CN110281636A - A kind of blanching component for anti-skidding layer of silica gel in conjunction with hull bottom socks - Google Patents

Abstract

The invention discloses a kind of blanching components for anti-skidding layer of silica gel in conjunction with hull bottom socks, it is successively set on blowing band membranous disc, hot pressure mechanism and material receiving roller on connection grillage including connection grillage and along material strip film transmission direction, is provided with material strip film driving mechanism between blowing band membranous disc and hot pressure mechanism and/or between hot pressure mechanism and material receiving roller；Hot pressure mechanism includes upper holder block and lower lock block；Material strip film is in hot pressure mechanism position successively from the second guide roller, the second material strip film strain roll, upper holder block pan feeding guide roller, upper holder block discharging guide roller, the first material strip film strain roll, the transmission of the first guide roller, it is hot pressure section, the length of hot pressure section station when the length that upper holder block is located at the top station is greater than upper holder block and lower lock block cooperates in the material strip film of above-mentioned hot pressure mechanism location transmission.When the above-mentioned blanching component thermoprint with hull bottom socks ining conjunction with for anti-skidding layer of silica gel, by the material strip film of hot pressure in relaxation state, in the anti-skidding silica gel thermoprint to object to be printed on material strip film smoothly.

Description

A kind of blanching component for anti-skidding layer of silica gel in conjunction with hull bottom socks

Technical field

The present invention relates to a kind of blanching components for anti-skidding layer of silica gel in conjunction with hull bottom socks.

Background technique

Existing hull bottom socks fall off when dressing in order to prevent, silica gel can be arranged in the position of socks body and heel rear-face contact Layer, but existing layer of silica gel is such apparatus and process land occupation by layer of silica gel in conjunction with socks body by way of silk-screen printing Area is big, and waste material is more, and there are biggish pollution, electricity consumption consumption is huge.Simultaneously as the limitation of silk-screen printing, layer of silica gel Thickness it is thicker, cost is high.The prior art is badly in need of a kind of small in size, and easy to operate, waste material is few, and layer of silica gel is thin to be used for Blanching component of the anti-skidding layer of silica gel in conjunction with hull bottom socks.

Summary of the invention

It is an object of the invention to overcome defect existing in the prior art, a kind of small in size, easy to operate, waste material is provided Less, what layer of silica gel was thin is used for blanching component of the anti-skidding layer of silica gel in conjunction with hull bottom socks.

In order to realize the above technical effect, the technical solution of the present invention is as follows: a kind of be used for anti-skidding layer of silica gel in conjunction with hull bottom socks Blanching component, it is characterised in that: including connection grillage and along material strip film transmission direction be successively set on connection grillage on putting Material strip membranous disc, hot pressure mechanism and material receiving roller, between blowing band membranous disc and the hot pressure mechanism and/or the hot pressure mechanism with Material strip film driving mechanism is provided between the material receiving roller；

The hot pressure mechanism includes the upper holder block and lower lock block of mutual cooperation hot pressure, and the upper end of the upper holder block and hot pressure drive gas The piston rod of cylinder connects, and the upper holder block is up and down reciprocatingly run under the driving of hot pressure driving cylinder；

Be also connected with strain roll connecting plate on the upper holder block, the pan feeding lateral edge of the strain roll connecting plate material strip film transmission side To being disposed with the second material strip film strain roll, upper holder block pan feeding guide roller；The exit side of strain roll connecting plate is along material strip film Transmission direction is disposed with upper holder block discharging guide roller, the first material strip film strain roll；

The pan feeding side of the second material strip film strain roll is provided with the second guide roller, the exit side of the first material strip film strain roll It is provided with the first guide roller；First guide roller and the second guide roller are arranged on connection grillage；

Material strip film hot pressure mechanism position successively from the second guide roller, the second material strip film strain roll, upper holder block pan feeding guide roller, on Briquetting discharging guide roller, the first material strip film strain roll, the transmission of the first guide roller, in the material strip film of above-mentioned hot pressure mechanism location transmission For hot pressure section, hot pressure section station when the length that upper holder block is located at the top station is greater than upper holder block and lower lock block cooperates Length.

By using component described herein, layer of silica gel can be transferred on socks body by way of thermal transfer, this The equipment of sample, small in size, easy to operate, waste material is few, and layer of silica gel can accomplish it is very thin.

It is in natural relaxation state by thermoprint part material strip film when hot pressure, the anti-skidding silica gel in thermoprint to object to be printed is smoothly complete Beauty；The anti-skidding silica gel surrounding fold in thermoprint to object to be printed is avoided, beauty is influenced.

Preferred technical solution is that the distance between the second guide roller and the second material strip film strain roll are second distance, the The distance between one guide roller and the first material strip film strain roll be first distance, the sum of first distance and second distance be buffer away from From the length of buffer distance station when the length that upper holder block is located at the top station is greater than upper holder block and lower lock block cooperates Degree.Such design can guarantee that material strip is in relaxation state when upper holder block and lower lock block cooperate.

Preferred technical solution is that the first material strip film strain roll is located at the oblique upper of first guide roller；Second Material strip film strain roll is located at the oblique upper of second guide roller.Such design is advanced optimized to scheme.

Preferred technical solution is that the first material strip film strain roll and the first guide roller difference in height are greater than the second material Difference in height with film strain roll Yu second guide roller；Second distance is located at the length and upper pressure of the top station in upper holder block The length of station is identical when block cooperates with lower lock block；First distance is greater than upper holder block in the length that upper holder block is located at the top station The length of station when cooperating with lower lock block.Such Position Design, in upper holder block folding process, the material strip of upper holder block pan feeding side There is no the elastic variation of length, and the material strip of upper holder block exit side slightly loosens, and can just obtain expected effect.

Preferred technical solution is that the strain roll connecting plate is provided with the first long hole and the second long hole, and described first is long Hole is located at the exit side of the strain roll connecting plate, and the lower edge of first long hole is higher than first guide roller, and described first Material strip film strain roll and first long hole mutually adjust cooperation, and the first material strip film strain roll includes the first roll shaft, and described the One roll shaft is arranged in first long hole, and first long hole is provided with first with the matching ends of first roll shaft The outer end face of locking nut, the inner face of first roll shaft and first long hole limits cooperation；

Second long hole is located at the pan feeding side of the strain roll connecting plate, and the upper limb of second long hole, which is higher than described second, leads To roller, the lower edge of second long hole is lower than second guide roller, the second material strip film strain roll and second long hole Cooperation is mutually adjusted, the second material strip film strain roll includes the second roll shaft, and second roll shaft is arranged in second long hole, Second long hole is provided with the second locking nut with the matching ends of second roll shaft, the inner end of second roll shaft The limit cooperation of the outer end face of face and second long hole.Such design, can the rate of tension according to required for material strip film, adjust The position of material strip film strain roll reaches demand.

Preferred technical solution is that the lower lock block is located at the lower section of the upper holder block, the lower lock block and the connection Grillage connection；

The upper limb of the lower lock block offers socks checkpost slot and spherical bar, and the spherical shape bar is located at the lower section of the socks checkpost slot, The socks checkpost slot is disposed opposite to each other with the spherical bar, and the socks checkpost slot or the spherical bar are positioned at remote with the connection grillage From side.Such design, the socks checkpost of ship socks enter socks checkpost slot, and the heel of ship socks is placed on spherical bar, socks checkpost slot with And the hot pressure position that spherical bar can quickly need ship socks positions, and ship socks will not be worn and hook silk by spherical bar.

Preferred technical solution be further include lower lock block pedestal, the connection grillage is vertically arranged, and bottom is connected with water Flat substrate, the lower lock block pedestal are connect with the substrate rotating, are provided under no less than two on the lower lock block pedestal Briquetting.More lower lock blocks are arranged in design in this way, put, press, receiving, phase inversion cooperation, greatly improving work efficiency.

Preferred technical solution is, the bottom surface of the lower lock block pedestal and the top surface of the substrate be respectively arranged with convex block and Groove, the convex block and groove match.

Preferred technical solution is, the corresponding base bottom surface of each lower lock block is provided with elastic lock pillar；The base The top surface of plate is provided with column, and the column is located at the lower section of the working position of the lower lock block, the upper surface setting of the column There is sliding slot, upward, the trend of the sliding slot is adapted to the notch of the sliding slot with the motion profile of the elastic lock pillar, the sliding slot Be provided centrally with the elastic lock pillar pockets matched with elastic lock pillar.Design in this way, when lower lock block rotates to When the underface of upper holder block, user can experience damping, quickly position lower lock block and reach working position.

Preferred technical solution is to be provided with cushion on the hot pressure pedestal.Design in this way, can be effective Object to be printed is protected to be not pressurised damage deformation.

Preferred technical solution is that the material of the cushion is elastic silica gel sponge.

Preferred technical solution is that material strip film driving mechanism, institute are provided between the hot pressure mechanism and the material receiving roller It states material strip film driving mechanism to include driving motor, driven roller and compress roller mechanism, the driving motor is fixed on the connecting plate The rear plate face of frame；The roll shaft of the driven roller and the driving motor are drivingly connected；

The compression roller mechanism includes that pressing roller, compression roller support and pressure roller drive cylinder, the pressing roller are rotationally connected with In the compression roller support, the drive rod of the end compressed in roller support far from driven roller and the pressure roller drive cylinder Connection, the pressure roller drive cylinder are fixed on the connection grillage；

The pressing roller compresses or separates cooperation with the driven roller under the driving of the pressure roller drive cylinder.In this way Design, can be cooperated by pressing roller and driven roller by material strip film compacting, and conveyed by driven roller rotate driving material strip film； The adjustable rate of tension of pressure roller drive cylinder.

Preferred technical solution is that the upper holder block is the assembly of electric heating block and anti-skidding silica gel layout model. It is convenient for when hot stamping in this way, the layer of silica gel overlayed on material strip film is melted according to layout and cuts off and is transferred to socks body On, the silica gel of layout shape is only presented on socks body.

Preferred technical solution is, the blowing band membranous disc includes turntable and shaft, the turntable and the axis friction Rotation.Such design, with certain damping force when discharging, in hot pressure, material strip film will not be with blowing turning with membranous disc It moves inertia and discharges.

Preferred technical solution is that the material receiving roller is driven by driving part.Power biography may be implemented in such design Defeated, material receiving roller and driven roller are drivingly connected by synchronous belt.

Preferred technical solution is the material receiving roller sliding rotation.The material receiving roller includes third roll shaft, spring, press Block and axle sleeve, the circumferential surface of the third roll shaft are provided with press block holding tank, and the spring is located in the press block holding tank, The bottom surface of the press block is contacted with the spring, and the top surface of the press block is convex, the top surface of the press block and institute The inner surface for stating axle sleeve contacts, in the axle sleeve socket and the third roll shaft.Such design, spring are constantly in compression shape The elastic force of state, spring mutually presses the inner surface for pressing block and axle sleeve, by pressing the stiction of block and axle sleeve inner surface, the The rotation of three roll shafts drives axle sleeve rotation, when the rotatory force that sleeve outer surface is subject to is greater than the static friction of press block and axle sleeve inner surface When power, axle sleeve autorotation is avoided and is driven because of thickeing for material receiving roller with material strip film until reaching next equalization point Roller is asynchronous.

Preferred technical solution be provided between the blowing band membranous disc and second guide roller First Transition roller and Second transition roller；Third transition roller and the 4th transition roller are provided between first guide roller and the material strip film driven roller； The 5th transition roller and the 6th transition roller are provided between the material strip film driven roller and the material receiving roller；The material strip film successively edge The First Transition roller, the second transition roller, the second guide roller, the second material strip film strain roll, upper holder block pan feeding guide roller, upper holder block Discharge guide roller, the first material strip film strain roll, the first guide roller, third transition roller, the 4th transition roller, material strip film driving mechanism, 5th transition roller and the conveying of the 6th transition roller.Such design, convenient for the transmission of material strip film.

The advantages and beneficial effects of the present invention are: the present invention is used for blanching component of the anti-skidding layer of silica gel in conjunction with hull bottom socks Structurally reasonable, the position by the way that material strip film strain roll is arranged is higher than guide roller, and when hot pressure, material strip film strain roll is synchronous with hot pressure block Push, material strip film length between material strip film strain roll and guide roller is reduced at this time, less material strip film be moved to upper holder block with It is in natural relaxation state by thermoprint part material strip film between material strip film strain roll, the anti-skidding silica gel in thermoprint to object to be printed is smooth It is perfect；Compared with prior art, the anti-skidding silica gel surrounding fold in thermoprint to object to be printed is avoided, beauty is influenced.

Detailed description of the invention

Fig. 1 is that structural schematic diagram of the present invention for blanching assembly embodiment 1 of the anti-skidding layer of silica gel in conjunction with hull bottom socks (saves Slightly material strip film)；

Fig. 2 is that structural schematic diagram of the present invention for blanching assembly embodiment 2 of the anti-skidding layer of silica gel in conjunction with hull bottom socks (omits material Band film)；

Fig. 3 is structural schematic diagram (another view that the present invention is used for blanching assembly embodiment 2 of the anti-skidding layer of silica gel in conjunction with hull bottom socks Material strip film is omitted at angle)；

Fig. 4 is the front view that the present invention is used for blanching assembly embodiment 2 of the anti-skidding layer of silica gel in conjunction with hull bottom socks；

Fig. 5 is structure enlargement diagram at A in Fig. 4；

Fig. 6 is the rearview that the present invention is used for blanching assembly embodiment 2 of the anti-skidding layer of silica gel in conjunction with hull bottom socks；

Fig. 7 is the structure sectional view that the present invention is used for blanching component material strip film strain roll of the anti-skidding layer of silica gel in conjunction with hull bottom socks；

Fig. 8 is the structure sectional view that the present invention is used for blanching component material receiving roller of the anti-skidding layer of silica gel in conjunction with hull bottom socks；

Fig. 9 is the schematic enlarged-scale view that the present invention is used for blanching component column of the anti-skidding layer of silica gel in conjunction with hull bottom socks；

Figure 10 is structural schematic diagram (anti-skidding silica gel interruption) of the anti-skidding silica gel material of the present invention with film；

Figure 11 is the effect picture of material strip film anti-skidding silica gel of thermoprint under tight state；

Figure 12 is the effect picture that the present invention is used for blanching component thermoprint anti-skidding silica gel of the anti-skidding layer of silica gel in conjunction with hull bottom socks；

Structural schematic diagram of Figure 13 anti-skidding silica gel material of the present invention with film (anti-skidding silica gel is continuous).

In figure: 1, connecting grillage；11, column；111, sliding slot；112, elastic lock pillar pockets；12, substrate；2, it drives Motor；31, lower lock block；311, socks checkpost slot；312, spherical bar；313, elastic foam pad；32, lower lock block pedestal；321, elastic Lock pillar；4, blowing band membranous disc；41, turntable；42, shaft；5, strain roll connecting plate；51, the first material strip film strain roll；511 first Roll shaft；512, the first locking nut；52, the first long hole；53, the second material strip film strain roll；531, the second roll shaft；532, the second lock Tight nut；54, the second long hole；55, upper holder block discharging guide roller；56, upper holder block pan feeding guide roller；6, hot pressure mechanism；61, hot pressure Drive cylinder；611 hot pressures drive switching cylinder；62, upper holder block；71, the first guide roller；72, the second guide roller；8, material strip film drives Motivation structure；81, driven roller；82, pressing roller；83, roller support is compressed；84, pressure roller drive cylinder；9, material receiving roller；91, third roller Axis；911, limiting groove；92, spring；93, housing；100, hot pressure pattern block；A, First Transition roller；B, the second transition roller；C, Three transition rollers；D, the 4th transition roller；E, the 5th transition roller；F, the 6th transition roller；G, anti-skidding silica gel；G1, fold；H, material strip film.

Specific embodiment

With reference to the accompanying drawings and examples, further description of the specific embodiments of the present invention.Following embodiment is only For clearly illustrating technical solution of the present invention, and not intended to limit the protection scope of the present invention.

Embodiment 1

As shown in Figure 1, being used for blanching component of the anti-skidding layer of silica gel in conjunction with hull bottom socks, including connects grillage 1 and passed along material strip film Defeated direction is successively set on blowing band membranous disc 4, hot pressure mechanism 6, material strip film driving mechanism 8 and material receiving roller 9 on connection grillage 1；

Hot pressure mechanism 6 includes the upper holder block 62 and lower lock block 31 of mutual cooperation hot pressure, and the upper end of upper holder block 62 and hot pressure drive gas The piston rod of cylinder 61 connects, and upper holder block 62 is up and down reciprocatingly run under the driving of hot pressure driving cylinder 61；

Be also connected with strain roll connecting plate 5 on upper holder block 62, the pan feeding lateral edge of strain roll connecting plate 5 material strip film transmission direction according to It is secondary to be provided with the second material strip film strain roll 53, upper holder block pan feeding guide roller 56；The exit side of strain roll connecting plate 5 is along material strip film Transmission direction is disposed with upper holder block discharging guide roller 55, the first material strip film strain roll 51；

The pan feeding side of second material strip film strain roll 53 is provided with the second guide roller 72, and the exit side of the first material strip film strain roll 51 is set It is equipped with the first guide roller 71；First guide roller 71 and the second guide roller 72 are arranged on connection grillage；

Material strip film is in 6 position of hot pressure mechanism successively from the second guide roller 72, the second material strip film strain roll 53, upper holder block pan feeding guiding Roller 56, upper holder block discharging guide roller 55, the first material strip film strain roll 51, the transmission of the first guide roller 71, in 6, above-mentioned hot pressure mechanism The material strip film for setting transmission is hot pressure section, and hot pressure section is greater than upper holder block 62 in the length that upper holder block 62 is located at the top station and pushes The length of station when block 31 cooperates.Hot pressure section is referred to from the second guide roller 72, the second material strip film strain roll 53, upper holder block pan feeding The material strip film that guide roller 56, upper holder block discharging guide roller 55, the first material strip film strain roll 51, the first guide roller 71 transmit, herein Length refer to material strip in the length under tensioned state.

The distance between second guide roller 72 and the second material strip film strain roll 53 are second distance, the first guide roller 71 and the The distance between one material strip film strain roll 51 be first distance, the sum of first distance and second distance be buffer distance, buffer away from The length of station when being greater than upper holder block 62 and the cooperation of lower lock block 31 from the length for being located at the top station in upper holder block 62.

First material strip film strain roll 51 is located at the oblique upper of the first guide roller 71；Second material strip film strain roll 53 is located at second The oblique upper of guide roller 72.

First material strip film strain roll 51 is greater than the second material strip film strain roll 53 with 71 difference in height of the first guide roller leads with second To the difference in height of roller 72；Second distance is located at the length of the top station in upper holder block 62 and upper holder block 62 and lower lock block 31 cooperate When station length it is identical；First distance is greater than upper holder block 62 and lower lock block 31 in the length that upper holder block 62 is located at the top station The length of station when cooperation.

Strain roll connecting plate 5 is provided with the first long hole 52 and the second long hole 54, and the first long hole 52 is located at strain roll connecting plate 5 Exit side, the lower edge of the first long hole 52 is higher than the first guide roller 71,52 phase tune of the first material strip film strain roll 51 and the first long hole Section cooperation, the first material strip film strain roll 51 include the first roll shaft 511, and the first roll shaft 511 is arranged in the first long hole 52, and first is long Hole 52 is provided with the first locking nut 512 with the matching ends of the first roll shaft 511, the inner face of the first roll shaft 511 and The outer end face of one long hole 52 limits cooperation；

Second long hole 54 is located at the pan feeding side of strain roll connecting plate 5, and the upper limb of the second long hole 54 is higher than the second guide roller 72, and second The lower edge of long hole 54 is lower than the second guide roller 72, and the second material strip film strain roll 53 mutually adjusts cooperation, the second material with the second long hole 54 Band film strain roll 53 includes the second roll shaft 531, and the second roll shaft 531 is arranged in the second long hole 54, the second long hole 54 be provided with Outside second locking nut 532 of the matching ends of the second roll shaft 531, the inner face of the second roll shaft 531 and the second long hole 54 End face limit cooperation.

Material strip film driving mechanism 8 includes driving motor 2, driven roller 81 and compresses roller mechanism, and driving motor 2 is fixed on connection The rear plate face of grillage 1；The roll shaft and driving motor 2 of driven roller 81 are drivingly connected；

Compressing roller mechanism includes that pressing roller 82, compression roller support 83 and pressure roller drive cylinder 84, pressing roller 82 are rotationally connected with It compresses in roller support 83, the drive rod for compressing end and pressure roller drive cylinder 84 in roller support 83 far from driven roller 81 connects It connects, pressure roller drive cylinder 84 is fixed on connection grillage 1；

Pressing roller 82 compresses or separates cooperation with driven roller 81 under the driving of pressure roller drive cylinder 84.

Blowing band membranous disc 4 includes turntable 41 and shaft 42, turntable 41 and 42 frictional rotation of shaft.

The sliding rotation of material receiving roller 9；Material receiving roller 9 includes third roll shaft 91, spring 92, press block 94 and axle sleeve 93, third roller The circumferential surface of axis 91 is provided with press block holding tank, and spring 92 is located in press block holding tank, presses bottom surface and the spring 92 of block 94 Contact, the top surface of press block 94 are convex, and the top surface of press block 94 is contacted with the inner surface of axle sleeve 93, the socket of axle sleeve 93 and the On three roll shafts 91.Since third roll shaft 91 and driven roller 81 are driven by synchronous belt, later period, material volume winding are wound in material receiving roller 9 On axle sleeve 93, linear velocity is greater than driven roller 81, needs axle sleeve 93 to skid relative to third roll shaft 91 and carrys out anti-stopping materials strip tearing.? Under normal condition, third roll shaft 91 and axle sleeve 93 rotate synchronously under the action of spring 92, are greater than press block in the pulling force of material strip In the case where the stiction of 94 pairs of axle sleeves 93, axle sleeve 93 can be rotated relative to third roll shaft 91 and be skidded, to balance linear differential.

First Transition roller a and the second transition roller b are provided between blowing band membranous disc 4 and the second guide roller 72；First guiding Third transition roller c and the 4th transition roller d are provided between roller 71 and material strip film driven roller 81；Material strip film driven roller 81 and material receiving roller The 5th transition roller e and the 6th transition roller f is provided between 9；Material strip film is successively along First Transition roller a, the second transition roller b, second Guide roller 72, the second material strip film strain roll 53, upper holder block pan feeding guide roller 56, upper holder block discharging guide roller 55, the first material strip film Strain roll 51, the first guide roller 71, third transition roller c, the 4th transition roller d, material strip film driving mechanism 8, the 5th transition roller e and 6th transition roller f conveying.

Connecting grillage 1 includes substrate 12, and lower lock block 31 is located at the lower section of upper holder block 62, lower lock block 31 and the fixed company of substrate 12 It connects；

The upper limb of lower lock block 31 offers socks checkpost slot 311 and spherical bar 312, and spherical bar 312 is located under socks checkpost slot 311 Side, socks checkpost slot 311 are disposed opposite to each other with spherical bar 312, and spherical bar 312 is located at the side separate with grillage 1 is connect.

The upper surface of lower lock block 31 is provided with elastic silica gel sponge 317.

Upper holder block 62 is electric heating block.

When in use, the demand according to anti-skidding silica gel material with film rate of tension adjusts the first material strip film strain roll 51 and second The position of material strip film strain roll 53 and locking, anti-skidding silica gel material band film are stored on blowing band membranous disc 4, blowing band membranous disc 4 and even Fishplate bar frame 1 is rotatablely connected, and blowing band 42 outer friction of membranous disc shaft is rotatably connected to external storage disk, and anti-skidding silica gel material band film is wound on On external storage disk, when discharging in this way, there is certain frictional force, in hot pressure, anti-skidding silica gel will not be as blowing be with membranous disc 4 Rotator inertia and discharge；

Since driven roller 81 and driving part are drivingly connected, when driven roller 81 rotates, it will drive material strip film and exported to exit side To material receiving roller 9；

It may be noted that pressure roller drive cylinder 84 exports different pressure, and then adjusts driving according to the needs for clamping rate of tension Pressure between roller 81 and pressing roller 82.

The socks checkpost of ship socks turns to spherical 312 face of bar after entering socks checkpost slot 311, and the heel of ship socks is socketed on spherical bar just On 312, the place to be printed (inner surface) of ship socks is on lower lock block 31 at this time.Since socks body has certain elasticity, in socks Checkpost slot 311 and socks checkpost position, sock heel can be temporarily fixed on lower lock block under 312 clamping matching of spherical bar.

Hot pressure driving switch 611 is pressed, hot pressure drives cylinder 61 that upper holder block 62 is driven to push, is fixed on upper holder block 62 Strain roll connecting plate 5 is synchronous down, at this time the first material strip film strain roll 51 from the position for being higher than the first guide roller 71 move down into Near the neat high height and position of first guide roller 71, the material strip film length between the first material strip film strain roll 51 and the first guide roller 71 It reduces, the material strip film transfer of reduction is between upper holder block pan feeding guide roller 56 and the first material strip film strain roll 51, at this time by hot pressure Material strip film in loosening shape, in the smooth thermoprint to ship socks of the anti-skidding silica gel on material strip film；After hot pressure is complete, material strip film is with upper pressure Block 62 synchronizes when moving up, natural to separate with ship socks, completes a hot pressure, processor controls driving part and runs again, under One circulation.

Since material strip film h is under tight state, layer of silica gel g(is flexible) it cannot keep loose flatness, in layer of silica gel g Edge have fold, if layer of silica gel is in the case where material strip film h is in tight state by thermal transfer, layer of silica gel g can be generated Fold, such as Figure 11；Only material strip film h in a relaxed state, layer of silica gel g could natural relaxation, after thermal transfer, just understand smooth.

For layer of silica gel g and material strip film h structure tool there are two types of, first, as shown in figure 13, layer of silica gel g is on material strip film h It is that continuously, in this case, the bottom of upper holder block 62 has the hot pressure pattern block 100 of protrusion, in thermal transfer, hot pressure figure Case block 100 is contacted with material strip film h, and transfers heat to layer of silica gel g by material strip film h, so that indirect with hot pressure pattern block 100 Cooperate the region layer of silica gel g of contact by thermal transfer, by the region layer of silica gel g of thermal transfer and 100 shape adaptation of hot pressure pattern block.

Shown in second, Figure 10, layer of silica gel g be on material strip film h it is intermittent, in this case, the bottom of upper holder block 62 It can be smooth, in thermal transfer, 62 bottom of upper holder block is contacted with material strip film h, and transfers heat to silicon by material strip film h Glue-line g, the region layer of silica gel g are depended on the shape in the region layer of silica gel g itself by the layer of silica gel g region shape of thermal transfer by thermal transfer Shape.Comparatively, material is more saved second.

Embodiment 2

As shown in figures 2-6, advanced optimizing to embodiment 1: further including lower lock block pedestal 32, lower lock block pedestal 32 and substrate 12 It is rotatablely connected, arranged symmetrically on lower lock block pedestal 32 there are four lower lock blocks 31.

Four corresponding base bottom surfaces of lower lock block 31 are provided with elastic lock pillar 321, and elastic lock pillar 321 is standard component steel ball Tightening spring ball headpin plug；The top surface of substrate 12 is provided with column 11, and column 11 is located at the lower section of the working position of lower lock block 31, stands The upper surface of column 11 is provided with the sliding slot 111 of the motion profile along elastic lock pillar 321, and sliding slot 111 is provided centrally with and elasticity The elastic lock pillar pockets 112 that lock pillar 321 matches.

In use, ship socks are socketed on lower lock block 31 by operator by the positioning of socks checkpost slot 311 and spherical bar 312, Rotating down pressing block pedestal 32, when that will rotate to 62 lower section of upper holder block by boiling hot ship socks, elastic lock pillar 321 blocks along sliding slot 111 Enter in elastic lock pillar pockets 112, operator can obviously experience damping detent, illustrate that lower lock block arrived work at this time Position, stops rotating, and presses hot pressure driving switching cylinder 611, when ship socks are by hot pressure, operator can be by lower lock block 31 in front The ship socks of the good anti-skidding silica gel of thermoprint are packed up, and put on next ship socks to be printed, and set pressure, is received, phase inversion cooperation, are substantially increased Working efficiency.

Preferably, lower lock block pedestal 32 also connects with servo motor drive control, lower lock block pedestal 32 and the rotation of substrate 12 It connects, drive shaft is arranged in 12 bottom of substrate, and drive shaft lower end and servo motor are drivingly connected, drive shaft upper end and lower lock block pedestal 32 Center is drivingly connected, and such lower lock block pedestal 32 can be carried out by rotational angle of the servo motor to lower lock block pedestal 32 Control can will can be manually rotated lower lock block pedestal 32, and elastic lock pillar 321 and elastic 112 fit structure of lock pillar pockets can To save, make machine operation more intelligent humanized, also in the scope of protection of the patent of the present invention.

In order to improve processing efficiency, the fit structure of upper holder block and lower lock block can a station be provided with two groups or Multiple groups.

The above is only a preferred embodiment of the present invention, it is noted that for the ordinary skill people of the art For member, without departing from the technical principles of the invention, several improvements and modifications can also be made, these improvements and modifications Also it should be regarded as protection scope of the present invention.

Claims (10)

1. a kind of blanching component for anti-skidding layer of silica gel in conjunction with hull bottom socks, it is characterised in that: including connection grillage (1) and edge Material strip film transmission direction is successively set on blowing band membranous disc (4), hot pressure mechanism (6) and material receiving roller (9) in connection grillage (1), Between blowing band membranous disc (4) and the hot pressure mechanism (6) and/or between the hot pressure mechanism (6) and the material receiving roller (9) It is provided with material strip film driving mechanism (8)；

The hot pressure mechanism (6) includes the upper holder block (62) and lower lock block (31) of mutual cooperation hot pressure, the upper holder block (62) The piston rod of upper end and hot pressure driving cylinder (61) connect, the upper holder block (62) under the driving that hot pressure drives cylinder (61) on Lower reciprocal operation；

Be also connected with strain roll connecting plate (5) on the upper holder block (62), the pan feeding lateral edge of the strain roll connecting plate (5) material Band film transmission direction is disposed with the second material strip film strain roll (53), upper holder block pan feeding guide roller (56)；Strain roll connecting plate (5) exit side is disposed with upper holder block discharging guide roller (55), the first material strip film strain roll along material strip film transmission direction (51)；

The pan feeding side of the second material strip film strain roll (53) is provided with the second guide roller (72), the first material strip film strain roll (51) exit side is provided with the first guide roller (71)；First guide roller (71) and the second guide roller (72) company of being arranged at On fishplate bar frame (1)；

Material strip film successively enters from the second guide roller (72), the second material strip film strain roll (53), upper holder block in hot pressure mechanism (6) position Expect guide roller (56), upper holder block discharging guide roller (55), the first material strip film strain roll (51), the first guide roller (71) transmission, The material strip film of above-mentioned hot pressure mechanism (6) location transmission is hot pressure section, and the hot pressure section is located at the top station in upper holder block (62) Length be greater than the length of station when upper holder block (62) and lower lock block (31) cooperate.

2. according to claim 1 be used for blanching component of the anti-skidding layer of silica gel in conjunction with hull bottom socks, it is characterised in that: second The distance between guide roller (72) and the second material strip film strain roll (53) are second distance, the first guide roller (71) and the first material strip The distance between film strain roll (51) be first distance, the sum of first distance and second distance be buffer distance, it is described buffer away from From the length that the length for being located at the top station in upper holder block (62) is greater than station when upper holder block (62) and lower lock block (31) cooperate.

3. according to claim 2 be used for blanching component of the anti-skidding layer of silica gel in conjunction with hull bottom socks, it is characterised in that: described First material strip film strain roll (51) is located at the oblique upper of first guide roller (71)；Second material strip film strain roll (53) is located at institute State the oblique upper of the second guide roller (72).

4. according to claim 3 be used for blanching component of the anti-skidding layer of silica gel in conjunction with hull bottom socks, it is characterised in that: described First material strip film strain roll (51) and the first guide roller (71) difference in height be greater than the second material strip film strain roll (53) with it is described The difference in height of second guide roller (72)；Second distance upper holder block (62) be located at the top station length and upper holder block (62) with The length of station is identical when lower lock block (31) cooperates；First distance is greater than upper in the length that upper holder block (62) is located at the top station The length of station when briquetting (62) and lower lock block (31) cooperate.

5. according to claim 3 be used for blanching component of the anti-skidding layer of silica gel in conjunction with hull bottom socks, it is characterised in that: described Strain roll connecting plate (5) is provided with the first long hole (52) and the second long hole (54), and first long hole (52) is located at described elastic The lower edge of the exit side of roller connecting plate (5), first long hole (52) is higher than first guide roller (71), first material strip Film strain roll (51) mutually adjusts cooperation with first long hole (52), and the first material strip film strain roll (51) includes the first roll shaft (511), first roll shaft (511) is arranged in first long hole (52), first long hole (52) be provided with it is described The first locking nut (512) of the matching ends of first roll shaft (511), the inner face of first roll shaft (511) and described The outer end face of first long hole (52) limits cooperation；

Second long hole (54) is located at the pan feeding side of the strain roll connecting plate (5), and the upper limb of second long hole (54) is high It is lower than second guide roller (72), second material in the lower edge of second guide roller (72), second long hole (54) Band film strain roll (53) mutually adjusts cooperation with second long hole (54), and the second material strip film strain roll (53) includes the second roller Axis (531), second roll shaft (531) are arranged in second long hole (54), and second long hole (54) is provided with and institute State the second locking nut (532) of the matching ends of the second roll shaft (531), the inner face of second roll shaft (531) and institute State the outer end face limit cooperation of the second long hole (54).

6. according to claim 1 be used for blanching component of the anti-skidding layer of silica gel in conjunction with hull bottom socks, it is characterised in that: described Lower lock block (31) is located at the lower section of the upper holder block (62), and the lower lock block (31) and the connection grillage (1) connect；

The upper limb of the lower lock block (31) is provided with socks checkpost slot (311) and spherical bar (312), and the spherical shape bar (312) is located at The lower section of the socks checkpost slot (311), the socks checkpost slot (311) are disposed opposite to each other with the spherical bar (312), the socks checkpost Slot (311) or the spherical bar (312) are located at the side separate with connection grillage (1).

7. according to claim 6 be used for blanching component of the anti-skidding layer of silica gel in conjunction with hull bottom socks, it is characterised in that: also wrap It includes lower lock block pedestal (32), the connection grillage (1) is vertically arranged, and bottom is connected with horizontal substrate (12), the pushing Block pedestal (32) and the substrate (12) are rotatablely connected, and are provided with no less than two lower lock blocks on the lower lock block pedestal (32) (31).

8. according to claim 7 be used for blanching component of the anti-skidding layer of silica gel in conjunction with hull bottom socks, it is characterised in that: described The bottom surface of lower lock block pedestal (32) and the top surface of the substrate (12) are respectively arranged with convex block and groove, the convex block and groove phase Cooperation.

9. according to claim 8 be used for blanching component of the anti-skidding layer of silica gel in conjunction with hull bottom socks, it is characterised in that: each The corresponding base bottom surface of the lower lock block (31) is provided with elastic lock pillar (321)；The top surface of the substrate (12) is provided with vertical Column (11), the column (11) are located at the lower section of the working position of the lower lock block (31), the upper surface setting of the column (11) Have sliding slot (111), the notch of the sliding slot (111) upward, the trend of the sliding slot (111) and the elastic lock pillar (321) Motion profile adaptation, the sliding slot (111) are provided centrally with the elastic lock pillar pockets matched with elastic lock pillar (321) (112).

10. according to claim 6 be used for blanching component of the anti-skidding layer of silica gel in conjunction with hull bottom socks, it is characterised in that: institute The upper surface for stating lower lock block (31) is provided with cushion.