CN219095594U - Material strip granulating mechanism for phase-change temperature-control master batch production - Google Patents

Abstract

The utility model discloses a material strip and grain cutting mechanism for producing phase-change temperature-control master batches, which relates to the technical field of grain cutting mechanisms and comprises an operation table and a feeding unit; the upper surface of the operating table is provided with a blanking unit and a supporting plate, a placing plate is arranged on the supporting plate, a second bracket and a blanking opening are arranged on the placing plate, and a cutting unit is arranged on the second bracket; the feeding unit comprises a first vertical plate, a first screw rod, a first hand wheel, a placing frame, a pressing plate, bolts, a second vertical plate, a second screw rod, a top plate and a second hand wheel, wherein the first vertical plate and the second vertical plate are arranged on the upper surface of the placing plate, the first vertical plate is connected with the first screw rod in a threaded manner, one end of the first screw rod is provided with the first hand wheel, and the other end of the first screw rod is rotationally connected with the placing frame. The utility model can adjust the size of the cut master batch, and can remove static electricity from the cut master batch, thereby avoiding the influence of static electricity on the collection treatment of the master batch.

Description

Material strip granulating mechanism for phase-change temperature-control master batch production

Technical Field

The utility model relates to the technical field of grain cutting mechanisms, in particular to a material strip grain cutting mechanism for phase-change temperature-control master batch production.

Background

The master batch (English name Masterbatches) is a full-name plastic master batch, and the alias master batch is a plastic processing aid standing up in the 80 s of the 20 th century and consists of excessive chemical aids, carrier resin, dispersing agents and the like. The master batch is an aggregate obtained by uniformly loading an ultra-large amount of pigment (dye) into resin; when carrying out the production of masterbatch, need cut through the masterbatch to can reach the masterbatch, current material strip grain cutting mechanism is when cutting the masterbatch to the masterbatch of cutting, and current grain cutting mechanism is when cutting the granule, very easily makes the masterbatch carry static, is inconvenient for collecting and handle, and for this reason, we propose a material strip grain cutting mechanism that phase transition accuse temperature masterbatch production was used.

Disclosure of Invention

The utility model aims to overcome the existing defects, and provides a material strip and grain cutting mechanism for producing phase-change temperature-control master batches, which can adjust the size of the cut master batches, can remove static electricity from the cut master batches, avoids the influence of static electricity on the collection treatment of the master batches, and can effectively solve the problems in the background art.

In order to achieve the above purpose, the present utility model provides the following technical solutions: a material strip and grain cutting mechanism for phase-change temperature-control master batch production comprises an operation table and a feeding unit;

an operation table: the upper surface is provided with a blanking unit and a supporting plate, a placing plate is arranged on the supporting plate, a second bracket and a blanking opening are arranged on the placing plate, and a cutting unit is arranged on the second bracket;

and a feeding unit: the novel lifting device comprises a first vertical plate, a first screw rod, a first hand wheel, a placing frame, a pressing plate, bolts, a second vertical plate, a second screw rod, a top plate and a second hand wheel, wherein the first vertical plate and the second vertical plate are arranged on the upper surface of the placing plate, the first vertical plate is connected with the first screw rod in a threaded mode, one end of the first screw rod is provided with the first hand wheel, the other end of the first screw rod is connected with the placing frame in a rotating mode, the placing frame is connected with the bolts in a threaded mode, the lower ends of the bolts are connected with the pressing plate in a rotating mode, the pressing plate is connected with the placing frame in a sliding mode, the second vertical plate is connected with the second screw rod in a threaded mode, one end of the second screw rod is connected with the second hand wheel, the other end of the second screw rod is connected with the top plate in a rotating mode, and the top plate is connected with the placing frame in a sliding mode.

According to the size of the masterbatch, rotate the second hand wheel, the second hand wheel drives the second screw rod and rotates, the second screw rod drives the roof and removes, adjust the distance of roof to cutting unit, place the one end of material strip on the rack, twist the bolt, it removes to drive the clamp plate through the bolt, compress tightly the material strip on the rack through the clamp plate, rotate first hand wheel, first hand wheel drive first screw rod rotates, first screw rod drives the rack and removes, the rack drives the material strip and removes, make the other end top of material strip on the roof, carry out spacingly to the material strip through the roof, thereby can make the material strip carry out the homogeneity of evenly feeding and cutting back masterbatch, cut the material strip through cutting unit, thereby obtain the masterbatch, the masterbatch falls into on the unloading unit through the feed opening, carry out the unloading to the masterbatch through the unloading unit.

Further, unloading unit includes mounting panel, motorized pulley, belt, support, ion fan and blocks the subassembly, the mounting panel is total two and all sets up the upper surface at the operation panel, rotates between two mounting panels and is connected with two motorized pulley, connects through belt drive between two motorized pulley, the belt is located under the feed opening, is provided with on the belt and blocks the subassembly, the support sets up on the mounting panel, is provided with ion fan on the support, and the output of external control switch group is connected to motorized pulley and ion fan's input electricity, and the master batch after the cutting falls into the belt through the feed opening on, blocks the master batch through blocking the subassembly, avoids master batch to break away from the belt, and work through external control switch group control motorized pulley to the belt rotates to carry the master batch, control ion fan work through external control switch group, get rid of static through ion fan to the belt, avoid master batch to carry the storage of static influence master batch.

Further, the blocking component comprises two baffles, the two baffles are respectively arranged on two sides of the surface of the belt, and the masterbatch on the belt is blocked by the baffles, so that the masterbatch is prevented from being separated from the belt.

Further, the cutting unit comprises an electric push rod and a cutting assembly, the electric push rod is arranged on the second support, the electric push rod is connected with the cutting assembly, the input ends of the electric push rod and the cutting assembly are electrically connected with the output ends of the external control switch group, the electric push rod is controlled to work through the external control switch group, the electric push rod drives the cutting assembly to move, the cutting assembly is enabled to contact with a material strip, and the cutting assembly is controlled to cut the material strip through the external control switch group, so that master batches are obtained.

Further, still include the mounting bracket and connect the magazine, the mounting bracket sets up on the operation panel, and sliding connection has the magazine that connects on the mounting bracket, supports the magazine through the mounting bracket, collects the masterbatch after cutting through connecing the magazine.

Further, still include pillar and base, the pillar sets up in the lower surface four corners of operation panel, and the lower extreme threaded connection of pillar has the base, supports the operation panel through the pillar, rotates the base, adjusts the connection length of base and pillar to adjust the supporting height of pillar, thereby make the operation panel keep the level.

Compared with the prior art, the utility model has the beneficial effects that: has the following advantages:

1. the second hand wheel drives the top plate to move through the second screw rod, and the distance between the top plate and the cutting assembly is adjusted, so that the size of the cut master batch is adjusted, the material strips are fixed through the placing frame, the pressing plate and the bolts, the material strips are driven to move through the first screw rod and the first hand wheel, and the material strips are limited through the top plate, so that the length of each feeding of the material strips is equal, and the cutting uniformity of the master batch is ensured;

2. the belt is driven to rotate through the electric roller, the cut master batch is driven to move and collect through the belt, static electricity is eliminated through the fan on the belt by the ion fan, the master batch is prevented from being collected due to the influence of static electricity, and the master batch collecting and processing speed is improved.

Drawings

FIG. 1 is a schematic diagram of the structure of the present utility model;

fig. 2 is a schematic side view of the present utility model.

In the figure: 1 operation panel, 2 charging unit, 21 first riser, 22 first screw rod, 23 first hand wheel, 24 rack, 25 clamp plate, 26 bolts, 27 second riser, 28 second screw rod, 29 roof, 210 second hand wheel, 3 blanking unit, 31 mounting panel, 32 motorized pulley, 33 belt, 34 baffle, 35 support, 36 ion fan, 4 cutting unit, 41 motorized push rod, 42 cutting assembly, 5 backup pad, 6 placing plate, 7 second support, 8 feed opening, 9 mounting bracket, 10 receiver, 11 pillar, 12 base.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

Referring to fig. 1-2, the present embodiment provides a technical solution: a material strip and grain cutting mechanism for phase-change temperature-control master batch production comprises an operation table 1 and a feeding unit 2;

operation panel 1: the upper surface is provided with a blanking unit 3 and a supporting plate 5, a placing plate 6 is arranged on the supporting plate 5, a second bracket 7 and a blanking opening 8 are arranged on the placing plate 6, and a cutting unit 4 is arranged on the second bracket 7;

feeding unit 2: the novel vertical plate comprises a first vertical plate 21, a first screw rod 22, a first hand wheel 23, a placement frame 24, a pressing plate 25, bolts 26, a second vertical plate 27, a second screw rod 28, a top plate 29 and a second hand wheel 210, wherein the first vertical plate 21 and the second vertical plate 27 are arranged on the upper surface of the placement plate 6, the first screw rod 22 is connected to the first vertical plate 21 in a threaded mode, one end of the first screw rod 22 is provided with the first hand wheel 23, the other end of the first screw rod 22 is connected with the placement frame 24 in a rotating mode, bolts 26 are connected to the placement frame 24 in a threaded mode, the lower end of the bolts 26 is connected with the pressing plate 25 in a rotating mode, the pressing plate 25 is connected with the placement frame 24 in a sliding mode, the second screw rod 28 is connected to the second vertical plate 27 in a threaded mode, one end of the second screw rod 28 is connected with the second hand wheel 210, the other end of the second screw rod 28 is connected with the top plate 29 in a rotating mode, and the top plate 29 is connected with the placement frame 24 in a sliding mode.

According to the size of the master batch, the second hand wheel 210 is rotated, the second hand wheel 210 drives the second screw rod 28 to rotate, the second screw rod 28 drives the top plate 29 to move, the distance from the top plate 29 to the cutting unit 4 is adjusted, one end of each master batch is placed on the placement frame 24, the bolts 26 are screwed, the bolts 26 drive the pressing plates 25 to move, the master batch is pressed on the placement frame 24 through the pressing plates 25, the first hand wheel 23 is rotated, the first hand wheel 23 drives the first screw rod 22 to rotate, the first screw rod 22 drives the placement frame 24 to move, the placement frame 24 drives each master batch to move, the other end of each master batch is propped against the top plate 29, the master batch is limited through the top plate 29, so that the master batch is evenly fed and cut, the master batch is cut through the cutting unit 4, the master batch is obtained, the master batch falls into the blanking unit 3 through the blanking unit 8, and the master batch is blanked through the blanking unit 3.

The blanking unit 3 comprises a mounting plate 31, an electric roller 32, a belt 33, a support 35, an ion fan 36 and a blocking component, wherein the mounting plate 31 is totally two and is arranged on the upper surface of the operation table 1, the two electric rollers 32 are rotationally connected between the two mounting plates 31, the two electric rollers 32 are in transmission connection through the belt 33, the belt 33 is located under the blanking port 8, the blocking component is arranged on the belt 33, the support 35 is arranged on the mounting plate 31, the ion fan 36 is arranged on the support 35, the input ends of the electric rollers 32 and the ion fan 36 are electrically connected with the output end of an external control switch group, cut master batches fall onto the belt 33 through the blanking port 8, the blocking component is used for blocking the master batches, the master batches are prevented from being separated from the belt 33, the electric rollers 32 are controlled to work through the external control switch group, the electric rollers 32 drive the belt 33 to rotate, so that the master batches are conveyed, the ion fan 36 is controlled to work through the external control switch group, static electricity is removed through the ion fan 36, and the master batches are prevented from being carried by the master batches.

The blocking component comprises two baffles 34, the baffles 34 are arranged on two sides of the surface of the belt 33 respectively, and the masterbatch on the belt 33 is blocked by the baffles 34, so that the masterbatch is prevented from being separated from the belt 33.

The cutting unit 4 comprises an electric push rod 41 and a cutting assembly 42, the electric push rod 41 is arranged on the second support 7, the electric push rod 41 is connected with the cutting assembly 42, the input ends of the electric push rod 41 and the cutting assembly 42 are electrically connected with the output ends of an external control switch group, the electric push rod 41 is controlled to work through the external control switch group, the electric push rod 41 drives the cutting assembly 42 to move, the cutting assembly 42 is enabled to contact with a material strip, and the cutting assembly 42 is controlled to cut the material strip through the external control switch group, so that master batches are obtained.

Still include mounting bracket 9 and connect magazine 10, mounting bracket 9 sets up on operation panel 1, and sliding connection has connect magazine 10 on the mounting bracket 9, supports magazine 10 through mounting bracket 9, collects the masterbatch after the cutting through connecing magazine 10.

Still include pillar 11 and base 12, pillar 11 sets up in the lower surface four corners of operation panel 1, and the lower extreme screw thread of pillar 11 is connected with base 12, supports operation panel 1 through pillar 11, rotates base 12, adjusts the connection length of base 12 and pillar 11 to adjust the supporting height of pillar 11, thereby make operation panel 1 keep the level.

The utility model provides a material strip and grain cutting mechanism for phase-change temperature-control master batch production, which has the following working principle: rotating the base 12, adjusting the connection length of the base 12 and the supporting column 11, thereby adjusting the supporting height of the supporting column 11, so as to keep the operating platform 1 horizontal, installing the material receiving box 10 on the installation frame 9, rotating the second hand wheel 210 according to the size of the master batch, driving the second screw rod 28 to rotate by the second hand wheel 210, driving the top plate 29 to move by the second screw rod 28, adjusting the distance from the top plate 29 to the cutting assembly 42, placing one end of the material strip on the placement frame 24, screwing the bolt 26, driving the pressing plate 25 to move by the bolt 26, pressing the material strip on the placement frame 24 by the pressing plate 25, rotating the first hand wheel 23, driving the first screw rod 22 to rotate by the first hand wheel 23, driving the placement frame 24 to move by the placement frame 24, driving the other end of the material strip to prop against the top plate 29, carry out spacingly to the flitch through roof 29, work through outside control switch group control electric putter 41, electric putter 41 drives cutting assembly 42 and removes, make cutting assembly 42 contact the flitch, cut the flitch through outside control switch group control cutting assembly 42, thereby obtain the master batch, the master batch falls into belt 33 through feed opening 8, block the master batch on belt 33 through baffle 34, avoid the master batch to break away from belt 33, work through outside control switch group control electric drum 32, electric drum 32 drives belt 33 and rotates, thereby carry the master batch, work through outside control switch group control ion fan 36, get rid of static through ion fan 36 to belt 33, the master batch after the static removal is carried into receiver 10 through belt 33, collect the master batch through receiver 10.

It is noted that the specific model of the motorized pulley 32 disclosed in the above embodiment is TM113A, the specific model of the ion blower 36 is AD-104A, the specific model of the electric push rod 41 is TNEC135, and the PLC controller is disposed in the external control switch group. The external control switch sets control the operation of motorized pulley 32, ion blower 36, motorized push rod 41, and cutting assembly 42 using methods commonly used in the art.

The foregoing description is only illustrative of the present utility model and is not intended to limit the scope of the utility model, and all equivalent structures or equivalent processes or direct or indirect application in other related technical fields are included in the scope of the present utility model.

Claims (6)

1. The utility model provides a material strip grain cutting mechanism that phase transition accuse temperature master batch production was used which characterized in that: comprises an operation table (1) and a feeding unit (2);

operating table (1): the upper surface is provided with a blanking unit (3) and a supporting plate (5), a placing plate (6) is arranged on the supporting plate (5), a second bracket (7) and a blanking opening (8) are arranged on the placing plate (6), and a cutting unit (4) is arranged on the second bracket (7);

feeding unit (2): the novel portable electric power tool comprises a first vertical plate (21), a first screw rod (22), a first hand wheel (23), a placement frame (24), a pressing plate (25), a bolt (26), a second vertical plate (27), a second screw rod (28), a top plate (29) and a second hand wheel (210), wherein the first vertical plate (21) and the second vertical plate (27) are all arranged on the upper surface of a placement plate (6), the first screw rod (22) is connected to the first vertical plate (21) in a threaded mode, one end of the first screw rod (22) is provided with the first hand wheel (23), the other end of the first screw rod (22) is connected with the placement frame (24) in a rotating mode, the bolt (26) is connected to the placement frame (24) in a threaded mode, the lower end of the bolt (26) is connected with the pressing plate (25) in a rotating mode, the second vertical plate (27) is connected with the second screw rod (28) in a threaded mode, one end of the second screw rod (28) is connected with the second hand wheel (210), the other end of the second screw rod (28) is connected with the top plate (29) in a rotating mode, and the top plate (24) is connected with the placement frame (6) in a sliding mode.

2. The strand-cutting mechanism for producing phase-change temperature-control master batches according to claim 1, wherein the strand-cutting mechanism is characterized in that: the blanking unit (3) comprises a mounting plate (31), electric rollers (32), a belt (33), a support (35), an ion fan (36) and a blocking component, wherein the two mounting plates (31) are arranged on the upper surface of the operating platform (1), the two electric rollers (32) are connected between the two mounting plates (31) in a rotating mode, the two electric rollers (32) are connected through the belt (33) in a transmission mode, the belt (33) is located under the blanking opening (8), the blocking component is arranged on the belt (33), the support (35) is arranged on the mounting plate (31), the ion fan (36) is arranged on the support (35), and the input ends of the electric rollers (32) and the ion fan (36) are electrically connected with the output end of the external control switch group.

3. The strand-cutting mechanism for producing phase-change temperature-control master batches according to claim 2, wherein: the blocking assembly comprises two baffles (34), and the two baffles (34) are respectively arranged on two sides of the surface of the belt (33).

4. The strand-cutting mechanism for producing phase-change temperature-control master batches according to claim 1, wherein the strand-cutting mechanism is characterized in that: the cutting unit (4) comprises an electric push rod (41) and a cutting assembly (42), the electric push rod (41) is arranged on the second support (7), the electric push rod (41) is connected with the cutting assembly (42), and the input ends of the electric push rod (41) and the cutting assembly (42) are electrically connected with the output ends of the external control switch group.

5. The strand-cutting mechanism for producing phase-change temperature-control master batches according to claim 1, wherein the strand-cutting mechanism is characterized in that: still include mounting bracket (9) and connect magazine (10), mounting bracket (9) set up on operation panel (1), sliding connection has on mounting bracket (9) to connect magazine (10).

6. The strand-cutting mechanism for producing phase-change temperature-control master batches according to claim 1, wherein the strand-cutting mechanism is characterized in that: the automatic control device is characterized by further comprising a support (11) and a base (12), wherein the support (11) is arranged at four corners of the lower surface of the operating platform (1), and the base (12) is connected with the lower end of the support (11) in a threaded manner.

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