and almost no pretreatment device is used for metal raw materials, so that most of raw materials used by the metal granulator are also manually treated, or only raw materials with higher quality can be used for production.

Disclosure of Invention

Based on this, it is necessary to provide a pretreatment device before granulator processing to solve the problem that the granulator often has scrapped in batches due to the fact that more particle impurities are produced, the quality is extremely unstable, and the granulator is connected through the first feeding channel, the second feeding channel and the communication control assembly structure.

For solving the prior art problem, the utility model discloses a technical scheme be:

a pretreatment device before granulator processing comprises a first feeding channel and a second feeding channel, wherein a first transmission assembly is installed on the first feeding channel, the first feeding channel and the second feeding channel are fixedly connected through a side face, a discharge hole of the second feeding channel is communicated with a feed hole of the granulator, and a second transmission assembly and an electromagnetic assembly are installed on the second feeding channel; still include the intercommunication control assembly, intercommunication control assembly fixed mounting is in the junction of first feedstock channel and second feedstock channel, and first feedstock channel and second feedstock channel pass through the intercommunication control assembly intercommunication, the magnetic field direction orientation of electromagnetism subassembly communicates the control assembly.

Preferably, the intercommunication control assembly includes first baffle, the rack, the rotary actuator, the rotary gear, first stopper and second stopper, first baffle slidable mounting is in first feedstock channel and second feedstock channel junction, the rack is fixed to be set up on first baffle, rotary actuator fixed mounting is on the intercommunication control assembly, the rotary gear is fixed to be cup jointed on the drive end of rotary actuator, the rotary gear is connected with the rack drive, first stopper is fixed to be set up on first baffle, the second stopper is fixed to be set up on the intercommunication control assembly.

Preferably, the second feeding channel further comprises a second partition plate, the second partition plate is provided with a plurality of second partition plates, and the plurality of second partition plates are equidistantly arranged on the second transmission assembly.

Preferably, still include blast apparatus, blast apparatus includes the fan of fixed mounting on second feedstock channel, and the fan is located the electromagnetism subassembly top.

Preferably, still include the collecting box, the collecting box is square box, and the collecting box just is located first transmission assembly rear with first feedstock channel fixed connection, and the collecting box includes chamber door and pivot, and rotatable the installing on the collecting box of pivot, the pivot is fixed to be cup jointed in the pivot.

Preferably, blast apparatus still includes the connecting block and the passageway of blowing, and connecting block fixed mounting is on second feedstock channel, and fan fixed mounting is on the connecting block, and equidistant fixed being provided with a plurality of passageways of blowing on the connecting block, the air outlet and the passageway intercommunication of blowing of fan.

Compared with the prior art, the beneficial effect of this application is:

1. this application has realized screening out the function of impurity among the metal feedstock through first feedstock channel, second feedstock channel and intercommunication control assembly, and it is more to have solved the granule impurity that the granulator produced, leads to the quality extremely unstable, appears the condemned defect in batches often.

2. This application is through first baffle, the rack, the rotary actuator, the swing pinion, first stopper and second stopper have realized controlling the function of opening and close of passageway between first feedstock channel and the second feedstock channel through the first baffle of rotary actuator drive, solved this application and still have when raw materials quality is higher, the raw materials directly gets into the granulator from second feedstock channel, but because intercommunication control assembly intercommunication second feedstock channel and first feedstock channel, the raw materials can roll the defect of first feedstock channel.

3. This application has realized promoting the function that adsorbs the metal feedstock on electromagnetic component along with the removal of second transmission assembly through the second baffle, has solved the second feedstock channel that this application provided and still has to have partial less metal to adsorb on electromagnetic component can't transport the defect of granulator along with the drive of second transmission assembly when screening the raw materials through electromagnetic component.

4. This application has realized through blast apparatus's fan that the raw materials produced the air current to first feedstock channel direction when to the motion of second feedstock channel, will attach the dust above that and blow in first feedstock channel's function, has solved the intercommunication control subassembly that this application provided and still has to remove to the electromagnetic component along with some bulky metal feedstock, can drive the glove box second feedstock channel removal of some similar dusts, causes the defect that raw materials quality reduces.

5. This application has realized collecting the function of the impurity that the raw materials sieved out through the collecting box that chamber door and pivot are constituteed, has solved the application and still has impurity after the screening and fall to the ground along with first feedstock channel's drive, not only pollutes the defect that operational environment still does not handle well.

6. This application has realized making the function of the air current that the fan blew off towards first inlet channel direction all the time through connecting block and the passageway of blowing, has solved the blast apparatus that this application provided and still has the defect that can't the accurate directional first inlet channel direction of messenger's air current.

Drawings

Fig. 1 is a perspective view of the present invention;

fig. 2 is a front view of the present invention;

fig. 3 is a perspective view of the first partition of the present invention after being opened;

FIG. 4 is an enlarged view of a portion of FIG. 3 at A;

fig. 5 is a perspective view of the connecting block of the present invention;

FIG. 6 is a perspective view of the collection box of the present invention;

the reference numbers in the figures are:

1-a first feed channel; 1 a-a first transmission assembly;

2-a second feed channel; 2 a-a second transmission assembly; 2 b-an electromagnetic assembly; 2 c-a second separator;

3-communicating the control assembly; 3 a-a first separator; 3 b-a rack; 3 c-a rotary drive; 3 d-rotating gear; 3 e-a first limiting block; 3 f-a second limiting block;

4-a blowing device; 4 a-a fan; 4 b-connecting block; 4 c-a blowing channel;

5, a collecting box; 5 a-a box door; 5 b-axis of rotation.

Detailed Description

For further understanding of the features and technical means of the present invention, as well as the specific objects and functions attained by the present invention, the present invention will be described in further detail with reference to the accompanying drawings and detailed description.

As shown in fig. 1-2:

a pretreatment device before granulator processing comprises a first feeding channel 1 and a second feeding channel 2, wherein a first transmission assembly 1a is installed on the first feeding channel 1, the first feeding channel 1 and the second feeding channel 2 are fixedly connected through the side faces, a discharge hole of the second feeding channel 2 is communicated with a feed hole of the granulator, and a second transmission assembly 2a and an electromagnetic assembly 2b are installed on the second feeding channel 2; still including intercommunication control assembly 3, intercommunication control assembly 3 fixed mounting is in the junction of first feedstock channel 1 and second feedstock channel 2, and first feedstock channel 1 and second feedstock channel 2 communicate through intercommunication control assembly 3, the magnetic field direction orientation of electromagnetism subassembly 2b communicates control assembly 3.

Based on the embodiment, the function of screening out impurities in metal raw materials is realized through the first feeding channel 1, the second feeding channel 2 and the communication control assembly 3, so that the defects that more impurities exist in particles produced by a granulator, the quality is extremely unstable, and batch scrapping often occurs are overcome. The first transmission assembly 1a and the second transmission assembly 2a are preferably conveyor belts, and the first transmission assembly 1a, the second transmission assembly 2a and the electromagnetic assembly 2b are electrically connected with a controller; before operating personnel used the granulator processing raw materials, use preprocessing device to filter it earlier, put the raw materials on first feedstock channel 1, then send signal for first transmission assembly 1a through the controller, second transmission assembly 2a and electromagnetic component 2b, first transmission assembly 1a starts to carry the raw materials backward, when the raw materials reachs intercommunication control assembly 3 departments, electromagnetic component 2b produces magnetic force, drive metal raw materials to second transmission assembly 2a through magnetic field, then transport the raw materials to granulator feed inlet department through second transmission assembly 2a, and impurity in the raw materials then is transported another unloading department by the drive of first transmission assembly 1a, thereby realize the screening of raw materials, improve raw materials quality.

Further, the present application still has the defect that when the quality of the raw material is high, the raw material directly enters the granulator from the second feeding channel 2, but because the communication control assembly 3 communicates the second feeding channel 2 and the first feeding channel 1, the raw material may roll to the first feeding channel 1, and in order to solve the problem, as shown in fig. 3 to 4:

the communication control assembly 3 comprises a first partition plate 3a, a rack 3b, a rotary driver 3c, a rotary gear 3d, a first partition plate 3e and a second partition plate 3f, the first partition plate 3a is slidably mounted at the joint of the first feeding channel 1 and the second feeding channel 2, the rack 3b is fixedly arranged on the first partition plate 3a, the rotary driver 3c is fixedly mounted on the communication control assembly 3, the rotary gear 3d is fixedly sleeved on the driving end of the rotary driver 3c, the rotary gear 3d is in transmission connection with the rack 3b, the first partition plate 3a is fixedly arranged on the first partition plate 3e, and the second partition plate 3f is fixedly arranged on the communication control assembly 3.

Based on the above embodiment, the function of controlling the opening and closing of the channel between the first feeding channel 1 and the second feeding channel 2 by driving the first partition plate 3a through the rotary driver 3c is realized through the first partition plate 3a, the rack 3b, the rotary driver 3c, the rotary gear 3d, the first limit block 3e and the second limit block 3f, so that the above problems are solved. The rotary driver 3c is preferably provided with a servo motor, and the servo motor is electrically connected with the controller; when an operator needs to screen out impurities of raw materials, a signal is sent to a servo motor through a controller, the servo motor drives a rotary gear 3d to rotate, the rotary gear 3d drives a rack 3b in transmission connection with the rotary gear, a first partition plate 3a is driven to move upwards through the rack 3b, a channel between a first feeding channel 1 and a second feeding channel 2 is opened, then the raw materials are placed on the first feeding channel 1, then a signal is sent to a first transmission assembly 1a, a second transmission assembly 2a and an electromagnetic assembly 2b through the controller, the first transmission assembly 1a is started to convey the raw materials backwards, when the raw materials reach the communication control assembly 3, the electromagnetic assembly 2b generates magnetic force, the metal raw materials are driven to a second transmission assembly 2a through a magnetic field, then the raw materials are conveyed to a feeding port through the second transmission assembly 2a, and the impurities in the raw materials are conveyed to another discharging position through the driving of the first transmission assembly 1a, thereby realizing the screening of the raw materials; when operating personnel need directly transport the raw materials in the granulator, send the signal for servo motor through the controller, servo motor drive rotary gear 3d is rotatory, thereby drive rack 3b and first baffle 3a downstream, close the passageway between first feedstock channel 1 and the second feedstock channel 2, then start second transmission assembly 2a through the controller, directly place the raw materials on second feedstock channel 2, transport the granulator feed inlet with second feedstock channel 2 intercommunication from second feedstock channel 2 through second transmission assembly 2a drive raw materials.

Further, the second feeding channel 2 provided by the present application still has the defect that when the electromagnetic assembly 2b is used for screening the raw material, a part of smaller metal is adsorbed on the electromagnetic assembly 2b and cannot be transported to the granulator along with the driving of the second transmission assembly 2a, and in order to solve the problem, as shown in fig. 3 to 4:

the second feed channel 2 further comprises a second partition 2c, and the second partition 2c is provided in plurality, and the plurality of second partitions 2c are equidistantly installed on the second driving assembly 2 a.

Based on the above embodiment, this application has realized promoting the function that adsorbs the metal raw materials on electromagnetic component 2b and remove along with second transmission assembly 2a through second baffle 2c to the problem has been solved. When an operator needs to screen out raw material impurities, a signal is sent to a servo motor through a controller, the servo motor drives a rotary gear 3d to rotate, the rotary gear 3d drives a rack 3b in transmission connection with the rotary gear, a first partition plate 3a is driven to move upwards through the rack 3b, a channel between a first feeding channel 1 and a second feeding channel 2 is opened, then the raw material is placed on the first feeding channel 1, then a signal is sent to a first transmission assembly 1a, a second transmission assembly 2a and an electromagnetic assembly 2b through the controller, the first transmission assembly 1a is started to convey the raw material backwards, when the raw material reaches the communication control assembly 3, the electromagnetic assembly 2b generates magnetic force, the metal raw material is driven to the second transmission assembly 2a through a magnetic field, then the second transmission assembly 2a moves to drive a second partition plate 2c fixedly installed above the granulator to move to convey the raw material to a feeding port, and the impurities in the raw materials are transported to another blanking position under the drive of the first transmission component 1a, so that the raw materials are screened.

Further, the communication control assembly 3 provided by the present application still has the defect that as some metal raw materials with larger volume move to the electromagnetic assembly 2b, some dust-like glove box second feeding channels 2 are driven to move, which causes the quality of the raw materials to be reduced, and in order to solve the problem, as shown in fig. 1-2:

the electromagnetic assembly feeding device further comprises a blowing device 4, wherein the blowing device 4 comprises a fan 4a fixedly installed on the second feeding channel 2, and the fan 4a is located above the electromagnetic assembly 2 b.

Based on the above-described embodiment, the present application achieves the function of blowing the dust attached thereto into the first feed channel 1 by the blower 4a of the blowing device 4 while generating the air flow in the direction of the first feed channel 1 while the raw material moves toward the second feed channel 2, thereby solving the above-described problems. An operator sends a signal to a rotary driver 3c through a controller, the rotary driver 3c drives a rotary gear 3d to rotate, the rotary gear 3d drives a rack 3b in transmission connection with the rotary gear, the rack 3b drives a first partition plate 3a to move upwards, a channel between a first feeding channel 1 and a second feeding channel 2 is opened, then raw materials are placed on the first feeding channel 1, then the controller sends a signal to a first transmission component 1a, a second transmission component 2a and an electromagnetic component 2b, the first transmission component 1a is started to convey the raw materials backwards, when the raw materials reach the communication control component 3, the electromagnetic component 2b generates magnetic force, the metal raw materials are driven to the second transmission component 2a through the magnetic field, meanwhile, a fan 4a is started to generate air flow blowing to the first feeding channel 1, and therefore tiny impurities attached to the raw materials are blown back to the first feeding channel 1, then the second transmission assembly 2a moves to drive the second partition board 2c fixedly installed above the second transmission assembly to move so as to convey the raw materials to a feeding port of the granulator, and impurities in the raw materials are conveyed to another blanking position under the drive of the first transmission assembly 1a, so that the raw materials are screened.

Further, the present application still has the defect that the screened impurities fall to the ground along with the driving of the first feeding channel 1, which not only pollutes the working environment, but also is not easy to handle, and in order to solve the problem, as shown in fig. 1 and 6:

still include collecting box 5, collecting box 5 is square box, and collecting box 5 and first feedstock channel 1 fixed connection just are located first transmission assembly 1a rear, and collecting box 5 includes chamber door 5a and pivot 5b, and rotatable the installing on collecting box 5 of pivot 5b, and pivot 5b fixes the cover and connects on pivot 5 b.

Based on the above embodiment, this application has realized the function of collecting the impurity that the raw materials sieved out through collecting box 5 that chamber door 5a and pivot 5b are constituteed to the above-mentioned problem has been solved. An operator sends a signal to a rotary driver 3c through a controller, the rotary driver 3c drives a rotary gear 3d to rotate, the rotary gear 3d drives a rack 3b in transmission connection with the rotary gear, the rack 3b drives a first partition plate 3a to move upwards, a channel between a first feeding channel 1 and a second feeding channel 2 is opened, then raw materials are placed on the first feeding channel 1, then the controller sends a signal to a first transmission component 1a, a second transmission component 2a and an electromagnetic component 2b, the first transmission component 1a is started to convey the raw materials backwards, when the raw materials reach the communication control component 3, the electromagnetic component 2b generates magnetic force, the metal raw materials are driven to the second transmission component 2a through the magnetic field, meanwhile, a fan 4a is started to generate air flow blowing to the first feeding channel 1, and therefore tiny impurities attached to the raw materials are blown back to the first feeding channel 1, then second drive assembly 2a moves and drives the second baffle 2c of fixed mounting in its top and remove and transport the raw materials to granulator feed inlet department, and impurity in the raw materials then receives the drive of first drive assembly 1a and is transported to collection box 5 in, the operating personnel accessible is opened the impurity collective clearance of collecting in the box door 5a clearance collection box 5.

Further, the blowing device 4 provided by the present application still has the defect that the air flow cannot be accurately directed to the direction of the first feeding channel 1, and in order to solve the problem, as shown in fig. 5:

blowing device 4 still includes connecting block 4b and the passageway 4c of blowing, and connecting block 4b fixed mounting is on second feed channel 2, and fan 4a fixed mounting is on connecting block 4b, and equidistant fixed a plurality of passageways 4c of blowing that are provided with on connecting block 4b, the air outlet and the passageway 4c intercommunication of blowing of fan 4 a.

Based on the above embodiment, the present application realizes the function of making the airflow blown out by the fan 4a always face the direction of the first feeding channel 1 through the connecting block 4b and the blowing channel 4c, thereby solving the above problem. An operator sends a signal to a rotary driver 3c through a controller, the rotary driver 3c drives a rotary gear 3d to rotate, the rotary gear 3d drives a rack 3b in transmission connection with the rotary gear, the rack 3b drives a first partition plate 3a to move upwards, a channel between a first feeding channel 1 and a second feeding channel 2 is opened, then raw materials are placed on the first feeding channel 1, then the controller sends a signal to a first transmission component 1a, a second transmission component 2a and an electromagnetic component 2b, the first transmission component 1a is started to convey the raw materials backwards, when the raw materials reach the communication control component 3, the electromagnetic component 2b generates magnetic force, the metal raw materials are driven to the second transmission component 2a through the magnetic field, meanwhile, a fan 4a is started to generate air flow, the air flow is blown to the first feeding channel 1 through the guidance of a blowing channel 4c, thereby will attach to the tiny impurity on the raw materials and blow back to first feedstock channel 1 on, then second drive assembly 2a moves and drives the second baffle 2c of fixed mounting above it and remove and transport the raw materials to granulator feed inlet department, and impurity in the raw materials then receives the drive of first drive assembly 1a to be transported to collection box 5 in, and operating personnel accessible is opened the impurity collective clearance of collecting in the box door 5a clearance collection box 5.

The above examples are merely illustrative of one or more embodiments of the present invention, and the description thereof is more specific and detailed, but not intended to be construed as limiting the scope of the invention. It should be noted that, for those skilled in the art, without departing from the concept of the present invention, several variations and modifications can be made, which all fall within the scope of the present invention. Therefore, the protection scope of the present invention should be subject to the appended claims.

Claims (6)

1. A pretreatment device before granulator processing comprises a first feeding channel (1) and a second feeding channel (2), wherein a first transmission assembly (1 a) is installed on the first feeding channel (1), the first feeding channel (1) and the second feeding channel (2) are fixedly connected through the side faces, a discharge hole of the second feeding channel (2) is communicated with a feed hole of the granulator, and a second transmission assembly (2 a) and an electromagnetic assembly (2 b) are installed on the second feeding channel (2);

the electromagnetic assembly is characterized by further comprising a communication control assembly (3), the communication control assembly (3) is fixedly installed at the joint of the first feeding channel (1) and the second feeding channel (2), the first feeding channel (1) is communicated with the second feeding channel (2) through the communication control assembly (3), and the magnetic field direction of the electromagnetic assembly (2 b) faces towards the communication control assembly (3).

2. A pre-treatment device before granulator processing, according to claim 1, characterized in that the communication control module (3) comprises a first partition (3 a), a rack (3 b), a rotary driver (3 c), rotatory gear (3 d), first stopper (3 e) and second stopper (3 f), first baffle (3 a) slidable mounting is in first feedstock channel (1) and second feedstock channel (2) junction, rack (3 b) is fixed to be set up on first baffle (3 a), rotary actuator (3 c) fixed mounting is on intercommunication control assembly (3), rotary gear (3 d) are fixed to be cup jointed on the drive of rotary actuator (3 c) and are served, rotary gear (3 d) are connected with rack (3 b) transmission, first stopper (3 e) are fixed to be set up on first baffle (3 a), second stopper (3 f) are fixed to be set up on intercommunication control assembly (3).

3. A pre-treatment device before processing of a granulator, according to claim 1, characterized in that the second feeding channel (2) further comprises a second partition (2 c), the second partition (2 c) being provided in plurality, and the second partitions (2 c) are mounted on the second transmission assembly (2 a) in equidistant manner.

4. A pre-treatment device before granulator processing according to claim 1, characterized by further comprising a blowing device (4), wherein the blowing device (4) comprises a fan (4 a) fixedly mounted on the second feeding channel (2), the fan (4 a) being located above the electromagnetic assembly (2 b).

5. The pretreatment device before processing of the granulator according to claim 1, further comprising a collection box (5), wherein the collection box (5) is a square box body, the collection box (5) is fixedly connected with the first feeding channel (1) and located behind the first transmission assembly (1 a), the collection box (5) comprises a box door (5 a) and a rotating shaft (5 b), the rotating shaft (5 b) is rotatably mounted on the collection box (5), and the rotating shaft (5 b) is fixedly sleeved on the rotating shaft (5 b).

6. A pretreatment device before granulator processing according to claim 4, characterized in that the blowing device (4) further comprises a connecting block (4 b) and a blowing channel (4 c), the connecting block (4 b) is fixedly arranged on the second feeding channel (2), the blower (4 a) is fixedly arranged on the connecting block (4 b), a plurality of blowing channels (4 c) are fixedly arranged on the connecting block (4 b) at equal intervals, and the air outlet of the blower (4 a) is communicated with the blowing channels (4 c).

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