CN112920719B

CN112920719B - Rubber coiled material splicing device and splicing method thereof

Info

Publication number: CN112920719B
Application number: CN202110084642.4A
Authority: CN
Inventors: 梁飞
Original assignee: Xingtai Keyat Rubber & Plastic Products Co ltd
Current assignee: Xingtai Keyat Rubber & Plastic Products Co ltd
Priority date: 2021-01-21
Filing date: 2021-01-21
Publication date: 2022-10-04
Anticipated expiration: 2041-01-21
Also published as: CN112920719A

Abstract

The invention discloses a rubber coiled material splicing device and a splicing method thereof, belonging to the technical field of rubber coiled material splicing, wherein two groups of splicing bonding columns which are distributed in a staggered manner are arranged on the outer walls of a left patch and a right patch, are respectively embedded and connected with splicing grooves of a pair of rubber coiled materials, so as to play a role in preliminary positioning, manual alignment is not needed, the splicing accuracy is effectively improved, the left patch and the right patch are mutually extruded, bonding particle bags stored in a bonding storage plate and bonding liquid in the splicing bonding columns are extruded and burst, the bonding particle bags overflow into two bonding surface layers respectively after being extruded and burst, so that bonding between the bonding surface layers and the rubber coiled materials is realized, a bonding agent is not needed to be coated on site, and meanwhile, after the bonding liquid in the splicing bonding columns is extruded by the splicing columns, the bonding liquid seeps out through seepage bonding holes and overflows into the splicing grooves, so as to complete mechanical connection between the splicing bonding columns and the splicing grooves, thereby enhancing the splicing quality of the two rubber coiled materials and prolonging the service life.

Description

Rubber coiled material splicing device and splicing method thereof

Technical Field

The invention relates to the technical field of splicing of rubber coiled materials, in particular to a splicing device and a splicing method for rubber coiled materials.

Background

The rubber type waterproof coiled material is a novel waterproof coiled material developed along with the development of synthetic rubber, has the advantages of light weight, high strength, good elongation, good tear resistance and aging resistance, strong temperature adaptability, long service life, less construction pollution and the like, has good resistance to corrosion of acid, alkali, weather and microorganisms, has good bonding performance and temperature performance to temperature change, can be infiltrated and permeated, has small moisture absorption, and gradually becomes a substance with high use frequency in the construction processes of buildings, cities, roads and the like.

When the rubber coiled materials are paved, a plurality of rubber coiled materials are often spliced together, a special adhesive is generally manually coated on two rubber coiled materials during splicing, then the two rubber coiled materials are butted, when the two rubber coiled materials are spliced by using the adhesive, the two rubber coiled materials need to be aligned, and due to manual splicing, the splicing accuracy is not high; in addition, the splicing part is only provided with one bonding layer, so that the bonding and splicing effect of the splicing part is still to be improved, and the splicing part is easy to fall off in the external use environment and is not beneficial to long-time use of the rubber coiled material.

Therefore, the rubber coiled material splicing device and the splicing method thereof are provided for effectively solving some problems in the prior art.

Disclosure of Invention

1. Technical problem to be solved

Aiming at the problems in the prior art, the invention aims to provide a rubber coiled material splicing device and a splicing method thereof, wherein two groups of splicing bonding columns which are distributed in a staggered mode are arranged on the outer walls of a left patch and a right patch, are respectively embedded and connected with splicing grooves of a pair of rubber coiled materials, play a role in preliminary positioning, do not need manual alignment, effectively improve splicing accuracy, and extrude the left patch and the right patch mutually, adhesive particle bags stored in an adhesive storage plate and adhesive liquid in the splicing bonding columns to be extruded and burst, the adhesive particle bags respectively overflow into two adhesive surface layers after being extruded and burst, so that the adhesion of the adhesive surface layers and the rubber coiled materials is realized, an adhesive is not needed to be coated on site, and meanwhile, after the adhesive liquid in the splicing columns is extruded by the splicing columns, the adhesive liquid seeps out through seepage adhesive holes and overflows into the splicing grooves, the mechanical connection between the splicing columns and the splicing grooves is completed, the splicing quality of the two rubber coiled materials is enhanced, and the service life is prolonged.

2. Technical scheme

In order to solve the above problems, the present invention adopts the following technical solutions.

A rubber coiled material splicing device comprises a left patch and a right patch which are arranged on the left and right, the left patch and the right patch are respectively butted with a pair of external rubber coiled materials, one surfaces of the left patch and the right patch which are butted with the pair of rubber coiled materials are respectively attached with an adhesive surface layer, the opposite side walls of the left patch and the right patch are respectively provided with a splicing plate and an adhesive material storage plate, the splicing plate and the adhesive material storage plate are matched and movably embedded and connected, a sealing plate sleeved outside the adhesive material storage plate is fixedly arranged on the end wall of the right patch close to one side of the left patch, a filling cavity corresponding to the splicing plate is arranged inside the adhesive material storage plate, an adhesive particle bag is filled inside the filling cavity, and seepage cavities respectively communicated with the splicing plate and the adhesive material storage plate are arranged inside the left patch and the right patch, the two material permeating cavities are respectively communicated with a pair of bonding surface layers, a pair of splicing bonding columns are fixedly embedded in the outer side walls of the left patch and the right patch in a penetrating manner, the two pairs of splicing bonding columns are distributed in a vertically staggered manner, the opposite side walls of the left patch and the right patch are fixedly connected with splicing columns corresponding to the positions of the two pairs of splicing bonding columns, splicing grooves corresponding to the positions of the splicing bonding columns are formed in the opposite side walls of the rubber coiled material, one ends of the two pairs of splicing columns, far away from the left patch, and the right patch penetrate through the sealing plate and are embedded in the inner ends of the splicing bonding columns, limiting bodies which are in limit contact with the inner walls of the splicing bonding columns are arranged on the side walls of one ends, located in the splicing bonding columns, of the splicing columns, rubber puncture cones are movably embedded in the ends, far away from the splicing columns, and bonding liquids are filled between the rubber puncture cones and the limiting bodies, and the outer end part of the splicing bonding column, which is far away from the bonding liquid, is provided with a seepage bonding hole.

Further, the plurality of bonded particle capsules within the bonded reservoir plate each include a burst capsule film on an outer side, an interior of the burst capsule film being filled with a binder.

Further, the inside of splice plate is seted up the guide chamber that is linked together with the inside oozing material chamber of left paster, the one end that guide chamber and packing chamber link up mutually and the one end that packing chamber and right paster link up mutually all inlays to establish and installs the extrusion oozing material layer, under initial condition, break off by the splice plate interval between left paster and the right paster, when installing, left paster and right paster dock with a pair of rubber coiled material respectively, set up in the concatenation bonding post of left paster and right paster outside end inserts respectively and locates in rubber coiled material, play preliminary positioning action, a pair of rubber coiled material draws close to the centre, the splice plate is to the interior motion of bonding storage plate and extrudeing a plurality of adhesive particle sacks, overflow the binder after the adhesive particle sack is extruded spalling, the binder is to the both sides motion under the effect of extrusion impact force, permeate the extrusion ooze material layer respectively, the ooze in oozing on two adhesive surface layers, thereby realize two adhesive surface layers and the inseparable laminating of a pair of rubber coiled material respectively.

Furthermore, the extrusion infiltration layer is made of porous fiber materials, the infiltration cavities and the guide cavities which are arranged on the left side and the right side are filled with fiber infiltration layers, the fiber infiltration layers are made of fiber flow guide materials, and the bonding agents which overflow to the two sides lead to bonding surface layers under the porous flow guide effect of the fiber infiltration layers and are diffused on the bonding surface layers under the left and right sides of high impact force.

Furthermore, two the adhesive surface layer is respectively attached with the netted fiber cotton on left paster, the outer endwall of right paster, it has the fibre thorn layer to distribute on the terminal surface of netted fiber cotton, and the adhesive surface layer catches the binder, and the fibre thorn layer that distributes more is favorable to improving and the rubber coiled material between the bonding effect.

Furthermore, the limiting body comprises two elastic limiting balls which are connected to one end, close to the splicing bonding column, of the splicing bonding column, the elastic limiting balls are connected with the splicing column through arc-shaped extrusion pads, and elastic sealing gaskets are wrapped between the two elastic limiting balls.

Furthermore, the spliced bonding column is provided with an arc-shaped limiting groove corresponding to the positions of two elastic limiting balls on the inner wall close to one end of the spliced column, the inner end wall of the arc-shaped limiting groove is coated with an elastic sheet, the outer end of the spliced column extends into the spliced bonding column in an initial state, and the elastic limiting ball is buckled with the arc-shaped limiting groove to play a primary limiting role on the spliced column so as to prevent the spliced column from sliding towards the outer side of the spliced bonding column.

Further, rubber puncture awl includes that the activity links up in the spacing awl of inner, the one end that spacing awl is close to the grafting post is passed through the sealing layer and is linked up with concatenation bonding post inner wall looks activity, the one end that linking layer was kept away from to spacing awl is equipped with and links up in the inside puncture membrane of concatenation bonding post, set up in the splice groove with spacing awl assorted puncture hole.

Furthermore, the sealing layer is arranged at one end, close to the seeping material bonding hole, of the splicing bonding column in an abutting mode, the outer end of the limiting cone abuts against the puncture film, the bonding liquid is stored between the splicing bonding column and the rubber puncture cone in a sealing mode through cooperation of the sealing layer, the limiting cone and the puncture film, when splicing is carried out, the outer end of the splicing bonding column abuts against the splicing groove of the rubber coiled materials, when the two rubber coiled materials are mutually extruded, the splicing column extrudes into the splicing bonding column, the bonding liquid is pushed to move to one side of the seeping material bonding hole, in the process, the limiting cone is pushed to one side of the seeping material bonding hole, the outer end of the limiting cone pierces through the limiting film, a proper section of the limiting cone is inserted into the puncture hole, the bonding liquid penetrates out through the seeping material bonding hole and overflows into a gap between the splicing column and the splicing groove, mechanical connection between the splicing column and the splicing groove is completed, and the splicing effect between the two rubber coiled materials is enhanced.

A splicing method of a rubber coiled material splicing device comprises the following steps:

s1, firstly, respectively attaching a left paster and a right paster to a pair of rubber coiled materials by a technician, and respectively inserting splicing bonding columns on the outer ends of the left paster and the right paster into splicing grooves in the rubber coiled materials in a penetrating manner to play a primary positioning role;

s2, the pair of rubber coiled materials are drawn together and extruded towards the middle, so that the splicing plates are extruded to the inner ends of the bonding storage plates, the plurality of splicing columns are respectively extruded to the inner ends of the splicing bonding columns corresponding to the splicing bonding columns, and at the moment, the sealing plate attached to one side of the right patch abuts against the left patch to complete extrusion type sealing splicing;

s3, in the extrusion splicing process, a plurality of adhesive particle bags in the adhesive storage plate are exploded to overflow an adhesive after being extruded, the adhesive flows and expands towards the surfaces, which are respectively attached to the left patch and the right patch through two material permeating cavities, of the rubber coiled material to realize the adhesive connection between an adhesive surface layer and the rubber coiled material, meanwhile, adhesive liquid stored in the splicing adhesive column moves towards the splicing adhesive column on one side provided with a material permeating adhesive hole under the extrusion action of the splicing column to push the limiting cone to penetrate into the splicing groove, the material permeating adhesive hole is arranged at the exposed part, and the adhesive liquid permeates into a gap between the joint surfaces of the splicing adhesive column and the splicing groove through the material permeating adhesive hole to complete the mechanical connection between the splicing adhesive column and the splicing groove;

and S4, after the rubber rolls are spliced in a sealed mode, a layer of waterproof film is connected to the splicing position of the pair of rubber rolls in a sealed mode, the waterproof film covers the outer sides of the left patch and the right patch, and the adhesive overflowing to the bonding surface layer plays a role in bonding and adhering the waterproof film, so that the splicing of the pair of rubber rolls is completed.

3. Advantageous effects

Compared with the prior art, the invention has the advantages that:

(1) This scheme is through setting up two sets of crisscross concatenation bonding post that distribute on left paster and right paster outer wall, two sets of concatenation bonding posts inlay with a pair of rubber coiled material's concatenation groove respectively and establish the connection, play preliminary positioning action, need not artifical manual alignment, effectively improve the concatenation accuracy nature, extrude left paster and right paster each other again, the bonding particle bag of storage in the bonding storage plate and the bonding liquid in the concatenation bonding post receive the extrusion spalling, the bonding particle bag overflows two bonding surface layer departments respectively after being extrudeed the spalling, realize bonding surface layer and rubber coiled material's bonding, need not the on-the-spot coating binder, and simultaneously, bonding liquid is extruded by the grafting post in the concatenation bonding post, the bonding liquid oozes and overflows in the concatenation groove through the seepage material bonding hole, accomplish the mechanical connection between concatenation bonding post and the concatenation groove, two rubber coiled material's concatenation quality has been strengthened, increase of service life.

(2) The utility model discloses a plurality of adhesive particle bag that lie in bonding storage plate all include the spalling capsule membrane that lies in the outside, the inside packing of spalling capsule membrane has the binder, the guide chamber that is linked together with the inside oozing material chamber of left paster is seted up to the inside of splice plate, the one end that the guide chamber links up mutually with the packing chamber and the packing chamber links up one end mutually with the right paster interior oozing material chamber and all inlays to establish and install the extrusion oozing material layer, when the concatenation, a pair of rubber coiled material draws close to the centre, the splice plate extrudees a plurality of adhesive particle bags to bonding storage plate internal motion, the adhesive particle bag overflows the binder after extrusion spalling, the binder is to the both sides motion under the extrusion impact force effect, see through the extrusion oozing material layer respectively, the oozing material chamber oozes and overflows on two adhesive surface layers, thereby realize two adhesive surface layers respectively with a pair of rubber coiled material's inseparable laminating.

(3) The extrusion infiltration layer is made of porous fiber materials, the fiber infiltration layers are filled in the two infiltration cavities and the material guide cavities which are arranged on the left and right sides, the fiber infiltration layers are made of fiber flow guide materials, the bonding agents which are overflowed to the two sides lead to the position of the bonding surface layer under the porous flow guide effect of the fiber infiltration layers, and the bonding agents are diffused on the bonding surface layer under the left and right sides of high impact force.

(4) Two adhesive surface layers are respectively attached to the outer end walls of the left patch and the right patch, fiber thorn layers are distributed on the end faces of the fiber thorn layers, the adhesive surface layers capture the binder, and the distributed fiber thorn layers are more favorable for improving the bonding effect between the adhesive surface layers and the rubber coiled material.

(5) The limiting body comprises two elastic limiting balls connected to the splicing column and close to one end of the splicing bonding column, the elastic limiting balls are connected with the splicing column through arc-shaped extrusion pads, elastic sealing gaskets are wrapped between the two elastic limiting balls, arc-shaped limiting grooves corresponding to the positions of the two elastic limiting balls are formed in the inner wall, close to one end of the splicing column, of the splicing bonding column, elastic pieces wrap the inner end wall of each arc-shaped limiting groove, in an initial state, the outer end of the splicing column extends into the splicing bonding column, and the elastic limiting balls are buckled with the arc-shaped limiting grooves in a matched mode, a preliminary limiting effect is achieved on the splicing column, so that the splicing column does not slide towards the outer side of the splicing bonding column, when the splicing column is spliced, only the left patch and the right patch need to be extruded forcefully, the splicing column expands towards the splicing bonding column, the elastic limiting balls and the arc-shaped limiting grooves are of arc-shaped structures, and the elastic limiting balls are connected with the splicing column through the arc-shaped extrusion pads, an inward buffering compression effect is achieved, when the splicing column is used for extruding, so that the splicing column can be extruded towards the outer end of the splicing column under the effect of an external force.

(6) The rubber puncture cone comprises a limiting cone movably connected to the inner end, one end, close to the splicing column, of the limiting cone is movably connected with the inner wall of the splicing bonding column through a sealing layer, a puncture film connected to the inside of the splicing bonding column is arranged at one end, far away from a connection layer, of the limiting cone, a puncture hole matched with the limiting cone is formed in each splicing groove, the sealing layer is arranged at one end, close to the seepage bonding hole, of the splicing bonding column in an abutting mode, the outer end of the limiting cone abuts against the puncture film, the bonding liquid is stored between the splicing bonding column and the rubber puncture cone in a sealed mode through the cooperation of the sealing layer, the limiting cone and the puncture film, when splicing is carried out, the outer end of the splicing bonding column abuts against the splicing groove of the rubber coiled material, the splicing column extrudes into the splicing bonding column, the bonding liquid and the limiting cone are pushed to move towards one side of the seepage bonding hole, the outer end of the limiting cone penetrates through the limiting film and is properly inserted into the puncture hole, the sealing layer moves to one side of the seepage bonding hole, the bonding column and the splicing groove, and the splicing effect between the two spliced coiled materials is enhanced.

Drawings

FIG. 1 is a schematic view showing a state in splicing a rubber roll according to the present invention;

FIG. 2 is an exploded view of the present invention when spliced to a rubber coil;

FIG. 3 is a schematic view of the rubber roll of the present invention before splicing;

FIG. 4 is a schematic structural view of the present invention;

FIG. 5 is a schematic structural view of the splicing column of the present invention when detached from the splicing adhesive column;

FIG. 6 is a schematic view of the extruded and spliced structure of the present invention;

FIG. 7 is a schematic view showing a state where a pair of rubber rolls are spliced and covered with a waterproof film according to the present invention.

The numbering in the figures illustrates:

1 left paster, 2 right pasters, 3 sealing plates, 4 splicing plates, 5 bonding storage plates, 6 splicing columns, 601 elastic limiting balls, 7 splicing bonding columns, 701 seepage bonding holes, 8 bonding liquid, 9 limiting cones, 10 limiting films, 11 bonding particle bags, 12 bonding surface layers, 13 fiber permeation layers and 14 waterproof films.

Detailed Description

The drawings in the embodiments of the invention will be combined; the technical scheme in the embodiment of the invention is clearly and completely described; obviously; the described embodiments are only some of the embodiments of the invention; but not all embodiments, are based on the embodiments of the invention; all other embodiments obtained by a person of ordinary skill in the art without making any creative effort; all fall within the scope of protection of the present invention.

In the description of the present invention, it should be noted that the terms "upper", "lower", "inner", "outer", "top/bottom", and the like indicate orientations or positional relationships based on those shown in the drawings, and are only for convenience of description and simplification of description, but do not indicate or imply that the referred device or element must have a specific orientation, be constructed in a specific orientation, and be operated, and thus should not be construed as limiting the present invention. Furthermore, the terms "first," "second," and the like are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the description of the present invention, it should be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "disposed," "sleeved/connected," "connected," and the like are to be construed broadly, e.g., "connected," which may 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.

Example 1:

please refer to fig. 1-4, a rubber coiled material splicing apparatus, including left patch 1 and right patch 2 arranged on the left and right, left patch 1 and right patch 2 are respectively connected with a pair of external rubber coiled materials, bonding surface layer 12 is attached to one side of left patch 1 and right patch 2 connected with a pair of rubber coiled materials, splice plate 4 and bonding material storage plate 5 are respectively arranged on the opposite side walls of left patch 1 and right patch 2, splice plate 4 and bonding material storage plate 5 are movably embedded and connected in a matching manner, sealing plate 3 sleeved with the outside of bonding material storage plate 5 is fixedly arranged on the end wall of right patch 2 close to one side of left patch 1, a filling cavity corresponding to splice plate 4 is arranged inside bonding material storage plate 5, bonding granule bag 11 is filled inside the filling cavity, infiltration material cavities respectively communicated with splice plate 4 and bonding material storage plate 5 are arranged inside left patch 1 and right patch 2, two infiltration material cavities are respectively communicated with a pair of bonding surface layer 12, in an initial state, splice plate 4 is abutted against the outside of bonding material storage plate 5.

Referring to fig. 4 and 6, a plurality of adhesive particle bags 11 located in the adhesive material storage plate 5 include an outer expansion bag film, an adhesive is filled inside the expansion bag film, a material guide cavity communicated with an inner material seepage cavity of the left patch 1 is formed inside the splice plate 4, one end of the material guide cavity connected with the material filling cavity and one end of the material filling cavity connected with an inner material seepage cavity of the right patch 2 are embedded with an extrusion material seepage layer, in an initial state, the left patch 1 and the right patch 2 are spaced and disconnected by the splice plate 4, when the adhesive device is installed, the left patch 1 and the right patch 2 are respectively abutted and attached to a pair of rubber rolls, the splicing adhesive columns 7 arranged at the outer ends of the left patch 1 and the right patch 2 are respectively inserted into the rubber rolls to achieve a preliminary positioning effect, the pair of rubber rolls approach to the middle, the splice plate 4 moves towards the adhesive material storage plate 5 and extrudes the adhesive particle bags 11, the adhesive particle bags 11 overflow after the adhesive particle bags are extruded and cracked, the adhesive moves towards both sides under the action of an extrusion force, the adhesive layers respectively permeate the seepage chambers, the two adhesive bag films and the two adhesive surface seepage chambers are respectively attached to two splice plates 12, and the adhesive film is tightly attached to the splice plate 5, thereby realizing the tight fit of the adhesive film, and the integral adhesive device, and the adhesive film, and the adhesive fiber storage plate is a sealing device.

In addition, what need supplement is, the extrusion permeable material layer adopts porous fiber material to make, it has fiber permeable layer 13 to all fill in two permeable material chambeies that control the setting and the guide intracavity, fiber permeable layer 13 adopts the fibre water conservancy diversion material to make, the binder that expands to both sides and overflow leads to bonding surface course 12 department under the porous water conservancy diversion effect of fiber permeable layer 13, and diffuse on bonding surface course 12 about high impact force, two bonding surface courses 12 are respectively attached and left paster 1, the reticular fiber cotton on the 2 outer end walls of right paster, the fibre thorn layer has been distributed on the terminal surface of reticular fiber cotton, bonding surface course 12 catches the binder, the fibre thorn layer that distributes more is favorable to improving the bonding effect between 112 and the rubber coiled material.

Referring to fig. 2-5, a pair of splicing adhesive columns 7 is fixedly inserted through the outer side walls of the left patch 1 and the right patch 2, the two pairs of splicing adhesive columns 7 are distributed in a vertically staggered manner, the opposite side walls of the left patch 1 and the right patch 2 are fixedly connected with insertion columns 6 corresponding to the two pairs of splicing adhesive columns 7, a pair of insertion columns 6 on the left patch 1 and a pair of splicing adhesive columns 7 connected to the right patch 2 are arranged in a one-to-one correspondence manner, a pair of insertion columns 6 on the right patch 2 and a pair of splicing adhesive columns 7 connected to the left patch 1 are arranged in a one-to-one correspondence manner, splicing grooves corresponding to the splicing adhesive columns 7 are formed in the opposite side walls of the pair of rubber rolls, one ends of the two pairs of insertion columns 6 far from the left patch 1 and the right patch 2 penetrate through the sealing plate 3 and are inserted into the inner ends of the splicing adhesive columns 7, a limiting body which is limited and abutted against the inner wall of the splicing bonding column 7 is arranged on the side wall of one end of the splicing bonding column 6, which is positioned in the splicing bonding column 7, a rubber puncture cone is movably embedded in one end of the splicing bonding column 7, which is far away from the splicing column 6, a bonding liquid 8 is filled between the rubber puncture cone and the limiting body, a seepage bonding hole 701 is arranged at the outer end part of the splicing bonding column 7, which is far away from the bonding liquid 8, a seepage bonding hole 701 is arranged, the bonding liquid 8 is stored in one end of the splicing bonding column 7, which is far away from the seepage bonding hole 701, by using the rubber puncture cone and the limiting body, when splicing is needed, the outer end of the splicing bonding column 7 is inserted in a splicing groove of a rubber coiled material, a left patch 1 and a right patch 2 are forcibly extruded, so that the inner end of the splicing column 6 is inserted in the splicing bonding column 7, the inner end of the splicing column 6 pushes the bonding liquid 8 and the rubber puncture cone to move to one side of the splicing bonding column 7, which is provided with the seepage bonding hole 701, the rubber puncture cone moves to one side of the seepage bonding hole 701, the bonding liquid 8 seeps outwards through the seeping bonding hole 701 and overflows between the splicing bonding column 7 and the splicing groove to realize mechanical fixed connection of the two.

Specifically, the spacing body is including linking up in splicing column 6 and being close to two elasticity spacing balls 601 of concatenation bonding post 7 one end, be connected through the arc extrusion pad between elasticity spacing ball 601 and the splicing column 6, the cladding has the elastic sealing pad between two elasticity spacing balls 601, concatenation bonding post 7 is close to and has offered the arc spacing groove corresponding with two elasticity spacing ball 601 positions on the inner wall of splicing column 6 one end, the cladding has the flexure strip on the inner end wall of arc spacing groove, at initial condition, the outer end of splicing column 6 extends to in concatenation bonding column 7, and buckle under the matching of elasticity spacing ball 601 and arc spacing groove, play preliminary limiting action to splicing column 6, so that splicing column 6 slides to splicing bonding column 7 outside, when the concatenation, only need to push left paster 1 and right paster 2 hard, make splicing column 6 expand to splice bonding column 7 internal extension, because elasticity spacing ball 601 links up the arc structure with arc spacing groove mutually, and elasticity spacing ball 601 is connected with splicing column 6 through the arc extrusion pad, inward compression effect has, when being used for splicing column 6, make splicing column 6 smooth and easy to push down splicing column bonding face.

The rubber puncture cone comprises a limit cone 9 movably connected to the inner end, one end, close to the splicing column 6, of the limit cone 9 is movably connected with the inner wall of the splicing bonding column 7 through a sealing layer, a puncture film connected to the inside of the splicing bonding column 7 is arranged at one end, far away from a connection layer, of the limit cone 9, a puncture hole matched with the limit cone 9 is formed in a splicing groove, the sealing layer abuts against one end, close to the seepage bonding hole 701, of the splicing bonding column 7, the outer end of the limit cone 9 abuts against the puncture film, the splicing column 6 is extruded into the splicing bonding column 7 through the sealing layer and the puncture film, the bonding liquid 8 is pushed to move to one side of the seepage bonding hole 701, in the process, the limit cone 9 is pushed to move to one side of the seepage bonding hole 701, the outer end of the limit cone 9 is inserted into the puncture bonding column 7, the puncture bonding hole is properly connected with the splicing column 701, and the splicing column 701 is properly connected with the seepage bonding liquid, and the splicing column 701, and the splicing groove is properly connected with the splicing column 701, and the seepage bonding liquid is further pushed to the splicing hole, and the splicing column 701, and the splicing column is properly connected with the splicing column, and the splicing column 701, and the seepage bonding liquid is properly connected with the splicing column.

Referring to fig. 1-4 and 6-7, a splicing method of a rubber coiled material splicing device comprises the following steps:

s1, firstly, a technician respectively attaches a left paster 1 and a right paster 2 to a pair of rubber coiled materials, and splicing bonding columns 7 on the outer ends of the left paster 1 and the right paster 2 respectively penetrate through splicing grooves formed in the rubber coiled materials to play a role in primary positioning;

s2, a pair of rubber coiled materials are drawn together and extruded towards the middle, so that the splicing plates 4 are extruded to the inner ends of the bonding storage plates 5, the splicing columns 6 are respectively extruded to the inner ends of the splicing bonding columns 7 corresponding to the positions of the splicing bonding columns, at the moment, the sealing plate 3 attached to one side of the right paster 2 is abutted against the left paster 1 to complete extrusion type sealing splicing, the thicknesses of the left paster 1, the right paster 2 and the sealing plate 3 can be set according to actual requirements, and the thicknesses of the left paster 1, the right paster 2 and the sealing plate 3 are 5-10CM;

s3, in the process of extrusion splicing, a plurality of adhesive particle bags 11 in the adhesive storage plate 5 are exploded to overflow an adhesive after being extruded, the adhesive flows and expands towards the surfaces, which are respectively attached to the rubber coiled materials, of the left patch 1 and the right patch 2 through the two material seepage cavities, so that the adhesive connection between the adhesive surface layer 12 and the rubber coiled materials is realized, meanwhile, the adhesive liquid 8 stored in the splicing adhesive column 7 moves towards one side of the material seepage adhesive hole 701 under the extrusion action of the splicing column 6, and the adhesive liquid 8 permeates into the gap between the surfaces, which are attached to the splicing adhesive column 7 and the splicing groove, through the material seepage adhesive hole 701, so that the mechanical connection between the splicing adhesive column 7 and the splicing groove is completed;

and S4, after the rubber rolls are spliced in a sealing mode, a layer of waterproof film 14 is connected to the spliced position of the pair of rubber rolls in a sealing mode, the waterproof film 14 covers the outer sides of the left patch 1 and the right patch 2, and the adhesive overflowing to the position of the adhesive surface layer 12 plays a role in adhering and adhering the waterproof film 14, so that the splicing of the pair of rubber rolls is completed.

The components used in the present invention are all standard components or components known to those skilled in the art, and the structure and principle thereof can be known to those skilled in the art through technical manuals or through routine experiments.

The above; but are merely preferred embodiments of the invention; the scope of the invention is not limited thereto; any person skilled in the art is within the technical scope of the present disclosure; the technical scheme and the improved concept of the invention are equally replaced or changed; are intended to be covered by the scope of the present invention.

Claims

1. The utility model provides a rubber coiled material splicing apparatus, includes left paster (1) and right paster (2) of controlling the setting, left side paster (1) docks the setting with external a pair of rubber coiled material respectively with right paster (2), its characterized in that: an adhesive surface layer (12) is attached to one surface of each of the left patch (1) and the right patch (2) which are in butt joint with the pair of rubber coiled materials, splicing plates (4) and adhesive material storage plates (5) are respectively arranged on opposite side walls of the left patch (1) and the right patch (2), the splicing plates (4) and the adhesive material storage plates (5) are matched, movably embedded and connected, sealing plates (3) sleeved with the outer sides of the adhesive material storage plates (5) are fixedly arranged on end walls of the right patch (2) close to one side of the left patch (1), filling cavities corresponding to the splicing plates (4) in position are formed in the adhesive material storage plates (5), adhesive particle capsules (11) are filled in the filling cavities, infiltration material cavities respectively communicated with the splicing plates (4) and the adhesive material storage plates (5) are formed in the left patch (1) and the right patch (2), and the two infiltration material cavities are respectively communicated with the pair of adhesive surface layers (12);

the outer side walls of the left patch (1) and the right patch (2) are fixedly penetrated and embedded with a pair of splicing bonding columns (7) and two pairs of splicing bonding columns (7) in a vertically staggered manner, the opposite side walls of the left patch (1) and the right patch (2) are fixedly connected with splicing columns (6) corresponding to the two pairs of splicing bonding columns (7) in position, one pair of splicing grooves corresponding to the splicing bonding columns (7) in position are formed in the opposite side walls of the rubber coiled material, one ends, far away from the left patch (1) and the right patch (2), of the two pairs of splicing columns (6) penetrate through the sealing plate (3) and are embedded in the inner ends of the splicing columns (7), the splicing columns (6) are located on the inner side wall of one end, located inside the splicing bonding columns (7), of the limiting bodies which are in limited and offset with the inner wall of the splicing bonding columns (7), one ends, far away from the splicing columns (6), of the splicing columns (7) are movably embedded with rubber piercing cones, bonding liquid (8) is filled between the rubber piercing cones and the limiting bodies, and the bonding liquid (701) is kept away from the outer end of the bonding columns (7).

2. The rubber coil splicing apparatus of claim 1, wherein: the plurality of bonded particle capsules (11) located within the bonded reservoir plate (5) each comprise a burst capsule film located on the outside, the interior of which is filled with a bonding agent.

3. The rubber roll splicing apparatus according to claim 2, wherein: the inside of splice plate (4) is seted up the guide chamber that is linked together with the inside infiltration material chamber of left paster (1), the one end that guide chamber and packing chamber linked together and packing chamber and right paster (2) interior infiltration material chamber link up one end mutually all inlays to establish and installs the extrusion infiltration material layer.

4. A rubber web splicing apparatus according to claim 3 wherein: the extrusion infiltration layer is made of porous fiber materials, the infiltration cavities and the guide cavities which are arranged on the left side and the right side are filled with fiber permeation layers (13), and the fiber permeation layers (13) are made of fiber guide materials.

5. The rubber coil splicing device according to claim 4, wherein: the two bonding surface layers (12) are respectively mesh cellucotton attached to the outer end walls of the left patch (1) and the right patch (2), and fiber thorn layers are distributed on the end faces of the mesh cellucotton.

6. The rubber coil splicing apparatus of claim 1, wherein: the limiting body comprises two elastic limiting balls (601) connected to one end, close to the splicing bonding column (7), of the splicing bonding column (6), the elastic limiting balls (601) are connected with the splicing column (6) through arc-shaped extrusion pads, and elastic sealing gaskets are wrapped between the two elastic limiting balls (601).

7. The rubber coil splicing apparatus of claim 6 wherein: an arc-shaped limiting groove corresponding to the positions of the two elastic limiting balls (601) is formed in the inner wall, close to one end of the splicing bonding column (7) and the splicing column (6), of the inner wall, and elastic pieces are wrapped on the inner end wall of the arc-shaped limiting groove.

8. The rubber coil splicing apparatus of claim 7 wherein: rubber puncture awl links up in inner spacing awl (9) including the activity, spacing awl (9) are close to the one end of grafting post (6) and pass through the sealing layer and splice bonding post (7) inner wall looks activity link up, the one end that linking layer was kept away from in spacing awl (9) is equipped with and links up in the inside puncture membrane of splicing bonding post (7), set up in the splice groove with spacing awl (9) assorted puncture hole.

9. The rubber roll splicing apparatus according to claim 8, wherein: the sealing layer is arranged at one end, close to the material seepage bonding hole (701), of the splicing bonding column (7) in a propping mode, and the outer end of the limiting cone (9) props against the puncture membrane.

10. A method of splicing rubber rolls using the rubber roll splicing apparatus according to any one of claims 1 to 9, wherein: the method comprises the following steps:

s1, firstly, respectively attaching a left patch (1) and a right patch (2) to a pair of rubber coiled materials by a technician, and respectively inserting splicing bonding columns (7) on the outer ends of the left patch (1) and the right patch (2) into splicing grooves in the rubber coiled materials in a penetrating manner to play a role in primary positioning;

s2, the pair of rubber coiled materials are drawn together and extruded towards the middle, so that the splicing plates (4) are extruded to the inner ends of the bonding storage plates (5), the plurality of splicing columns (6) are respectively extruded to the inner ends of the splicing bonding columns (7) corresponding to the splicing storage plates in position, and at the moment, the sealing plate (3) attached to one side of the right patch (2) is abutted against the left patch (1) to complete extrusion type sealing splicing;

s3, in the extrusion splicing process, a plurality of adhesive particle bags (11) in the adhesive storage plate (5) are exploded to overflow an adhesive after being extruded, the adhesive flows and expands towards the surfaces, which are respectively attached to the left patch (1) and the right patch (2) through two seepage cavities and the rubber coiled material, so that the adhesive connection between the adhesive surface layer (12) and the rubber coiled material is realized, meanwhile, the adhesive liquid (8) stored in the splicing bonding column (7) moves towards one side of the seepage bonding hole (701) under the extrusion action of the splicing column (6), the adhesive liquid (8) permeates into the gap between the splicing bonding column (7) and the splicing groove connecting surface through the seepage bonding hole (701), and the mechanical connection between the splicing column (7) and the splicing groove is completed;

and S4, after sealed splicing, a waterproof film (14) is connected to the spliced part of the pair of rubber rolls in a sealing mode, the waterproof film (14) covers the outer sides of the left patch (1) and the right patch (2), and the adhesive overflowing to the bonding surface layer (12) plays a role in bonding and adhering the waterproof film (14), so that the splicing of the pair of rubber rolls is completed.