CN113442575B

CN113442575B - Rubber tube marking system based on computer control

Info

Publication number: CN113442575B
Application number: CN202110878770.6A
Authority: CN
Inventors: 李彩霞; 甄华; 邱俊玲
Original assignee: Henan Industry and Trade Vocational College
Current assignee: Henan Industry and Trade Vocational College
Priority date: 2021-08-02
Filing date: 2021-08-02
Publication date: 2022-11-01
Anticipated expiration: 2041-08-02
Also published as: CN113442575A

Abstract

The invention relates to a rubber tube marking system based on computer control, which comprises a base, wherein a marking assembly and a coating assembly are sequentially arranged on the upper part of the base according to the conveying direction of a rubber tube, the rubber tube marking system also comprises positioning driving assemblies and pigment drying assemblies, the two groups of positioning driving assemblies are respectively positioned at the front end of the marking assembly and the rear end of the coating assembly, and the pigment drying assemblies are positioned between the marking assembly and the coating assembly. The invention aims to solve or at least reduce the problem that pigments are easy to mix with each other when a hose mark is printed for multiple times, and provides a hose marking system based on computer control.

Description

Rubber tube marking system based on computer control

Technical Field

The invention relates to the technical field of computer control, in particular to a rubber tube marking system based on computer control.

Background

Hydraulic hose alias hydraulic pressure oil pipe, hydraulic hose, high-pressure rubber pipe, hydraulic pipe, steel wire high-pressure pipe, steel wire weave rubber tube steel wire winding rubber tube, generally divide into steel wire weave hydraulic hose and steel wire winding hydraulic hose, hydraulic hose structure: the rubber layer is mainly composed of a liquid-resistant synthetic rubber inner rubber layer, a middle rubber layer, a plurality of enhancement layers and a weather-resistant synthetic rubber outer rubber layer, wherein the inner rubber layer has the function of enabling a conveying medium to bear pressure and protecting steel wires or wire fibers from being corroded, the enhancement layers are protected from being damaged by the outer rubber layer, the enhancement layers are made of framework materials, the function is to guarantee the service pressure of the rubber pipe, and the purpose of the hydraulic rubber pipe is as follows: the hydraulic oil-based and water-based hydraulic system is mainly used for mine hydraulic supports and oil field development, and is suitable for conveying petroleum-based and water-based liquids with certain pressure and temperature and liquid transmission in engineering construction, hoisting transportation, metallurgy forging and pressing, mining equipment, ships, injection molding machines, agricultural machinery, various machine tools and mechanized and automatic hydraulic systems of various industrial departments.

After the hydraulic rubber tube main body is finished, the outer wall of the hydraulic rubber tube needs to be printed with product marks. At present, most of marks are directly printed with pigments on the outer side of a rubber tube and are easy to rub off, so that a layer of transparent paint is coated on the outer side of the marks for protection; and some marking colors and patterns are complicated and need to be printed for multiple times. However, when the pigment is applied before drying out or when the secondary printing is performed, the pigment for the coating or the secondary printing is easily mixed with the pigment for the primary printing, and the protective effect is lowered or cross-color is caused.

Also there is the stoving of carrying out the stoving processing at present after once printing, but it is mostly to the whole continuous stoving of rubber tube, not only comparatively extravagant energy, and the rubber tube when stamp is still not vulcanized simultaneously, and high temperature is dried and is accelerated the rubber tube easily and age, influences the life of rubber tube.

Disclosure of Invention

The invention aims to overcome the defects in the prior art, solve or at least reduce the problem that pigments are easy to mix with each other when rubber tube marks are printed for multiple times, and provide a rubber tube marking system based on computer control.

The invention is realized by the following technical scheme:

a rubber tube marking system based on computer control comprises a base, wherein a marking assembly and a coating assembly are sequentially arranged on the upper portion of the base according to the conveying direction of a rubber tube, the rubber tube marking system further comprises positioning driving assemblies and pigment drying assemblies, the two groups of positioning driving assemblies are respectively positioned at the front end of the marking assembly and the rear end of the coating assembly, and the pigment drying assemblies are positioned between the marking assembly and the coating assembly;

the positioning driving assembly comprises a first carrier roller and a positioning roller, the first carrier roller is transversely and rotatably arranged on the base, the positioning roller is positioned above the first carrier roller, and the positioning roller is rotatably arranged on the base and longitudinally and slidably arranged on the base;

the label printing assembly comprises a pigment hopper, a pigment roller and a second carrier roller, the coating assembly comprises a coating hopper, a coating roller and a third carrier roller, the second carrier roller and the third carrier roller are transversely and rotatably arranged on the base, the pigment hopper and the coating hopper are longitudinally and slidably arranged on the base and are respectively positioned above the second carrier roller and the third carrier roller, and the pigment roller and the coating roller are respectively and rotatably arranged at lower openings of the pigment hopper and the coating hopper in a sealing manner;

the pigment drying assembly comprises a reciprocating translation mechanism and a heating piece, the reciprocating translation mechanism is arranged on one side of the base, the heating piece is arranged on the reciprocating translation mechanism to drive, and the reciprocating translation mechanism drives the heating piece to reciprocate along the length direction of the rubber tube.

In order to further implement the present invention, the following technical solutions may be preferably selected:

preferably, the rubber tube marking system further comprises an adjusting assembly, the adjusting assembly comprises an adjusting plate, the adjusting plate is longitudinally arranged on one side of the base in a sliding mode, the positioning rollers of the two positioning driving assemblies are rotatably arranged on the adjusting plate, the reciprocating translation mechanism is arranged in the middle of the adjusting plate, rotating shafts are rotatably arranged at the front end and the rear end of the adjusting plate, and the two rotating shafts are respectively in transmission connection with the positioning rollers of the two positioning driving assemblies;

the fixed motor that is provided with of regulating plate, the motor is connected with the pivot transmission that is located the regulating plate rear end, and the pivot that is located both ends around the regulating plate is fixed the registrate respectively from sprocket and main sprocket, from sprocket and main sprocket and pass through chain drive and connect, the diameter value of main sprocket is less than the diameter value from the sprocket.

Preferably, reciprocal translation mechanism includes posting, reciprocating plate and drive assembly, the posting is the mouth font and lateral sliding sets up in the regulating plate, reciprocating plate longitudinal sliding sets up in the posting, the piece that generates heat is fixed to be set up in the middle part of reciprocating plate, drive assembly orders about reciprocating plate lateral reciprocating motion and longitudinal reciprocating motion.

Preferably, drive assembly includes drive shaft, drive gear, drive sprocket, drive rack and locating component, the drive shaft rotates and sets up in the regulating plate, drive gear and drive sprocket all fix the cover in the drive shaft, drive sprocket is connected with chain drive, the horizontal fixed setting of drive rack is in the middle part of reciprocating plate towards one side of drive gear, and the drive rack is rectangular form, and the drive rack both ends all are the semicircle of evagination, and the peripheral lateral wall of drive rack all with drive gear intermeshing, locating component orders about drive gear along the motion of the peripheral lateral wall of drive rack.

Preferably, locating component includes locating plate, location strip and location axle, the locating plate is rectangular form and corresponding with the shape of drive rack, location strip is semicircular long form, and two location strips are located the locating plate both ends respectively and with the coaxial setting of locating plate tip, form the clearance between the inboard and the locating plate tip outside of location strip, the coaxial fixed setting of location axle sets up in the drive shaft, and the laminating is rotated with the peripheral curb plate of location strip in the location axle circumference outside, and the diameter value of location axle equals the width value in clearance between location strip and the locating plate.

Preferably, the base both ends all are provided with the direction subassembly, and two sets of direction subassemblies set up respectively in two sets of the location drive subassembly outside, the direction subassembly includes two guide posts, the vertical setting of guide post just rotates with the base to be connected.

Preferably, the rubber tube marking system further comprises a control assembly, the control assembly comprises a computer control unit, a first hydraulic cylinder, a second hydraulic cylinder and a third hydraulic cylinder, the first hydraulic cylinder is arranged between the adjusting plate and the base, the second hydraulic cylinder is arranged between the pigment hopper and the base, the third hydraulic cylinder is arranged between the coating hopper and the base, and the computer control unit is connected with the first hydraulic cylinder, the second hydraulic cylinder, the third hydraulic cylinder and the motor.

Preferably, the computer control unit is configured to:

the height position of the adjusting plate is controlled through the first hydraulic cylinder so as to adapt to rubber pipes with different pipe diameters;

the height position of the pigment hopper is controlled through a second hydraulic cylinder, so that the pigment roller is attached to the rubber tube to print marks on the outer wall of the rubber tube, and further the interval between two adjacent marks on the outer wall of the rubber tube is controlled;

the position of the heating sheet is controlled through the motor and the reciprocating translation mechanism, so that the heating sheet sequentially goes through a drying state and a returning state from an initial position and returns to the initial position; the initial position is set to be a position where the heating sheet is transversely close to the marking assembly and longitudinally close to the rubber tube; when the label is in a drying state, the heating sheet moves horizontally towards the coating component along with the printed label of the label printing component; when the mark reaches the coating component, the heating sheet moves to a position far away from the rubber tube, and when the mark returns to the original state, the heating sheet is positioned at the position far away from the rubber tube, translates towards the marking component and returns to the original position;

and controlling the height position of the coating hopper through a third hydraulic cylinder to enable the coating roller to be attached to the rubber tube so as to coat a protective layer on the outer side of the mark dried on the outer wall of the rubber tube.

Through the technical scheme, the invention has the beneficial effects that:

the invention is provided with the pigment drying component, and the printed mark is dried through the heating sheet and cannot be mixed with subsequent coating, so that the reduction of the protection effect and the color cross are avoided.

The heating sheet moves along with the printed mark through the reciprocating translation mechanism, only the mark of the rubber tube is heated and dried, the thermal aging of the rubber tube is slowed down, and the service life of a finished product is prolonged.

The reciprocating translation mechanism not only drives the heating sheet to reciprocate, but also drives the heating sheet to be close to the rubber tube in a drying state and to be far away from the rubber tube in a returning state, so that the power of the heating sheet can be reduced, the energy-saving effect is achieved, the heating of the non-identification area of the rubber tube is reduced, and the service life of a finished product is further prolonged.

The invention is provided with the adjusting component, and the height position of the adjusting plate is changed to adapt to rubber pipes with different pipe diameters; meanwhile, the power transmitted by the rubber tube is provided by the rotation of a positioning roller of a positioning driving assembly driven by a motor, and the diameter value of the main chain wheel at the rear end is smaller than that of the driven chain wheel at the front end, so that the rubber tube at the marking section is in a straightening state, and the marking effect is ensured; the driving shaft for driving the heating sheet to reciprocate and the positioning roller for driving the rubber tube to move are both driven by the motor through chains, so that the heating sheet is ensured to be consistent with the movement state of the printed mark during drying, and the drying effect is further ensured.

Drawings

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a front view of the present invention;

FIG. 3 is a side view of the present invention;

FIG. 4 is a rear view of the present invention;

FIG. 5 is a schematic structural diagram of a base and a positioning driving assembly according to the present invention;

FIG. 6 is a schematic view of a marking assembly or coating assembly of the present invention;

FIG. 7 is a cross-sectional view of the construction of a marking assembly or coating assembly of the present invention;

FIG. 8 is a schematic view of the paint drying assembly of the present invention;

FIG. 9 is a cross-sectional view of the construction of the paint drying assembly of the present invention;

FIG. 10 is a schematic structural diagram of a positioning frame according to the present invention;

FIG. 11 is a schematic view of the construction of the drive shaft of the present invention;

FIG. 12 is a schematic view of the reciprocating plate of the present invention;

FIG. 13 is a front view of a shuttle plate of the present invention;

wherein: 1-a base; 2-a marking assembly; 3-a coating component; 4-positioning the driving assembly; 5-a pigment drying assembly; 6-adjusting plate; 8-a slave sprocket; 9-a main sprocket; 10-a chain; 11-a guide post; 12-a first hydraulic cylinder; 13-a second hydraulic cylinder; 14-a third hydraulic cylinder; 201-pigment bucket; 202-a pigment roller; 203-a second carrier roller; 301-a coating hopper; 302-a paint roller; 303-a third carrier roller; 401-a first idler; 402-a positioning roller; 501-heating sheet; 502-positioning frame; 503-reciprocating plate; 504-a drive shaft; 505-a drive gear; 506-a drive sprocket; 507-driving the rack; 508-positioning plate; 509-a positioning bar; 510-positioning the shaft.

Detailed Description

In the description of the present invention, it should also be noted that, unless otherwise explicitly specified or limited, the terms "disposed," "mounted," "connected," and "connected" are to be construed broadly and may, for example, be fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.

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.

Example 1:

as shown in fig. 1-13, a rubber tube marking system based on computer control comprises a base 1, a marking assembly 2 and a coating assembly 3 are sequentially arranged on the upper portion of the base 1 according to the conveying direction of a rubber tube, the rubber tube marking system further comprises positioning driving assemblies 4 and pigment drying assemblies 5, the two groups of positioning driving assemblies 4 are respectively positioned at the front end of the marking assembly 2 and the rear end of the coating assembly 3, and the pigment drying assemblies 5 are positioned between the marking assembly 2 and the coating assembly 3;

the positioning driving assembly 4 comprises a first carrier roller 401 and a positioning roller 402, the first carrier roller 401 is transversely rotatably arranged on the base 1, the positioning roller 402 is positioned above the first carrier roller 401, and the positioning roller 402 is rotatably arranged on the base 1 and longitudinally slidably arranged on the base 1;

the marking assembly 2 comprises a pigment hopper 201, a pigment roller 202 and a second carrier roller 203, the coating assembly 3 comprises a coating hopper 301, a coating roller 302 and a third carrier roller 303, the second carrier roller 203 and the third carrier roller 303 are transversely and rotatably arranged on the base 1, the pigment hopper 201 and the coating hopper 301 are longitudinally and slidably arranged on the base 1 and are respectively positioned above the second carrier roller 203 and the third carrier roller 303, and the pigment roller 202 and the coating roller 302 are respectively and rotatably arranged at lower openings of the pigment hopper 201 and the coating hopper 301 in a sealing manner;

pigment stoving subassembly 5 includes reciprocal translation mechanism and heating sheet 501, and reciprocal translation mechanism sets up in one side of base 1, and heating sheet 501 sets up and drives in reciprocal translation mechanism, and reciprocal translation mechanism orders about heating sheet 501 along rubber tube length direction reciprocating motion.

In order to be suitable for rubber tubes with different pipe diameters, the rubber tube marking system further comprises an adjusting assembly, the adjusting assembly comprises an adjusting plate 6, the adjusting plate 6 is longitudinally arranged on one side of the base 1 in a sliding mode, the positioning rollers 402 of the two groups of positioning driving assemblies 4 are rotatably arranged on the adjusting plate 6, the reciprocating translation mechanism is arranged in the middle of the adjusting plate 6, rotating shafts are rotatably arranged at the front end and the rear end of the adjusting plate 6, and the two rotating shafts are respectively in transmission connection with the positioning rollers 402 of the two groups of positioning driving assemblies 4;

the adjusting plate 6 is fixedly provided with a motor, the motor is in transmission connection with a rotating shaft positioned at the rear end of the adjusting plate 6, the rotating shafts positioned at the front end and the rear end of the adjusting plate 6 are respectively and fixedly sleeved with a driven chain wheel 8 and a main chain wheel 9, the driven chain wheel 8 is in transmission connection with the main chain wheel 9 through a chain 10, and the diameter value of the main chain wheel 9 is smaller than that of the driven chain wheel 8.

In order to optimize the product structure, the reciprocating translation mechanism comprises a positioning frame 502, a reciprocating plate 503 and a driving assembly, the positioning frame 502 is square-shaped and is transversely arranged on the adjusting plate 6 in a sliding manner, the reciprocating plate 503 is longitudinally arranged in the positioning frame 502 in a sliding manner, the heating plate 501 is fixedly arranged in the middle of the reciprocating plate 503, and the driving assembly drives the reciprocating plate 503 to transversely reciprocate and longitudinally reciprocate.

In order to realize the transverse reciprocating motion and the longitudinal reciprocating motion of the reciprocating plate 503, the driving assembly comprises a driving shaft 504, a driving gear 505, a driving sprocket 506, a driving rack 507 and a positioning assembly, the driving shaft 504 is rotatably arranged on the adjusting plate 6, the driving gear 505 and the driving sprocket 506 are both fixedly sleeved on the driving shaft 504, the driving sprocket 506 is in transmission connection with the chain 10, the driving rack 507 is transversely and fixedly arranged in the middle of one side of the reciprocating plate 503 facing the driving gear 505, the driving rack 507 is long, both ends of the driving rack 507 are respectively in a convex semicircular shape, peripheral side walls of the driving rack 507 are respectively meshed with the driving gear 505, and the positioning assembly drives the driving gear 505 to move along the peripheral side walls of the driving rack 507.

In order to enable the driving gear 505 to move along the peripheral side wall of the driving rack 507, the positioning assembly comprises a positioning plate 508, a positioning strip 509 and a positioning shaft 510, wherein the positioning plate 508 is long and corresponds to the driving rack 507 in shape, the positioning strip 509 is semicircular and long, the two positioning strips 509 are respectively located at two ends of the positioning plate 508 and are coaxially arranged with the end portions of the positioning plate 508, a gap is formed between the inner side of the positioning strip 509 and the outer side of the end portion of the positioning plate 508, the positioning shaft 510 is coaxially and fixedly arranged on the driving shaft 504, the circumferential outer side of the positioning shaft 510 is rotatably attached to the peripheral side plate of the positioning strip 509, and the diameter value of the positioning shaft 510 is equal to the width value of the gap between the positioning strip 509 and the positioning plate 508.

In order to prevent the rubber tube from falling off from the positioning driving assembly 4, the two ends of the base 1 are respectively provided with a guiding assembly, the two groups of guiding assemblies are respectively arranged on the outer sides of the two groups of positioning driving assemblies 4, each guiding assembly comprises two guiding columns 11, and the guiding columns 11 are vertically arranged and are rotatably connected with the base 1.

The rubber tube marking system further comprises a control assembly, the control assembly comprises a computer control unit, a first hydraulic cylinder 12, a second hydraulic cylinder 13 and a third hydraulic cylinder 14, the first hydraulic cylinder 12 is arranged between the adjusting plate 6 and the base 1, the second hydraulic cylinder 13 is arranged between the pigment hopper 201 and the base 1, the third hydraulic cylinder 14 is arranged between the coating hopper 301 and the base 1, and the computer control unit is connected with the first hydraulic cylinder 12, the second hydraulic cylinder 13, the third hydraulic cylinder 14 and the motor.

The computer control unit is configured to:

the height position of the adjusting plate 6 is controlled through the first hydraulic cylinder 12 so as to adapt to rubber tubes with different pipe diameters;

the height position of the pigment hopper 201 is controlled through the second hydraulic cylinder 13, so that the pigment roller 202 is attached to the rubber tube to print marks on the outer wall of the rubber tube, and further the interval between two adjacent marks on the outer wall of the rubber tube is controlled;

the position of the heating sheet 501 is controlled by a motor and a reciprocating translation mechanism, so that the heating sheet 501 sequentially goes through a drying state and a returning state from an initial position and returns to the initial position; the initial position is set as the position of the heating sheet 501 transversely close to the marking component 2 and longitudinally close to the rubber tube; in the drying state, the heating sheet 501 moves horizontally towards the coating component 3 along with the printed mark of the marking component 2; when the mark reaches the coating component 3, the heating sheet 501 moves upwards to a position far away from the rubber tube, and when the mark returns to the original state, the heating sheet 501 is positioned at the position far away from the rubber tube, translates towards the marking component 2 and returns to the original position;

the height position of the coating hopper 301 is controlled by the third hydraulic cylinder 14, so that the coating roller 302 is attached to the hose to coat a protective layer on the outer side of the mark after the outer wall of the hose is dried.

The paint drying component 5 is arranged, and the printed mark is dried through the heating sheet 501 and cannot be mixed with subsequent paint, so that the reduction of the protection effect and the color mixing are avoided.

The heating sheet 501 of the invention moves along with the printed mark through the reciprocating translation mechanism, and only the mark of the rubber tube is heated and dried, thereby slowing down the thermal aging of the rubber tube and prolonging the service life of the finished product.

The reciprocating translation mechanism of the invention not only drives the heating sheet 501 to reciprocate and translate, but also drives the heating sheet 501 to be close to the rubber tube in a drying state and to be far away from the rubber tube in a returning state, thus not only reducing the power of the heating sheet 501 and playing a role of saving energy, but also reducing the heating to the non-identification area of the rubber tube and further prolonging the service life of the finished product.

The invention is provided with an adjusting component, and the height position of an adjusting plate 6 is changed to adapt to rubber pipes with different pipe diameters; meanwhile, the power for conveying the rubber tube is provided by the rotation of the positioning roller 402 of the positioning driving component 4 driven by the motor, and the diameter value of the main chain wheel 9 at the rear end is smaller than that of the auxiliary chain wheel 8 at the front end, so that the rubber tube at the marking section is in a straightening state, and the marking effect is ensured.

Finally, it should be noted that: although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications may be made to the embodiments or portions thereof without departing from the spirit and scope of the invention.

Claims

1. The rubber tube marking system based on computer control comprises a base (1), wherein a marking assembly (2) and a coating assembly (3) are sequentially arranged on the upper portion of the base (1) according to the conveying direction of a rubber tube, and is characterized in that the rubber tube marking system further comprises a positioning driving assembly (4) and a pigment drying assembly (5), the positioning driving assemblies (4) are respectively arranged at the front end of the marking assembly (2) and the rear end of the coating assembly (3), and the pigment drying assembly (5) is arranged between the marking assembly (2) and the coating assembly (3);

the positioning driving assembly (4) comprises a first carrier roller (401) and a positioning roller (402), the first carrier roller (401) is transversely rotatably arranged on the base (1), the positioning roller (402) is positioned above the first carrier roller (401), and the positioning roller (402) is rotatably arranged on the base (1) and is longitudinally slidably arranged on the base (1);

the marking assembly (2) comprises a pigment hopper (201), a pigment roller (202) and a second carrier roller (203), the coating assembly (3) comprises a coating hopper (301), a coating roller (302) and a third carrier roller (303), the second carrier roller (203) and the third carrier roller (303) are transversely and rotatably arranged on the base (1), the pigment hopper (201) and the coating hopper (301) are longitudinally and slidably arranged on the base (1) and are respectively positioned above the second carrier roller (203) and the third carrier roller (303), and the pigment roller (202) and the coating roller (302) are respectively and rotatably arranged at lower openings of the pigment hopper (201) and the coating hopper (301);

the pigment drying assembly (5) comprises a reciprocating translation mechanism and a heating sheet (501), the reciprocating translation mechanism is arranged on one side of the base (1), the heating sheet (501) is arranged on a reciprocating translation mechanism driver, and the reciprocating translation mechanism drives the heating sheet (501) to reciprocate along the length direction of the rubber tube;

the rubber tube marking system further comprises an adjusting assembly, the adjusting assembly comprises an adjusting plate (6), the adjusting plate (6) is longitudinally arranged on one side of the base (1) in a sliding mode, the positioning rollers (402) of the two positioning driving assemblies (4) are rotatably arranged on the adjusting plate (6), the reciprocating translation mechanism is arranged in the middle of the adjusting plate (6), rotating shafts are rotatably arranged at the front end and the rear end of the adjusting plate (6), and the two rotating shafts are in transmission connection with the positioning rollers (402) of the two positioning driving assemblies (4) respectively;

the adjusting plate (6) is fixedly provided with a motor, the motor is in transmission connection with a rotating shaft positioned at the rear end of the adjusting plate (6), the rotating shafts positioned at the front end and the rear end of the adjusting plate (6) are respectively and fixedly sleeved with a driven chain wheel (8) and a main chain wheel (9), the driven chain wheel (8) is in transmission connection with the main chain wheel (9) through a chain (10), and the diameter value of the main chain wheel (9) is smaller than that of the driven chain wheel (8);

the reciprocating translation mechanism comprises a positioning frame (502), a reciprocating plate (503) and a driving assembly, wherein the positioning frame (502) is square-shaped and is transversely arranged on the adjusting plate (6) in a sliding manner, the reciprocating plate (503) is longitudinally arranged in the positioning frame (502) in a sliding manner, the heating plate (501) is fixedly arranged in the middle of the reciprocating plate (503), and the driving assembly drives the reciprocating plate (503) to transversely reciprocate and longitudinally reciprocate;

drive assembly includes drive shaft (504), drive gear (505), driving sprocket (506), drive rack (507) and locating component, drive shaft (504) rotate and set up in regulating plate (6), drive gear (505) and driving sprocket (506) are all fixed to be fitted in drive shaft (504), driving sprocket (506) are connected with chain (10) transmission, drive rack (507) transversely fixed set up in reciprocating plate (503) towards the middle part of one side of drive gear (505), drive rack (507) are rectangular form, drive rack (507) both ends all are the semicircle of evagination, the peripheral lateral wall of drive rack (507) all with drive gear (505) intermeshing, locating component forces about drive gear (505) along the motion of the peripheral lateral wall of drive rack (507).

2. The rubber tube marking system based on computer control according to claim 1, wherein the positioning assembly comprises a positioning plate (508), a positioning strip (509) and a positioning shaft (510), the positioning plate (508) is in an elongated shape and corresponds to the shape of the driving rack (507), the positioning strip (509) is in a semicircular elongated shape, the two positioning strips (509) are respectively located at two ends of the positioning plate (508) and are coaxially arranged with the end portion of the positioning plate (508), a gap is formed between the inner side of the positioning strip (509) and the outer side of the end portion of the positioning plate (508), the positioning shaft (510) is coaxially and fixedly arranged on the driving shaft (504), the circumferential outer side of the positioning shaft (510) is rotatably attached to the peripheral side plate of the positioning strip (509), and the diameter value of the positioning shaft (510) is equal to the width value of the gap between the positioning strip (509) and the positioning plate (508).

3. The rubber tube marking system based on computer control according to claim 1, wherein two ends of the base (1) are respectively provided with a guide assembly, two sets of guide assemblies are respectively arranged at the outer sides of two sets of positioning driving assemblies (4), each guide assembly comprises two guide columns (11), and each guide column (11) is vertically arranged and is rotatably connected with the base (1).

4. The rubber tube marking system based on computer control of claim 2, further comprising a control assembly, wherein the control assembly comprises a computer control unit, a first hydraulic cylinder (12), a second hydraulic cylinder (13) and a third hydraulic cylinder (14), the first hydraulic cylinder (12) is arranged between the adjusting plate (6) and the base (1), the second hydraulic cylinder (13) is arranged between the pigment hopper (201) and the base (1), the third hydraulic cylinder (14) is arranged between the coating hopper (301) and the base (1), and the computer control unit is connected with the first hydraulic cylinder (12), the second hydraulic cylinder (13), the third hydraulic cylinder (14) and the motor.

5. The computer-controlled-based hose marking system according to claim 4, wherein the computer control unit is configured to:

the height position of the adjusting plate (6) is controlled through the first hydraulic cylinder (12) so as to adapt to rubber pipes with different pipe diameters; the height position of the pigment hopper (201) is controlled through the second hydraulic cylinder (13), so that the pigment roller (202) is attached to the rubber tube to print marks on the outer wall of the rubber tube, and further the interval between two adjacent marks on the outer wall of the rubber tube is controlled; the position of the heating sheet (501) is controlled through a motor and a reciprocating translation mechanism, so that the heating sheet (501) sequentially goes through a drying state and a returning state from an initial position and returns to the initial position; the initial position is set to be a position where the heating sheet (501) is transversely close to the marking assembly (2) and longitudinally close to the rubber tube; in a drying state, the heating sheet (501) translates towards the coating component (3) along with the printed mark of the marking component (2); when the mark reaches the coating component (3), the heating sheet (501) moves upwards to a position far away from the rubber pipe, and when the mark returns to the original state, the heating sheet (501) is in the position far away from the rubber pipe, translates towards the marking component (2) and returns to the original position;

the height position of the coating hopper (301) is controlled by the third hydraulic cylinder (14), so that the coating roller (302) is attached to the rubber tube to coat a protective layer on the outer side of the mark on which the outer wall of the rubber tube is dried.