CN111216178B - Rubber processing device for rubber manufacturing - Google Patents

Abstract

The invention relates to a rubber processing device, in particular to a rubber processing device for manufacturing rubber, which comprises a rubber pressing device, a rubber supporting device, two rubber cutting supporting devices and a fixed base, wherein the rubber pressing device is fixedly arranged on the fixed base, the rubber supporting devices are fixedly arranged on the fixed base, the two rubber supporting devices are symmetrically arranged at two ends of the fixed base, the rubber cutting supporting devices are fixedly arranged above the fixed base, the device pushes a cutting knife to feed by utilizing a spring, the damage to the cutting knife is reduced, the impact of hard substances remained in the rubber on a knife body is avoided, the device can automatically press the rubber, has a better supporting effect on the rubber, can adapt to the rubber with various thicknesses, the knife body of the device rotates to be concentric with a supporting point, and can improve the processing precision of the rubber pad, the device can be higher in automation degree and can effectively improve the working efficiency.

Description

Rubber processing device for rubber manufacturing

Technical Field

The invention relates to a rubber processing device, in particular to a rubber processing device for rubber manufacturing.

Background

Rubber mats are often used in daily life, and the processing and treatment of the rubber mats are a troublesome process, but the processing of the rubber mats in the prior art has many defects.

The defects of the prior art are as follows:

1. in the prior art, the same device can only process rubber pads with the same size and thickness;

2. the prior art is lower to the machining precision of rubber pad, and efficiency is lower.

Disclosure of Invention

The invention mainly solves the technical problem of providing a rubber processing device for rubber manufacturing, 1. the device utilizes a spring to push a cutting knife to feed, reduces the damage to the cutting knife and avoids the impact of residual hard substances in rubber on the cutting knife body; 2. the device can automatically compress rubber, has a good supporting effect on the rubber, and can adapt to the rubber with various thicknesses; 3. the cutter body of the device rotates concentrically with the supporting point, the processing precision of the rubber pad can be improved, the device can be higher in automation degree, and the working efficiency can be effectively improved.

The purpose of the invention is realized by the following technical scheme:

a rubber processing device for rubber manufacturing comprises a rubber pressing device, rubber supporting devices, two rubber cutting supporting devices and a fixed base, wherein the rubber pressing device is fixedly arranged on the fixed base;

the rubber pressing device comprises a fixed support, a motor fixing frame A, a power motor A, two limiting sleeves, an upper pressing plate and a rack, wherein the motor fixing frame A is fixedly arranged on the fixed support;

the fixed support comprises a support body, a transmission gear A, a transmission gear B, a transmission gear C, a mounting groove and a sliding groove, the mounting groove is formed in the support body, the sliding groove is formed in the support body, the transmission gear A is mounted at the output end of the power motor A and is located in the mounting groove, the transmission gear B is movably mounted in the mounting groove through a shaft, the transmission gear C is movably mounted in the mounting groove through the shaft, the transmission gear A is meshed with the transmission gear B through teeth, the upper pressing plate is slidably mounted on the support body through the sliding groove, the transmission gear B is meshed with one rack, and the transmission gear C is meshed with the other rack; the rubber cutting supporting device comprises a lower supporting device and a cutting device, and the lower supporting device is arranged on the cutting device;

the lower supporting device comprises a threaded sleeve, a screw rod and a supporting plate, the threaded sleeve is fixedly arranged on the cutting device, the screw rod is arranged on the threaded sleeve through threads, and the supporting plate is fixedly arranged on the screw rod;

the cutting device comprises a fixed bottom plate, a limiting frame, a connecting plate, connecting rods, a driving plate, cutting mechanisms, power motors B, transmission gears D and transmission gears E, wherein threaded sleeves are fixedly installed on the fixed bottom plate, annular grooves are formed in the fixed bottom plate, the limiting frame is slidably installed in the annular grooves, the limiting frames are fixedly installed on the connecting plate, the four limiting frames are arranged, the connecting rods are fixedly installed on the connecting plate, the other ends of the connecting rods are fixedly installed on the driving plate, the cutting mechanisms are fixedly installed on the driving plate, the power motors B are fixedly installed on the fixed bottom plate, the transmission gears D are installed at the output ends of the power motors B, the transmission gears D are meshed with the transmission gears E through teeth, the transmission gears E are fixedly installed on the connecting plate, and the threaded;

cutting mechanism include flexible cover, set screw, telescopic link, knife pouch, promotion screw, slurcam, spring, cutting knife, flexible cover fixed mounting is on driving the board, telescopic link slidable mounting is sheathe in flexible, the telescopic link passes through set screw with flexible cover to be fixed, knife pouch fixed mounting is on the telescopic link, the promotion screw passes through the screw thread to be installed on the knife pouch, the promotion screw passes through bearing movable mounting on the slurcam, install respectively on slurcam and cutting knife at the both ends of spring, the spring is located the knife pouch.

As a further optimization of the technical scheme, the rubber processing device for rubber manufacturing of the present invention comprises a fixing block, a lower sliding sleeve, a fastening screw a, a sliding rod, a fastening screw B, an upper sliding sleeve and a supporting wheel, wherein the fixing block is fixedly provided with the lower sliding sleeve, the lower sliding sleeve is slidably provided with the sliding rod, the lower sliding sleeve and the sliding rod are fixed by the fastening screw a, the other end of the sliding rod is slidably provided with the upper sliding sleeve, the sliding rod and the upper sliding sleeve are fixed by the fastening screw B, and the supporting wheel is movably provided on the upper sliding sleeve by a shaft.

The rubber processing device for rubber manufacturing has the beneficial effects that:

1. the device utilizes the spring to push the cutting knife to feed, thereby reducing the damage to the cutting knife and avoiding the impact of hard substances remained in the rubber on the knife body;

2. the device can automatically compress rubber, has a good supporting effect on the rubber, and can adapt to the rubber with various thicknesses;

3. the cutter body of the device rotates concentrically with the supporting point, the processing precision of the rubber pad can be improved, the device can be higher in automation degree, and the working efficiency can be effectively improved.

Drawings

The invention is described in further detail below with reference to the accompanying drawings and specific embodiments.

FIG. 1 is a schematic perspective view of the entire rubber processing apparatus for manufacturing rubber according to the present invention.

FIG. 2 is a schematic view of an overall supplementary three-dimensional structure of a rubber processing apparatus for manufacturing rubber according to the present invention.

Fig. 3 is a schematic perspective view of a rubber pressing device 1 of a rubber processing device for manufacturing rubber according to the present invention.

Fig. 4 is a supplementary perspective view of a rubber pressing device 1 of a rubber processing device for manufacturing rubber according to the present invention.

Fig. 5 is a partial schematic structural view of a rubber pressing device 1 of a rubber processing device for manufacturing rubber according to the present invention.

Fig. 6 is a schematic partial perspective view of a rubber pressing device 1 of a rubber processing device for manufacturing rubber according to the present invention.

FIG. 7 is a schematic cross-sectional view of a fixing bracket 1-1 of a rubber processing apparatus for manufacturing rubber according to the present invention.

FIG. 8 is a schematic structural view of a stopper sleeve 1-4 of a rubber processing apparatus for rubber production according to the present invention.

FIG. 9 is a schematic perspective view of a stopper sleeve 1-4 of a rubber processing apparatus for rubber production according to the present invention.

Fig. 10 is a schematic perspective view of a rubber supporting device 2 of a rubber processing device for manufacturing rubber according to the present invention.

Fig. 11 is a schematic perspective view of a rubber cutting and supporting device 3 of a rubber processing device for manufacturing rubber according to the present invention.

Fig. 12 is a schematic perspective view of a lower support device 3-1 of a rubber processing device for rubber manufacturing according to the present invention.

FIG. 13 is a perspective view of a cutting device 3-2 of a rubber processing device for manufacturing rubber according to the present invention.

FIG. 14 is a schematic perspective view of a part of a cutting device 3-2 of a rubber processing device for manufacturing rubber according to the present invention.

FIG. 15 is a schematic perspective view of a cutting mechanism 3-2-6 of a rubber processing apparatus for manufacturing rubber according to the present invention.

FIG. 16 is a schematic cross-sectional view of a cutting mechanism 3-2-6 of a rubber processing apparatus for manufacturing rubber according to the present invention.

In the figure: a rubber pressing device 1; a fixed bracket 1-1; a frame body 1-1-1; drive gear A1-1-2; drive gear B1-1-3; transfer gear C1-1-4; mounting grooves 1-1-5; 1-1-6 of a sliding groove; a motor fixing frame A1-2; a power motor A1-3; 1-4 of a limiting sleeve; 1-5 parts of an upper pressing plate; 1-6 of racks; a rubber supporting device 2; 2-1 of a fixed block; 2-2 of a lower sliding sleeve; fastening screw A2-3; 2-4 of a sliding rod; fastening screw B2-5; 2-6 of an upper sliding sleeve; 2-7 of supporting wheels; a rubber cutting support device 3; a lower support means 3-1; 3-1-1 of a threaded sleeve; 3-1-2 of a screw; support plates 3-1-3; a cutting device 3-2; a fixed bottom plate 3-2-1; a restraint frame 3-2-2; connecting plates 3-2-3; connecting rods 3-2-4; driving plates 3-2-5; 3-2-6 parts of a cutting mechanism; 3-2-6-1 of a telescopic sleeve; fixing screws 3-2-6-2; 3-2-6-3 parts of a telescopic rod; 3-2-6-4 parts of a knife sleeve; pushing screws 3-2-6-5; 3-2-6-6 of a push plate; 3-2-6-7 of a spring; 3-2-6-8 parts of a cutting knife; a power motor B3-2-7; transfer gear D3-2-8; transfer gear E3-2-9; the base 4 is fixed.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

The first embodiment is as follows:

the following describes the present embodiment with reference to fig. 1 to 16, and a rubber processing and treating device for rubber manufacturing includes a rubber pressing device 1, a rubber supporting device 2, a rubber cutting supporting device 3, and a fixed base 4, where the rubber pressing device 1 is fixedly installed on the fixed base 4, the rubber supporting device 2 is fixedly installed on the fixed base 4, two rubber supporting devices 2 are provided, the two rubber supporting devices are symmetrically arranged at two ends of the fixed base 4, and the rubber cutting supporting device 3 is fixedly installed above the fixed base 4;

the rubber pressing device 1 comprises a fixed support 1-1, a motor fixed mount A1-2, a power motor A1-3, a limiting sleeve 1-4, an upper pressing plate 1-5 and a rack 1-6, the motor fixing frame A1-2 is fixedly arranged on a fixing support 1-1, the power motor A1-3 is fixedly arranged on a motor fixing frame A1-2, the limiting sleeves 1-4 are fixedly arranged on the fixing support 1-1, two limiting sleeves 1-4 are arranged and are respectively positioned above and below the power motor A1-3, the upper pressing plate 1-5 is slidably arranged on the fixing support 1-1, the upper pressing plate 1-5 is fixedly provided with a rack 1-6, two racks 1-6 are arranged and are respectively positioned at two ends of the fixing support 1-1, and the racks 1-6 are slidably arranged on the limiting sleeves 1-4;

the fixed support 1-1 comprises a support body 1-1-1, a transmission gear A1-1-2, a transmission gear B1-1-3, a transmission gear C1-1-4, an installation groove 1-1-5 and a sliding groove 1-1-6, wherein the installation groove 1-1-5 is arranged on the support body 1-1-1, the sliding groove 1-1-6 is arranged on the support body 1-1-1, the transmission gear A1-1-2 is arranged at the output end of a power motor A1-3, the transmission gear A1-1-2 is positioned in the installation groove 1-1-5, the transmission gear B1-1-3 is movably arranged in the installation groove 1-1-5 through a shaft, the transmission gear C1-1-4 is movably arranged in the installation groove 1-1-5 through a shaft, the transmission gear A1-1-2 is meshed with the transmission gear B1-1-3 through teeth, the upper pressure plate 1-5 is slidably mounted on the rack body 1-1-1 through a sliding groove 1-1-6, the transmission gear B1-1-3 is meshed with one rack 1-6, and the transmission gear C1-1-4 is meshed with the other rack 1-6;

the rubber cutting supporting device 3 comprises a lower supporting device 3-1 and a cutting device 3-2, wherein the lower supporting device 3-1 is arranged on the cutting device 3-2;

the lower supporting device 3-1 comprises a threaded sleeve 3-1-1, a screw rod 3-1-2 and a supporting plate 3-1-3, the threaded sleeve 3-1-1 is fixedly arranged on the cutting device 3-2, the screw rod 3-1-2 is arranged on the threaded sleeve 3-1-1 through threads, and the supporting plate 3-1-3 is fixedly arranged on the screw rod 3-1-2;

the cutting device 3-2 comprises a fixed bottom plate 3-2-1, a limiting frame 3-2-2, a connecting plate 3-2-3, a connecting rod 3-2-4, a driving plate 3-2-5, a cutting mechanism 3-2-6, a power motor B3-2-7, a transmission gear D3-2-8 and a transmission gear E3-2-9, wherein a threaded sleeve 3-1-1 is fixedly arranged on the fixed bottom plate 3-2-1, an annular groove is formed in the fixed bottom plate 3-2-1, the limiting frame 3-2-2 is slidably arranged in the annular groove, the limiting frame 3-2-2 is fixedly arranged on the connecting plate 3-2-3, four limiting frames 3-2-2 are arranged, the connecting rod 3-2-4 is fixedly arranged on the connecting plate 3-2-3, the other end of the connecting rod 3-2-4 is fixedly arranged on the driving plate 3-2-5, the cutting mechanism 3-2-6 is fixedly arranged on the driving plate 3-2-5, the power motor B3-2-7 is fixedly arranged on the fixed bottom plate 3-2-1, the output end of the power motor B3-2-7 is provided with a transmission gear D3-2-8, the transmission gear D3-2-8 is meshed with a transmission gear E3-2-9 through teeth, the transmission gear E3-2-9 is fixedly arranged on the connecting plate 3-2-3, and the thread bush 3-1-1 is respectively arranged on the connecting plate 3-2-3 and the driving plate 3-2-5 through bearings;

the cutting mechanism 3-2-6 comprises a telescopic sleeve 3-2-6-1, a fixing screw 3-2-6-2, a telescopic rod 3-2-6-3, a knife sleeve 3-2-6-4, a pushing screw 3-2-6-5, a pushing plate 3-2-6-6, a spring 3-2-6-7 and a cutting knife 3-2-6-8, wherein the telescopic sleeve 3-2-6-1 is fixedly arranged on a driving plate 3-2-5, the telescopic rod 3-2-6-3 is slidably arranged on the telescopic sleeve 3-2-6-1, the telescopic rod 3-2-6-3 and the telescopic sleeve 3-2-6-1 are fixed through the fixing screw 3-2-6-2, the cutter sleeve 3-2-6-4 is fixedly arranged on the telescopic rod 3-2-6-3, the pushing screw 3-2-6-5 is arranged on the cutter sleeve 3-2-6-4 through threads, the pushing screw 3-2-6-5 is movably arranged on the pushing plate 3-2-6-6 through a bearing, two ends of the spring 3-2-6-7 are respectively arranged on the pushing plate 3-2-6-6 and the cutting knife 3-2-6-8, and the spring 3-2-6-7 is positioned in the cutter sleeve 3-2-6-4.

The second embodiment is as follows:

the present embodiment will be described with reference to fig. 10, which further illustrates the first embodiment, the rubber supporting device 2 comprises a fixed block 2-1, a lower sliding sleeve 2-2, a fastening screw A2-3, a sliding rod 2-4, a fastening screw B2-5, an upper sliding sleeve 2-6 and a supporting wheel 2-7, wherein the fixed block 2-1 is fixedly provided with the lower sliding sleeve 2-2, the lower sliding sleeve 2-2 is slidably provided with the sliding rod 2-4, the lower sliding sleeve 2-2 and the sliding rod 2-4 are fixed through the fastening screw A2-3, the other end of the sliding rod 2-4 is slidably arranged on the upper sliding sleeve 2-6, the sliding rod 2-4 and the upper sliding sleeve 2-6 are fixed through the fastening screw B2-5, and the supporting wheel 2-7 is movably arranged on the upper sliding sleeve 2-6 through a shaft.

The invention relates to a rubber processing device for rubber manufacturing, which has the working principle that:

adjusting the stretching length between the lower sliding sleeve 2-2 and the sliding rod 2-4, realizing fixation by screwing in a fastening screw A2-3, adjusting the stretching length between the sliding rod 2-4 and the upper sliding sleeve 2-6, realizing fixation by screwing in a fastening screw B2-5, adjusting a rotating screw 3-1-2, rotating the screw 3-1-2, connecting the screw 3-1-2 with a thread sleeve 3-1-1 through threads, further moving the screw 3-1-2 upwards while rotating, moving the screw 3-1-2 to drive a support plate 3-1-3 to move upwards, enabling the support plate 3-1-3 and a support wheel 2-7 to be positioned at the same height, adjusting the stretching length between the telescopic sleeve 3-2-6-1 and a telescopic rod 3-2-6-3, further adjusting the position of the cutting knife 3-2-6-8, placing a rubber pad on the support plate 3-1-3 and the support wheel 2-7, starting the power motor A1-3, driving the transmission gear A1-1-2 to rotate by the rotation of the power motor A1-3, driving the transmission gear A1-1-2 to rotate respectively by being meshed with the transmission gear B1-1-3 and the transmission gear C1-1-4, further driving the transmission gear B1-1-3 and the transmission gear C1-1-4 to rotate, driving the transmission gear B1-1-3 and the transmission gear C1-1-4 to rotate respectively by being meshed with the two racks 1-6, further driving the racks 1-6 to move in the limit sleeves 1-4, driving the racks 1-6 to move, an upper pressure plate 1-5 slides in a sliding groove 1-1-6, the sliding groove 1-1-6 and a limiting sleeve 1-4 respectively limit the upper pressure plate 1-5 and a rack 1-6, the movement of the upper pressure plate 1-5 realizes the function of pressing rubber, a power motor B3-2-7 is started, the power motor B3-2-7 rotates to drive a transmission gear D3-2-8 to rotate, the transmission gear D3-2-8 rotates to be meshed with a transmission gear E3-2-9, so that the transmission gear E3-2-9 rotates, the transmission gear E3-2-9 rotates to drive a connecting plate 3-2-3 to rotate, the connecting plate 3-2-3 rotates to drive the connecting plate 3-2-3 to rotate in the sliding groove on a fixed bottom plate 3-2-1, the connecting plate 3-2-3 rotates and simultaneously drives the driving plate 3-2-5 to rotate through the connecting rod 3-2-4, the driving plate 3-2-5 rotates to drive the cutting mechanism 3-2-6 to rotate, when the cutting mechanism 3-2-6 rotates, the spring 3-2-6-7 pushes the cutting knife 3-2-6-8 to realize the cutting feed of the cutting knife 3-2-6-8, when the cutting knife 3-2-6-8 is not enough to cut off rubber, the pushing screw 3-2-6-5 is adjusted, the pushing screw 3-2-6-5 is connected with the knife sleeve 3-2-6-4 through threads, the upward movement is further realized, and the pushing screw 3-2-6-5 moves upwards through the pushing plate 3-2-6-5 Pushing the spring 3-2-6-7, and further deepening the cutting depth of the cutting knife 3-2-6-8.

It is to be understood that the above description is not intended to limit the present invention, and the present invention is not limited to the above examples, and that various changes, modifications, additions and substitutions which are within the spirit and scope of the present invention and which may be made by those skilled in the art are also within the scope of the present invention.

Claims (2)

1. The utility model provides a rubber processing apparatus for rubber manufacturing, includes rubber closing device (1), rubber strutting arrangement (2), rubber cutting strutting arrangement (3) and unable adjustment base (4), its characterized in that: the rubber pressing device (1) is fixedly arranged on the fixed base (4), the rubber supporting devices (2) are fixedly arranged on the fixed base (4), the two rubber supporting devices (2) are symmetrically arranged at two ends of the fixed base (4), and the rubber cutting supporting devices (3) are fixedly arranged above the fixed base (4);

the rubber pressing device (1) comprises a fixed support (1-1), a motor fixing frame A (1-2), a power motor A (1-3), a limiting sleeve (1-4), an upper pressing plate (1-5) and a rack (1-6), wherein the motor fixing frame A (1-2) is fixedly arranged on the fixed support (1-1), the power motor A (1-3) is fixedly arranged on the motor fixing frame A (1-2), the limiting sleeve (1-4) is fixedly arranged on the fixed support (1-1), two limiting sleeves (1-4) are arranged and are respectively positioned above and below the power motor A (1-3), the upper pressing plate (1-5) is slidably arranged on the fixed support (1-1), the rack (1-6) is fixedly arranged on the upper pressing plate (1-5), two racks (1-6) are arranged and are respectively positioned at two ends of the fixed support (1-1), and the racks (1-6) are slidably arranged on the limiting sleeves (1-4);

the fixed support (1-1) comprises a support body (1-1-1), a transmission gear A (1-1-2), a transmission gear B (1-1-3), a transmission gear C (1-1-4), an installation groove (1-1-5) and a sliding groove (1-1-6), wherein the installation groove (1-1-5) is formed in the support body (1-1-1), the sliding groove (1-1-6) is formed in the support body (1-1-1), the transmission gear A (1-1-2) is installed at the output end of a power motor A (1-3), the transmission gear A (1-1-2) is located in the installation groove (1-1-5), the transmission gear B (1-1-3) is movably installed in the installation groove (1-1-5) through a shaft, a transmission gear C (1-1-4) is movably arranged in the mounting groove (1-1-5) through a shaft, a transmission gear A (1-1-2) is meshed with a transmission gear B (1-1-3) through teeth, an upper pressure plate (1-5) is slidably arranged on a rack body (1-1-1) through a sliding groove (1-1-6), the transmission gear B (1-1-3) is meshed with one rack (1-6), and the transmission gear C (1-1-4) is meshed with the other rack (1-6);

the rubber cutting supporting device (3) comprises a lower supporting device (3-1) and a cutting device (3-2), and the lower supporting device (3-1) is arranged on the cutting device (3-2);

the lower supporting device (3-1) comprises a threaded sleeve (3-1-1), a screw rod (3-1-2) and a supporting plate (3-1-3), the threaded sleeve (3-1-1) is fixedly arranged on the cutting device (3-2), the screw rod (3-1-2) is arranged on the threaded sleeve (3-1-1) through threads, and the supporting plate (3-1-3) is fixedly arranged on the screw rod (3-1-2);

the cutting device (3-2) comprises a fixed bottom plate (3-2-1), a limiting frame (3-2-2), a connecting plate (3-2-3), a connecting rod (3-2-4), a driving plate (3-2-5), a cutting mechanism (3-2-6), a power motor B (3-2-7), a transmission gear D (3-2-8) and a transmission gear E (3-2-9), wherein a thread bush (3-1-1) is fixedly arranged on the fixed bottom plate (3-2-1), an annular groove is arranged on the fixed bottom plate (3-2-1), the limiting frame (3-2-2) is slidably arranged in the annular groove, the limiting frame (3-2-2) is fixedly arranged on the connecting plate (3-2-3), four limiting frames (3-2-2) are arranged, connecting rods (3-2-4) are fixedly arranged on the connecting plate (3-2-3), the other ends of the connecting rods (3-2-4) are fixedly arranged on the driving plate (3-2-5), a cutting mechanism (3-2-6) is fixedly arranged on the driving plate (3-2-5), a power motor B (3-2-7) is fixedly arranged on the fixed bottom plate (3-2-1), the output end of the power motor B (3-2-7) is provided with a transmission gear D (3-2-8), the transmission gear D (3-2-8) is meshed with a transmission gear E (3-2-9) through teeth, and the transmission gear E (3-2-9) is fixedly arranged on the connecting plate (3-2-3), the thread bush (3-1-1) is respectively arranged on the connecting plate (3-2-3) and the driving plate (3-2-5) through bearings;

the cutting mechanism (3-2-6) comprises a telescopic sleeve (3-2-6-1), a fixing screw (3-2-6-2), a telescopic rod (3-2-6-3), a knife sleeve (3-2-6-4), a pushing screw (3-2-6-5), a pushing plate (3-2-6-6), a spring (3-2-6-7) and a cutting knife (3-2-6-8), wherein the telescopic sleeve (3-2-6-1) is fixedly arranged on the driving plate (3-2-5), the telescopic rod (3-2-6-3) is slidably arranged on the telescopic sleeve (3-2-6-1), and the telescopic rod (3-2-6-3) and the telescopic sleeve (3-2-6- 1) The cutting tool is fixed by a fixing screw (3-2-6-2), the tool sleeve (3-2-6-4) is fixedly arranged on a telescopic rod (3-2-6-3), a pushing screw (3-2-6-5) is arranged on the tool sleeve (3-2-6-4) through threads, the pushing screw (3-2-6-5) is movably arranged on a pushing plate (3-2-6-6) through a bearing, two ends of a spring (3-2-6-7) are respectively arranged on the pushing plate (3-2-6-6) and a cutting knife (3-2-6-8), and the spring (3-2-6-7) is positioned in the tool sleeve (3-2-6-4).

2. The rubber processing apparatus for rubber production according to claim 1, wherein: the rubber supporting device (2) comprises a fixed block (2-1), a lower sliding sleeve (2-2), a fastening screw A (2-3), a sliding rod (2-4), a fastening screw B (2-5), an upper sliding sleeve (2-6) and a supporting wheel (2-7), wherein the fixed block (2-1) is fixedly provided with the lower sliding sleeve (2-2), the lower sliding sleeve (2-2) is provided with the sliding rod (2-4) in a sliding manner, the lower sliding sleeve (2-2) and the sliding rod (2-4) are fixed through the fastening screw A (2-3), the other end of the sliding rod (2-4) is slidably arranged on the upper sliding sleeve (2-6), and the sliding rod (2-4) and the upper sliding sleeve (2-6) are fixed through the fastening screw B (2-5), the supporting wheels (2-7) are movably arranged on the upper sliding sleeves (2-6) through shafts.

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