CN219095324U - Flexible rubber segmentation processingequipment - Google Patents

Abstract

The application relates to a flexible rubber segmentation processingequipment belongs to rubber products processing technology field, and it includes mount table and: the adhesive tape cutting mechanism is arranged on the mounting table and is used for cutting the rubber tape into sections to form rubber strips; the rubber belt feeding mechanism is arranged on the mounting table and used for conveying the rolled rubber belt to the rubber belt cutting mechanism; the rubber strip blanking mechanism is arranged adjacent to the mounting table and is used for conveying rubber strips for blanking; the weighing and transferring mechanism is arranged on the mounting table and used for transferring and placing good rubber strips on the rubber strip discharging mechanism after weighing and screening the cut rubber strips. This application has the effect that improves rubber seal's production efficiency.

Description

Flexible rubber segmentation processingequipment

Technical Field

The application relates to the field of rubber product processing, in particular to a flexible rubber segment processing device.

Background

The rubber sealing ring is widely applied to the fields of medical equipment, automobile manufacturing, industrial equipment and the like, and the production process of the rubber sealing ring comprises the steps of preparing rubber strips with consistent thickness and consistent width from rubber materials, rolling, dividing the rubber rolls into rubber strips with specified sizes, consistent length of the rubber strips with the width of the rubber strips, placing the rubber strips in a die, and pressing the rubber strips into the rubber sealing ring with the specified shape through a vulcanizing machine at high temperature, wherein the size of the rubber strips is a key factor for ensuring the production efficiency and the production quality of the rubber sealing ring.

The traditional rubber sealing ring material preparation procedure is to cut the rubber strip into rubber strips with consistent width through equipment, and because the thickness and the width of the rubber strip are consistent, the length and the thickness of the cut rubber strip are consistent, the cut rubber strip is transferred to a scale for weighing, then defective products with the width not meeting the standard are screened and removed, and the qualified products are sent to the subsequent procedure for processing.

In the related art, the process is complex and tedious due to repeated transfer of the rubber strips during weighing and screening of the rubber strips, and the production efficiency of the rubber rings is affected.

Disclosure of Invention

In order to improve the production efficiency of rubber seal, this application provides a flexible rubber segmentation processingequipment.

The application provides a flexible rubber segmentation processingequipment adopts following technical scheme:

a flexible rubber segment processing device comprises a mounting table;

the adhesive tape cutting mechanism is arranged on the mounting table and is used for cutting the rubber tape into sections to form rubber strips;

the rubber belt feeding mechanism is arranged on the mounting table and used for conveying the rolled rubber belt to the rubber belt cutting mechanism;

the rubber strip blanking mechanism is arranged adjacent to the mounting table and is used for conveying rubber strips for blanking;

the weighing and transferring mechanism comprises a transferring driving assembly, a transferring frame, a grabbing driving member arranged on the transferring frame, a lifting frame arranged on the transferring frame in a sliding manner along the vertical direction, a discharging assembly arranged on the lifting frame, a weighing member and a grabbing member connected with the weighing member; the mounting table is provided with a waste port between the adhesive tape cutting mechanism and the adhesive tape discharging mechanism, the transfer frame is erected above the waste port, the transfer frame is arranged between the adhesive tape cutting mechanism and the adhesive tape discharging mechanism in a sliding manner, and the transfer driving assembly is used for driving the transfer frame to move; the grabbing driving piece is used for driving the lifting frame to move towards a direction close to or far away from the mounting table, the grabbing piece is used for grabbing and fixing the rubber strip, and the unloading assembly is used for unloading the rubber strip from the grabbing piece.

By adopting the technical scheme, the rubber belt feeding mechanism conveys the rolled rubber belt to the rubber belt cutting mechanism, and the rubber belt cutting mechanism cuts the rubber belt to form the rubber strip with uniform width; the transfer driving assembly in the weighing transfer mechanism drives the transfer frame to move to a position adjacent to the adhesive tape cutting mechanism, the grabbing driving member drives the lifting frame to move towards a direction close to the mounting table, the grabbing member grabs and fixes the cut rubber strips, the lifting frame is directly connected with the weighing member, after the lifting frame is reset and stabilized, the weighing member weighs the rubber strips on the grabbing member, if the weight of the rubber strips meets good product standards, the transfer driving assembly drives the transfer frame to move towards a direction close to the adhesive tape blanking mechanism, the grabbing driving member drives the lifting frame to move towards a direction close to the adhesive tape blanking mechanism, and the unloading assembly unloads the rubber strips on the grabbing member onto the adhesive tape blanking mechanism to carry out blanking on the good product rubber strips; if the weight of the rubber strip is unqualified, when the grabbing piece moves to the position right above the waste material port, the rubber strip on the grabbing piece is directly unloaded through the unloading assembly and is directly leaked from the waste material port to be recovered as defective products, and meanwhile, strip cutting and load-bearing screening of the rubber strip are completed, so that the production efficiency of the rubber sealing ring is improved.

Optionally, the flexible rubber segment processing device further comprises an adhesive tape cutting mechanism arranged on the mounting table, wherein the adhesive tape cutting mechanism is arranged between the adhesive tape cutting mechanism and the adhesive tape feeding mechanism, and the adhesive tape cutting mechanism is used for cutting two sides of the width direction of the rubber tape.

Through adopting above-mentioned technical scheme, because the rubber tape makes the in-process of shaping, burr or arch probably appear in the rubber tape side, and tape cutting mechanism's setting can cut the pruning to rubber tape width direction's two sides before cutting the section to the rubber tape for the both ends surface of the rubber strip through the section keeps smooth and level easily, has improved the quality of rubber strip.

Optionally, the adhesive tape cutting mechanism comprises two cutting roll shafts rotatably arranged on the mounting table and a cutter assembly coaxially sleeved on the cutting roll shafts; the rotating axes of the cutting roll shafts are collinear with the axes of the cutting roll shafts, two cutter assemblies are arranged on each cutting roll shaft, and the two cutter assemblies are respectively arranged at two ends of each cutting roll shaft;

the cutter assembly comprises a mounting piece coaxially sleeved on the cutting roll shaft in a sliding manner, a rolling cutting blade fixedly arranged on the mounting piece and a locking piece detachably connected to the mounting piece, wherein the rolling cutting blade is coaxially and fixedly connected with the mounting piece, and the locking piece is used for limiting the relative movement between the mounting piece and the cutting roll shaft;

the two cutting roll shafts are arranged in parallel, cutter assemblies at two ends of the cutting roll shafts are arranged in a pair of opposite mode, and the cutter points of the two opposite rolling blades in the two opposite cutter assemblies are mutually attached and abutted.

By adopting the technical scheme, the locking piece limits the mounting piece on the cutting roller shaft, and when the rubber belt passes through the adhesive tape cutting mechanism, the rolling cutting blades on two sides of the cutting roller shaft repair and cut two sides of the rubber belt in the width direction; the moving rubber belt drives the rolling cutter blade to rotate by taking the axis of the cutting roller shaft as the rotation axis when cutting is carried out, and the rotating rolling cutter blade is easier to cut the rubber belt; the locking piece is detached from the mounting piece, so that the mounting piece can freely slide on the cutting roll shaft, the distance between two mounting pieces on the cutting roll shaft can be adjusted according to the difference of the width of the rubber belt, and further the rubber belt with different widths is cut, and suitability of the device for different-size raw materials in actual production and processing is improved.

Optionally, the adhesive tape feeding mechanism comprises a first feeding assembly and a second feeding assembly, the adhesive tape cutting mechanism is located between the first feeding assembly and the second feeding assembly, and the second feeding assembly is located between the adhesive tape cutting mechanism and the adhesive tape cutting mechanism;

the first feeding assembly comprises a feeding driving piece, a tight-propping driving piece, a driving roll shaft, a mounting sliding block and a tight-propping roll shaft, wherein the feeding driving piece is arranged on the mounting table, the driving roll shaft is rotatably arranged on the mounting table, the mounting sliding block is slidably arranged on the mounting table along the vertical direction, and the tight-propping roll shaft is rotatably arranged on the mounting sliding block; the driving roll shaft and the abutting roll shaft are parallel to each other, and a conveying space for the rubber belt to pass through is arranged between the driving roll shaft and the abutting roll shaft; the abutting roller shaft rotates around the axis of the abutting roller shaft, and the abutting driving piece is used for driving the installation sliding block to move towards the direction approaching or away from the driving roller shaft; the feeding driving piece is used for driving the driving roll shaft to rotate;

the second feeding component structure is identical to the first feeding component structure.

By adopting the technical scheme, the rubber belt penetrates from the transmission space between the driving roll shaft and the abutting roll shaft in the first feeding assembly, passes through the transmission space between the driving roll shaft and the abutting roll shaft in the second feeding assembly, drives the abutting roll shaft to move in the direction close to the driving roll shaft by the abutting drive piece, compresses the rubber belt on the driving roll shaft by the abutting roll shaft, and pushes the rubber belt to move in the direction of the rubber belt cutting mechanism by static friction force between the driving roll shaft and the rubber belt; simultaneously according to the difference of rubber tape raw materials thickness, can adjust the size of conveying space through supporting tight driving piece, promoted the suitability to the not unidimensional raw materials when this application device actual production is processed.

Optionally, in the first feeding assembly, the feeding driving member drives one of the cutting roll shafts to rotate at the same time, the rotational angular speed of the cutting roll shaft is the same as the rotational angular speed of the driving roll shaft in the first feeding assembly, and the rotational radius of the rolling cutting blade is greater than that of the driving roll shaft.

By adopting the scheme, the feeding driving piece drives the driving roll shaft and the cutting roll shaft to rotate simultaneously, and the driving source has the same output power, so that the driving source and the cutting roll shaft can rotate simultaneously at the same angular speed more easily; because the radius of rotation of the hobbing cutter blade is greater than the driving roll shaft, the linear speed of the blade point is greater than the conveying speed of the rubber belt when the hobbing cutter blade rotates, so that the blade point of the hobbing cutter blade can slide and cut the rubber belt when the rubber belt passes through the hobbing cutter blade, and the cutting efficiency is higher compared with the single extrusion cutting.

Optionally, the adhesive tape cutting mechanism comprises a cutting bearing plate, a cutting driving assembly and a cutting assembly, wherein the cutting bearing plate is arranged on the mounting table, the cutting driving assembly is arranged above the cutting bearing plate and is arranged on the mounting table in a sliding manner along the vertical direction, the cutting bearing plate is used for bearing and supporting the rubber tape, the cutting driving assembly is used for driving the cutting assembly to slide, and the cutting assembly is used for cutting the rubber tape on the cutting bearing plate into sections;

the cutting bearing plate is close to the adjusting groove is formed in the surface of one side of the cutting bearing plate, which is close to the adhesive tape feeding mechanism, and the cutting position of the cutting assembly on the cutting bearing plate is spaced from the adjusting groove.

By adopting the technical scheme, the adhesive tape feeding mechanism transfers the adhesive tape to the cutting bearing plate, the cutting driving assembly drives the cutting assembly to move towards the direction close to the cutting bearing plate, the cutting assembly performs punching cutting on the rubber tape on the cutting bearing plate, and the cutting bearing plate plays a supporting role on the rubber tape in the process of cutting the rubber tape, so that the cut surface of the cut rubber tape is smooth and even; the setting of adjusting groove on the cutting loading board reduces the contact area between the rubber belt and the cutting loading board while not affecting the normal cutting of the rubber belt, thereby reducing the friction between the rubber belt and the cutting loading board, ensuring that the soft rubber belt is not easy to adhere to the cutting loading board and ensuring that the conveying process of the adhesive tape feeding mechanism is smoother.

Optionally, the adhesive tape blanking mechanism comprises a conveyor belt for conveying the rubber strips and positioning pieces arranged on the conveyor belt, wherein two ends of each positioning piece are fixedly connected to two sides of a conveying plane of the conveyor belt respectively, each positioning piece is provided with a positioning surface, and the direction of each positioning surface is in the same direction as the conveying direction of the conveyor belt;

the weighing and transferring mechanism further comprises a discharging adjusting assembly arranged on the lifting frame, and the discharging adjusting assembly is used for pushing the rubber strip and enabling the rubber strip to be abutted against the positioning surface when the rubber strip is placed on the conveying belt.

Through adopting above-mentioned technical scheme, when discharge mechanism with a rubber strip from snatch the piece and lift off to the conveyer belt on, the conveyer belt temporarily pauses the conveying, promotes this rubber strip and support and start after on the locating surface of setting element through unloading adjustment subassembly, carries away this rubber strip, repeats above-mentioned process, can realize placing a plurality of rubber strips on the conveyer belt and unloading with the same gesture and carry away, convenient subsequent processing.

Optionally, the flexible rubber segment processing device further comprises a humidifying component arranged on the mounting table, and the humidifying component is used for humidifying the rubber belt conveyed by the rubber belt feeding mechanism.

Through adopting above-mentioned technical scheme, to some soft rubber strips of texture, the surface has certain viscidity, is carrying out the in-process of segmentation cutting to the rubber strip, and the rubber strip surface is easy to take place the adhesion with the knife face, influences cutting quality, carries out the humidification to the rubber strip before cutting through humidification subassembly, and the water layer on rubber strip surface has reduced the viscidity of rubber strip to play lubricated effect at the in-process of cutting, avoid taking place the adhesion to take place on rubber strip surface and knife face as far as possible, improved the segmentation quality of rubber strip.

In summary, the present application includes at least one of the following beneficial technical effects:

1. the production efficiency of the rubber sealing ring is improved;

2. the quality of cutting the rubber belt into rubber strips is improved;

3. the suitability of the device for actual production and processing of different-size raw materials is improved.

Drawings

Fig. 1 is a schematic structural view of a flexible rubber segment processing device.

Fig. 2 is a schematic view of a part of a flexible rubber segment processing device with a structure of an upper part of a foundation frame shown after a side supporting side plate is hidden.

Fig. 3 is an enlarged view of part a of a flexible rubber segment processing apparatus according to the present application.

Fig. 4 is a schematic view showing a partial structure of a weighing and transferring mechanism in a flexible rubber segment processing device according to the present application.

Fig. 5 is an enlarged view of part B of a flexible rubber segment processing apparatus of the present application.

Fig. 6 is a schematic structural view of a weighing and transferring mechanism in a flexible rubber segment processing device.

Fig. 7 is an enlarged view of part C of a flexible rubber segment processing apparatus of the present application.

Fig. 8 is a schematic structural view of a weighing and transferring mechanism in a flexible rubber segment processing device according to another view angle of the present application.

Fig. 9 is a partial enlarged view of D in a flexible rubber segment processing apparatus of the present application.

Reference numerals illustrate: 1. a mounting table; 11. a base frame; 111. a waste port; 12. supporting the side plates; 13. a mounting frame; 14. a carrying platform; 2. an adhesive tape cutting mechanism; 21. cutting the bearing plate; 211. an adjustment tank; 22. a cutting drive assembly; 221. cutting a servo motor; 222. a drive belt; 223. a cam rocker; 224. a transmission rod; 23. a cutting assembly; 231. a mounting plate; 232. a cutting knife; 3. a rubber belt feeding mechanism; 31. a first feeding assembly; 311. a feeding driving piece; 312. abutting the driving piece; 313. installing a sliding block; 314. a driving roll shaft; 315. abutting against a roll shaft; 32. a second feeding assembly; 4. a weighing and transferring mechanism; 41. a transfer drive assembly; 42. a transfer rack; 43. a lifting frame; 44. a discharge assembly; 441. a discharge drive; 442. a discharging frame; 443. a stripper plate; 444. a discharging notch; 45. a blanking adjustment assembly; 451. adjusting the driving piece; 452. an adjustment plate; 453. adjusting the protrusion; 46. a weighing piece; 47. a gripping member; 471. a grabbing plate; 472. grasping the needle; 48. grabbing a driving piece; 5. a tape cutting mechanism; 51. cutting a roll shaft; 52. a cutter assembly; 521. a mounting member; 522. a hobbing blade; 523. a locking member; 6. a humidifying assembly; 7. a rubber strip blanking mechanism; 71. a conveyor belt; 72. a positioning piece; 73. a positioning surface; 8. a housing cover; 81. closing the door.

Detailed Description

The present application is described in further detail below with reference to the accompanying drawings.

The embodiment of the application discloses a flexible rubber segmentation processingequipment. Referring to fig. 1, the flexible rubber segment processing device comprises a mounting table 1, an adhesive tape cutting mechanism 2, an adhesive tape feeding mechanism 3, a weighing and transferring mechanism 4, an adhesive tape cutting mechanism 5, a humidifying component 6 and an adhesive tape discharging mechanism 7 which are arranged adjacent to the mounting table 1, wherein the adhesive tape cutting mechanism 2 is arranged on the mounting table 1; the adhesive tape cutting mechanism 2 is positioned between the adhesive tape feeding mechanism 3 and the weighing and transferring mechanism 4, and the adhesive tape feeding mechanism 3 is used for conveying the wound adhesive tape to the adhesive tape cutting mechanism 2; the rubber belt cutting mechanism 2 is used for cutting the rubber belt into rubber strips, the weighing and transferring mechanism 4 is used for weighing and screening the cut rubber strips, then transferring and placing good rubber strips on the rubber strip blanking mechanism 7, and the rubber strip blanking mechanism 7 is used for transferring and blanking the rubber strips; the adhesive tape cutting mechanism 5 is used for cutting burrs or bulges possibly occurring at two sides of the width direction of the adhesive tape conveyed on the adhesive tape feeding mechanism 3, so that the surfaces of two ends of the cut rubber strip are easy to keep smooth and flat, and the quality of the rubber strip is improved; the humidifying component 6 is used for humidifying some soft rubber belts with the texture, which are conveyed on the rubber belt feeding mechanism 3, so that the viscosity of the rubber belts is reduced, the adhesion between the surfaces of the rubber belts and the cutter surfaces is avoided as much as possible, and the cutting quality of the rubber belts is improved.

Referring to fig. 1, the mounting table 1 includes a base frame 11 and two parallel support side plates 12 fixedly mounted on the base frame 11, the two support side plates 12 are oppositely arranged, the adhesive tape cutting mechanism 2, the adhesive tape feeding mechanism 3, the weighing and transferring mechanism 4, the adhesive tape cutting mechanism 5 and the humidifying component 6 are all arranged between the two support side plates 12, the arrangement of the support side plates 12 plays a role in mounting and supporting on one hand, and plays a role in protecting a mechanism component mounted between the two support side plates 12 on the other hand.

Referring to fig. 1 and 2, the tape feeding mechanism 3 includes a first feeding assembly 31 and a second feeding assembly 32, the tape cutting mechanism 5 is located between the first feeding assembly 31 and the second feeding assembly 32, and the second feeding assembly 32 is located between the tape cutting mechanism 5 and the tape cutting mechanism 2;

the first feeding assembly 31 comprises a feeding driving piece 311 fixedly installed on the foundation frame 11, two abutting driving pieces 312 respectively fixedly installed on the two supporting side plates 12, two installation sliding blocks 313 respectively arranged on the two supporting side plates 12 in a sliding manner along the vertical direction, a driving roll shaft 314 and an abutting roll shaft 315 rotatably arranged between the two supporting side plates 12, two ends of the driving roll shaft 314 are respectively and rotatably connected to the two supporting side plates 12, two ends of the abutting roll shaft 315 are respectively and rotatably connected to the two installation sliding blocks 313, the driving roll shaft 314 and the abutting roll shaft 315 are horizontally arranged and parallel to each other, the abutting roll shaft 315 is positioned right above the driving roll shaft 314, and a conveying space for a rubber belt to pass through is formed between the abutting roll shaft 315 and the driving roll shaft 314; the abutting driving pieces 312 are air cylinders, the two abutting driving pieces 312 respectively drive the two mounting sliding blocks 313 to move correspondingly, and the two abutting driving pieces 312 simultaneously drive the two mounting sliding blocks 313 to move so as to keep the abutting roller shaft 315 horizontal; the feeding driving piece 311 is a servo motor, and the feeding driving piece 311 drives the driving roll shaft 314 to rotate in a gear-chain transmission mode; the structure of the second feeding assembly 32 is the same as that of the first feeding assembly 31, except that the feeding driving member 311 in the second feeding assembly 32 drives the driving roller shaft 314 to rotate in a mode of matching with a gear through a belt with teeth.

Penetrating the rubber belt from a conveying space between a driving roller shaft 314 and a tight-supporting roller shaft 315 in the first feeding assembly 31, penetrating out through the conveying space between the driving roller shaft 314 and the tight-supporting roller shaft 315 in the second feeding assembly 32, driving the tight-supporting roller shaft 315 to move towards a direction close to the driving roller shaft 314 by the tight-supporting driving member 312, pressing the rubber belt on the driving roller shaft 314 by the tight-supporting roller shaft 315, and pushing the rubber belt to move towards the rubber belt cutting mechanism 2 by static friction force between the driving roller shaft 314 and the rubber belt; meanwhile, according to the difference of the thicknesses of the raw materials of the rubber belt, the size of the conveying space can be adjusted by abutting against the driving piece 312, so that suitability of the device for raw materials with different sizes in actual production and processing is improved.

Referring to fig. 2 and 3, the tape cutting mechanism 5 is disposed between the first and second feeding assemblies 31 and 32, and the tape cutting mechanism 5 includes a cutting roller shaft 51 disposed between the two support side plates 12 and a cutter assembly 52 coaxially sleeved on the cutting roller shaft 51; two cutter assemblies 52 are arranged on each cutting roll shaft 51, and the two cutter assemblies 52 are respectively arranged at two ends of the cutting roll shafts 51; the cutter assembly 52 comprises a mounting piece 521 coaxially sleeved on the cutting roll shaft 51 in a sliding manner, a rolling cutting blade 522 fixedly arranged on the mounting piece 521 and a locking piece 523 mounted on the mounting piece 521 through bolts, wherein the rolling cutting blade 522 is fixedly connected with the mounting piece 521 coaxially through bolts, the locking piece 523 and the mounting piece 521 clamp the cutting roll shaft 51 between the two, and the locking piece 523 limits the relative movement between the mounting piece 521 and the cutting roll shaft 51; the two cutter assemblies 52 at two ends of the two cutter shafts 51 are arranged in parallel and vertically, and the cutter edges of the two rolling cutter blades 522 in the two opposite cutter assemblies 52 are mutually attached and abutted.

The chain that the material loading driving piece 311 output in the first material loading subassembly 31 is connected links to each other with one cutting roller 51 that is located the below simultaneously, and material loading driving piece 311 drives this cutting roller 51 and the initiative roller 314 in the first material loading subassembly 31 simultaneously and rotates with same angular velocity, and the radius of rotation of slitting blade 522 is greater than initiative roller 314 for the linear velocity of blade department is greater than the speed that the rubber tape was conveyed when slitting blade 522 rotated, and when the rubber tape passed through adhesive tape cutting mechanism 5, the slitting blade 522 of cutting roller 51 both sides carried out the slip cutting to the both sides of rubber tape width direction, compares in simple extrusion cutting, cutting efficiency is higher.

The locking piece 523 is detached from the mounting piece 521, so that the mounting piece 521 can freely slide on the cutting roller shaft 51, the distance between the two mounting pieces 521 on the cutting roller shaft 51 can be adjusted according to the difference of the width of the rubber belt, and further the rubber belt with different widths is cut, and suitability of the device for different-size raw materials in actual production and processing is improved.

Referring to fig. 1 and 2, the humidifying assembly 6 is located above the tape feeding mechanism 3 and the tape cutting mechanism 5 and between the first feeding assembly 31 and the second feeding assembly 32, and the humidifying assembly 6 sprays the upper surface of the tape between the first feeding assembly 31 and the second feeding assembly 32 through the water mist spray head provided between the two support side plates 12.

Referring to fig. 4 and 5, the tape cutting mechanism 2 includes a cutting carrier plate 21, a cutting driving assembly 22 and a cutting assembly 23, the cutting assembly 23 includes a mounting plate 231 disposed between two supporting side plates 12 and a cutting blade 232 fixedly mounted on the mounting plate 231 by bolts, the cutting carrier plate 21 is horizontally erected on the foundation frame 11, both ends of the mounting plate 231 are respectively slidingly connected to the two supporting side plates 12 along a vertical direction by means of the cooperation of guide rail sliding blocks, the mounting plate 231 is erected above the cutting carrier plate 21, and the blade edge of the cutting blade 232 faces the cutting carrier plate 21 along the vertical direction; the cutting drive assembly 22 comprises a cutting servo motor 221, a transmission belt 222, cam rockers 223 and a transmission rod 224, wherein two ends of the transmission rod 224 penetrate through the two support side plates 12 respectively and are rotationally connected with the support side plates 12, the cutting servo motor 221 drives the transmission rod 224 to rotate through the transmission belt 222, the two cam rockers 223 are respectively arranged at two ends of the transmission rod 224, the transmission rod 224 is eccentrically and fixedly connected with a driving wheel in the middle of the cam rockers 223, one end of the cam rockers 223, which is far away from the transmission rod 224, is hinged with the mounting plate 231, and the transmission rod 224 drives the two cam rockers 223 to reciprocate up and down at the same time, so that the cutting drive assembly 22 drives the mounting plate 231 to move along the vertical direction towards the direction which is close to or far away from the cutting bearing plate 21.

The whole cuboid shape that is of cutting loading board 21, the cutting loading board 21 is used for bearing the rubber tape and plays the supporting role to the rubber tape when cutting the rubber tape, a plurality of adjustment grooves 211 have been seted up on the surface of one side that cutting loading board 21 is close to cutting subassembly 23, adjustment grooves 211 are evenly spaced along cutting loading board 21 length direction straight line, adjustment grooves 211 are located the cutting loading board 21 and are close to one side of rubber tape feed mechanism 3, and cutting position and adjustment grooves 211 interval setting of cutting knife 232 on cutting loading board 21, when not influencing the normal cutting of cutting knife 232 to the rubber tape, the area of contact between rubber tape and the cutting loading board 21 has been reduced to adjustment groove 211, thereby reduced the frictional force between rubber tape and the cutting loading board 21, make the soft rubber tape of texture be difficult for bonding on cutting loading board 21, make the transportation process of rubber tape feed mechanism 3 more smooth and easy.

Referring to fig. 4 and 5, the mounting table 1 further includes a mounting frame 13 mounted above the two supporting side plates 12 and a carrying table 14 mounted on the foundation frame 11, the mounting frame 13 is located between the adhesive tape discharging mechanism 7 and the material tape cutting mechanism, the carrying table 14 is located right below the mounting frame 13 and adjacent to the adhesive tape cutting mechanism 2, one side surface of the carrying table 14, which is close to the mounting frame 13, is flush with the cutting carrying plate 21, and the carrying table 14 is used for carrying the cut rubber strips.

Referring to fig. 4 and 6, the weighing and transferring mechanism 4 includes a transferring driving assembly 41, a transferring frame 42, a grabbing driving member 48 provided on the transferring frame 42, a lifting frame 43, a discharging assembly 44 provided on the lifting frame 43, a discharging adjusting assembly 45, a weighing member 46, and a grabbing member 47 connected to the weighing member 46; two ends of the transfer frame 42 are respectively connected to the two support side plates 12 in a sliding mode through guide rail sliding blocks in a matched mode, the transfer frame 42 is integrally located below the mounting frame 13, the transfer driving assembly 41 is fixedly mounted below the mounting frame 13, the transfer driving assembly 41 is a motor screw rod sliding table module, and the transfer driving assembly 41 drives the transfer frame 42 to slide between the adhesive tape blanking mechanism 7 and the adhesive tape cutting mechanism 2.

Referring to fig. 6 and 7, a grip driving member 48 is fixedly provided on the transport frame 42, the grip driving member 48 is a cylinder, the lifting frame 43 is connected to an output end of the grip driving member 48, and the grip driving member 48 drives the lifting frame 43 to move in a vertical direction; the weighing piece 46 is a pulling pressure sensor, the weighing piece 46 is fixedly arranged at the bottom of the lifting frame 43, and the grabbing piece 47 is fixedly arranged on a stress sensing surface of one end, far away from the lifting frame 43, of the weighing piece 46.

Referring to fig. 6 and 7, the grip 47 includes a grip plate 471 and a plurality of grip needles 472 fixedly disposed on the grip plate 471, the grip plate 471 being in a shape of an elongated bar, the plurality of grip needles 472 being uniformly spaced apart from one side surface of the grip plate 471 along a length direction of the grip plate 471; a side surface of the grasping plate 471 remote from the grasping needle 472 is fixedly installed at an end of the weighing piece 46 remote from the elevation frame 43 such that the tip of the grasping needle 472 is vertically downward. The grabbing driving piece 48 drives the lifting frame 43 to move towards the direction close to the bearing table 14, the grabbing needle 472 pierces the rubber strip which is cut on the table and fixes the rubber strip on the grabbing piece 47, the grabbing piece 47 is directly connected with the weighing piece 46, the rubber strip on the grabbing piece 47 is symmetrical to the newly-increased pulling force of the weighing piece 46, the weighing piece 46 converts the pulling force change into an electric signal, and after the lifting frame 43 is reset and stabilized, the weighing piece 46 can accurately measure the weight of the rubber strip.

Referring to fig. 4 and 7, the discharging assembly 44 includes a discharging driving member 441 disposed on the lifting frame 43, a discharging frame 442 and a discharging plate 443, wherein the discharging frame 442 is slidably disposed on the lifting frame 43 along a vertical direction in a manner of matching with the guide rail slider, the discharging driving member 441 is a cylinder, and the discharging driving member 441 drives the discharging frame 442 to move; the stripper plate 443 is horizontally and fixedly installed at the bottom of the stripper frame 442, one end of the stripper plate 443 is provided with a plurality of discharge gaps 444, a plurality of grabbing needles 472 correspondingly penetrate the plurality of discharge gaps 444 one by one, and the grabbing needles 472 can freely slide along the vertical direction in the discharge gaps 444.

Referring to fig. 4 and 7, the base frame 11 is provided with a waste port 111 at a position adjacent to the carrying table 14, when the quality of the rubber strip does not meet the good product standard, when the grabbing member 47 moves to above the waste port 111 along with the transportation frame 42, the unloading driving member 441 drives the unloading frame 442 and the unloading plate 443 to move downward, and the unloading plate 443 removes the rubber strip fixed on the plurality of grabbing pins 472 from the grabbing member 47 and leaks down from the waste port 111 to discharge waste; if the weight of the rubber strip meets the good product standard, the transferring and driving assembly 41 drives the transferring frame 42 to move towards the rubber strip blanking mechanism 7 continuously, the grabbing driving assembly 48 drives the lifting frame 43 to move towards the direction close to the rubber strip blanking mechanism 7, and the rubber strip on the grabbing assembly 47 is unloaded onto the rubber strip blanking mechanism 7 through the unloading assembly 44.

Referring to fig. 4, the adhesive tape discharging mechanism 7 includes a conveyor belt 71 for conveying the rubber tape and a positioning member 72 disposed on the conveyor belt 71, wherein the conveying direction of the conveyor belt 71 is far away from the mounting table 1, two ends of the positioning member 72 are fixedly connected to two sides of the conveying plane of the conveyor belt 71 respectively, the positioning member 72 is provided with a positioning surface 73, and the direction of the positioning surface 73 is the same as the conveying direction of the conveyor belt 71.

Referring to fig. 8 and 9, the discharging adjustment assembly 45 includes an adjustment driving member 451 and an adjustment plate 452, the adjustment driving member 451 is fixedly mounted on the discharging plate 443, the adjustment plate 452 is slidably connected below the discharging plate 443 in a manner of matching with a guide rail slider, the adjustment plate 452 is horizontally arranged, and the grabbing needle 472 is located between the adjustment plate 452 and the material belt cutting mechanism; an adjusting protrusion 453 is fixedly arranged at one end of the adjusting plate 452, which is close to the unloading notch 444 on the unloading plate 443, and the protruding direction of the adjusting protrusion 453 is vertically downward.

Referring to fig. 4 and 9, when the stripper plate 443 removes the rubber strip from the plurality of gripping pins 472 on the gripping member 47 onto the conveyor belt 71, the conveyor belt 71 temporarily stops conveying, the rubber strip is located on one side of the positioning member 72 away from the mounting table 1, and the adjustment driving member 451 drives the adjustment plate 452 to move in a direction approaching to the mounting table 1, so that the adjustment protrusion 453 pushes the rubber strip, and the rubber strip abuts against the positioning surface 73, and after the conveyor belt 71 is restarted, the rubber strip is carried away, and the above process is repeated, so that a plurality of rubber strips placed on the conveyor belt 71 can be discharged in the same posture, thereby facilitating subsequent processing.

Referring to fig. 1 and 2, an organic housing cover 8 is fixedly installed on a foundation table, the organic housing cover 8 encloses two supporting side plates 12, and the organic housing cover 8 protects equipment inside the supporting side plates 12; the positions of the machine shell cover 8, which are close to the adhesive tape feeding mechanism 3 and the adhesive tape discharging mechanism 7, are respectively provided with a closed door 81 which can be manually opened or closed, and the working state of the equipment inside the machine shell cover 8 can be observed or the equipment can be adjusted and maintained by opening the closed door 81.

The implementation principle of the flexible rubber segment processing device provided by the embodiment of the application is as follows: the rubber belt feeding mechanism 3 conveys the rolled rubber belt to the rubber belt cutting mechanism 2, and the rubber belt cutting mechanism 2 cuts the rubber belt to form rubber strips with uniform width; the transfer driving component 41 in the weighing and transferring mechanism 4 drives the transfer frame 42 to move to a position adjacent to the adhesive tape cutting mechanism 2, the grabbing driving component 48 drives the lifting frame 43 to move towards a direction adjacent to the mounting table 1, the grabbing component 47 grabs and fixes the cut rubber strips, the grabbing component 47 is directly connected with the weighing component 46, after the lifting frame 43 is reset and stabilized, the weighing component 46 weighs the rubber strips on the grabbing component 47, if the weight of the rubber strips meets the good product standard, the transfer driving component 41 drives the transfer frame 42 to move towards a direction adjacent to the adhesive tape blanking mechanism 7, the grabbing driving component 48 drives the lifting frame 43 to move towards the direction adjacent to the adhesive tape blanking mechanism 7, and the rubber strips on the grabbing component 47 are unloaded onto the adhesive tape blanking mechanism 7 through the unloading component 44 to perform blanking on the good product rubber strips; if the weight of the rubber strip is unqualified, when the grabbing piece 47 moves to the position right above the waste port 111, the rubber strip on the grabbing piece 47 is directly unloaded through the unloading assembly 44 and is directly leaked from the waste port 111 to be recovered as defective products, and meanwhile, strip cutting and load-bearing screening of the rubber strip are completed, so that the production efficiency of the rubber sealing ring is improved.

The foregoing are all preferred embodiments of the present application, and are not intended to limit the scope of the present application in any way, therefore: all equivalent changes in structure, shape and principle of this application should be covered in the protection scope of this application.

Claims (8)

1. A flexible rubber segmentation processingequipment, its characterized in that: comprises a mounting table (1); the adhesive tape cutting mechanism (2) is arranged on the mounting table (1) and is used for cutting the rubber tape into sections to form rubber strips; the rubber belt feeding mechanism (3) is arranged on the mounting table (1) and is used for conveying the rolled rubber belt to the rubber belt cutting mechanism (2); the rubber strip blanking mechanism (7) is arranged adjacent to the mounting table (1) and is used for conveying rubber strip blanking: the weighing and transferring mechanism (4) comprises a transferring driving assembly (41), a transferring frame (42), a grabbing driving piece (48) arranged on the transferring frame (42), a lifting frame (43) arranged on the transferring frame (42) in a sliding manner along the vertical direction, a discharging assembly (44) arranged on the lifting frame (43), a weighing piece (46) and a grabbing piece (47) connected with the weighing piece (46); the mounting table (1) is provided with a waste port (111) between the adhesive tape cutting mechanism (2) and the adhesive tape blanking mechanism (7), the transferring frame (42) is erected above the waste port (111), the transferring frame (42) is slidably arranged between the adhesive tape cutting mechanism (2) and the adhesive tape blanking mechanism (7), and the transferring driving assembly (41) is used for driving the transferring frame (42) to move; the grabbing driving piece (48) is used for driving the lifting frame (43) to move towards or away from the mounting table (1), the grabbing piece (47) is used for grabbing and fixing the rubber strip, and the unloading assembly (44) is used for unloading the rubber strip from the grabbing piece (47).

2. A flexible rubber segment processing apparatus according to claim 1, wherein: the flexible rubber sectioning processing device further comprises an adhesive tape cutting mechanism (5) arranged on the mounting table (1), the adhesive tape cutting mechanism (5) is arranged between the adhesive tape cutting mechanism (2) and the adhesive tape feeding mechanism (3), and the adhesive tape cutting mechanism (5) is used for cutting two sides of the width direction of the rubber tape.

3. A flexible rubber segment processing apparatus according to claim 2, wherein: the adhesive tape cutting mechanism (5) comprises two cutting roll shafts (51) rotatably arranged on the mounting table (1) and a cutter assembly (52) coaxially sleeved on the cutting roll shafts (51); the rotating axes of the cutting roll shafts (51) are collinear with the axes of the cutting roll shafts, two cutter assemblies (52) are arranged on each cutting roll shaft (51), and the two cutter assemblies (52) are respectively arranged at two ends of each cutting roll shaft (51); the cutter assembly (52) comprises a mounting piece (521) coaxially sleeved on the cutting roll shaft (51) in a sliding mode, a rolling cutting blade (522) fixedly arranged on the mounting piece (521) and a locking piece (523) detachably connected to the mounting piece (521), the rolling cutting blade (522) is fixedly connected with the mounting piece (521) coaxially, and the locking piece (523) is used for limiting relative movement between the mounting piece (521) and the cutting roll shaft (51): the two cutting roll shafts (51) are arranged in parallel, cutter assemblies (52) at two ends of the two cutting roll shafts (51) are arranged in a pair of opposite mode, and the cutter points of two rolling cutter blades (522) in the two opposite cutter assemblies (52) are mutually attached and abutted.

4. A flexible rubber segment processing apparatus according to claim 3, wherein: the adhesive tape feeding mechanism (3) comprises a first feeding assembly (31) and a second feeding assembly (32), the adhesive tape cutting mechanism (5) is located between the first feeding assembly (31) and the second feeding assembly (32), and the second feeding assembly (32) is located between the adhesive tape cutting mechanism (5) and the adhesive tape cutting mechanism (2); the first feeding assembly (31) comprises a feeding driving piece (311), a propping driving piece (312), a driving roll shaft (314), a mounting sliding block (313) and a propping roll shaft (315), wherein the feeding driving piece (311) is arranged on the mounting table (1), the driving roll shaft (314) is rotatably arranged on the mounting table (1), the mounting sliding block (313) is slidably arranged on the mounting table (1) along the vertical direction, and the propping roll shaft (315) is rotatably arranged on the mounting sliding block (313); the driving roll shaft (314) and the abutting roll shaft (315) are parallel to each other, and a conveying space for a rubber belt to pass through is arranged between the driving roll shaft (314) and the abutting roll shaft (315); the abutting roller shaft (315) rotates around the axis of the abutting roller shaft, and the abutting driving piece (312) is used for driving the mounting sliding block (313) to move towards or away from the driving roller shaft (314); the driving roll shaft (314) rotates around the axis of the driving roll shaft, and the feeding driving piece (311) is used for driving the driving roll shaft (314) to rotate: the second feeding component (32) has the same structure as the first feeding component (31).

5. A flexible rubber segment processing apparatus as defined in claim 4, wherein: in the first feeding assembly (31), the feeding driving piece (311) drives one cutting roll shaft (51) to rotate at the same time, the rotation angular speed of the cutting roll shaft (51) is the same as that of the driving roll shaft (314) in the first feeding assembly (31), and the rotation radius of the rolling cutting blade (522) is larger than that of the driving roll shaft (314).

6. A flexible rubber segment processing apparatus according to claim 1, wherein: the adhesive tape cutting mechanism (2) comprises a cutting bearing plate (21) arranged on the mounting table (1), a cutting driving assembly (22) and a cutting assembly (23) arranged above the cutting bearing plate (21) in a sliding manner along the vertical direction and arranged on the mounting table (1), wherein the cutting bearing plate (21) is used for bearing and supporting a rubber tape, the cutting driving assembly (22) is used for driving the cutting assembly (23) to slide, and the cutting assembly (23) is used for cutting the rubber tape on the cutting bearing plate (21) into sections; an adjusting groove (211) is formed in the surface of one side, close to the cutting assembly (23), of the cutting bearing plate (21), the adjusting groove (211) is located on one side, close to the adhesive tape feeding mechanism (3), of the cutting bearing plate (21), and the adjusting groove (211) and the cutting assembly (23) are arranged at intervals in cutting positions on the cutting bearing plate (21).

7. A flexible rubber segment processing apparatus according to claim 1, wherein: the rubber strip blanking mechanism (7) comprises a conveying belt (71) for conveying rubber strips and positioning pieces (72) arranged on the conveying belt (71), two ends of each positioning piece (72) are fixedly connected to two sides of a conveying plane of the conveying belt (71) respectively, each positioning piece (72) is provided with a positioning surface (73), and the direction of the positioning surfaces (73) is the same as the conveying direction of the conveying belt (71); the weighing and transferring mechanism (4) further comprises a discharging adjusting assembly (45) arranged on the lifting frame (43), and the discharging adjusting assembly (45) is used for pushing the rubber strip and enabling the rubber strip to be abutted against the locating surface (73) when the rubber strip is placed on the conveying belt (71).

8. A flexible rubber segment processing apparatus according to claim 1, wherein: the flexible rubber segmented processing device further comprises a humidifying component (6) arranged on the mounting table (1), and the humidifying component (6) is used for humidifying the rubber belt conveyed by the rubber belt feeding mechanism (3).

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