CN217993096U - Rubber mixing machine is used in nanometer sticky tape production - Google Patents

Abstract

The utility model relates to a rubber mixing machine is used in nanometer sticky tape production, the load simulator comprises a mounting bas, the upper portion roller set, the lower part roller set, rubber tapping subassembly and material loading subassembly, utilize the step motor drive cutting blade of rubber tapping subassembly to remove the cutting of sizing material on realizing first lower roller along first spout, need not artifical rubber tapping, in the material loading subassembly, the carry board is connected with electric putter, can adjust the horizontal distance between carry board and the first lower roller through electric putter, utilize pneumatic cylinder drive adjustment electric putter's level, utilize the height of pneumatic cylinder adjustment carry board promptly, utilize carry board carry the sizing material of cutting and deliver to between the upper portion roller set with it, need not staff and participate in the material loading, thereby avoid repeated many times to bow to get to glue and throw the operation, reduce staff intensity of labour, it is consuming time to reduce the rubberizing, simplify and smelt gluey operation, and improve machining efficiency.

Description

Rubber mixing machine is used in nanometer sticky tape production

Technical Field

The utility model relates to a nanometer sticky tape production and processing field especially relates to a rubber mixing machine is used in nanometer sticky tape production.

Background

The nano adhesive tape is also called nano adhesive tape, is produced by adopting imported materials and advanced technology, and has excellent quality and complete specification. The nano adhesive tape has many excellent properties: extremely excellent insulation properties, extremely strong chemical stability, and the like.

The rubber mixing machine is a device for processing rubber, which comprises a mounting seat and a group of axially parallel compression rollers arranged on the mounting seat, when in the process of rubber processing, the rubber material is put into the gap between the two compression rollers, and the compression rollers rotate to roll the rubber material into sheets, thereby achieving the purpose of speed increase.

Current patent CN 202121761994.0 provides a nanometer sticky tape production rubber mixing machine, including the base, fix two mounting panels at the base top, install two compression rollers and cut-off mechanism between two mounting panels to and place the dish of placing at the base top, cut-off mechanism is established at two fixed covers of pivot outside and is installed respectively at the material cutting board of two fixed cover one sides, two including rotating the pivot, the activity cover of connecting between two mounting panels all install telescopic machanism on the mounting panel, in order to be used for driving two fixed covers along pivot axial displacement. The utility model discloses rational in infrastructure, easy operation, the crude rubber gets into between two compression rollers 1 from the top, falls in placing the dish 18 after the extrusion, can conveniently will treat the crude rubber of processing and cut and temporary lifting in the time of arranging the rubber in the storage tray for operating personnel has abundant time to handle the rubber of having smelted, helps production efficiency's improvement.

However, the following drawbacks still exist: during actual processing, raw rubber is usually required to be extruded for rubber mixing for multiple times, when the rubber mixing is carried out by adopting the patent, all raw rubber is required to be extruded for rubber mixing once and falls into a placing disc, then rubber material in the placing disc is thrown between two compression rollers 1 again for multiple times of extrusion for rubber mixing, a worker is required to keep one side all the time, and repeated bending, rubber taking and rubber feeding operations are carried out for multiple times, so that the labor intensity is high, the operation is complex, the consumed time is large, and the processing efficiency is low;

in addition, the existing large-scale open type rubber mixing machine is generally provided with an upper compression roller group and a lower compression roller group, raw rubber is generally thrown into the lower compression roller group for extrusion, rubber can cover the surface of a compression roller on one side, so that a worker needs to hold a knife with one hand to cut the rubber on the compression roller along the length direction of the compression roller, the other hand drags the cut part of the rubber and lifts the cut part of the rubber to be sent into the upper compression roller group, the worker often breaks away from the hand due to insufficient co-dispatching of the left hand and the right hand, the cut part of the rubber continues to fall back on the compression roller, or the cut part of the rubber cannot be thrown into the upper compression roller group due to insufficient height, and finally, rubber cutting and feeding operations are required for multiple times, the operation is extremely inconvenient and has potential safety hazards, and the processing efficiency is low.

SUMMERY OF THE UTILITY MODEL

The to-be-solved technical problem of the utility model is to provide a rubber mixing machine is used in nanometer sticky tape production, solve prior art and extrude the problem that staff intensity of labour is big, the operation is inconvenient and machining efficiency is low when the material loading of smelting the rubber many times.

In order to solve the technical problem, the utility model adopts the technical scheme that: the utility model provides a rubber mixing machine is used in nanometer sticky tape production which innovation point lies in: comprises that

The mounting seat is arranged on the ground and comprises a base and supporting plates vertically fixed on two sides of the base;

the upper roller group is horizontally arranged between the two supporting plates, comprises a first upper roller and a second upper roller, and a gap for rubber mixing is reserved between the first upper roller and the second upper roller;

the lower roller set is horizontally arranged between the two supporting plates and is positioned below the upper roller set, the lower roller set comprises a first lower roller and a second lower roller, and a gap for rubber mixing is reserved between the first lower roller and the second lower roller;

the rubber tapping assembly is arranged between the two supporting plates, is positioned outside the width side of the first lower roller and comprises a cutting blade, the cutting blade is positioned at the upper middle position of the first lower roller, and rubber materials on the first lower roller are cut through the cutting blade;

the material loading subassembly, including carry board and the electric putter that elevation structure and level set up, elevation structure with electric putter connects, and sets up the mount pad is close to outward one side department of first bottom roller utilizes elevation structure drive electric putter to rise or descend in vertical direction, carry the board with electric putter connects, through the electric putter drive is carried the board and is moved on the horizontal plane and is close to or keeps away from first bottom roller.

Further, the tapping component also comprises a stepping motor, a fixed cross rod, a mounting rod and a first sliding block;

the fixed cross rod is horizontally fixed between the two supporting plates, the fixed cross rod is parallel to the first lower roller, the length of the fixed cross rod is greater than that of a roller of the first lower roller, first sliding grooves with equal length are formed in the fixed cross rod, the first sliding blocks are arranged in the first sliding grooves, the mounting rods are obliquely arranged, the bottoms of the mounting rods are connected with the first sliding blocks, the tops of the mounting rods are arranged towards the upper middle position of the first lower roller, and the cutting blade is mounted at one side, away from the cutting direction of the cutting blade, of the tops of the mounting rods;

step motor is connected with the installation pole, through step motor drive installation pole removes to drive cutting blade and remove in first spout, drive cutting blade promptly and remove to the other end from the one end of first lower part roller.

Furthermore, a connecting block is fixed on the first sliding block, and the connecting block is a convex structural block;

the bottom both sides of installation pole all are fixed with a fixed strip, and fixed strip overlaps with the installation pole part for it holds the chamber to form a rectangle between installation pole bottom and two fixed strips, and the rectangle holds the chamber and can hold the top of connecting block, and adopt threaded fixation between two fixed strips and the connecting block.

Further, the lifting structure comprises a hydraulic cylinder and a vertical supporting column;

a second sliding groove which is equal in length and is positioned between a supporting plate and the adjacent side of the roller of the first lower roller is formed in one side, close to the mounting seat, of the vertical supporting column, a second sliding block is mounted on the second sliding groove, the electric push rod is arranged on the second sliding block, the hydraulic cylinder is mounted at the bottom of the supporting column, and the output end of the hydraulic cylinder is connected with the electric push rod to drive the electric push rod to ascend or descend along the second sliding groove;

the hanging support plate is arranged on the other side of the output end of the electric push rod, so that the extending direction of the hanging support plate faces to the other side of the roller of the first lower roller, rubber materials cut by the cutting blade can naturally fall on the hanging support plate, and the condition that the cut rubber materials are adhered to the mounting rod cannot occur.

The utility model has the advantages that:

1) The utility model discloses in, utilize the step motor drive cutting blade of rubber tapping subassembly to remove along first spout and realize the cutting of sizing material on the first bottom roll, need not artifical rubber tapping, in the material loading subassembly, the hanging plate is connected with electric putter, can adjust the horizontal distance between hanging plate and the first bottom roll through electric putter, utilize the horizontal height of pneumatic cylinder drive adjustment electric putter, utilize the height of pneumatic cylinder adjustment hanging plate promptly, utilize the hanging plate to carry the sizing material of cutting and send it to between the upper roller set, need not staff to participate in the material loading, thereby avoid repeated many times to bow to get glue and throw the gluey operation, reduce staff intensity of labour, reduce the rubberizing consuming time, simplify gluey operation, improve machining efficiency;

2) In the utility model, the bottom of the mounting rod is fixed on the connecting block through the fixed strip threads on both sides, the position of threaded connection can be adjusted according to the distance between the actual lower roller set and the fixed cross beam, the connection stability of the mounting rod and the connecting block is ensured, and the cutting operation precision of the cutting blade is finally ensured;

3) The utility model discloses in, cutting blade installs cutting blade's cutting direction one side department is kept away from at the top of installation pole, and hangs the extending direction of support plate and set up towards the roller opposite side of first lower part roller, make one side below position department of first lower part roller arranged in to the support plate, thereby realize that cutting blade cuts the sizing material nature of opening and hang on hanging the support plate, the condition on the installation pole is glued to the sizing material that can not appear cutting, the condition that can not appear cutting blade cuts the sizing material that opens and hang and lead to gluing again on hanging the support plate on the roller, ensure the practicality of this device yet.

Drawings

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

Fig. 1 is a side view of a partial structure of a rubber mixing machine for producing nano adhesive tape of the present invention.

Fig. 2 is a front view of a partial structure of a rubber mixing machine for producing nano adhesive tape of the present invention.

Fig. 3 is a partial structure enlarged view of the rubber mixing machine for producing nano adhesive tape of the present invention.

Detailed Description

The rubber mixing mill for producing the nano adhesive tape shown in fig. 1 to 3 comprises a mounting base 1, an upper roller group 2, a lower roller group 3, a rubber tapping assembly 4 and a feeding assembly 5.

Mount pad 1 sets up subaerial, including a base 11 and vertical backup pad 12 of fixing in base 11 both sides department, and base 11 is the rectangle structure piece, and backup pad 12 is the rectangle structure board, still installs one below that lies in lower part roller set 3 on base 11 and places dish 13.

The upper roller group 2 is horizontally arranged between the two support plates 12 and comprises a first upper roller 21 and a second upper roller 22, and a gap for mixing rubber is reserved between the first upper roller 21 and the second upper roller 22.

The lower roller group 3 is horizontally arranged between the two supporting plates 12 and below the upper roller group 2, and comprises a first lower roller 31 and a second lower roller 32, and a gap for rubber mixing is reserved between the first lower roller 31 and the second lower roller 32.

The tapping assembly 4 is arranged between the two support plates 12 and located outside the width side of the first lower roller 31, and comprises a cutting blade 41, a stepping motor, a fixed cross bar 42, a mounting rod 43 and a first sliding block 45.

The fixed cross bar 42 is horizontally fixed between the two support plates 12, the fixed cross bar 42 is parallel to the first lower roller 31, and the length of the fixed cross bar 42 is greater than the roller length of the first lower roller 31.

The fixed cross rod 42 is provided with first sliding grooves with equal length, the first sliding block 45 is arranged in the first sliding grooves, the first sliding block 45 is fixed with a connecting block 46, and the connecting block 46 is a rectangular structural block.

A fixing strip 47 is fixed on both sides of the bottom of the mounting rod 43, and the fixing strip 47 partially overlaps the mounting rod 43, so that a rectangular accommodating cavity is formed between the bottom end of the mounting rod 43 and the two fixing strips 47, and the rectangular accommodating cavity can accommodate the top of the connecting block 46.

The mounting rod 43 is disposed obliquely with its top portion disposed toward the upper position of the middle portion of the first lower roller 31 and its bottom portion hitching the joint block 46, and the joint block 46 and the fixing bar 47 are fixed at a plurality of places by means of screws.

The cutting blade 41 is mounted at the top of the mounting rod 43 at the side away from the cutting direction of the cutting blade 41 such that the cutting blade 41 is located at a position above the middle of the first lower roller 31.

By the stepping motor, the cutting blade 41 is driven to move in the first chute, i.e., the cutting blade 41 is driven to move from one end of the first lower roller 31 to the other end.

The stepping motor is connected with the mounting rod 43, and the mounting rod 43 is driven to move by the stepping motor, so that the cutting blade 41 is driven to move in the first sliding chute, that is, the cutting blade 41 is driven to move from one end of the first lower roller to the other end, and the sizing material on the first lower roller 31 is cut by the cutting blade 41.

The feeding assembly 5 comprises a lifting structure 53, a horizontally arranged mounting plate 51 and an electric push rod 52.

The hanging and carrying plate 51 is connected with an electric push rod 52, and the hanging and carrying plate 51 is driven by the electric push rod 52 to move close to or away from the first lower roller 31 on the horizontal plane.

The lifting structure 53 is arranged outside the mounting 1 at a side close to the first lower roller 31, and comprises a hydraulic cylinder 531 and a vertical support column 532.

The vertical supporting column 532 is installed on the side edge of the installation base 1 close to the first lower roller 31, and a second chute which is equal in length and is located between a supporting plate 12 and one side of the roller of the first lower roller 31 is arranged on one side of the vertical supporting column 532 close to the installation base 1.

A second sliding block is arranged on the second sliding groove, the electric push rod 52 is arranged on the second sliding block, the hydraulic cylinder 531 is arranged at the bottom of the supporting column, the output end of the hydraulic cylinder 531 is connected with the electric push rod 52, and the electric push rod 52 is driven to ascend or descend along the second sliding groove through the hydraulic cylinder 531.

The hooking plate 51 is installed at the other side of the output end of the power push rod 52 such that the extension direction of the hooking plate 51 is disposed toward the other side of the drum of the first lower roller 31.

The working principle of this patent:

the electric push rod 52 is driven by the hydraulic cylinder 531 to move downwards to a position lower than the middle of the first lower roller 31, meanwhile, the cutting blade 41 is driven by the stepping motor to move to one end, close to the electric push rod 52, of the fixed cross rod 42, then raw rubber is placed between the lower roller sets 3 to be extruded and mixed, the mixed rubber can wrap the surface of the first lower roller 31, and at the moment, the rotating speed of the first lower roller 31 is R1m/s. Then, the electric push rod 52 is used for pushing the hanging plate 51 to a position close to the first lower roller 31, the stepping motor is used for driving the cutting blade 41 to move towards the other end of the fixed cross rod 42, the part of the glue material which is initially cut falls onto the hanging plate 51, then the electric push rod 52 pushes the hanging plate 51 to be far away from the first lower roller 31, the moving speed of the hanging plate 51 is R2m/s, the hanging plate 51 is driven by the hydraulic cylinder 531 to rise to be higher than the upper roller group 2, the moving speed of the hanging plate 51 is R3m/s, the hanging plate 51 is pushed to the glue material on the hanging plate 51 to fall between the upper roller group 2 by the electric push rod 52 again, the moving speed of the hanging plate 51 is R4m/s, R4, R2 and R3 are all smaller than R1, the feeding is completed, no staff is required to participate in the feeding, the repeated waist bending glue taking and glue feeding operations are avoided, the labor intensity of the staff is reduced, the consumed time is reduced, the glue mixing operation is simplified, and the processing efficiency is improved.

If the raw rubber has high viscosity, the electric push rod 52 can be driven by the hydraulic cylinder 531 to move downwards to a position lower than the middle of the first lower roller 31, the stepping motor is used for driving the cutting blade 41 to move to one end, close to the electric push rod 52, of the fixed cross rod 42, the raw rubber is placed between the lower roller sets 3 to be extruded and rubber-mixed, the rubber after rubber mixing can be wrapped on the surface of the first lower roller 31, the stepping motor is used for driving the cutting blade 41 to move towards the other end of the fixed cross rod 42, the portion, originally cut, of the rubber can be manually stripped and hung on the hanging plate 51, the electric push rod 52 pushes the hanging plate 51 to be far away from the first lower roller 31, the hanging plate 51 is driven by the hydraulic cylinder 531 to ascend to be higher than the upper roller sets 2, the electric push rod 52 is used for pushing the hanging plate 51 to the rubber to fall between the upper roller sets 2 to finish feeding, bending rubber taking and feeding operations are not needed, labor intensity of workers is reduced, time consumption is reduced, rubber mixing operations are simplified, and processing efficiency is improved.

It will be understood by those skilled in the art that the present invention is not limited to the above embodiments, and that the foregoing embodiments and descriptions are provided only to illustrate the principles of the present invention without departing from the spirit and scope of the present invention. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (4)

1. A rubber mixing machine is used in nanometer sticky tape production which characterized in that: comprises that

The mounting seat is arranged on the ground and comprises a base and supporting plates vertically fixed on two sides of the base;

the upper roller group is horizontally arranged between the two supporting plates, comprises a first upper roller and a second upper roller, and a gap for rubber mixing is reserved between the first upper roller and the second upper roller;

the lower roller group is horizontally arranged between the two supporting plates and is positioned below the upper roller group, the lower roller group comprises a first lower roller and a second lower roller, and a gap for rubber mixing is reserved between the first lower roller and the second lower roller;

the rubber tapping assembly is arranged between the two supporting plates, is positioned outside the width side of the first lower roller and comprises a cutting blade, the cutting blade is positioned at the upper middle position of the first lower roller, and rubber materials on the first lower roller are cut through the cutting blade;

the material loading subassembly, including carry board and the electric putter that elevation structure and level set up, elevation structure with electric putter connects, and sets up the mount pad is close to outward one side department of first bottom roller utilizes elevation structure drive electric putter to rise or descend in vertical direction, carry the board with electric putter connects, through the electric putter drive is carried the board and is moved on the horizontal plane and is close to or keeps away from first bottom roller.

2. The rubber mixing machine for producing the nano adhesive tape according to claim 1, characterized in that: the tapping component also comprises a stepping motor, a fixed cross rod, a mounting rod and a first sliding block;

the fixed cross rod is horizontally fixed between the two supporting plates, the fixed cross rod is parallel to the first lower roller, the length of the fixed cross rod is greater than that of a roller of the first lower roller, first sliding grooves with equal length are formed in the fixed cross rod, the first sliding blocks are arranged in the first sliding grooves, the mounting rods are obliquely arranged, the bottoms of the mounting rods are connected with the first sliding blocks, the tops of the mounting rods are arranged towards the upper middle position of the first lower roller, and the cutting blade is mounted at one side, away from the cutting direction of the cutting blade, of the tops of the mounting rods;

step motor is connected with the installation pole, through step motor drive installation pole removes to drive cutting blade and remove in first spout, drive cutting blade promptly and remove to the other end from the one end of first lower part roller.

3. The rubber mixing machine for producing the nano adhesive tape as claimed in claim 2, wherein: the first sliding block is also fixedly provided with a connecting block which is a convex-shaped structural block;

the bottom both sides of installation pole all are fixed with a fixed strip, and fixed strip and installation pole part overlap for it holds the chamber to form a rectangle between installation pole bottom and two fixed strips, and the rectangle holds the chamber and can hold the top of connecting block, and adopt threaded fixation between two fixed strips and the connecting block.

4. The rubber mixing machine for producing the nano adhesive tape according to claim 1, characterized in that: the lifting structure comprises a hydraulic cylinder and a vertical supporting column;

a second sliding groove which is equal in length and is positioned between a supporting plate and the adjacent side of the roller of the first lower roller is formed in one side, close to the mounting seat, of the vertical supporting column, a second sliding block is mounted on the second sliding groove, the electric push rod is arranged on the second sliding block, the hydraulic cylinder is mounted at the bottom of the supporting column, and the output end of the hydraulic cylinder is connected with the electric push rod to drive the electric push rod to ascend or descend along the second sliding groove;

the hanging support plate is arranged on the other side of the output end of the electric push rod, so that the extending direction of the hanging support plate faces to the other side of the roller of the first lower roller.

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