CN112450551A - Novel special bonding complete sets of preparation of living beings fibre sole - Google Patents

Abstract

A novel special bonding complete equipment for preparing biomass fiber soles comprises a coating bottom plate, support legs, roller side plates, a material conveying roller, a side protection plate, a front positioning mechanism, a rear pressing mechanism, a coating mechanism, a cleaning mechanism, a liquid collecting tank and a drying mechanism; the support legs are arranged on the bottom surface of the coating bottom plate, and each support leg is vertically and fixedly arranged with the coating bottom plate; the roller side plates are arranged on two sides of the material conveying hole; two ends of the material conveying roller are rotatably arranged with the roller side plate through bearings; the side guard plates are arranged on two sides of the material conveying hole; the front positioning mechanism is arranged at the bottom end of one side of the material conveying hole; each rear pressing mechanism is arranged at the bottom side of the coating bottom plate; the coating mechanism is arranged at one end of the surface of the coating bottom plate; the cleaning mechanism is arranged on one side of the top end of the coating mechanism; the liquid collecting tank is arranged at the bottom end of the coating bottom plate; the drying mechanism is arranged at one end of the coating bottom plate. The clamping process of the clamp has strong adaptability, high coating quality, compact structure, efficient process flow and long service life of the device.

Description

Novel special bonding complete sets of preparation of living beings fibre sole

Technical Field

The invention relates to the field of fiber product processing, in particular to a novel special bonding complete device for preparing a biomass fiber sole.

Background

Along with the improvement of living standard of people, the wearing requirements of people are higher and higher, especially the requirements on shoes are higher and higher, and shoes with different functions are increased for different ages. The sole construction may include all of the materials that make up the base, including the outsole, midsole, and heel. The common characteristics of common sole materials are wear resistance, water resistance, oil resistance, heat resistance, pressure resistance, impact resistance, good elasticity, easy adaptation to foot shapes, difficult deformation after shaping, heat preservation, easy moisture absorption and the like, and simultaneously, the sole materials are matched with midsoles to have various conditions of brake action, no slipping, easy stopping and the like when feet are changed during walking. Most of shoes on the market are manufactured by separately processing an upper and a sole, and then the upper and the sole are bonded together by glue, so that the sole needs to be glued and bonded. The prior art has the following technical defects: (1) in the process of coating the sole, the sole is generally coated with the surface by adopting an artificial gluing mode, the coating uniformity is difficult to control, the quality of the processed sole is uneven, the artificial gluing process is low in efficiency, and the large-scale production cannot be realized. In order to overcome the shortcoming of manual rubber coating and carry out the improvement of rubber coating technology in the market, adopt conveyer cooperation coating roller to carry out sole surface rubber coating more, though promoted technological efficiency, its even degree of coating is difficult to guarantee, and the device that can realize even ejection of compact and evenly coat in the sole with liquid glue now needs, realizes sole high efficiency, high quality production. (2) In the current shoes material manufacturing process, through the in-process of coating device to sole surface coating, fail to carry out good fixed to the sole, expose the coating face of sole completely in the coating device, realize fixing the coating process of stabilizing under the spacing state to the sole. (3) The production line for the coating and bonding process of the sole is long, manual transportation of shoe materials in different production process pieces is needed to be carried out, the occupied area of the production line structure is large, and the production line is long in process flow, long in process time and low in process efficiency.

Disclosure of Invention

In order to solve the existing problems, the invention discloses a novel special bonding complete equipment for preparing biomass fiber soles, which has the following specific technical scheme: a novel special bonding complete equipment for preparing biomass fiber soles comprises a coating bottom plate, support legs, roller side plates, a material conveying roller, a side protection plate, a front positioning mechanism, a rear pressing mechanism, a coating mechanism, a cleaning mechanism, a liquid collecting tank and a drying mechanism;

the center of the coating bottom plate is hollowed to form a material conveying hole; the support legs are arranged on the bottom surface of the coating bottom plate, and each support leg is vertically and fixedly arranged with the coating bottom plate; the roller side plates are arranged on two sides of the material conveying hole, and the roller side plate on each side is vertically fixed with the bottom surface of the coating bottom plate; the material conveying rollers are arranged in the material conveying holes in a transverse array, and two ends of each material conveying roller are rotatably arranged with the roller side plates through bearings; the side guard plates are arranged on two sides of the material conveying hole, and the side guard plates on each side are vertically fixed with the coating bottom plate; the front positioning mechanism is arranged at the bottom end of one side of the material conveying hole, the front positioning mechanism is longitudinally arranged in the material conveying hole in a lifting manner, and two ends of the front positioning mechanism are fixedly arranged with the bottom surface of the coating bottom plate; the number of the rear pressing mechanisms is two, the rear pressing mechanisms are symmetrically arranged on two sides of the material conveying hole, and each rear pressing mechanism is arranged on the bottom side of the coating bottom plate; the coating mechanism is arranged at one end of the surface of the coating bottom plate and stretches across the top end of the material conveying hole, and the coating mechanism is vertically fixed with the coating bottom plate; the cleaning mechanism is arranged on one side of the top end of the coating mechanism and points to the coating mechanism; the liquid collecting tank is arranged at the bottom end of the coating bottom plate; the drying mechanism is arranged at one end of the coating bottom plate, the drying mechanism wraps the outer side of the coating bottom plate and is fixedly arranged with the coating bottom plate, and the material conveying hole extends into the drying mechanism.

Furthermore, the top end of each material conveying roller is slightly higher than the top surface of the coating bottom plate, and the length of each material conveying roller is slightly larger than the width of the sole.

Furthermore, the front positioning mechanism comprises a longitudinal plate, a wing block, a transverse plate, a longitudinal sliding block, a longitudinal sliding rail, a positioning rod, a positioning motor, a threaded rod and a first fixing piece; the longitudinal plate is arranged in the center of the material conveying hole; the wing blocks are arranged in the centers of the two sides of the longitudinal plate, and the wing blocks on the two sides and the longitudinal plate are fixedly arranged to form an integrated structure; the transverse plate is arranged at the bottom end of the longitudinal plate, the longitudinal plate is vertically fixed with the transverse plate, and the bottom end of the longitudinal plate is hollowed out to form a motor clamping groove; the longitudinal sliding block is arranged on one side of the longitudinal plate, the longitudinal sliding rail is arranged between the longitudinal sliding block and the longitudinal plate, and the longitudinal sliding block can longitudinally slide through the longitudinal sliding rail and the longitudinal plate; the positioning rods are arranged on two sides of the top surface of the longitudinal sliding block and are vertically and fixedly arranged; the positioning motor is arranged in the center of the transverse plate and fixed with the transverse plate through a fastener, and one side of the positioning motor extends into the motor clamping groove; one end of the threaded rod coaxially rotates with the positioning motor, penetrates through the center of the longitudinal sliding block and is in threaded connection with the longitudinal sliding block; the first fixing piece is arranged on one side of the wing blocks on two sides, one side wall of the first fixing piece is fixed with the wing blocks through a fastening piece, and the top end of the first fixing piece is fixed with the coating bottom plate through the fastening piece.

Furthermore, the number of the positioning rods is two, and the positioning rods are symmetrically arranged on two sides of the longitudinal sliding block; each side the locating lever is cylindric structure, every the locating lever stretch out in the top surface in defeated material hole.

Furthermore, the number of the first fixing pieces is two, and the cross section of each first fixing piece is L-shaped.

Furthermore, each side of the rear pressing mechanism comprises a rear pressing block, a rear rotating shaft, a linkage sheet, a linkage shaft, an angle adjusting motor and an angle adjusting block; the rear pressing block on each side is arranged on two sides of the material conveying hole and between the two material conveying rollers, and the rear pressing block on each side is attached to the top surface of the coating bottom plate; the rear rotating shaft is arranged at the bottom side of one end of the rear pressing block and is vertically fixed with the rear pressing block, and the rear rotating shaft penetrates through the coating bottom plate and is rotatably arranged with the coating bottom plate; the linkage piece is arranged at the bottom end of the rear rotating shaft, and the bottom end of the rear rotating shaft is vertically fixed with one end of the linkage piece; the linkage shaft is arranged on the top surface of one end of the linkage sheet; the angle modulation motor is arranged on the bottom surface of the coating bottom plate and is fixedly attached to the coating bottom plate through a fastener; the angle adjusting block is arranged on one side of the angle adjusting motor, the angle adjusting block can be rotatably adjusted through the angle adjusting motor, the center of the angle adjusting block is hollowed to form an angle adjusting hole, and the linkage shaft penetrates through the angle adjusting hole and is arranged in the angle adjusting hole in a sliding mode.

Furthermore, the bottom surface of coating bottom plate is equipped with the spacing section of thick bamboo of pivot, the spacing section of thick bamboo of pivot with coating bottom plate vertical fixation, the length of back pivot is slightly longer than the length of the spacing section of thick bamboo of pivot, the spacing section of thick bamboo of pivot cup joint in the outside of back pivot realizes the back pivot with the spacing rotation of the spacing section of thick bamboo of pivot.

Furthermore, the longitudinal section of the curved arc-shaped structure of the rear pressing block is L-shaped, and the rear pressing blocks on the two sides are oppositely arranged.

Furthermore, the angle adjusting hole is of a waist-shaped hole structure, and the diameter of the angle adjusting hole is matched with that of the linkage shaft.

Further, the coating mechanism comprises a side frame, a track rod, a coating frame, a linear driving motor, a sliding block, a rotating roller limiting frame, a coating roller, a lifting block, a lifting rod, a coating motor, a nozzle frame, a nozzle and a drainage sheet; the side frames are arranged on two sides of the surface of the coating bottom plate and cross the top ends of the material conveying holes, and the side frame on each side is vertically fixed with the coating bottom plate; the track rods are arranged between the side frames on the two sides in parallel, and the end part of each track rod on each side is fixedly arranged with the top end of each side frame; the coating frame is arranged on the bottom side of the track rod; the linear driving motor is arranged on one side of the top surface of the coating frame, the linear driving motor is fixedly arranged on the surface of the coating frame, and the linear driving motor and the track rod are arranged in a sliding manner; the sliding block is arranged on one side of the top surface of the coating frame, the sliding block and the surface of the coating frame are fixedly arranged, and the sliding block and the track rod are arranged in a sliding manner; the rotary roller limiting frames are arranged on the bottom surfaces of the two sides of the coating frame and are vertically fixed with the coating frame, and a rotary roller sliding hole is longitudinally formed in the center of each rotary roller limiting frame; the coating roller is arranged at the bottom side of the coating frame; the lifting blocks are arranged on two sides of the coating roller, two ends of the coating roller and the lifting blocks are rotatably arranged through bearings, and the lifting blocks on each side are attached to the inner sides of the rotating roller limiting frames on each side; the lifting rods are arranged on two sides of the bottom surface of the coating frame and are arranged on one side of the rotating roller limiting frame on each side, the lifting rods on each side are vertically and fixedly arranged with the coating frame, and the bottom ends of the lifting rods on each side are fixedly arranged with the lifting blocks; the coating motor is arranged on one side of the rotary roller limiting frame on one side, the coating motor and the rotary roller limiting frame slide longitudinally, and one end of the coating motor penetrates through the rotary roller sliding hole and is driven to rotate by the coating roller; the spray head frame is arranged on one side of the coating frame and is fixed with the coating frame through a fastener; the spray head is arranged on one side of the top surface of the spray head frame, and the spray head frame are fixedly arranged; the drainage pieces are arranged on one side of the bottom end of the spray head frame, the drainage pieces are arranged in a transverse array at intervals, and the top end portion of each drainage piece is fixedly arranged with the spray head frame.

Furthermore, each side frame is of a door-shaped structure.

Further, the coating frame is of a rectangular frame structure.

Furthermore, the roller sliding hole is of a kidney-shaped hole structure, and the diameter of the roller sliding hole is slightly larger than that of the rotating shaft of the coating roller.

Furthermore, a first limiting frame is arranged on the outer side surface of the rotary roller limiting frame, the first limiting frames are arranged on two sides of the rotary roller sliding hole and are longitudinally arranged, the first limiting frames on the two sides are arranged in a manner that the two sides are opposite to each other, and the section of each first limiting frame on each side is of an L-shaped structure; the terminal surface of coating motor is equipped with the spacing frame of second, the spacing frame of second is that both sides set up relatively, is vertical setting, every side the spacing frame of second with it is spacing that first spacing frame pegs graft, is vertical slidable and sets up, realizes the coating motor in the side of changeing the spacing frame of roller is vertical liftable.

Further, a brush layer is arranged on the outer side wall surface of the coating roller, wraps the outer side of the coating roller and is fixedly arranged with the coating roller; the thickness of the brush layer is adaptive to that of the drainage sheet.

Further, the cross section of the nozzle frame is of an L-shaped structure, the nozzle frame is arranged on the inner side of one end of the coating frame, the top surface of the nozzle frame is buckled on the top surface of the coating frame, and one side of the nozzle frame is perpendicular to the coating frame; the spray head is attached to the side wall surface of the spray head frame and is arranged longitudinally.

Furthermore, the drainage sheet on each side is obliquely arranged with the side wall surface of the spray head frame, the drainage sheet on each side is obliquely arranged on one side of the coating roller, and the bottom end of each drainage sheet is in a sharp-angle shape.

Further, the cleaning mechanism comprises a cleaning frame, a cleaning nozzle and a pressing block; the cleaning frame is arranged on one side of the top end of the coating frame and is opposite to the spray head frame, and the cleaning frame and the coating frame are fixedly arranged through a fastening piece; the cleaning nozzle is embedded into one side of the end part of the cleaning frame and obliquely arranged, and the end part of the cleaning nozzle points to the flow guiding sheet; the briquetting laminate in the tip of cleaning frame is horizontal array setting, the briquetting pass through the fastener with cleaning frame is fixed the setting, the briquetting with cleaning frame centre gripping is realized right cleaning nozzle is fixed.

Furthermore, the arrangement position of the liquid collecting tank is matched with that of the coating mechanism, and the liquid collecting tank is arranged at the bottom end of the material conveying hole; one end of the liquid collecting groove is fixed with the side walls of the supporting legs at two sides through fasteners.

Further, the drying mechanism comprises an upper shell, a lower shell, a lifting cover, a ventilating fan and a heating pipe; the upper shell is arranged on the upper surface of the coating bottom plate, the upper shell and the coating bottom plate are fixedly arranged, two ends of the upper shell are wrapped on two sides of the top surface of the material conveying hole, a hollow part is formed between one side of the upper shell and the coating bottom plate to form a feeding hole, and a hollow part is formed between one side of the upper shell and the coating bottom plate to form a discharging hole; the lower shell is arranged on the lower surface of the coating bottom plate, two ends of the lower shell are wrapped on two sides of the bottom surface of the material conveying hole, and the lower shell and the upper shell are oppositely arranged; the lifting cover is arranged at the center of the top surface of the upper shell and rotates with the upper shell through a movable hinge; the ventilating fan is embedded in the surface of the lifting cover and is fixedly arranged with the lifting cover; the heating pipe is arranged on the side wall surfaces of the upper shell and the lower shell.

Furthermore, the bottom surface of the lower shell is provided with air holes which are arranged in an array.

Furthermore, a handle is arranged on one side of the surface of the lifting cover, and the handle and the lifting cover are fixedly arranged.

Furthermore, the number of the ventilating fans is three, and the ventilating fans are arranged at transverse intervals.

Furthermore, the number of the heating pipes arranged on each side in the upper shell is four, the heating pipes are arranged in two layers, and each layer of the heating pipes are transversely arranged oppositely; the heating pipes are arranged on each side in the lower shell, and the two sides of the heating pipes are transversely arranged oppositely.

The invention has the beneficial effects that:

(1) the positioning fixture is designed aiming at the surface gluing process of the sole, after the sole is conveyed and conveyed, the fixture device clamps and fixes the head end and the tail end of the sole end by head and tail, and can limit the two sides of the sole, so that the coating process is carried out after the sole is stably clamped, and the fixture has high clamping stability to the clamping speed block of the sole. The device is suitable for soles with different sizes, the rotating angle of the rear pressing block can be adjusted by setting the rotating angle of the angle adjusting motor, the pressing force of the rear pressing block on the soles can be adjusted, the clamping process of the clamp has strong adaptability, the clamping flexibility is high, and the application range is wide.

(2) The invention adopts a mechanical drive manual mode to glue the sole, liquid glue can be uniformly injected into the gap of the drainage sheet in the device in the form of the spray head and the drainage sheet, the liquid glue flows down directionally at the tip part of the bottom end of the drainage sheet under the action of gravity and the rotation of the coating roller, the coating roller and the drainage sheet are matched to realize uniform coating of the liquid glue on the surface of the sole, and the coating roller is transversely displaced at a constant speed to realize uniform coating of the sole surface layer. The device realizes uniform discharge of liquid glue and uniform smearing of the sole surface, realizes efficient operation of a coating process through unidirectional motion coating, and has high coating quality.

(3) This device can realize carrying out the streamlined to the sole processing and produce, and the device has location, centre gripping, coating, defeated material and stoving function to shoes material, through the processing of integrating to many projects, makes this device have compact structure size alright realize the whole processing to shoes material, and whole production flow is short, and whole equipment area is little, and process flow efficiency is high-efficient, and the device has high practicality.

(4) This device can carry out self-cleaning to coating mechanism department, guarantees that coating mechanism can be in stable running state, and functional strong has improved the life of device, and degree of automation is high.

Drawings

Fig. 1 is a schematic view of the overall configuration of the present invention.

FIG. 2 is a schematic view of a partial structure at the coated substrate of the present invention.

Fig. 3 is a schematic structural view of the front positioning mechanism of the present invention.

Fig. 4 is a schematic structural diagram of the rear press mechanism of the present invention.

Fig. 5 is a schematic view of the structure of the coating mechanism of the present invention.

FIG. 6 is a schematic view of a partial structure of a coating motor and a roller limiting frame according to the present invention.

Fig. 7 is a schematic view of the structure of the cleaning mechanism of the present invention.

Fig. 8 is a schematic sectional view of the drying mechanism of the present invention.

List of reference numerals:

coating the base plate 1;

a material conveying hole 1-1 and a rotating shaft limiting cylinder 1-2;

a support leg 2;

a roll side frame 3;

a delivery roller 4;

a side guard plate 5;

a front positioning mechanism 6;

the device comprises a longitudinal plate 6-1, a wing block 6-2, a transverse plate 6-3, a longitudinal sliding block 6-4, a longitudinal sliding rail 6-5, a positioning rod 6-6, a positioning motor 6-7, a threaded rod 6-8, a first fixing piece 6-9 and a motor clamping groove 6-10;

a rear press-fit mechanism 7;

the device comprises 7-1 parts of rear pressing blocks, 7-2 parts of rear rotating shafts, 7-3 parts of linkage pieces, 7-4 parts of linkage shafts, 7-5 parts of angle adjusting motors, 7-6 parts of angle adjusting blocks and 7-7 parts of angle adjusting holes;

a coating mechanism 8;

8-1 parts of side frames, 8-2 parts of track rods, 8-3 parts of coating frames, 8-4 parts of linear driving motors, 8-5 parts of sliding blocks, 8-6 parts of rotating roller limiting frames, 8-6-1 parts of rotating roller sliding holes, 8-6-2 parts of first limiting frames, 8-7 parts of coating rollers, 8-7-1 parts of brush layers, 8-8 parts of lifting blocks, 8-9 parts of lifting rods, 8-10 parts of coating motors, 8-10-1 parts of second limiting frames, 8-11 parts of nozzle frames, 8-12 parts of nozzles and 8-13 parts of drainage sheets;

a cleaning mechanism 9;

9-1 parts of cleaning frame, 9-2 parts of cleaning nozzle and 9-3 parts of pressing block;

a liquid collecting tank 10;

a drying mechanism 11;

the device comprises an upper shell 11-1, a lower shell 11-2, a lifting cover 11-3, a ventilating fan 11-4, a heating pipe 11-5, a feeding hole 11-6, a discharging hole 11-7, an air vent 11-8 and a handle 11-9.

Detailed Description

In order to make the technical scheme of the invention clearer and clearer, the invention is further described with reference to the accompanying drawings, and any scheme obtained by carrying out equivalent replacement and conventional reasoning on the technical characteristics of the technical scheme of the invention falls into the protection scope of the invention. The fixed connection, the fixed arrangement and the fixed structure mentioned in the embodiment are known technologies known to those skilled in the art, such as gluing, welding, screwing, bolt-nut connection, riveting and the like.

The attached drawing shows that the special adhesive complete equipment for preparing the novel biomass fiber sole comprises a coating bottom plate 1, support legs 2, a roller side plate 3, a material conveying roller 4, a side guard plate 5, a front positioning mechanism 6, a rear pressing mechanism 7, a coating mechanism 8, a cleaning mechanism 9, a liquid collecting tank 10 and a drying mechanism 11; the center of the coating bottom plate 1 is hollowed to form a material conveying hole 1-1; the support legs 2 are arranged on the bottom surface of the coating bottom plate 1, and each support leg 2 is vertically and fixedly arranged with the coating bottom plate 1; the roller side plates 3 are arranged on two sides of the material conveying hole 1-1, and the roller side plate 3 on each side is vertically fixed with the bottom surface of the coating bottom plate 1; the material conveying rollers 4 are arranged in the material conveying holes 1-1 in a transverse array, and two ends of each material conveying roller 4 are rotatably arranged with the roller side plates 3 through bearings; the side guard plates 5 are arranged on two sides of the material conveying hole 1-1, and the side guard plates 5 on each side are vertically fixed with the coating bottom plate 1; the front positioning mechanism 6 is arranged at the bottom end of one side of the material conveying hole 1-1, the front positioning mechanism 6 is longitudinally arranged in the material conveying hole 1-1 in a lifting manner, and two ends of the front positioning mechanism 6 are fixedly arranged with the bottom surface of the coating bottom plate 1; the number of the rear pressing mechanisms 7 is two, the rear pressing mechanisms 7 are symmetrically arranged on two sides of the material conveying hole 1-1, and each rear pressing mechanism 7 is arranged on the bottom side of the coating bottom plate 1; the coating mechanism 8 is arranged at one end of the surface of the coating bottom plate 1 and stretches across the top end of the material conveying hole 1-1, and the coating mechanism 8 is vertically fixed with the coating bottom plate 1; the cleaning mechanism 9 is arranged on one side of the top end of the coating mechanism 8, and the cleaning mechanism 9 points to the coating mechanism 8; the liquid collecting tank 10 is arranged at the bottom end of the coating bottom plate 1; the drying mechanism 11 is arranged at one end of the coating bottom plate 1, the drying mechanism 11 is wrapped at the outer side of the coating bottom plate 1 and is fixedly arranged with the coating bottom plate 1, and the material conveying hole 1-1 extends into the drying mechanism 11.

Furthermore, the top end of each material conveying roller 4 is slightly higher than the top surface of the coating bottom plate 1, and the length of each material conveying roller 4 is slightly larger than the width of the sole.

Further, the front positioning mechanism 6 comprises a longitudinal plate 6-1, a wing block 6-2, a transverse plate 6-3, a longitudinal sliding block 6-4, a longitudinal sliding rail 6-5, a positioning rod 6-6, a positioning motor 6-7, a threaded rod 6-8 and a first fixing piece 6-9; the longitudinal plate 6-1 is arranged at the center of the material conveying hole 1-1; the wing blocks 6-2 are arranged in the centers of the two sides of the longitudinal plate 6-1, and the wing blocks 6-2 on the two sides and the longitudinal plate 6-1 are fixedly arranged to form an integrated structure; the transverse plate 6-3 is arranged at the bottom end of the longitudinal plate 6-1, the longitudinal plate 6-1 is vertically fixed with the transverse plate 6-3, and the bottom end of the longitudinal plate 6-1 is hollowed out to form a motor clamping groove 6-10; the longitudinal sliding block 6-4 is arranged on one side of the longitudinal plate 6-1, the longitudinal sliding rail 6-5 is arranged between the longitudinal sliding block 6-4 and the longitudinal plate 6-1, and the longitudinal sliding block 6-4 can longitudinally slide through the longitudinal sliding rail 6-5 and the longitudinal plate 6-1; the positioning rods 6-6 are arranged on two sides of the top surface of the longitudinal sliding block 6-4 and are vertically and fixedly arranged; the positioning motor 6-7 is arranged at the center of the transverse plate 6-3 and is fixed with the transverse plate 6-3 through a fastener, and one side of the positioning motor 6-7 extends into the motor clamping groove 6-10; one end of the threaded rod 6-8 and the positioning motor 6-7 rotate coaxially, and one end of the threaded rod 6-8 penetrates through the center of the longitudinal sliding block 6-4 and is in threaded connection with the longitudinal sliding block 6-4; the first fixing pieces 6-9 are arranged on one side of the wing blocks 6-2 on two sides, one side wall of each first fixing piece 6-9 is fixed with the wing block 6-2 through a fastening piece, and the top ends of the first fixing pieces 6-9 are fixed with the coating bottom plate 1 through fastening pieces.

Furthermore, the number of the positioning rods 6-6 is two, and the positioning rods are symmetrically arranged on two sides of the longitudinal sliding block 6-4; each positioning rod 6-6 is of a cylindrical structure, and each positioning rod 6-6 extends out of the top surface of the material conveying hole 1-1.

Further, the number of the first fixing pieces 6-9 is two, and the cross section of each first fixing piece 6-9 is in an L shape.

Furthermore, the rear pressing mechanism 7 on each side comprises a rear pressing block 7-1, a rear rotating shaft 7-2, a linkage sheet 7-3, a linkage shaft 7-4, an angle adjusting motor 7-5 and an angle adjusting block 7-6; the rear pressing block 7-1 at each side is arranged at two sides of the material conveying hole 1-1 and between the two material conveying rollers 4, and the rear pressing block 7-1 at each side is attached to the top surface of the coating bottom plate 1; the rear rotating shaft 7-2 is arranged at the bottom side of one end of the rear pressing block 7-1 and is vertically fixed with the rear pressing block 7-1, and the rear rotating shaft 7-2 penetrates through the coating bottom plate 1 and is rotatably arranged with the coating bottom plate 1; the linkage piece 7-3 is arranged at the bottom end of the rear rotating shaft 7-2, and the bottom end of the rear rotating shaft 7-2 is vertically fixed with one end of the linkage piece 7-3; the linkage shaft 7-4 is arranged on the top surface of one end of the linkage sheet 7-3; the angle modulation motor 7-5 is arranged on the bottom surface of the coating bottom plate 1 and is fixedly attached to the coating bottom plate 1 through a fastener; the angle adjusting block 7-6 is arranged on one side of the angle adjusting motor 7-5, the angle adjusting block 7-6 can be rotatably adjusted through the angle adjusting motor 7-5, the center of the angle adjusting block 7-6 is hollowed to form an angle adjusting hole 7-7, and the linkage shaft 7-4 penetrates through the angle adjusting hole 7-7 and is slidably arranged in the angle adjusting hole 7-7.

Further, the bottom surface of the coating bottom plate 1 is provided with a rotating shaft limiting cylinder 1-2, the rotating shaft limiting cylinder 1-2 is vertically fixed with the coating bottom plate 1, the length of the rear rotating shaft 7-2 is slightly longer than that of the rotating shaft limiting cylinder 1-2, and the rotating shaft limiting cylinder 1-2 is sleeved on the outer side of the rear rotating shaft 7-2, so that the rear rotating shaft 7-2 and the rotating shaft limiting cylinder 1-2 rotate in a limiting mode.

Furthermore, the rear pressing block 7-1 is of an arc-shaped structure, the longitudinal section of the rear pressing block 7-1 is L-shaped, and the rear pressing blocks 7-1 on the two sides are oppositely arranged.

Furthermore, the angle adjusting holes 7-7 are of a kidney-shaped hole structure, and the diameter of the angle adjusting holes 7-7 is matched with that of the linkage shafts 7-4.

Further, the coating mechanism 8 comprises a side frame 8-1, a track rod 8-2, a coating frame 8-3, a linear driving motor 8-4, a sliding block 8-5, a rotary roller limiting frame 8-6, a coating roller 8-7, a lifting block 8-8, a lifting rod 8-9, a coating motor 8-10, a spray head frame 8-11, a spray head 8-12 and a drainage sheet 8-13; the side frames 8-1 are arranged at two sides of the surface of the coating bottom plate 1 and cross the top ends of the material conveying holes 1-1, and the side frame 8-1 at each side is vertically fixed with the coating bottom plate 1; the track rods 8-2 are arranged between the side frames 8-1 at two sides in parallel, and the end part of each track rod 8-2 at each side is fixedly arranged with the top end of each side frame 8-1; the coating frame 8-3 is arranged at the bottom side of the track rod 8-2; the linear driving motor 8-4 is arranged on one side of the top surface of the coating frame 8-3, the linear driving motor 8-4 is fixedly arranged on the surface of the coating frame 8-3, and the linear driving motor 8-4 and the track rod 8-2 are arranged in a sliding manner; the sliding block 8-5 is arranged on one side of the top surface of the coating frame 8-3, the sliding block 8-5 and the surface of the coating frame 8-3 are fixedly arranged, and the sliding block 8-5 and the track rod 8-2 are arranged in a sliding manner; the rotary roller limiting frames 8-6 are arranged on the bottom surfaces of the two sides of the coating frame 8-3 and are vertically fixed with the coating frame 8-3, and a rotary roller sliding hole 8-6-1 is longitudinally arranged in the center of each rotary roller limiting frame 8-6; the coating roller 8-7 is arranged at the bottom side of the coating frame 8-3; the lifting blocks 8-8 are arranged on two sides of the coating roller 8-7, two ends of the coating roller 8-7 are rotatably arranged with the lifting blocks 8-8 through bearings, and the lifting block 8-8 on each side is attached to the inner side of the rotating roller limiting frame 8-6 on each side; the lifting rods 8-9 are arranged on two sides of the bottom surface of the coating frame 8-3 and arranged on one side of the rotating roller limiting frame 8-6 on each side, the lifting rods 8-9 on each side are vertically and fixedly arranged with the coating frame 8-3, and the bottom ends of the lifting rods 8-9 on each side are fixedly arranged with the lifting blocks 8-8; the coating motor 8-10 is arranged on one side of the rotary roller limiting frame 8-6 on one side, the coating motor 8-10 and the rotary roller limiting frame 8-6 slide longitudinally, and one end of the coating motor 8-10 penetrates through the rotary roller sliding hole 8-6-1 and is driven to rotate by the coating roller 8-7; the spray head frame 8-11 is arranged on one side of the coating frame 8-3, and the spray head frame 8-11 is fixed with the coating frame 8-3 through a fastener; the spray head 8-12 is arranged on one side of the top surface of the spray head frame 8-11, and the spray head 8-12 and the spray head frame 8-11 are fixedly arranged; the diversion pieces 8-13 are arranged on one side of the bottom end of the nozzle frame 8-11, the diversion pieces 8-13 are arranged in a transverse array at intervals, and the top end part of each diversion piece 8-13 is fixedly arranged with the nozzle frame 8-11.

Furthermore, the side frame 8-1 at each side is in a structure like a Chinese character 'men'.

Further, the coating frame 8-3 is a rectangular frame structure.

Further, the roller sliding hole 8-6-1 is of a kidney-shaped hole structure, and the diameter of the roller sliding hole 8-6-1 is slightly larger than that of the rotating shaft of the coating roller 8-7.

Further, a first limiting frame 8-6-2 is arranged on the outer side surface of the rotating roller limiting frame 8-6, the first limiting frame 8-6-2 is arranged on two sides of the rotating roller sliding hole 8-6-1 in a longitudinal mode, the first limiting frame 8-6-2 on two sides is arranged in a back-to-back mode, and the section of the first limiting frame 8-6-2 on each side is of an L-shaped structure; the end face of the coating motor 8-10 is provided with a second limiting frame 8-10-1, the second limiting frame 8-10-1 is arranged in a longitudinal mode, two sides of the second limiting frame 8-10-1 are oppositely arranged, the second limiting frame 8-10-1 and the first limiting frame 8-6-2 are connected in an inserting mode to be limited and arranged in a longitudinal sliding mode, and therefore the coating motor 8-10 can be longitudinally lifted on the side face of the rotary roller limiting frame 8-6.

Further, a brush layer 8-7-1 is arranged on the outer side wall surface of the coating roller 8-7, and the brush layer 8-7-1 is wrapped on the outer side of the coating roller 8-7 and is fixedly arranged with the coating roller 8-7; the thickness of the brush layer 8-7-1 is adapted to the thickness of the drainage sheet 8-13.

Further, the cross section of the nozzle holder 8-11 is of an L-shaped structure, the nozzle holder 8-11 is arranged on the inner side of one end of the coating frame 8-3, the top surface of the nozzle holder 8-11 is buckled on the top surface of the coating frame 8-3, and one side of the nozzle holder 8-11 is perpendicular to the coating frame 8-3; the spray heads 8-12 are attached to the side wall surfaces of the spray head frames 8-11 and are arranged longitudinally.

Furthermore, each side of the drainage sheet 8-13 is obliquely arranged with the side wall surface of the nozzle holder 8-11, each side of the drainage sheet 8-13 is obliquely arranged at one side of the coating roller 8-7, and the bottom end of each drainage sheet 8-13 is in a sharp angle shape.

Further, the cleaning mechanism 9 comprises a cleaning frame 9-1, a cleaning nozzle 9-2 and a pressing block 9-3; the cleaning frame 9-1 is arranged on one side of the top end of the coating frame 8-3 and is opposite to the spray head frame 8-11, and the cleaning frame 9-1 and the coating frame 8-3 are fixedly arranged through a fastening piece; the cleaning nozzle 9-2 is embedded into one side of the end part of the cleaning frame 9-1 and is obliquely arranged, and the end part of the cleaning nozzle 9-2 points to the flow guide sheet 8-13; the pressing blocks 9-3 are attached to the end portions of the cleaning frames 9-1 and arranged in a transverse array, the pressing blocks 9-3 are fixedly arranged with the cleaning frames 9-1 through fasteners, and the pressing blocks 9-3 and the cleaning frames 9-1 are clamped to fix the cleaning nozzles 9-2.

Further, the arrangement position of the liquid collecting groove 10 is matched with that of the coating mechanism 8, and the liquid collecting groove 10 is arranged at the bottom end of the material conveying hole 1-1; one end of the liquid collecting groove 10 is fixed with the side walls of the supporting legs 2 at two sides through fasteners.

Further, the drying mechanism 11 comprises an upper shell 11-1, a lower shell 11-2, a lifting cover 11-3, a ventilating fan 11-4 and a heating pipe 11-5; the upper shell 11-1 is arranged on the upper surface of the coating bottom plate 1, the upper shell 11-1 and the coating bottom plate 1 are fixedly arranged, two ends of the upper shell 11-1 are wrapped on two sides of the top surface of the material conveying hole 1-1, a hollow part is formed between one side of the upper shell 11-1 and the coating bottom plate 1 to form a feeding hole 11-6, and a hollow part is formed between one side of the upper shell 11-1 and the coating bottom plate 1 to form a discharging hole 11-7; the lower shell 11-2 is arranged on the lower surface of the coating bottom plate 1, two ends of the lower shell 11-2 are wrapped on two sides of the bottom surface of the material conveying hole 1-1, and the lower shell 11-2 and the upper shell 11-1 are oppositely arranged; the lifting cover 11-3 is arranged at the center of the top surface of the upper shell 11-1, and the lifting cover 11-3 and the upper shell 11-1 realize rotation through a movable hinge; the ventilating fan 11-4 is embedded in the surface of the lifting cover 11-3 and is fixedly arranged with the lifting cover 11-3; the heating pipe 11-5 is disposed on the side wall surfaces of the upper shell 11-1 and the lower shell 11-2.

Furthermore, the bottom surface of the lower shell 11-2 is provided with air holes 11-8, and the air holes 11-8 are arranged in an array.

Furthermore, a handle 11-9 is arranged on one side of the surface of the lifting cover 11-3, and the handle 11-9 and the lifting cover 11-3 are fixedly arranged.

Furthermore, the number of the ventilating fans 11-4 is three, and the ventilating fans are arranged at intervals in the transverse direction.

Furthermore, the number of the heating pipes 11-5 arranged on each side in the upper shell 11-1 is four, the heating pipes are arranged in two layers, and the heating pipes 11-5 on each layer are transversely arranged oppositely; the number of the heating pipes 11-5 arranged on each side in the lower shell 11-2 is two, and the two sides are transversely arranged oppositely.

The process principle of the invention is as follows:

firstly, placing a sole on a material conveying roller, transversely conveying the sole between side guard plates on two sides, starting a positioning motor to drive a threaded rod to rotate, driving a longitudinal slide block to longitudinally lift along a longitudinal plate by the threaded rod, and extending a positioning rod out of the top end of a coating bottom plate; then starting the rear pressing mechanisms on the two sides, driving the angle adjusting blocks to rotate by the angle adjusting motor, enabling the linkage shaft to slide in the adjusting holes, enabling the linkage sheet to rotate by taking the rear rotating shaft as a circle center, driving the rear pressing blocks to rotate relatively by the rear rotating shaft, enabling the rear pressing blocks on the two sides to abut against one end of the sole, fixing and limiting the other end of the sole through two positioning rods, and clamping and fixing the sole on the surface of the material conveying roller; after the surface gluing process of the sole is finished, the front positioning mechanism and the rear pressing mechanism reset, and the sole is clamped in a loosening manner.

Then starting a linear driving motor to drive the coating frame to transversely move to a side frame along the track rod, starting a lifting rod to drive a lifting block to longitudinally descend, longitudinally limiting and sliding a first limiting frame and a second limiting frame, and synchronously descending the coating motor; the bottom ends of the drainage pieces point to the surface of the sole, a spray head is connected with a liquid glue injection tube, liquid glue drops downwards through the spray head and is drained downwards along gaps among the drainage pieces, a coating motor is started to drive a coating roller to rotate, a brush layer rotates and drives the liquid glue in gaps among the drainage pieces to flow downwards and coat the liquid glue on the surface of the sole, the coating roller uniformly coats the surface of the liquid glue when rotating to contact the surface of the sole, and meanwhile, a linear driving motor drives the coating roller to transversely displace on the surface of the sole, so that the surface coating process of the sole is realized; after the coating process is completed, the linear driving motor and the lifting rod are reset.

Then the shoe sole with the surface coated with the glue is conveyed to the outer side of the side frame through a conveying roller, after an operator bonds and fixes the upper and the shoe sole, the shoe upper and the shoe sole are placed back on the conveying roller to be continuously conveyed into a drying mechanism, and shoe materials are subjected to the radiation action of heating pipes on the two sides of the upper shell and the lower shell to be heated and dried; a small amount of outside air passes through in feed inlet, discharge gate and the bleeder vent dries the mechanism to the effect of airing exhaust through the ventilating fan at last casing top carries out convection heat in drying the mechanism, and the stoving process of shoes material is with higher speed, and shoes material is finally through the discharge gate ejection of compact.

When the coating roller and the drainage sheet need to be cleaned after the coating process is finished, cleaning liquid is obliquely sprayed to the nozzle frame and the drainage sheet through the cleaning nozzle, the lifting rod drives the coating roller to descend and contact the drainage sheet to roll, and the coating roller and the drainage sheet are contacted to finish the cleaning effect; the cleaning liquid falls down and flows into the liquid collecting tank through the material conveying hole.

The invention has the beneficial effects that:

(1) the positioning fixture is designed aiming at the surface gluing process of the sole, after the sole is conveyed and conveyed, the fixture device clamps and fixes the head end and the tail end of the sole end by head and tail, and can limit the two sides of the sole, so that the coating process is carried out after the sole is stably clamped, and the fixture has high clamping stability to the clamping speed block of the sole. The device is suitable for soles with different sizes, the rotating angle of the rear pressing block can be adjusted by setting the rotating angle of the angle adjusting motor, the pressing force of the rear pressing block on the soles can be adjusted, the clamping process of the clamp has strong adaptability, the clamping flexibility is high, and the application range is wide.

(2) The invention adopts a mechanical drive manual mode to glue the sole, liquid glue can be uniformly injected into the gap of the drainage sheet in the device in the form of the spray head and the drainage sheet, the liquid glue flows down directionally at the tip part of the bottom end of the drainage sheet under the action of gravity and the rotation of the coating roller, the coating roller and the drainage sheet are matched to realize uniform coating of the liquid glue on the surface of the sole, and the coating roller is transversely displaced at a constant speed to realize uniform coating of the sole surface layer. The device realizes uniform discharge of liquid glue and uniform smearing of the sole surface, realizes efficient operation of a coating process through unidirectional motion coating, and has high coating quality.

(3) This device can realize carrying out the streamlined to the sole processing and produce, and the device has location, centre gripping, coating, defeated material and stoving function to shoes material, through the processing of integrating to many projects, makes this device have compact structure size alright realize the whole processing to shoes material, and whole production flow is short, and whole equipment area is little, and process flow efficiency is high-efficient, and the device has high practicality.

(4) This device can carry out self-cleaning to coating mechanism department, guarantees that coating mechanism can be in stable running state, and functional strong has improved the life of device, and degree of automation is high.

Claims (10)

1. A novel special bonding complete equipment for preparing biomass fiber soles is characterized by comprising a coating bottom plate (1), support legs (2), a roller side plate (3), a material conveying roller (4), a side protection plate (5), a front positioning mechanism (6), a rear pressing mechanism (7), a coating mechanism (8), a cleaning mechanism (9), a liquid collecting tank (10) and a drying mechanism (11); the center of the coating bottom plate (1) is hollowed to form a material conveying hole (1-1); the support legs (2) are arranged on the bottom surface of the coating bottom plate (1), and each support leg (2) is vertically and fixedly arranged with the coating bottom plate (1); the roller side plates (3) are arranged on two sides of the material conveying hole (1-1), and the roller side plate (3) on each side is vertically fixed with the bottom surface of the coating bottom plate (1); the material conveying rollers (4) are arranged in the material conveying holes (1-1) in a transverse array, and two ends of each material conveying roller (4) are rotatably arranged with the roller side plates (3) through bearings; the side guard plates (5) are arranged on two sides of the material conveying hole (1-1), and the side guard plates (5) on each side are vertically fixed with the coating bottom plate (1); the front positioning mechanism (6) is arranged at the bottom end of one side of the material conveying hole (1-1), the front positioning mechanism (6) is longitudinally arranged in the material conveying hole (1-1) in a lifting manner, and two ends of the front positioning mechanism (6) are fixedly arranged with the bottom surface of the coating bottom plate (1); the number of the rear pressing mechanisms (7) is two, the rear pressing mechanisms are symmetrically arranged on two sides of the material conveying hole (1-1), and each rear pressing mechanism (7) is arranged on the bottom side of the coating bottom plate (1); the coating mechanism (8) is arranged at one end of the surface of the coating bottom plate (1) and stretches across the top end of the material conveying hole (1-1), and the coating mechanism (8) is vertically fixed with the coating bottom plate (1); the cleaning mechanism (9) is arranged on one side of the top end of the coating mechanism (8), and the cleaning mechanism (9) points to the coating mechanism (8); the liquid collecting tank (10) is arranged at the bottom end of the coating bottom plate (1); the drying mechanism (11) is arranged at one end of the coating bottom plate (1), the drying mechanism (11) is wrapped at the outer side of the coating bottom plate (1) and is fixedly arranged with the coating bottom plate (1), and the material conveying hole (1-1) extends into the drying mechanism (11).

2. The special bonding complete equipment for preparing the novel biomass fiber sole as claimed in claim 1, wherein the front positioning mechanism (6) comprises a longitudinal plate (6-1), a wing block (6-2), a transverse plate (6-3), a longitudinal sliding block (6-4), a longitudinal sliding rail (6-5), a positioning rod (6-6), a positioning motor (6-7), a threaded rod (6-8) and a first fixing piece (6-9); the longitudinal plate (6-1) is arranged at the center of the material conveying hole (1-1); the wing blocks (6-2) are arranged in the centers of the two sides of the longitudinal plate (6-1), and the wing blocks (6-2) on the two sides and the longitudinal plate (6-1) are fixedly arranged to form an integrated structure; the transverse plate (6-3) is arranged at the bottom end of the longitudinal plate (6-1), the longitudinal plate (6-1) is vertically fixed with the transverse plate (6-3), and the bottom end of the longitudinal plate (6-1) is hollowed out to form a motor clamping groove (6-10); the longitudinal sliding block (6-4) is arranged on one side of the longitudinal plate (6-1), the longitudinal sliding rail (6-5) is arranged between the longitudinal sliding block (6-4) and the longitudinal plate (6-1), and the longitudinal sliding block (6-4) can longitudinally slide through the longitudinal sliding rail (6-5) and the longitudinal plate (6-1); the positioning rods (6-6) are arranged on two sides of the top surface of the longitudinal sliding block (6-4) and are vertically and fixedly arranged; the positioning motor (6-7) is arranged in the center of the transverse plate (6-3) and fixed with the transverse plate (6-3) through a fastener, and one side of the positioning motor (6-7) extends into the motor clamping groove (6-10); one end of the threaded rod (6-8) coaxially rotates with the positioning motor (6-7), and one end of the threaded rod (6-8) penetrates through the center of the longitudinal sliding block (6-4) and is in threaded connection with the longitudinal sliding block (6-4); the first fixing pieces (6-9) are arranged on one sides of the wing blocks (6-2) on two sides, one side wall of each first fixing piece (6-9) is fixed with the wing block (6-2) through a fastening piece, and the top ends of the first fixing pieces (6-9) are fixed with the coating bottom plate (1) through fastening pieces.

3. The special bonding complete equipment for preparing the novel biomass fiber sole as claimed in claim 1, wherein each side of the rear pressing mechanism (7) comprises a rear pressing block (7-1), a rear rotating shaft (7-2), a linkage sheet (7-3), a linkage shaft (7-4), an angle adjusting motor (7-5) and an angle adjusting block (7-6); the rear pressing block (7-1) at each side is arranged at two sides of the material conveying hole (1-1) and between the two material conveying rollers (4), and the rear pressing block (7-1) at each side is attached to the top surface of the coating bottom plate (1); the rear rotating shaft (7-2) is arranged at the bottom side of one end of the rear pressing block (7-1) and is vertically fixed with the rear pressing block (7-1), and the rear rotating shaft (7-2) penetrates through the coating bottom plate (1) and is rotatably arranged with the coating bottom plate (1); the linkage piece (7-3) is arranged at the bottom end of the rear rotating shaft (7-2), and the bottom end of the rear rotating shaft (7-2) is vertically fixed with one end of the linkage piece (7-3); the linkage shaft (7-4) is arranged on the top surface of one end of the linkage sheet (7-3); the angle adjusting motor (7-5) is arranged on the bottom surface of the coating bottom plate (1) and is fixedly attached to the coating bottom plate (1) through a fastening piece; the angle adjusting block (7-6) is arranged on one side of the angle adjusting motor (7-5), the angle adjusting block (7-6) can be rotatably adjusted through the angle adjusting motor (7-5), the center of the angle adjusting block (7-6) is hollowed to form an angle adjusting hole (7-7), and the linkage shaft (7-4) penetrates through the angle adjusting hole (7-7) and is arranged in the angle adjusting hole (7-7) in a sliding mode.

4. The special bonding complete equipment for preparing the novel biomass fiber sole according to claim 3, wherein a rotating shaft limiting cylinder (1-2) is arranged on the bottom surface of the coating bottom plate (1), the rotating shaft limiting cylinder (1-2) is vertically fixed with the coating bottom plate (1), the length of the rear rotating shaft (7-2) is slightly longer than that of the rotating shaft limiting cylinder (1-2), and the rotating shaft limiting cylinder (1-2) is sleeved on the outer side of the rear rotating shaft (7-2) to realize the limiting rotation of the rear rotating shaft (7-2) and the rotating shaft limiting cylinder (1-2).

5. The special bonding complete equipment for preparing the novel biomass fiber sole as claimed in claim 1, wherein the coating mechanism (8) comprises a side frame (8-1), a track rod (8-2), a coating frame (8-3), a linear driving motor (8-4), a sliding block (8-5), a rotating roller limiting frame (8-6), a coating roller (8-7), a lifting block (8-8), a lifting rod (8-9), a coating motor (8-10), a spray head frame (8-11), a spray head (8-12) and a drainage sheet (8-13); the side frames (8-1) are arranged on two sides of the surface of the coating bottom plate (1) and cross the top ends of the material conveying holes (1-1), and the side frame (8-1) on each side is vertically fixed with the coating bottom plate (1); the track rods (8-2) are arranged between the side frames (8-1) at two sides in parallel, and the end part of each track rod (8-2) at each side is fixedly arranged with the top end of each side frame (8-1); the coating frame (8-3) is arranged at the bottom side of the track rod (8-2); the linear driving motor (8-4) is arranged on one side of the top surface of the coating frame (8-3), the linear driving motor (8-4) and the surface of the coating frame (8-3) are fixedly arranged, and the linear driving motor (8-4) and the track rod (8-2) are arranged in a sliding manner; the sliding block (8-5) is arranged on one side of the top surface of the coating frame (8-3), the sliding block (8-5) and the surface of the coating frame (8-3) are fixedly arranged, and the sliding block (8-5) and the track rod (8-2) are arranged in a sliding manner; the rotating roller limiting frames (8-6) are arranged on the bottom surfaces of the two sides of the coating frame (8-3) and are vertically fixed with the coating frame (8-3), and a rotating roller sliding hole (8-6-1) is longitudinally arranged in the center of each rotating roller limiting frame (8-6); the coating roller (8-7) is arranged at the bottom side of the coating frame (8-3); the lifting blocks (8-8) are arranged on two sides of the coating roller (8-7), two ends of the coating roller (8-7) are rotatably arranged with the lifting blocks (8-8) through bearings, and the lifting blocks (8-8) on each side are attached to the inner sides of the rotating roller limiting frames (8-6) on each side; the lifting rods (8-9) are arranged on two sides of the bottom surface of the coating frame (8-3) and arranged on one side of the rotary roller limiting frame (8-6) on each side, the lifting rods (8-9) on each side are vertically and fixedly arranged with the coating frame (8-3), and the bottom ends of the lifting rods (8-9) on each side are fixedly arranged with the lifting blocks (8-8); the coating motor (8-10) is arranged on one side of the rotary roller limiting frame (8-6) on one side, the coating motor (8-10) and the rotary roller limiting frame (8-6) slide longitudinally, and one end of the coating motor (8-10) penetrates through the rotary roller sliding hole (8-6-1) and is driven to rotate by the coating roller (8-7); the spray head frame (8-11) is arranged on one side of the coating frame (8-3), and the spray head frame (8-11) is fixed with the coating frame (8-3) through a fastener; the spray head (8-12) is arranged on one side of the top surface of the spray head frame (8-11), and the spray head (8-12) and the spray head frame (8-11) are fixedly arranged; the diversion pieces (8-13) are arranged on one side of the bottom end of the spray head frame (8-11), the diversion pieces (8-13) are arranged in a transverse array at intervals, and the top end part of each diversion piece (8-13) is fixedly arranged with the spray head frame (8-11).

6. The special bonding complete equipment for preparing the novel biomass fiber sole as claimed in claim 5, wherein a first limiting frame (8-6-2) is arranged on the outer side surface of the roller limiting frame (8-6), the first limiting frame (8-6-2) is arranged on two sides of the roller sliding hole (8-6-1) in a longitudinal direction, the first limiting frames (8-6-2) on two sides are arranged oppositely, and the cross section of the first limiting frame (8-6-2) on each side is of an L-shaped structure; the end face of the coating motor (8-10) is provided with a second limiting frame (8-10-1), the second limiting frame (8-10-1) is arranged oppositely on two sides and is arranged longitudinally, the second limiting frame (8-10-1) and the first limiting frame (8-6-2) are inserted and limited on each side and are arranged in a longitudinally slidable mode, and the coating motor (8-10) can be longitudinally lifted on the side face of the rotary roller limiting frame (8-6).

7. The novel biomass fiber sole special-purpose bonding complete equipment is characterized in that the outer side wall surface of the coating roller (8-7) is provided with a brush layer (8-7-1), the brush layer (8-7-1) is wrapped on the outer side of the coating roller (8-7) and is fixedly arranged with the coating roller (8-7); the thickness of the brush layer (8-7-1) is adapted to the thickness of the drainage sheet (8-13).

8. The novel biomass fiber sole preparation special bonding complete equipment is characterized in that each side of the drainage sheet (8-13) is obliquely arranged with the side wall surface of the spray head frame (8-11), each side of the drainage sheet (8-13) is obliquely arranged at one side of the coating roller (8-7), and the bottom end of each drainage sheet (8-13) is in a sharp angle shape.

9. The novel biomass fiber sole preparation special bonding complete equipment is characterized in that the cleaning mechanism (9) comprises a cleaning frame (9-1), a cleaning nozzle (9-2) and a pressing block (9-3); the cleaning frame (9-1) is arranged on one side of the top end of the coating frame (8-3) and is arranged opposite to the spray head frame (8-11), and the cleaning frame (9-1) and the coating frame (8-3) are fixedly arranged through a fastening piece; the cleaning nozzle (9-2) is embedded into one side of the end part of the cleaning frame (9-1) and is obliquely arranged, and the end part of the cleaning nozzle (9-2) points to the flow guide sheet (8-13); the pressing block (9-3) is attached to the end portion of the cleaning frame (9-1) and arranged in a transverse array mode, the pressing block (9-3) is fixedly arranged with the cleaning frame (9-1) through a fastening piece, and the pressing block (9-3) and the cleaning frame (9-1) are clamped to fix the cleaning nozzle (9-2).

10. The special bonding complete equipment for preparing the novel biomass fiber sole according to claim 1, wherein the drying mechanism (11) comprises an upper shell (11-1), a lower shell (11-2), a lifting cover (11-3), a ventilating fan (11-4) and a heating pipe (11-5); the upper shell (11-1) is arranged on the upper surface of the coating bottom plate (1), the upper shell (11-1) and the coating bottom plate (1) are fixedly arranged, two ends of the upper shell (11-1) are wrapped on two sides of the top surface of the material conveying hole (1-1), one side of the upper shell (11-1) and the coating bottom plate (1) are hollowed to form a feeding hole (11-6), and one side of the upper shell (11-1) and the coating bottom plate (1) are hollowed to form a discharging hole (11-7); the lower shell (11-2) is arranged on the lower surface of the coating bottom plate (1), two ends of the lower shell (11-2) are wrapped on two sides of the bottom surface of the material conveying hole (1-1), and the lower shell (11-2) and the upper shell (11-1) are oppositely arranged; the lifting cover (11-3) is arranged at the center of the top surface of the upper shell (11-1), and the lifting cover (11-3) and the upper shell (11-1) realize rotation through a movable hinge; the ventilating fan (11-4) is embedded in the surface of the lifting cover (11-3) and is fixedly arranged with the lifting cover (11-3); the heating pipe (11-5) is arranged on the side wall surfaces of the upper shell (11-1) and the lower shell (11-2).

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