CN218838257U - Rubber mixing machine for rubber processing - Google Patents

Abstract

The utility model discloses a rubber mixing machine for rubber processing, which comprises a machine body, a front roller, a rear roller, two material arranging mechanisms and a first driving mechanism, wherein the front roller is rotatably arranged on the machine body; the rear rollers are arranged on the side of the front roller side by side, and a gap for extruding sizing materials is formed between the rear rollers and the front roller; two reason material mechanism all set up in directly over the preceding roller, reason material mechanism includes sliding seat, cutter and shovel head, sliding seat sliding connection in on the organism, and can along the length direction of preceding roller removes, the cutter with the shovel head all is fixed in on the sliding seat, the edge of a knife of cutter with the shovel face of shovel head all with the periphery butt of preceding roller, the shovel head is used for following the sizing material after the cutting under the preceding roller surface shovel. The utility model has the advantages that: the manual operation is not needed for cutting, raking and turning the sizing material, so that the labor intensity of workers is reduced.

Description

Rubber mixing machine for rubber processing

Technical Field

The utility model relates to a smelt gluey equipment technical field, especially relate to a rubber mixing machine for rubber processing.

Background

The zinc oxide arrester is an arrester with good protection performance, the non-linear characteristic of zinc oxide is utilized to play the roles of leakage and cut-off, a layer of rubber sleeve is wrapped outside the zinc oxide arrester, the rubber sleeve is prepared through a rubber mixing mill, the rubber mixing mill is rubber mixing equipment with an exposed roller for preparing plasticated rubber, mixed rubber or performing heat mixing and going out in a rubber mixing factory, raw rubber or rubber is rolled into a gap between two rollers along with the rotation of the roller and is subjected to a strong material cutting effect to achieve the purposes of plasticating or mixing, the existing rubber mixing mill (such as a rubber scraping device of the rubber mixing mill disclosed in the application number of 201921774182.2) is used for mixing rubber, the rubber is adhered to the surface of the front roller after coming out of the gap between the two rollers and enters the gap between the two rollers along with the rotation of the front roller again, manual material cutting, material raking and material overturning are needed to be put into the gap between the two rollers again during the rubber mixing process, and the manual material cutting, the material overturning and the labor intensity of the material scraping and the labor intensity of workers are increased in the process.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to overcome above-mentioned technique not enough, provide a rubber mixing machine for rubber processing, solve among the prior art rubber mixing machine at the in-process of smelting rubber, the blank of sizing material, take off the material, the stirring all needs manual operation, has increased workman's intensity of labour's technical problem.

In order to achieve the technical purpose, the technical scheme of the utility model a rubber mixing machine for rubber processing is provided, include:

a body;

the front roller is rotatably arranged on the machine body;

the rear rollers are arranged on the side of the front roller side by side, and a gap for extruding sizing materials is formed between the rear rollers and the front roller;

the material arranging mechanisms are arranged right above the front roller and comprise a movable seat, a cutter and a shovel head, the movable seat is connected to the machine body in a sliding mode and can move along the length direction of the front roller, the cutter and the shovel head are fixed on the movable seat, a knife edge of the cutter and a shovel surface of the shovel head are abutted to the circumferential surface of the front roller, and the shovel head is used for shoveling cut rubber materials from the surface of the front roller and turning the shoveled rubber materials;

the first driving mechanism is connected with the two movable seats and used for driving the two movable seats to be close to each other or be away from each other back to back.

Further, the machine body comprises a base, two vertical plates, two first bases, two second bases and a fixed rod, the two vertical plates are symmetrically fixed on the base along the base, the two first bases are respectively and slidably connected to the corresponding vertical plates, the two second bases are respectively and slidably connected to the corresponding vertical plates, the second bases are located above the first bases, two ends of the fixed rod are respectively and fixedly arranged on the corresponding second bases, two ends of the front roller are respectively and rotatably arranged on the corresponding first bases, and two ends of the rear roller are respectively and rotatably arranged on the corresponding vertical plates.

Furthermore, a first through groove and a second through groove are formed in the vertical plate, the second through groove is located above the first through groove, a first screw hole communicated with the first through groove and a second screw hole communicated with the second through groove are further formed in the vertical plate, the two first bases are respectively connected in the corresponding first through grooves in a sliding mode, and the two second bases are respectively connected in the corresponding second through grooves in a sliding mode.

Furthermore, the sliding seat comprises a supporting plate and two connecting rods, the supporting plate is sleeved on the fixing rod in a sliding mode, a cavity is formed in the supporting plate, the upper ends of the two connecting rods extend into the cavity and are fixed on the supporting plate, and the cutter and the shovel head are fixed at the lower ends of the corresponding connecting rods respectively.

Furthermore, the material arranging mechanism further comprises two material turning rollers and a second driving mechanism, wherein each material turning roller is respectively sleeved on the corresponding connecting rod in a rotating mode, the second driving mechanism is connected with the upper ends of the two material turning rollers and used for driving the two material turning rollers to synchronously rotate so as to turn the scooped rubber material and send the scooped rubber material into the gap.

Further, the stirring roller includes roller and a plurality of paddle, the diameter of roller reduces from last to down in proper order, the roller rotates the cover and locates on the connecting rod, each the paddle all is fixed in on the roller.

Furthermore, first actuating mechanism includes lead screw and first rotation driving piece, the both ends of lead screw rotate respectively install in corresponding on the second base, be provided with two sections opposite screw threads of direction of turning on the lead screw, two the third screw has all been seted up in the backup pad, and the warp is corresponding the third screw spiro union is corresponding on the screw thread, first rotation driving piece is fixed in one on the second base, the output of first rotation driving piece with the one end fixed connection of lead screw is used for the drive the lead screw rotates.

Further, second actuating mechanism includes driving gear, two driven gear and second rotation driving piece, driving gear and two driven gear all set up in the cavity, the driving gear with the backup pad is rotated and is connected, two driven gear rotates the cover respectively and locates correspondingly on the connecting rod, two driven gear all with driving gear meshing, two the upper end of roller respectively with corresponding driven gear fixed connection, the second rotates the driving piece and is fixed in the backup pad, the output of second rotation driving piece with driving gear fixed connection, be used for the drive the driving gear rotates.

Further, rubber mixing machine is used in rubber processing still includes two first screw rods and two second screw rods, two first screw rods spiro union respectively in corresponding in the first screw rod, just the one end of first screw rod with first base fixed connection, two the second screw rod spiro union respectively in corresponding in the second screw rod, just the one end of second screw rod with second base fixed connection.

Further, rubber mixing machine is used in rubber processing still includes third rotation driving piece and fourth rotation driving piece, the third rotate the output of driving piece with the one end fixed connection of preceding roller is used for the drive preceding roller rotates, the fourth rotate the driving piece output with the one end fixed connection of back roller is used for the drive the back roller rotates.

Compared with the prior art, the beneficial effects of the utility model include: when the rubber material extruding and cutting device is used, rubber material enters a gap between the front roller and the rear roller and is extruded and cut to come out of the gap, the rubber material can be attached to the surface of the front roller and rotates along with the front roller, when the rubber material rotates to the upper side, the first driving mechanism is controlled to drive the two movable seats to mutually approach, so that the two cutters and the two shovel heads are driven to mutually approach, in the process that the two cutters approach each other, the edges of the cutters can cut the rubber material, in the process that the two shovel heads approach each other, the shovel heads can shovel the rubber material cut by the cutters from the surface of the front roller and turn the shoveled rubber material, the turned rubber material is fed into the gap again to be extruded under the rotation of the front roller, in the process, the cutting, raking and turning of the rubber material do not need manual operation any more, and the labor intensity of workers is reduced.

Drawings

Fig. 1 is a schematic three-dimensional structure diagram of a rubber mixing mill for rubber processing provided by the present invention;

FIG. 2 is a schematic perspective view of the material arranging mechanism in FIG. 1;

FIG. 3 is a cross-sectional view of the material organizing mechanism of FIG. 2;

fig. 4 is a schematic structural view of fig. 3 with the turning roller and the second driving mechanism omitted;

in the figure: 100-machine body, 110-base, 120-vertical plate, 121-first through groove, 122-second through groove, 130-first base, 140-second base, 150-fixed rod, 200-front roller, 300-rear roller, 400-material arranging mechanism, 410-movable seat, 411-supporting plate, 4111-cavity, 412-connecting rod, 420-cutter, 430-shovel head, 440-material turning roller, 441-roller shaft, 442-paddle, 450-second driving mechanism, 451-driving gear, 452-driven gear, 453-second rotary driving piece, 500-first driving mechanism, 510-screw rod, 520-first rotary driving piece, 600-first screw rod, 700-second screw rod, 800-third rotary driving piece and 900-fourth rotary driving piece.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more clearly understood, the present invention is further described in detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the invention.

The utility model provides a rubber mixing machine for rubber processing, the structure of which is shown in figure 1 and figure 2, comprising a machine body 100, a front roller 200, a rear roller 300, two material arranging mechanisms 400 and a first driving mechanism 500, wherein the front roller 200 is rotatably arranged on the machine body 100; the rear rollers 300 are arranged side by side on the side of the front roller 200, and form a gap for extruding the rubber with the front roller 200; the two material arranging mechanisms 400 are arranged right above the front roller 200, each material arranging mechanism 400 comprises a movable seat 410, a cutter 420 and a shovel head 430, the movable seat 410 is connected to the machine body 100 in a sliding manner and can move along the length direction of the front roller 200, the cutter 420 and the shovel head 430 are fixed on the movable seat 410, a knife edge of the cutter 420 and a shovel surface of the shovel head 430 are abutted to the circumferential surface of the front roller 200, and the shovel head 430 is used for shoveling cut rubber materials from the surface of the front roller 200 and turning the shoveled rubber materials; the first driving mechanism 500 is connected to both the two movable mounts 410, and is configured to drive the two movable mounts 410 to approach each other or to move away from each other.

When the rubber material extruding and shearing machine is used, rubber material enters the gap between the front roller 200 and the rear roller 300, is extruded and sheared and then comes out of the gap, the rubber material can be attached to the surface of the front roller 200, and rotates along with the front roller 200, when the rubber material rotates to the upper side, the first driving mechanism 500 is controlled to drive the two movable seats 410 to approach each other, so that the two cutters 420 and the two shovel heads 430 are driven to approach each other, the rubber material can be sheared by the knife edges of the cutters 420 in the process that the two cutters 420 approach each other, the two shovel heads 430 shovel the rubber material cut by the cutters 420 from the surface of the front roller 200, the shoveled rubber material is turned over, the turned rubber material is fed into the gap again to be extruded under the rotation of the front roller 200, and the rubber material cutting, raking and turning of the rubber material do not need manual operation any more in the process, so that the labor intensity of workers is reduced.

As a preferred embodiment, referring to fig. 1, the machine body 100 includes a base 110, two vertical plates 120, two first bases 130, two second bases 140, and a fixing rod 150, the two vertical plates 120 are symmetrically fixed on the base 110 along the base 110, the two first bases 130 are respectively slidably connected to the corresponding vertical plates 120, the two second bases 140 are respectively slidably connected to the corresponding vertical plates 120, and the second bases 140 are located above the first bases 130, so that the material arranging mechanism 400 is disposed right above the front roller 200, so that the material arranging mechanism 400 can conveniently shear, scrape and turn over a rubber material, two ends of the fixing rod 150 are respectively fixed on the corresponding second bases 140, two ends of the front roller 200 are respectively rotatably mounted on the corresponding first bases 130, and two ends of the rear roller 300 are respectively rotatably mounted on the corresponding vertical plates 120.

As a preferred embodiment, referring to fig. 1, a first through groove 121 and a second through groove 122 are formed on the vertical plate 120, the second through groove 122 is located above the first through groove 121, a first screw hole communicated with the first through groove 121 and a second screw hole communicated with the second through groove 122 are further formed on the vertical plate 120, the two first bases 130 are respectively slidably connected in the corresponding first through grooves 121, the two second bases 140 are respectively slidably connected in the corresponding second through grooves 122, so that the first bases 130 can slide in the first through grooves 121, the second bases 140 can slide in the second through grooves 122, so as to adjust the size of the gap between the gaps, and the material arranging mechanism 400 can be located right above the front roller 200 all the time.

As a preferred embodiment, please refer to fig. 3 and 4, the movable seat 410 includes a supporting plate 411 and two connecting rods 412, the supporting plate 411 is slidably sleeved on the fixing rod 150, a cavity 4111 is formed in the supporting plate 411, so that the driving gear 451 and the two driven gears 452 are installed in the cavity 4111, the upper ends of the two connecting rods 412 both extend into the cavity 4111 and are fixed on the supporting plate 411, so that the roller shaft 441 can be rotatably sleeved on the connecting rod 412, the cutting blade 420 and the shovel head 430 are respectively fixed at the lower ends of the corresponding connecting rods 412, the shovel surface of the shovel head 430 faces away from the gap, so as to shovel the cut glue from the front roller 200.

As a preferred embodiment, please refer to fig. 2 and fig. 3, the material arranging mechanism 400 further includes two material turning rollers 440 and a second driving mechanism 450, each of the material turning rollers 440 is respectively rotatably sleeved on the corresponding connecting rod 412, the second driving mechanism 450 is connected to the upper ends of the two material turning rollers 440, and is configured to drive the two material turning rollers 440 to synchronously rotate so as to turn the scooped rubber material and send the scooped rubber material into the gap, the second driving mechanism 450 is controlled to drive the material turning rollers 440 to synchronously rotate, and the material turning rollers 440 are driven by the supporting plate 411 to move along the length direction of the front roller 200, so that the scooped rubber material can enter the gap after being turned, and the turning effect of the rubber material is improved.

As a preferred embodiment, referring to fig. 2, the turning roller 440 includes a roller shaft 441 and a plurality of paddles 442, the diameter of the roller shaft 441 decreases sequentially from top to bottom, the roller shaft 441 is rotatably sleeved on the connecting rod 412, each paddle 442 is fixed on the roller shaft 441, and the glue is turned over under the action of each paddle 442, so that the turning effect of the glue is improved, and the working efficiency of the rubber mixing machine is further improved.

As a preferred embodiment, referring to fig. 1, the first driving mechanism 500 includes a screw 510 and a first rotary driving member 520, two ends of the screw 510 are respectively rotatably mounted on the corresponding second bases 140, two sections of threads with opposite rotation directions are disposed on the screw 510, third screw holes are disposed on the two supporting plates 411, and are screwed on the corresponding threads through the corresponding third screw holes, the first rotary driving member 520 is fixed on one of the second bases 140, an output end of the first rotary driving member 520 is fixedly connected with one end of the screw 510 for driving the screw 510 to rotate, and by operating the first rotary driving member 520, the first rotary driving member 520 can drive the screw 510 to rotate and drive the two supporting plates 411 to approach each other or move away from each other.

As a preferred embodiment, referring to fig. 3, the second driving mechanism 450 includes a driving gear 451, two driven gears 452, and a second rotary driving member 453, the driving gear 451 and the two driven gears 452 are disposed in the cavity 4111, the driving gear 451 is rotatably connected to the supporting plate 411, the two driven gears 452 are respectively rotatably sleeved on the corresponding connecting rods 412, the two driven gears 452 are respectively engaged with the driving gear 451, upper ends of the two roller shafts 441 are respectively fixedly connected to the corresponding driven gears 452, the second rotary driving member 453 is fixed to the supporting plate 411, an output end of the second rotary driving member 453 is fixedly connected to the driving gear 451, and is configured to drive the driving gear 451 to rotate, and by operating the second rotary driving member 453, the second rotary driving member 453 can drive the driving gear 451 to rotate, and drive the two driven gears 452 to rotate in the same direction through the driving gear 451, so as to drive the two roller shafts to rotate synchronously, so as to further stir the scooped glue, and cooperate with the front roller 200, and send the glue into the gap again.

As a preferred embodiment, referring to fig. 1, the rubber mixing mill for rubber processing further includes two first screws 600 and two second screws 700, the two first screws 600 are respectively screwed into the corresponding first screw holes, one end of each first screw 600 is fixedly connected to the first base 130, the first base 130 can be driven to move by rotating the two first screws 600 so as to change the size of the gap between the two first screws, the two second screws 700 are respectively screwed into the corresponding second screw holes, one end of each second screw 700 is fixedly connected to the second base 140, the second base 140 can be driven to move by rotating the two second screws 700 so as to enable the two material arranging mechanisms 400 to be always located right above the front roller 200, and the knife edge of the cutter 420 and the shovel surface of the shovel head 430 can always abut against the circumferential surface of the front roller 200.

As a preferred embodiment, referring to fig. 1, the rubber mixing machine for rubber processing further includes a third rotary driving element 800 and a fourth rotary driving element 900, an output end of the third rotary driving element 800 is fixedly connected to one end of the front roller 200 for driving the front roller 200 to rotate, an output end of the fourth rotary driving element 900 is fixedly connected to one end of the rear roller 300 for driving the rear roller 300 to rotate, and rotation directions of the front roller 200 and the rear roller 300 are opposite to each other, so that the rubber compound entering the gap is extruded and sheared.

For better understanding of the present invention, the following detailed description is made with reference to fig. 1 to 4 for the working principle of the technical solution of the present invention:

when the rubber material is used, the rubber material enters the gap between the front roller 200 and the rear roller 300, is extruded and sheared and then comes out of the gap, the rubber material is attached to the surface of the front roller 200 and rotates along with the front roller 200, when the rubber material rotates to the upper side, the first rotary driving piece 520 can drive the screw rod 510 to rotate and drive the two supporting plates 411 to approach each other, so that the two cutting knives 420 and the two shovel heads 430 are driven to approach each other, the rubber material is sheared by the knife edge of the cutting knife 420 in the process of approaching the two cutting knives, in the process of approaching the two shovel heads 430, the shovel heads 430 shovel the rubber material cut by the cutting knives 420 from the surface of the front roller 200 and shovel the turned rubber material, the second rotary driving piece 453 can drive the driving gear 451 to rotate by controlling the second rotary driving piece 453, the driving gear 452 can drive the two driven gears 452 to rotate in the same direction by the driving gear 451, so as to drive the two roller shafts 441 to rotate synchronously, the turned rubber material is further fed into the gap, and the rubber material is not needed to be extruded and the gap is extruded and the rubber material turning worker is not needed to be extruded and the gap again.

The utility model provides a pair of rubber mixing machine for rubber processing has following beneficial effect:

(1) By controlling the second rotary driving member 453, the second rotary driving member 453 can drive the driving gear 451 to rotate, and the driving gear 451 drives the two driven gears 452 to rotate in the same direction, so that the two roller shafts 441 are driven to rotate synchronously, the scooped rubber material is further turned, and the turning effect of the rubber material is improved;

(2) The first base 130 can be driven to move by rotating the two first screws 600 so as to change the gap size of the gap, the second base 140 can be driven to move by rotating the two second screws 700 so as to enable the two material arranging mechanisms 400 to be always positioned right above the front roller 200, and the knife edge of the cutter 420 and the shovel surface of the shovel head 430 can be always abutted against the circumferential surface of the front roller 200;

(3) The manual operation is not needed any more in the cutting, raking and turning of the sizing material, and the labor intensity of workers is reduced.

The above description of the present invention does not limit the scope of the present invention. Any other corresponding changes and modifications made according to the technical idea of the present invention should be included in the scope of the claims of the present invention.

Claims (10)

1. A rubber mixing mill for rubber processing, characterized by comprising:

a body;

the front roller is rotatably arranged on the machine body;

the rear rollers are arranged on the side of the front roller side by side, and a gap for extruding sizing materials is formed between the rear rollers and the front roller;

the material arranging mechanisms are arranged right above the front roller and comprise a movable seat, a cutter and a shovel head, the movable seat is connected to the machine body in a sliding mode and can move along the length direction of the front roller, the cutter and the shovel head are fixed on the movable seat, a knife edge of the cutter and a shovel surface of the shovel head are abutted to the circumferential surface of the front roller, and the shovel head is used for shoveling cut rubber materials from the surface of the front roller and turning the shoveled rubber materials;

the first driving mechanism is connected with the two movable seats and used for driving the two movable seats to be close to each other or be away from each other back to back.

2. A rubber mixing mill for processing rubber as in claim 1, wherein the machine body comprises a base, two vertical plates, two first bases, two second bases and a fixing rod, the two vertical plates are symmetrically fixed on the base along the base, the two first bases are respectively slidably connected to the corresponding vertical plates, the two second bases are respectively slidably connected to the corresponding vertical plates, the second bases are located above the first bases, two ends of the fixing rod are respectively fixed on the corresponding second bases, two ends of the front roller are respectively rotatably mounted on the corresponding first bases, and two ends of the rear roller are respectively rotatably mounted on the corresponding vertical plates.

3. A rubber mixing mill for rubber processing according to claim 2, wherein the vertical plate is provided with a first through groove and a second through groove, the second through groove is located above the first through groove, the vertical plate is further provided with a first screw hole communicated with the first through groove and a second screw hole communicated with the second through groove, the two first bases are respectively slidably connected in the corresponding first through grooves, and the two second bases are respectively slidably connected in the corresponding second through grooves.

4. A rubber mixing mill for processing rubber as defined in claim 3, wherein the movable base comprises a supporting plate and two connecting rods, the supporting plate is slidably sleeved on the fixing rods, a cavity is formed in the supporting plate, upper ends of the two connecting rods extend into the cavity and are fixed on the supporting plate, and the cutter and the shovel head are respectively fixed at lower ends of the corresponding connecting rods.

5. The rubber mixing machine for rubber processing as claimed in claim 4, wherein the material arranging mechanism further comprises two material turning rollers and a second driving mechanism, each material turning roller is respectively rotatably sleeved on the corresponding connecting rod, and the second driving mechanism is connected with the upper ends of the two material turning rollers and is used for driving the two material turning rollers to synchronously rotate so as to turn the scooped rubber material and send the scooped rubber material into the gap.

6. The rubber mixing machine for processing rubber according to claim 5, wherein the material turning roller comprises a roller shaft and a plurality of paddles, the diameter of the roller shaft is reduced from top to bottom in sequence, the roller shaft is rotatably sleeved on the connecting rod, and each paddle is fixed on the roller shaft.

7. A rubber mixing machine for rubber processing according to claim 6, characterized in that the first driving mechanism comprises a screw rod and a first rotary driving member, both ends of the screw rod are respectively rotatably mounted on the corresponding second bases, two sections of threads with opposite rotation directions are arranged on the screw rod, third screw holes are respectively arranged on the two supporting plates and are screwed on the corresponding threads through the corresponding third screw holes, the first rotary driving member is fixed on one of the second bases, and the output end of the first rotary driving member is fixedly connected with one end of the screw rod for driving the screw rod to rotate.

8. A rubber mixing mill for processing rubber as defined in claim 7, wherein the second driving mechanism includes a driving gear, two driven gears and a second rotary driving member, the driving gear and the two driven gears are disposed in the cavity, the driving gear is rotatably connected to the supporting plate, the two driven gears are rotatably sleeved on the corresponding connecting rods, the two driven gears are engaged with the driving gear, the upper ends of the two roll shafts are fixedly connected to the corresponding driven gears, the second rotary driving member is fixed to the supporting plate, and the output end of the second rotary driving member is fixedly connected to the driving gear for driving the driving gear to rotate.

9. A rubber mixing machine for rubber processing according to claim 8, further comprising two first screws and two second screws, wherein the two first screws are respectively screwed into the corresponding first screw holes, one end of each first screw is fixedly connected with the first base, the two second screws are respectively screwed into the corresponding second screw holes, and one end of each second screw is fixedly connected with the second base.

10. A rubber mixing mill for processing rubber according to claim 9, further comprising a third rotary driving member and a fourth rotary driving member, wherein an output end of the third rotary driving member is fixedly connected with one end of the front roller for driving the front roller to rotate, and an output end of the fourth rotary driving member is fixedly connected with one end of the rear roller for driving the rear roller to rotate.

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