CN115570619A

CN115570619A - Production and processing method of rubber hose

Info

Publication number: CN115570619A
Application number: CN202211220295.4A
Authority: CN
Inventors: 李三虎; 方长明; 其他发明人请求不公开姓名
Original assignee: Hefei Pengti Rubber Plastic Co ltd
Current assignee: Hefei Pengti Rubber Plastic Co ltd
Priority date: 2022-10-08
Filing date: 2022-10-08
Publication date: 2023-01-06

Abstract

The invention relates to a production and processing method of a rubber hose, which applies a processing device to carry out production and processing, wherein the processing device comprises: a frame; a material shaft; a feeding and discharging mechanism; a fixing mechanism; a cutting mechanism; the production and processing method of the rubber hose comprises the following steps: s1, preparation: placing a rubber hose on a material shaft and adjusting the feeding length of a feeding and discharging mechanism; s2, feeding: pulling out and cleaning the length of the rubber hose to be cut by using the feeding and discharging mechanism; s3, cutting: fixing the rubber hose by using a fixing mechanism, and then cutting off the rubber hose by using a cutting mechanism; s4, blanking: dragging the cut rubber hose into a collecting tank by using a feeding and discharging mechanism; s5, restoration: after the feeding is finished, adjusting the feeding and discharging mechanism to recover; s6, circulating operation: repeating S2-S5. According to the invention, the next cutting can be automatically carried out only by manually sleeving the rubber hose on the piston during the first cutting, and manual feeding and blanking are not needed.

Description

Production and processing method of rubber hose

Technical Field

The invention relates to the technical field of rubber hoses, in particular to a production and processing method of a rubber hose.

Background

The application of the rubber hose is relatively extensive, the rubber hose industry of China has developed for more than 50 years, has played indispensable supporting role to national economy, the rubber hose leakproofness is good, the sound construction is rich in elasticity again, compare with metal pipe or plastic tubing in the calandria and possess incomparable advantage, make the rubber hose industry constantly and relevant field interpenetration, have the wide application in fields such as harbour, oil, car, light industry, engineering machine, agriculture, aviation, space flight, etc., but the following problem still can exist in the production process of current rubber hose:

1. in the prior art, the coiled rubber hose is generally required to be cut into a proper length so as to be convenient for subsequent use, the coiled rubber hose is generally pulled out by a required length through manual feeding, and then the rubber hose is cut through cutting equipment so as to complete the cutting of the rubber hose, and the rubber hose is heavy in texture and long in length, so that more manpower is required to be consumed;

2. in the prior art, before the rubber hose is cut, the coiled rubber hose needs to be pulled out by a required length, and because the rubber hose is straightened by the conventional shearing equipment, the shearing equipment needs a very long length to meet the action of pulling out the rubber hose, so that the whole equipment occupies too much space and is not compact; 3. in the prior art, when the rubber hose is cut, the rubber hose has to be pressed and deformed and then cut due to the hollow structure in the rubber hose, and the cutting mode can cause the unevenness of the section of the rubber hose and influence the quality of the processed rubber hose;

4. in prior art, after the rubber hose cutting was accomplished, need clear up inside the rubber hose, prevent that impurity from remaining, prior art generally used the mode of artifical clearance at that time, but this kind of mode is not only troublesome, can not guarantee cleaning quality moreover.

Disclosure of Invention

In view of the above, it is necessary to provide a method for producing and processing a rubber hose.

The invention discloses a method for producing and processing a rubber hose, which uses a processing device for production and processing, wherein the processing device comprises: the device comprises a rack, a collecting tank and a first support, wherein the lower end of the rack is provided with the collecting tank, and the upper end of the rack is provided with the first support; the material shaft is arranged on the rack; the rubber hose is placed on the material shaft; the feeding and discharging mechanism is arranged on the rack and used for pulling out and cleaning the length of the rubber hose to be cut before production and processing, and dragging the cut rubber hose into a collecting tank after the production and processing are finished; the fixing mechanism is arranged on the first bracket and used for fixing the rubber hose; the cutting mechanism is arranged on the first bracket and is used for cutting the rubber hose;

the production and processing method of the rubber hose comprises the following steps: s1, preparation: placing a rubber hose on a material shaft, fixing the free end of the rubber hose with a feeding and discharging mechanism by a worker, and adjusting the feeding length of the feeding and discharging mechanism; s2, feeding: pulling out and cleaning the length of the rubber hose to be cut by using the feeding and discharging mechanism; s3, cutting: fixing the rubber hose by using a fixing mechanism, and then cutting off the rubber hose by using a cutting mechanism; s4, blanking: dragging the cut rubber hose into a collecting tank by using a feeding and discharging mechanism; s5, restoration: after the feeding is finished, adjusting the feeding and discharging mechanism to recover; s6, circulating operation: the cutting of the rubber hose can be continuously completed by repeating the steps S2-S5, and meanwhile, the interior of the rubber hose can be cleaned.

In one embodiment, the loading and unloading mechanism includes a loading roller, the loading roller includes a roller, a first telescopic rod, a control disk, a first material plate and a second material plate, the roller is fixedly connected to the frame, the control disk is rotatably disposed on the roller, one end of the first telescopic rod is hinged to the roller, the other end of the first telescopic rod is hinged to the control disk, the first telescopic rod is controlled to extend and retract to drive the control disk to rotate, the first material plate and the second material plate are slidably disposed on the roller, a plurality of fifth straight grooves are further disposed on the control disk, a plurality of seventh straight grooves are disposed on the roller in the radial direction, a fifth protrusion is disposed on each of the first material plate and the second material plate, and each of the fifth protrusions is simultaneously slidably disposed in one of the fifth straight grooves and one of the seventh straight grooves, so that the first material plate and the second material plate can be synchronously driven to slide in the radial direction of the roller by rotating the control disk.

In one embodiment, the first bracket can slide along a vertical direction, a connecting rod is fixedly arranged on the first bracket, a first spring is arranged between the first bracket and the frame, a sliding block is arranged on a fifth bulge of the first material plate, the upper side of the sliding block abuts against the connecting rod, when the sliding block moves upwards, the connecting rod can be driven to move upwards, the first bracket is further driven to move upwards, and the first spring is compressed, the feeding roller comprises five second material plates, the five second material plates and the first material plate are matched to form an annular structure, each second material plate is provided with one fifth bulge, each fifth bulge is provided with one sliding block, and the five second material plates and the first material plate can be driven to synchronously slide along the radial direction of the roller by rotating the control disc,

in the step S1, the first telescopic rod is controlled to stretch and drive the control panel to rotate, the fifth protrusion is driven to slide in the fifth straight groove and the sixth straight groove, so as to drive the first material plate and the second material plate to slide along the radius direction of the roller, and further change the radius of the integral feeding roller, so that the semicircular length of the feeding roller is equal to the length of the rubber hose to be cut, because the fifth protrusion follows the material plate to move along the radius direction of the roller, the sliding block also follows the sliding, so that the radius of the sliding block ring formed by the six sliding blocks is increased, the connecting rod is pushed to drive the first support to overcome the upward movement of the first spring, and further the ascending distance of the first material plate is equal to the ascending distance of the first support, so that the pulling-out section of the rubber hose can be kept horizontal all the time, and the subsequent shearing processing is facilitated, and the preparation work is completed.

In one embodiment, the feeding and discharging mechanism further comprises a motor and a piston assembly, the motor is mounted on the frame and connected with the feeding roller, the piston assembly comprises a front piston, a rear piston, a piston clamp and a control ring, the control ring is slidably sleeved on the first material plate and is slidably connected with the piston clamp, the piston clamp is rotatably connected to the first material plate, the piston clamp can be controlled to clamp and fix the rear piston by controlling the control ring to slide on the first material plate, the free end of the rubber hose is sleeved on the front piston and the rear piston respectively, the piston assembly further comprises a second spring and an anti-slip pin, the second spring is abutted to one end of the rear piston and one end of the anti-slip pin simultaneously, and the other end of the anti-slip pin is abutted to the inner wall of the rubber hose, and in step S2, after the preparation work is finished, a motor is started to drive the roller to rotate 90 degrees, the rear piston is clamped and fixed by the piston clamp, the rubber hose is sleeved on the front piston and the rear piston, and the anti-slip pin is pushed by the second spring to move outwards to fix the rubber hose, so that the rubber hose moves along with the roller and is pulled out, high-pressure air is introduced into the air inlet, and the air enters the space between the front piston and the rear piston through the first flow passage, the second flow passage and the third flow passage, so that the front piston is pushed to move forwards along the inside of the rubber hose, and the inside of the rubber hose is cleaned.

In one embodiment, the piston assembly further comprises a rope shaft, a grooved pulley, a torsion spring and a stay rope, the rope shaft and the grooved pulley are fixedly connected and jointly and rotatably connected onto the rear piston, one end of the stay rope is connected with the rope shaft, the other end of the stay rope is connected with the front piston, the torsion spring is simultaneously abutted against the rope shaft and the rear piston, the piston assembly further comprises an electric pole and a sensor, the electric pole and the sensor are arranged in the rear piston, the electric pole can limit the grooved pulley to rotate, and the sensor can detect the number of turns of the grooved pulley,

in step S2, the front piston moves to pull the stay cord to drive the rope shaft to overcome the torsion spring to rotate and drive the grooved pulley to rotate, the number of turns of the grooved pulley is detected under the detection of the sensor, the moving distance of the front piston is measured, when the moving distance of the front piston is the required cutting length of the rubber hose, the electric pole is controlled to be electrified and extend out, the grooved pulley is fixed, the front piston is static, and when the roller rotates for 90 degrees under the driving of the motor, the front piston still keeps at the original position, and the feeding is completed.

In one embodiment, the first bracket is further provided with a second telescopic rod and a control board, the second telescopic rod is mounted on the first bracket and is fixedly connected with the control board, the fixing mechanism comprises a first clamping plate and a second clamping plate, the control board is provided with a third protrusion and a fourth protrusion, the first clamping plate is provided with a third straight groove, the second clamping plate is provided with a fourth straight groove, the third protrusion and the fourth protrusion are slidably arranged in the third straight groove and the fourth straight groove, the piston assembly further comprises a third telescopic rod, the third telescopic rod is mounted on the first material plate and is fixedly connected with the control ring, the piston clamp is provided with a sixth protrusion, the control ring is provided with a sixth straight groove, the sixth protrusion is slidably arranged in the sixth straight groove, the anti-skid pin is further provided with an inclined surface so as to extend into the rubber hose,

in step S3, after the feeding is finished, the second telescopic rod is controlled to contract to drive the control panel to move upwards, so as to drive the third protrusion to slide in the third straight groove, the fourth protrusion slides in the fourth straight groove, so that the first clamping plate and the second clamping plate move towards the middle, the rubber hose is clamped, meanwhile, the front piston in the rubber hose is clamped and fixed, then the high-pressure air is stopped to be introduced into the air inlet, the power-off contraction of the electric pole is controlled to release the fixation of the sheave, the contraction of the third telescopic rod is controlled to drive the control ring to move backwards, the sixth protrusion slides in the sixth straight groove, so as to drive the piston clamp to open, so that the piston clamp is separated from the rear piston, at this time, the rope is overturned under the action of the torsion spring, the winding is performed, so that the rear piston can move forwards along the rubber hose until the stay rope is completely retracted, and the rear piston and the front piston are collided together.

In one embodiment, the cutting mechanism comprises a first cutter and a second cutter, the control panel is further provided with a first protrusion and a second protrusion, the first cutter is provided with a first straight groove, the second cutter is provided with a second straight groove, the first bracket is further provided with a second bracket, the control panel is connected with the first bracket through the second bracket, the cutters and the second cutter are both hinged with the second bracket, the rear piston is further provided with an annular groove,

in step S3, after the fixing mechanism fixes the rubber hose, the second telescopic rod is controlled to rapidly extend out to drive the control panel to descend, so as to drive the first protrusion to slide in the first straight groove, and the second protrusion to slide in the second straight groove, so as to drive the first cutter and the second cutter to be combined, and enter the annular groove, so as to cut off the rubber hose and complete cutting.

In one embodiment, in step S4, after the rubber hose is cut, the motor is controlled to continue to rotate, and the feeding roller drags the cut rubber hose to rotate counterclockwise, so that the rubber hose is separated from the rear piston, slides into the collecting tank, and finishes the feeding.

In one embodiment, in step S5, after the feeding is completed, the motor is controlled to rotate reversely, so that the piston clamp returns to the position above the feeding roller, and the third telescopic rod is controlled to extend out to drive the piston clamp to clamp the rear piston, so as to complete the recovery of the present invention, and at this time, the free end of the rubber hose is still sleeved on the front piston and the rear piston.

In one embodiment, the rubber hose has three coils, the piston assembly, the fixing mechanism and the cutting mechanism are respectively provided with three sets, and the three sets of fixing structures and the three sets of fixing mechanisms are connected to the control plate.

The invention has the advantages that:

1. the feeding roller with the variable diameter is arranged, so that the rubber hoses pulled out in different length sizes can be adapted, and the pulled rubber hoses are completely attached to the feeding roller, so that the length of the equipment is not required to be longer than that of the pulled rubber hoses, the equipment is more compact, and the occupied space is small;

2. according to the invention, the piston assembly is arranged, the rubber hose is driven to be pulled out by the piston assembly, and the piston assembly is controlled by the motor to move to drive the rubber hose to reset, so that the next cutting can be automatically carried out, manual feeding and blanking are not needed, and the automation degree is high;

3. according to the rubber hose cutting device, the annular groove is formed in the rear piston, so that when the cutting mechanism cuts a rubber hose sleeved on the rear piston, the cutter enters the annular groove, and the rubber hose cannot deform during cutting due to the supporting effect of the rear piston, so that the cut surface is flat;

4. when the cutting machine is used for cutting, the front piston and the rear piston sequentially pass through the interior of the rubber hose, so that the interior of the rubber hose is cleaned, manual cleaning is not needed, and the cutting machine is simple and reliable.

Drawings

FIG. 1 is a front view of the present invention;

FIG. 2 is a cross-sectional view of the present invention;

FIG. 3 is a partial cross-sectional view of the present invention;

FIG. 4 is a partial front view of the feed roll of the present invention;

FIG. 5 isbase:Sub>A sectional view taken along line A-A of FIG. 2 in accordance with the present invention;

FIG. 6 is a cross-sectional view taken along line B-B of FIG. 2 in accordance with the present invention;

FIG. 7 is an enlarged view taken at I of FIG. 2;

figure 8 is a cross-sectional view of a sheave according to the present invention.

In the drawing, a frame 1, a collecting groove 11, a first bracket 2, a connecting rod 21, a first spring 22, a second bracket 23, a material shaft 3, a roller 41, a seventh straight groove 411, a first telescopic rod 46, a control disk 45, a fifth straight groove 451, a first material plate 42, a first flow channel 421, an air inlet 422, a second material plate 43, a fifth protrusion 44, a slider 441, a motor 5, a second telescopic rod 51, a control panel 52, a first protrusion 521, a second protrusion 522, a third protrusion 523, a fourth protrusion 524, a first cutter 53, a second straight groove 531, a second cutter 54, a first straight groove 541, a first clamp plate 55, a fourth straight groove 551, a second clamp plate 56, a third straight groove 561, a front piston 61, a rear piston 62, a second flow channel 621, a third flow channel 622, an annular groove 623, a rope shaft 63, a grooved wheel 64, a torsion spring 65, an electric pole 66, a sensor 67, a pull rope 69, an anti-slip pin 681, a second spring, a piston 71, a sixth protrusion 711, a clamp 721, a clamp ring 721, a sixth straight groove 73, a rubber hose 8.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

It will be understood that when an element is referred to as being "mounted on" another element, it can be directly on the other element or intervening elements may also be present. When a component is referred to as being "disposed on" another component, it can be directly on the other component or intervening components may also be present. When an element is referred to as being "secured to" another element, it can be directly secured to the other element or intervening elements may also be present.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. The terminology used in the description of the invention herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention. As used herein, the term "or/and" includes any and all combinations of one or more of the associated listed items.

As shown in fig. 1 to 8, the present invention discloses a method for manufacturing and processing a rubber hose, wherein the method for manufacturing and processing the rubber hose uses a processing device for manufacturing and processing, and the processing device comprises: the device comprises a rack 1, wherein a collecting tank 11 is arranged at the lower end of the rack 1, and a first support 2 is arranged at the upper end of the rack 1; the material shaft 3 is arranged on the rack 1; a rubber hose 8, wherein the rubber hose 8 is placed on the material shaft 3; the feeding and discharging mechanism is arranged on the rack 1, is used for pulling out and cleaning the length of the rubber hose 8 required to be cut before production and processing, and is used for dragging the cut rubber hose 8 into a collecting tank 11 after the production and processing are finished; the fixing mechanism is arranged on the first bracket 2 and is used for fixing the rubber hose 8; the cutting mechanism is arranged on the first bracket 2 and is used for cutting the rubber hose 8;

the production and processing method of the rubber hose comprises the following steps: s1, preparation: placing the rubber hose 8 on the material shaft 3, fixing the free end of the rubber hose 8 with the feeding and discharging mechanism by a worker, and adjusting the feeding length of the feeding and discharging mechanism; s2, feeding: pulling out and cleaning the length of the rubber hose 8 to be cut by using a feeding and discharging mechanism; s3, cutting: fixing the rubber hose 8 by using a fixing mechanism, and then cutting off the rubber hose 8 by using a cutting mechanism; s4, blanking: dragging the cut rubber hose 8 into a collecting tank 11 by using a feeding and discharging mechanism; s5, restoration: after the feeding is finished, adjusting the feeding and discharging mechanism to recover; s6, circulating operation: the cutting of the rubber hose 8 can be continuously completed by repeating the steps S2 to S5, and meanwhile, the inside of the rubber hose 8 can be cleaned.

Preferably, as shown in fig. 1 to 4, the feeding and discharging mechanism includes a feeding roller, the feeding roller includes a roller 41, a first telescopic rod 46, a control disc 45, a first material plate 42, and a second material plate 43, the roller 41 is fixedly connected to the frame 1, the control disc 45 is rotatably disposed on the roller 41, one end of the first telescopic rod 46 is hinged to the roller 41, the other end of the first telescopic rod is hinged to the control disc 45, the control disc 45 can be driven to rotate by controlling the first telescopic rod 46 to stretch, the first material plate 42 and the second material plate 43 are slidably disposed on the roller 41, the control disc 45 is further provided with a plurality of fifth straight grooves 451, the roller 41 is provided with a plurality of seventh straight grooves 411 along a radial direction, the first material plate 42 and the second material plate 43 are both provided with a fifth protrusion 44, and each of the fifth protrusions 44 is slidably disposed in one of the fifth straight grooves 451 and one of the seventh straight grooves 411, so that the control disc 45 can synchronously drive the first material plate 42 and the second material plate 43 to slide along a radial direction of the roller 41.

Preferably, the first bracket 2 can slide along the vertical direction, a connecting rod 21 is fixedly arranged on the first bracket 2, a first spring 22 is arranged between the first bracket 2 and the frame 1, a sliding block 441 is arranged on the fifth protrusion 44 of the first material plate 42, the upper side of the sliding block 441 abuts against the connecting rod 21, and when the sliding block 441 moves upwards, the connecting rod 21 can be driven to move upwards, so that the first bracket 2 is driven to move upwards, and the first spring 22 is compressed. As shown in fig. 3 and 4, the feeding roller includes five second material plates 43, the five second material plates 43 and the first material plate 42 cooperate to form an annular structure, each second material plate 43 is provided with one fifth protrusion 44, each fifth protrusion 44 is provided with one sliding block 441, and the five second material plates 43 and the first material plate 42 can be driven to synchronously slide along the radial direction of the roller 41 by rotating the control disc 45.

It can be understood that, by providing the feeding roller with a variable diameter, the first material plate 42 and the second material plate 43 on the feeding roller are controlled to move in the radial direction, so as to control the rubber hose 8 to be pulled out by a required length, and the connecting rod 21 drives the first bracket 2 to move upwards by the same distance, so that the pulled out rubber hose 8 is always kept horizontal, which is beneficial to cutting.

Preferably, as shown in fig. 7, the feeding and discharging mechanism further includes a motor 5 and a piston assembly, the motor 5 is installed on the frame 1 and connected to the feeding roller, the piston assembly includes a front piston 61, a rear piston 62, a piston clamp 71 and a control ring 72, the control ring 72 is slidably sleeved on the first material plate 42 and slidably connected to the piston clamp 71, the piston clamp 71 is rotatably connected to the first material plate 42, and can control the piston clamp 71 to clamp and fix the rear piston 62 by controlling the control ring 72 to slide on the first material plate 42, the free end of the rubber hose 8 is respectively sleeved on the front piston 61 and the rear piston 62, the piston assembly further includes a second spring 682 and an anti-slip pin 681, the second spring abuts against the rear piston 62 and one end of the anti-slip pin 681 at the same time, the other end of the anti-slip pin 681 can abut against the inner wall of the rubber hose 8, so as to connect to the rubber hose 8, the first material plate 42 is further provided with an air inlet 422 and a first flow passage 421, and the rear piston 62 is provided with a second flow passage 622 and a second flow passage 622, and a front flow passage 622 and a second flow passage 622 are provided.

Preferably, as shown in fig. 7 and 8, the piston assembly further includes a rope shaft 63, a sheave 64, a torsion spring 65, and a rope 69, wherein the rope shaft 63 is fixedly connected with the sheave 64 and is connected to the rear piston 62 in a co-rotating manner, one end of the rope 69 is connected to the rope shaft 63, the other end of the rope 69 is connected to the front piston 61, the torsion spring 65 abuts against the rope shaft 63 and the rear piston 62 at the same time, the piston assembly further includes a pole 66 and a sensor 67, the pole 66 and the sensor 67 are disposed in the rear piston 62, the pole 66 can limit the sheave 64 from rotating, and the sensor 67 can detect the number of rotations of the sheave 64.

It can be understood that, through setting up the rope shaft 63, the sheave 64, the pole 66 and the sensor 67 in the back piston 62, and rope shaft 63 and sheave 64 fixed connection, through stay cord 69 that winds on the rope shaft 63, link back piston 62 and front piston 61 together, back piston 62 is motionless, when front piston 61 moves, front piston 61 pulls stay cord 69 and drives rope shaft 63 to overcome the torsional spring 65 and rotate, sheave 64 follows the rotation simultaneously, measure the number of turns of sheave 64 through the sensor 67, control sheave 64 through controlling pole 66 and move, the length that the controllable stay cord 69 stretches out, thereby the moving distance of steerable front piston 61.

It should be mentioned that after the piston clamp 71 drives the piston to pull out the rubber hose 8 sleeved on the piston, high-pressure gas is introduced into the piston clamp 71, the high-pressure gas can push the front piston 61 to slide along the rubber hose 8 through the rear piston 62, and pull the pull rope 69 to extend out, when the front piston 61 moves by the distance of pulling out the rubber hose 8, the electric pole 66 is electrified to extend out, the sheave 64 is positioned, the front piston 61 stops, then the piston clamp 71 is controlled to release the rear piston 62, and the rope shaft 63 is driven to take up the rope under the action of the torsion spring 65, so that the rear piston 62 enters the rubber hose 8 and moves forward until the front piston 61 and the rear piston 62 are attached.

It is worth mentioning that the front piston 61 and the rear piston 62 sequentially pass through the inside of the rubber hose 8, so that the inside of the rubber hose 8 can be cleaned.

Preferably, as shown in fig. 6, the first bracket 2 is further provided with a second telescopic rod 51 and a control board 52, the second telescopic rod 51 is mounted on the first bracket 2 and is fixedly connected with the control board 52, the fixing mechanism includes a first clamping plate 55 and a second clamping plate 56, the control board 52 is provided with a third protrusion 523 and a fourth protrusion 524, the first clamping plate 55 is provided with a third straight groove 561, the second clamping plate 56 is provided with a fourth straight groove 551, the third protrusion 523 and the fourth protrusion 524 are slidably disposed in the third straight groove 561 and the fourth straight groove, the piston assembly further includes a third telescopic rod 73, the third telescopic rod 73 is mounted on the first clamping plate 42 and is fixedly connected with the control ring 72, the piston clamp 71 is provided with a sixth protrusion 711, the control ring 72 is provided with a sixth straight groove 721, the sixth protrusion 711 is slidably disposed in the sixth straight groove 551, and the anti-slip pin 681 is further provided with an inclined plane so as to extend into the rubber hose 8.

Preferably, as shown in fig. 5, the cutting mechanism includes a first cutter 53 and a second cutter 54, the control plate 52 is further provided with a first protrusion 521 and a second protrusion 522, the first cutter 53 is provided with a first straight groove 541, the second cutter 54 is provided with a second straight groove 531, the first bracket 2 is further provided with a second bracket 23, the control plate 52 is connected with the first bracket 2 through the second bracket 23, both the cutter and the second cutter 54 are hinged to the second bracket 23, and the rear piston 62 is further provided with an annular groove 623.

It can be understood that, by forming the annular groove 623 on the rear piston 62 and sleeving the rubber hose 8 on the piston, the cutting knife enters the annular groove 623, and the rubber hose 8 is not deformed when being cut and the section is flat due to the supporting effect of the rear piston 62.

Preferably, the rubber hose 8 has three coils, the piston assembly, the fixing mechanism and the cutting mechanism are respectively provided with three sets, and the three sets of the fixing structure and the three sets of the fixing mechanism are connected to the control plate 52.

As shown in fig. 1 and 2, in step S1, the first telescopic rod 46 is controlled to stretch and retract to drive the control disc 45 to rotate, so as to drive the fifth protrusion 44 to slide in the fifth straight groove 451 and the sixth straight groove 721, so as to drive the first material plate 42 and the second material plate 43 to slide along the radius direction of the roller 41, and further change the radius of the overall feeding roller, so that the length of the semicircle of the feeding roller is equal to the length of the rubber hose 8 to be cut, because the fifth protrusion 44 moves along the radius direction of the roller 41 along with the material plate, the sliding block 441 also slides along with the material plate, and further the radius of the ring of the sliding block 441 composed of the six sliding blocks 441 increases, the connecting rod 21 is pushed to drive the first bracket 2 to move upwards against the first spring 22, so that the ascending distance of the first material plate 42 is equal to the ascending distance of the first bracket 2, so that the pulled-out section of the rubber hose 8 can always keep horizontal, which is beneficial to the subsequent cutting process, thereby completing the preparation work.

As shown in fig. 2 and 7, in step S2, after the preparation work is finished, the motor 5 is started to rotate the roller 41 by 90 degrees, since the piston clamp 71 clamps and fixes the rear piston 62 at this time, the rubber hose 8 is sleeved on the front piston 61 and the rear piston 62, and since the second spring 682 pushes the anti-slip pin 681 to move outward, the rubber hose 8 is fixed, so that the rubber hose 8 follows the roller 41 to move and be pulled out, and at the same time, high-pressure air is introduced into the air inlet 422, and the air enters between the front piston 61 and the rear piston 62 through the first flow passage 421, the second flow passage 621 and the third flow passage 622, thereby pushing the front piston 61 to move forward along the inside of the rubber hose 8, and cleaning the inside of the rubber hose 8 is performed.

As shown in fig. 2, 7 and 8, in step S2, the front piston 61 moves to pull the pull rope 69 to drive the rope shaft 63 to rotate against the torsion spring 65 and drive the sheave 64 to rotate, the number of rotation turns of the sheave 64 is detected under the detection of the sensor 67, and the moving distance of the front piston 61 is further measured, when the moving distance of the front piston 61 is the required cutting length of the rubber hose 8, the electric pole 66 is controlled to be electrically extended, the sheave 64 is fixed, so that the front piston 61 is stationary, and when the roller 41 rotates 90 degrees under the driving of the motor 5, the front piston 61 is still kept at the original position, and the feeding is completed.

As shown in fig. 6, in step S3, after the feeding is finished, the second telescopic rod 51 is controlled to contract, the control board 52 is driven to move upwards, so as to drive the third protrusion 523 to slide in the third straight groove 561, the fourth protrusion 524 slides in the fourth straight groove 551, so as to drive the first clamping plate 55 and the second clamping plate 56 to move towards the middle, so as to clamp the rubber hose 8, and simultaneously clamp and fix the front piston 61 in the rubber hose 8, then the high-pressure air is stopped from flowing into the air inlet 422, the power supply to the electric pole 66 is controlled to contract, the fixing to the sheave 64 is released, the third telescopic rod 73 is controlled to contract, the control ring 72 is driven to move backwards, the piston clamp 71 is driven to open due to the sixth protrusion 711 sliding in the sixth straight groove 721, so as to separate the piston clamp from the rear piston 62, at this time, the rope shaft 63 is turned over under the action of the torsion spring 65, the winding is performed, so that the rear piston 62 can move forwards along the rubber hose 8, until the pull rope 69 is completely retracted, and the rear piston 62 and the front piston 61 are collided together.

As shown in fig. 5, in step S3, after the fixing mechanism fixes the rubber hose 8, the second telescopic rod 51 is controlled to rapidly extend out to drive the control plate 52 to descend, so as to drive the first protrusion 521 to slide in the first straight groove 541, and the second protrusion 522 to slide in the second straight groove 531, so as to drive the first cutter 53 and the second cutter 54 to merge, and enter the annular groove 623, so as to cut off the rubber hose 8, thereby completing cutting.

Preferably, as shown in fig. 1 and fig. 2, in step S4, after the rubber hose 8 is cut, the motor 5 is controlled to continue to rotate, and the feeding roller drags the cut rubber hose 8 to rotate counterclockwise, so that the rubber hose 8 and the rear piston 62 are separated, and slide into the collecting tank 11, thereby completing the feeding.

Preferably, as shown in fig. 7, in step S5, after the discharging is completed, the motor 5 is controlled to rotate reversely, so that the piston clamp 71 returns to above the feeding roller again, and the third telescopic rod 73 is controlled to extend to drive the piston clamp 71 to clamp the rear piston 62, thereby completing the recovery of the present invention, and the free end of the rubber hose 8 is still sleeved on the front piston 61 and the rear piston 62.

The technical features of the embodiments described above may be arbitrarily combined, and for the sake of brevity, all possible combinations of the technical features in the embodiments described above are not described, but should be considered as being within the scope of the present specification as long as there is no contradiction between the combinations of the technical features.

The above-mentioned embodiments only express several embodiments of the present invention, and the description thereof is specific and detailed, but not to be understood as limiting the scope of the invention. It should be noted that various changes and modifications can be made by those skilled in the art without departing from the spirit of the invention, and these changes and modifications are all within the scope of the invention. Therefore, the protection scope of the present patent should be subject to the appended claims.

Claims

1. The production and processing method of the rubber hose is characterized in that the production and processing method of the rubber hose is implemented by using a processing device, and the processing device comprises:

the device comprises a rack, a first support and a second support, wherein the lower end of the rack is provided with a collecting tank, and the upper end of the rack is provided with the first support;

the material shaft is arranged on the rack;

the rubber hose is placed on the material shaft;

the feeding and discharging mechanism is arranged on the rack and used for pulling out and cleaning the length of the rubber hose to be cut before production and processing, and dragging the cut rubber hose into a collecting tank after the production and processing are finished;

the fixing mechanism is arranged on the first bracket and used for fixing the rubber hose;

the cutting mechanism is arranged on the first bracket and is used for cutting the rubber hose;

the production and processing method of the rubber hose comprises the following steps:

s1, preparation: placing a rubber hose on a material shaft, fixing a free end of the rubber hose with a feeding and discharging mechanism by a worker, and adjusting the feeding length of the feeding and discharging mechanism;

s2, feeding: pulling out and cleaning the length of the rubber hose to be cut by using the feeding and discharging mechanism;

s3, cutting: fixing the rubber hose by using a fixing mechanism, and then cutting off the rubber hose by using a cutting mechanism;

s4, blanking: dragging the cut rubber hose into a collecting tank by using a feeding and discharging mechanism;

s5, restoration: after the feeding is finished, adjusting the feeding and discharging mechanism to recover;

s6, circulating operation: the cutting of the rubber hose can be continuously completed by repeating the steps S2-S5, and meanwhile, the interior of the rubber hose can be cleaned.

2. The method for producing and processing the rubber hose according to claim 1, wherein the loading and unloading mechanism includes a loading roller, the loading roller includes a roller, a first telescopic rod, a control panel, a first material plate and a second material plate, the roller is fixedly connected to the frame, the control panel is rotatably disposed on the roller, one end of the first telescopic rod is hinged to the roller, the other end of the first telescopic rod is hinged to the control panel, the control panel is driven to rotate by controlling the first telescopic rod to extend and retract, the first material plate and the second material plate are slidably disposed on the roller, the control panel is further provided with a plurality of fifth straight grooves, the roller is provided with a plurality of seventh straight grooves along a radial direction, the first material plate and the second material plate are provided with a fifth protrusion, and each of the fifth protrusions is slidably disposed in one of the fifth straight grooves and one of the seventh straight grooves, so that the first material plate and the second material plate can be synchronously driven to slide along a radial direction of the roller by rotating the control panel.

3. The method as claimed in claim 2, wherein the first frame is capable of sliding in a vertical direction, a connecting rod is fixedly disposed on the first frame, a first spring is disposed between the first frame and the frame, a sliding block is disposed on a fifth protrusion of the first material plate, an upper side of the sliding block abuts against the connecting rod, when the sliding block moves upward, the sliding block can drive the connecting rod to move upward, the first frame is further driven to move upward, and the first spring is compressed, the feeding roller comprises five second material plates, the five second material plates and the first material plate are matched to form an annular structure, each second material plate is provided with one fifth protrusion, each fifth protrusion is provided with one sliding block, and by rotating the control plate, the five second material plates and the first material plate can be driven to synchronously slide in a radial direction of the roller,

4. The method for producing and processing the rubber hose according to claim 3, wherein the loading and unloading mechanism further comprises a motor and a piston assembly, the motor is mounted on the frame and connected with the loading roller, the piston assembly comprises a front piston, a rear piston, a piston clamp and a control ring, the control ring is slidably sleeved on the first material plate and slidably connected with the piston clamp, the piston clamp is rotatably connected to the first material plate, the piston clamp can be controlled to clamp and fix the rear piston by controlling the control ring to slide on the first material plate, the free end of the rubber hose is respectively sleeved on the front piston and the rear piston, the piston assembly further comprises a second spring and an anti-slip pin, the second spring is simultaneously abutted against one end of the rear piston and one end of the anti-slip pin, the other end of the anti-slip pin can abut against the inner wall of the rubber hose to be connected with the rubber hose, an air inlet and a first flow channel are further formed in the first material plate, a second flow channel and a third flow channel are formed in the rear piston, the air inlet is communicated with the front piston through the first flow channel, the second flow channel and the third flow channel, in the step S2, after the preparation work is finished, a motor is started to drive the roller to rotate for 90 degrees, the rear piston is clamped and fixed by the piston clamp, the rubber hose is sleeved on the front piston and the rear piston, the anti-slip pin is pushed by the second spring to move outwards to fix the rubber hose, the rubber hose moves along with the roller and is pulled out, high-pressure air is introduced into the air inlet, and the air enters between the front piston and the rear piston through the first flow channel, the second flow channel and the third flow channel to push the front piston to move forwards along the inside of the rubber hose, and then the interior of the rubber hose is cleaned.

5. The method for producing and processing the rubber hose according to claim 4, wherein the piston assembly further comprises a rope shaft, a sheave, a torsion spring and a pull rope, the rope shaft and the sheave are fixedly connected and jointly rotatably connected to the rear piston, one end of the pull rope is connected with the rope shaft, the other end of the pull rope is connected with the front piston, the torsion spring is simultaneously abutted against the rope shaft and the rear piston, the piston assembly further comprises an electric pole and a sensor, the electric pole and the sensor are arranged in the rear piston, the electric pole can limit the sheave to rotate, and the sensor can detect the number of turns of the sheave,

6. The method for manufacturing and processing the rubber hose according to claim 5, wherein the first bracket is further provided with a second telescopic rod and a control board, the second telescopic rod is mounted on the first bracket and fixedly connected with the control board, the fixing mechanism comprises a first clamping plate and a second clamping plate, the control board is provided with a third protrusion and a fourth protrusion, the first clamping plate is provided with a third straight groove, the second clamping plate is provided with a fourth straight groove, the third protrusion and the fourth protrusion are slidably arranged in the third straight groove and the fourth straight groove, the piston assembly further comprises a third telescopic rod, the third telescopic rod is mounted on the first material plate and fixedly connected with the control ring, the piston clamp is provided with a sixth protrusion, the control ring is provided with a sixth straight groove, the sixth protrusion is slidably arranged in the sixth straight groove, the anti-skid pin is further provided with an inclined surface so as to extend into the rubber hose,

7. The method for producing and processing the rubber hose as claimed in claim 6, wherein the cutting mechanism comprises a first cutter and a second cutter, the control panel is further provided with a first protrusion and a second protrusion, the first cutter is provided with a first straight groove, the second cutter is provided with a second straight groove, the first bracket is further provided with a second bracket, the control panel is connected with the first bracket through the second bracket, the cutters and the second cutter are both hinged with the second bracket, the rear piston is further provided with an annular groove,

in step S3, after the fixing mechanism fixes the rubber hose, the second telescopic rod is controlled to extend out quickly to drive the control board to descend, so as to drive the first protrusion to slide in the first straight groove, and the second protrusion to slide in the second straight groove, so as to drive the first cutter and the second cutter to be combined and enter the annular groove, so as to cut off the rubber hose and complete cutting.

8. The method for producing and processing the rubber hose according to claim 7, wherein in step S4, after the rubber hose is cut, the motor is controlled to continue to rotate, and the feeding roller drags the cut rubber hose to rotate counterclockwise, so that the rubber hose is separated from the rear piston and slides into the collecting tank, and the blanking is completed.

9. The method for manufacturing and processing the rubber hose according to claim 8, wherein in step S5, after the material discharging is completed, the motor is controlled to rotate reversely, so that the piston clamp returns to the position above the material feeding roller, and the third telescopic rod is controlled to extend to drive the piston clamp to clamp the rear piston, so as to complete the restoration of the invention, and at this time, the free end of the rubber hose is still sleeved on the front piston and the rear piston.

10. The method as claimed in claim 9, wherein the rubber hose has three coils, and each of the piston assembly, the fixing mechanism and the cutting mechanism has three sets, and the three sets of the fixing mechanism are connected to the control board.