CN113085278A - Corrugated container board production resin particle and cotton gauze net adhesive device - Google Patents

Abstract

The invention relates to the field of corrugated boards, in particular to a device for bonding resin particles and a cotton gauze during corrugated board production. The technical problem is as follows: provides a device for bonding resin particles and a cotton gauze in the production of corrugated boards. The technical scheme is as follows: a corrugated board production resin particle and cotton gauze bonding device comprises a spreading component, a gluing component, a support table and a control table; the spreading assembly is connected with the gluing assembly; the spreading assembly is connected with the bracket platform; the gluing component is connected with the support platform. The invention realizes the glue spraying and the resin particle and cotton gauze spreading processing work of the bottom plate of the corrugated board, changes the spreading sequence of the resin particle and the cotton gauze, can avoid the phenomenon that the cotton gauze is stirred to generate wrinkles when the resin particle is moved, and also reclaims the overflowed glue on the two sides of the corrugated board, thereby having simple operation, safety and reliability.

Description

Corrugated container board production resin particle and cotton gauze net adhesive device

Technical Field

The invention relates to the field of corrugated boards, in particular to a device for bonding resin particles and a cotton gauze during corrugated board production.

Background

The corrugated board is a multi-layer adhesive body, at least consists of a layer of wavy core paper interlayer and a layer of paper board, has higher mechanical strength and can resist collision and falling in the process of carrying.

In the production of a corrugated board, in order to enhance the tensile resistance of the corrugated board, a layer of cotton gauze is adhered on a bottom plate of the corrugated board, and meanwhile, the gaps of the cotton gauze are filled with water-absorbing resin particles to enhance the moisture resistance of the corrugated board, however, the prior art carries out the adhesion treatment steps of the cotton gauze and the resin particles, namely, firstly, the cotton gauze is adhered on the surface of the bottom plate by using a sizing material, then, the resin particles are sprayed on the cotton gauze, and the resin particles positioned on the surface of the cotton gauze are smeared out to the gaps of the cotton gauze, because the cotton gauze is not completely adhered on the bottom plate, when the resin particles on the cotton gauze are smeared by using a scraping plate, the cotton gauze is coated with the sizing material, the moving scraping plate is easy to touch and adhere to the cotton gauze so as to drive the cotton gauze to move, the cotton gauze is wrinkled or deformed, thereby affecting the original tensile resistance of the produced corrugated board, in addition, in the process of spraying the sizing material on the bottom plate, the sizing material is easy to overflow from the two sides of the bottom plate, so that the side edge of the bottom plate has viscosity and is easy to stick other leftover materials in the production process.

Therefore, there is a need for an automated device that can prevent the web from wrinkling or deforming and can handle the glue on the sides of the base plate to solve the above problems.

Disclosure of Invention

Make the cotton gauze net remove and appear fold or deformation easily when wiping the processing in order to overcome the resin particle of scraper blade on to the cotton gauze net mountain to the bottom plate carries out the sizing material spraying in-process, and the sizing material spills over the shortcoming of the both sides of bottom plate easily, technical problem: provides a device for bonding resin particles and a cotton gauze in the production of corrugated boards.

The technical scheme is as follows: a corrugated board production resin particle and cotton gauze bonding device comprises a spreading component, a gluing component, a support table and a control table; the spreading assembly is connected with the gluing assembly; the spreading assembly is connected with the bracket platform; the gluing component is connected with the support platform; the console is connected with the support table.

Preferably, the spreading assembly comprises a workbench, a main motor, a motor rotating shaft, a first straight gear, a second straight gear, a first electric slide block, a third straight gear, a first rotating shaft, a fourth straight gear, a first driving wheel, a second electric slide block, a fifth straight gear, a second rotating shaft, a sixth straight gear, a third driving wheel, a first screw rod, a first slide block bracket, a second screw rod, a second slide block bracket and a fourth driving wheel, the device comprises a fifth transmission wheel, a third rotating shaft, a seventh straight gear, a sixth transmission wheel, an eighth straight gear, a fork rod, a ninth straight gear, a seventh transmission wheel, a central shaft, a tenth straight gear, a fourth rotating shaft, an eleventh straight gear, a rolling-in unit, a guide plate, a cutting unit, a first slide rail frame, a third electric slide block, a first material spraying pipe, a resin particle conveying machine part, a first material conveying pipe, a long toothed rod and an electric expansion plate; the workbench is fixedly connected with the support platform; on one side of the workbench, the main motor is fixedly connected with the support platform; the motor rotating shaft is rotatably connected with the support platform; the output shaft of the main motor is fixedly connected with the motor rotating shaft; the first straight gear and the second straight gear are fixedly connected with a motor rotating shaft; the first electric sliding block is connected with the support platform in a sliding manner on one side of the motor rotating shaft; the third straight gear is rotationally connected with the first electric slide block through a rotating shaft; on one side of the first electric slide block, a first rotating shaft is rotatably connected with the support platform; the fourth straight gear and the first driving wheel are fixedly connected with the first rotating shaft; when two sides of the third straight gear are simultaneously meshed with the first straight gear and the fourth straight gear, the third straight gear and the fourth straight gear rotate; when the two sides of the third straight gear are not meshed with the first straight gear and the fourth straight gear, the third straight gear and the fourth straight gear do not rotate; the second electric sliding block is connected with the support platform in a sliding manner on one side of the first electric sliding block; the fifth straight gear is rotationally connected with the second electric slide block through a rotating shaft; the second rotating shaft is rotatably connected with the support platform on one side of the second electric sliding block; the sixth straight gear and the third transmission wheel are fixedly connected with the second rotating shaft; when two sides of the fifth straight gear are simultaneously meshed with the second straight gear and the sixth straight gear, the fifth straight gear and the sixth straight gear rotate; when the two sides of the fifth straight gear are not meshed with the second straight gear and the sixth straight gear, the fifth straight gear and the sixth straight gear do not rotate; the third driving wheel is connected with the gluing component; on one side of the first rotating shaft, a first screw rod is rotatably connected with the support platform; the first sliding block bracket is connected with the bracket platform in a sliding manner; the first sliding block bracket is in screwed connection with the first screw rod; on one side of the first screw rod, the second screw rod is rotatably connected with the support platform; the second sliding block bracket is connected with the bracket platform in a sliding manner; the second sliding block bracket is in screwed connection with the second screw rod; the second driving wheel and the fourth driving wheel are fixedly connected with the first screw rod; the first driving wheel is in transmission connection with the second driving wheel through a belt; the fifth driving wheel is fixedly connected with the second screw rod; the fourth transmission wheel is in transmission connection with the fifth transmission wheel through a belt; the third rotating shaft is rotatably connected with the first sliding block bracket; the seventh straight gear, the sixth transmission wheel and the eighth straight gear are fixedly connected with the third rotating shaft; on one side of the first sliding block bracket, a long toothed bar is fixedly connected with a bracket platform; when the seventh straight gear is meshed with the long rack rod, the seventh straight gear rotates; when the seventh straight gear is not engaged with the long rack rod, the seventh straight gear does not rotate; the two groups of fork rods are fixedly connected with the first sliding block bracket and the second sliding block bracket respectively; the ninth straight gear and the seventh transmission wheel are fixedly connected with the same rotating shaft, and are in rotating connection with a fork rod on the first slide block bracket through the rotating shaft; the sixth driving wheel drives the seventh driving wheel through a belt; the two sides of the central shaft are respectively contacted with the surfaces of the clamping grooves of the fork rods; the tenth straight gear is fixedly connected with one end of the central shaft close to the first sliding block bracket; the ninth spur gear is meshed with the tenth spur gear; on one side of the third rotating shaft, two sides of the fourth rotating shaft are respectively in rotating connection with the first sliding block bracket and the second sliding block bracket; the eleventh straight gear is fixedly connected with the fourth rotating shaft; the eighth straight gear is meshed with the eleventh straight gear; the eleven groups of rolling-in units are connected with the fourth rotating shaft; two sides of the guide plate are fixedly connected with the side surfaces of the fork rods respectively; two sides of the cutting unit are respectively connected with a group of fork rods; on one side of the fork rod, two sides of the first slide rail frame are fixedly connected with the first slide block bracket and the second slide block bracket respectively; the third electric slide block is connected with the first slide rail frame in a sliding way; the first material spraying pipe is fixedly connected with the third electric sliding block; on one side of the long toothed bar, the resin particle conveying machine part is fixedly connected with the support platform; the first material conveying pipe is fixedly connected with the resin particle conveying machine part; the first material conveying pipe is fixedly connected with the first material spraying pipe; two groups of electric expansion plates are fixedly connected with the support platform on two sides of the workbench.

Preferably, the gluing assembly comprises a third screw rod, a fourth screw rod, an eighth driving wheel, a ninth driving wheel, a tenth driving wheel, a third slide block bracket, an electric push rod, a second slide rail frame, a fourth electric slide block, a glue conveying machine part, a second conveying pipe, a third conveying pipe, a distributor, a second spraying pipe and a trimming unit; the third screw rod is rotatably connected with the support platform above the first screw rod; on one side of the third screw rod, the fourth screw rod is rotatably connected with the support platform; the eighth driving wheel and the ninth driving wheel are fixedly connected with the third screw rod; the tenth driving wheel is fixedly connected with the fourth screw rod; the third driving wheel is in transmission connection with the eighth driving wheel through a belt; the two groups of third sliding block brackets are respectively screwed with the third screw rod and the fourth screw rod; each group of third sliding block brackets is in sliding connection with the bracket platform; the two groups of electric push rods are fixedly connected with the corresponding group of third sliding block brackets; two sides of the second slide rail frame are fixedly connected with a group of electric push rods respectively; the fourth electric slide block is in sliding connection with the second slide rail frame; on one side of the second slide rail frame, a rubber material conveying machine part is fixedly connected with the support platform; the third material conveying pipe is fixedly connected with the fourth electric slide block; two ends of the second conveying pipe are fixedly connected with the third conveying pipe and the rubber conveying machine part respectively; the distributor is fixedly connected with the third material conveying pipe; the five groups of second material spraying pipes are fixedly connected with the material distributor; and the two groups of edge wiping units are respectively connected with two sides of the second slide rail frame.

Preferably, the grinding unit comprises a shaft sleeve, a first telescopic rod, a fifth rotating shaft and a grinding block; the shaft sleeve is fixedly connected with the fourth rotating shaft; eight groups of first telescopic rods are arranged on the two side surfaces of the surrounding shaft sleeve at equal intervals; the sixteen groups of first telescopic rods are all in sliding connection with the same group of shaft sleeves; two sides of the eight groups of fifth rotating shafts are respectively connected with one group of corresponding first telescopic rods in a rotating manner; the eight groups of pressing blocks are fixedly connected with one group of corresponding fifth rotating shafts respectively; the grinding block is designed to be heavy at the bottom end and light at the top end.

Preferably, the cutting unit comprises a first double-slider bracket, a cutter, a sixth rotating shaft, a support rod, a rotary table, a second telescopic rod and a return spring; the sliding blocks at the two ends of the first double-sliding-block bracket are respectively connected with a group of fork rods in a sliding manner; the cutter is fixedly connected with the side surface of the fork rod; the sixth rotating shaft is rotatably connected with the fork rod; the supporting rod and the rotary table are fixedly connected with the sixth rotating shaft; the rotary table is in transmission connection with the second telescopic rod; the second telescopic rod is in transmission connection with the bottom end of the first double-slider bracket through a rotating shaft; two groups of reset springs are fixedly connected with the sliding blocks at the two ends of the first double-sliding-block bracket respectively; each group of reset springs is fixedly connected with a group of corresponding fork rods; and a group of sixth rotating shaft, a supporting rod, a rotating disc and a second telescopic rod are respectively arranged on two sides of the first double-slider bracket.

Preferably, the trimming unit comprises a spring slider bracket, a seventh rotating shaft, a twelfth straight gear, a short toothed bar, an eleventh driving wheel, an eighth rotating shaft, a twelfth driving wheel, a hook plate and a side lever; the two groups of spring slide block brackets are respectively connected with the two sides of the second slide rail frame in a sliding way; the spring part of the spring slide block bracket is fixedly connected with the second slide rail frame; two sides of the seventh rotating shaft are respectively rotatably connected with a group of spring slide block brackets; the twelfth straight gear and the eleventh transmission wheel are fixedly connected with the seventh rotating shaft; a short rack bar is fixedly connected with the second slide rail frame below the twelfth straight gear; the twelfth straight gear is meshed with the short rack bar; two sides of the eighth rotating shaft are respectively rotatably connected with a group of spring slide block brackets below the seventh rotating shaft; the twelfth driving wheel and the hook plate are fixedly connected with the eighth rotating shaft; the eleventh transmission wheel is in transmission connection with the twelfth transmission wheel through a belt; above the hook plate, two ends of the side lever are respectively fixedly connected with a group of spring slide block brackets.

Preferably, the milling blocks on every two adjacent sets of milling-in units are designed to be interleaved.

Preferably, the guide plate is provided with a cutter groove corresponding to the cutter.

The invention has the beneficial effects that: (1) the device overcomes the defects that when the resin particles on the cotton yarn net mountain are smeared by the scraper, the cotton yarn net is easy to move and wrinkles or deformation occurs, and the glue material is easy to overflow from the two sides of the bottom plate in the glue material spraying process of the bottom plate;

(2) the device of the invention is provided with: when the device is used, the device is placed on an operation table with a corresponding size, the support table is kept stable, a power supply is connected externally, a control table adjusting device is regulated and controlled, then an operator places the bottom plate in the spreading assembly, the spreading assembly coats a layer of sizing material on the bottom plate, the sizing material overflowing from the side edge of the bottom plate is withdrawn towards the inside of the bottom plate, then the spreading assembly firstly spreads resin particles on the bottom plate, then the spreading assembly flatly lays a cotton gauze on the bottom plate, presses the cotton gauze to extrude the resin particles below into gaps of the cotton gauze, and finally the spreading assembly coats a layer of sizing material on the resin particles and performs the same withdrawing treatment on the sizing material overflowing from the side edge of the bottom plate;

(3) the invention realizes the glue spraying and the resin particle and cotton gauze spreading processing work of the bottom plate of the corrugated board, changes the spreading sequence of the resin particle and the cotton gauze, can avoid the phenomenon that the cotton gauze is stirred to generate wrinkles when the resin particle is moved, and also reclaims the overflowed glue on the two sides of the corrugated board, thereby having simple operation, safety and reliability.

Drawings

FIG. 1 is a schematic perspective view of a first embodiment of the present invention;

FIG. 2 is a schematic perspective view of a second embodiment of the present invention;

FIG. 3 is a third perspective view of the present invention;

FIG. 4 is a schematic perspective view of a spreading assembly of the present invention;

FIG. 5 is a schematic view of a first partial perspective view of a spreading assembly of the present invention;

FIG. 6 is a schematic partial perspective view of a second spreading assembly of the present invention;

FIG. 7 is a schematic perspective view of a third partial structure of a spreading assembly according to the present invention;

FIG. 8 is a perspective view of the guide plate of the present invention;

FIG. 9 is a schematic perspective view of the roll-in unit of the present invention;

FIG. 10 is a perspective view of a cutting unit of the present invention;

FIG. 11 is a partial perspective view of the cutting unit of the present invention;

FIG. 12 is a perspective view of the glue dispensing assembly of the present invention;

FIG. 13 is a schematic partial perspective view of the glue application assembly of the present invention;

fig. 14 is a schematic perspective view of a trimming unit according to the present invention.

Description of reference numerals: 1_ spreading assembly, 2_ gumming assembly, 3_ holder table, 4_ console, 101_ table, 102_ main motor, 103_ motor rotation shaft, 104_ first spur gear, 105_ second spur gear, 106_ first motorized slider, 107_ third spur gear, 108_ first rotation shaft, 109_ fourth spur gear, 110_ first transmission wheel, 111_ second transmission wheel, 112_ second motorized slider, 113_ fifth spur gear, 114_ second rotation shaft, 115_ sixth spur gear, 116_ third transmission wheel, 117_ first lead screw, 118_ first slider holder, 119_ second lead screw, 120_ second slider holder, 121_ fourth transmission wheel, 122_ fifth transmission wheel, 123_ third rotation shaft, 124_ seventh spur gear, 125_ sixth transmission wheel, 126_ eighth spur gear, 127_ fork lever, 128_ ninth spur gear, 129_ seventh gear, 130_ central shaft, 131_ tenth spur gear, 132_ fourth rotating shaft, 133_ eleventh spur gear, 134_ rolling-in unit, 135_ guide plate, 136_ cutting unit, 137_ first slide rail frame, 138_ third electric slider, 139_ first spray pipe, 140_ resin pellet conveying mechanism, 141_ first conveying pipe, 142_ long rack bar, 143_ electric retractable plate, 13401_ shaft sleeve, 13402_ first retractable rod, 13403_ fifth rotating shaft, 13404_ rolling block, 13601_ first double slider support, 13602_ cutter, 13603_ sixth rotating shaft, 13604_ support, 13605_ rotary table, 13606_ second retractable rod, 13607_ return spring, 201_ third lead screw, 202_ fourth lead screw, 203_ eighth transmission wheel, 204_ ninth transmission wheel, 205_ tenth transmission wheel, 206_ third slider support, 207_ electric push rod, 208_ second slide rail frame, 209_ fourth electric slider, 210_ second conveying pipe, 211_ third conveying pipe, 212_ third conveying pipe, 213_ distributor, 214_ second spraying pipe, 215_ edge wiping unit, 21501_ spring slide block bracket, 21502_ seventh rotating shaft, 21503_ twelfth spur gear, 21504_ short toothed bar, 21505_ eleventh driving wheel, 21506_ eighth rotating shaft, 21507_ twelfth driving wheel, 21508_ hook plate and 21509_ side rod.

Detailed Description

The invention is further described with reference to the following figures and detailed description.

Example 1

A corrugated board production resin particle and cotton gauze bonding device is shown in figures 1-14, and comprises a spreading component 1, a gluing component 2, a support platform 3 and a control platform 4; the spreading component 1 is connected with the gluing component 2; the spreading assembly 1 is connected with a support table 3; the gluing component 2 is connected with the support table 3; the console 4 is connected with the stand table 3.

When the device is used, the device is placed on an operation table with a corresponding size, the support table 3 is kept stable, a power supply is connected externally, the control table 4 is adjusted and controlled, an operator places the bottom plate in the spreading assembly 1, the spreading assembly 2 coats a layer of sizing material on the bottom plate, the sizing material overflowing from the side edge of the bottom plate is withdrawn towards the inside of the bottom plate, then the spreading assembly 1 firstly spreads resin particles on the bottom plate, the spreading assembly 1 flatly lays a cotton gauze on the bottom plate, presses the cotton gauze to extrude the resin particles below into gaps of the cotton gauze, and finally the spreading assembly 2 coats a layer of sizing material on the resin particles and performs the same withdrawing treatment on the sizing material overflowing from the side edge of the bottom plate; the invention realizes the glue spraying and the resin particle and cotton gauze spreading processing work of the bottom plate of the corrugated board, changes the spreading sequence of the resin particle and the cotton gauze, can avoid the phenomenon that the cotton gauze is stirred to generate wrinkles when the resin particle is moved, and also reclaims the overflowed glue on the two sides of the corrugated board, thereby having simple operation, safety and reliability.

The spreading assembly 1 comprises a workbench 101, a main motor 102, a motor rotating shaft 103, a first straight gear 104, a second straight gear 105, a first electric slider 106, a third straight gear 107, a first rotating shaft 108, a fourth straight gear 109, a first driving wheel 110, a second driving wheel 111, a second electric slider 112, a fifth straight gear 113, a second rotating shaft 114, a sixth straight gear 115, a third driving wheel 116, a first screw 117, a first slider bracket 118, a second screw 119, a second slider bracket 120, a fourth driving wheel 121, a fifth driving wheel 122, a third rotating shaft 123, a seventh straight gear 124, a sixth driving wheel 125, an eighth straight gear 126, a fork rod 127, a ninth straight gear 128, a seventh driving wheel 129, a central shaft 130, a tenth straight gear 131, a fourth rotating shaft 132, an eleventh straight gear 133, a rolling-in unit 134, a guide plate 135, a cutting unit 136, a first slide rail bracket 137, a third electric slider 138, A first spray pipe 139, a resin pellet conveying mechanism 140, a first conveying pipe 141, a long rack bar 142, and an electric expansion plate 143; the workbench 101 is fixedly connected with the bracket platform 3; on one side of the workbench 101, a main motor 102 is fixedly connected with the support table 3; the motor rotating shaft 103 is rotatably connected with the support table 3; the output shaft of the main motor 102 is fixedly connected with a motor rotating shaft 103; the first straight gear 104 and the second straight gear 105 are both fixedly connected with the motor rotating shaft 103; on one side of the motor rotating shaft 103, a first electric sliding block 106 is in sliding connection with the support table 3; the third straight gear 107 is rotationally connected with the first electric slide block 106 through a rotating shaft; on one side of the first electric slide 106, a first rotating shaft 108 is rotatably connected with the support table 3; the fourth spur gear 109 and the first driving wheel 110 are both fixedly connected with the first rotating shaft 108; when both sides of the third spur gear 107 are simultaneously engaged with the first spur gear 104 and the fourth spur gear 109, the third spur gear 107 and the fourth spur gear 109 rotate; when both sides of the third spur gear 107 are not engaged with the first spur gear 104 and the fourth spur gear 109, the third spur gear 107 and the fourth spur gear 109 do not rotate; on one side of the first electric slide block 106, a second electric slide block 112 is connected with the support table 3 in a sliding manner; the fifth straight gear 113 is rotationally connected with the second electric slider 112 through a rotating shaft; on one side of the second electric slide block 112, a second rotating shaft 114 is rotatably connected with the support table 3; the sixth spur gear 115 and the third transmission wheel 116 are both fixedly connected with the second rotating shaft 114; when both sides of the fifth spur gear 113 are simultaneously engaged with the second spur gear 105 and the sixth spur gear 115, the fifth spur gear 113 and the sixth spur gear 115 are rotated; when both sides of the fifth spur gear 113 are not engaged with the second spur gear 105 and the sixth spur gear 115, the fifth spur gear 113 and the sixth spur gear 115 do not rotate; the third driving wheel 116 is connected with the gluing component 2; on the side of the first rotating shaft 108, a first screw rod 117 is rotatably connected with the support table 3; the first slider bracket 118 is slidably connected with the bracket table 3; the first slider bracket 118 is screwed with the first screw rod 117; on one side of the first screw rod 117, a second screw rod 119 is rotatably connected with the support table 3; the second slider bracket 120 is connected with the bracket table 3 in a sliding manner; the second slider bracket 120 is screwed with the second screw rod 119; the second driving wheel 111 and the fourth driving wheel 121 are fixedly connected with the first screw rod 117; the first driving wheel 110 is in driving connection with a second driving wheel 111 through a belt; the fifth driving wheel 122 is fixedly connected with the second screw rod 119; the fourth driving wheel 121 is in driving connection with the fifth driving wheel 122 through a belt; the third rotating shaft 123 is rotatably connected with the first slider bracket 118; the seventh spur gear 124, the sixth transmission wheel 125 and the eighth spur gear 126 are all fixedly connected with the third rotating shaft 123; on one side of the first slider bracket 118, a long toothed bar 142 is fixedly connected with the bracket table 3; when the seventh spur gear 124 is engaged with the long rack bar 142, the seventh spur gear 124 rotates; when the seventh spur gear 124 is not engaged with the long rack bar 142, the seventh spur gear 124 is not rotated; the two groups of fork rods 127 are fixedly connected with the first slider bracket 118 and the second slider bracket 120 respectively; the ninth spur gear 128 and the seventh transmission wheel 129 are fixedly connected with the same rotating shaft, and the ninth spur gear 128 and the seventh transmission wheel 129 are both rotationally connected with a fork 127 on the first slider bracket 118 through the rotating shaft; the sixth driving wheel 125 drives a seventh driving wheel 129 through a belt; both sides of the central shaft 130 are respectively contacted with the slot surfaces of the fork rods 127; the tenth spur gear 131 is fixedly connected with one end of the central shaft 130 close to the first slider bracket 118; the ninth spur gear 128 is engaged with the tenth spur gear 131; on one side of the third rotating shaft 123, both sides of the fourth rotating shaft 132 are rotatably connected with the first slider bracket 118 and the second slider bracket 120, respectively; the eleventh spur gear 133 is fixedly connected with the fourth rotating shaft 132; the eighth spur gear 126 is meshed with the eleventh spur gear 133; the eleven groups of rolling-in units 134 are all connected with the fourth rotating shaft 132; two sides of the guide plate 135 are fixedly connected with the side surfaces of a group of fork rods 127; both sides of the cutting unit 136 are connected with a set of fork bars 127; on one side of the fork 127, two sides of the first slide rail bracket 137 are fixedly connected with the first slide block bracket 118 and the second slide block bracket 120 respectively; the third electric slider 138 is connected with the first slide rail frame 137 in a sliding manner; the first material spraying pipe 139 is fixedly connected with the third electric slide block 138; on one side of the long rack bar 142, the resin particle conveying machine 140 is fixedly connected with the support table 3; the first material conveying pipe 141 is fixedly connected with the resin particle conveying machine member 140; the first material conveying pipe 141 is fixedly connected with the first material spraying pipe 139; two groups of electric expansion plates 143 are fixedly connected with the support table 3 at two sides of the workbench 101.

Firstly, an operator places the soleplate in the workbench 101, then takes the central shaft 130 out of the fork rod 127 and sleeves the reel-shaped cotton net on the central shaft 130, inserts the central shaft 130 and the reel-shaped cotton net back into the fork rod 127, then the output shaft of the main motor 102 drives the motor rotating shaft 103 to rotate, the motor rotating shaft 103 simultaneously drives the first spur gear 104 and the second spur gear 105 to rotate, then the second electric slider 112 drives the fifth spur gear 113 to move along the bracket platform 3 through the rotating shaft, so that the second spur gear 105 is meshed with the fifth spur gear 113 and drives the fifth spur gear to rotate, the fifth spur gear 113 is meshed with the sixth spur gear 115 and drives the second rotating shaft 114 to rotate, the second rotating shaft 114 drives the third driving wheel 116 to rotate, the third driving wheel 116 drives the gluing component 2 to glue the soleplate, then the second electric slider 112 drives the fifth spur gear 113 to reset through the rotating shaft, then the first electric slider 106 drives the third spur gear 107 to move along the bracket platform 3 through the rotating shaft, the first spur gear 104 is engaged with the third spur gear 107 to drive the third spur gear 107 to rotate, the third spur gear 107 is engaged with the fourth spur gear 109 to drive the first rotating shaft 108 to rotate, the first rotating shaft 108 drives the first driving wheel 110 to rotate, the first driving wheel 110 drives the first screw 117 to rotate through the belt driving the second driving wheel 111, the first screw 117 drives the fourth driving wheel 121 to rotate, the fourth driving wheel 121 drives the fifth driving wheel 122 through the belt driving the second screw 119 to rotate, the first slider bracket 118 and the second slider bracket 120 simultaneously drive the connected components to move on the bracket table 3 along the insections of the first screw 117 and the second screw 119, when the first material spraying pipe 139 is located above the bottom plate, the main motor 102 stops working, the resin particle conveying mechanism 140 conveys the resin particles into the first material spraying pipe 139 through the first material conveying pipe 141, and simultaneously the third electric slider 138 drives the first material spraying pipe 139 to move transversely, meanwhile, the first material spraying pipe 139 sprays a layer of resin particles on the sizing material on the surface of the base plate, then the main motor 102 starts to work, the first slider bracket 118 and the second slider bracket 120 drive the connected components to move on the bracket table 3, simultaneously, the seventh spur gear 124 is meshed with the long-tooth bar 142 to drive the third rotating shaft 123 to rotate, the third rotating shaft 123 drives the sixth driving wheel 125 and the eighth spur gear 126 to rotate simultaneously, the sixth driving wheel 125 drives the seventh driving wheel 129 through a belt and drives the ninth spur gear 128 through a rotating shaft to rotate, the ninth spur gear 128 is meshed with the tenth spur gear 131 to drive the central shaft 130 and the connected roll-shaped cotton gauze to rotate, so that one end of the roll-shaped cotton gauze moves downwards from between the guide plate 135 and the cutting unit 136 and covers the surface of the resin particles, simultaneously, the eighth spur gear 126 is meshed with the eleventh spur gear 133 to drive the rolling-in unit 134 through the fourth rotating shaft 132 to work, the grinding unit 134 grinds the cotton gauze on the surface of the resin particles into the resin particles, meanwhile, the cotton gauze extrudes the resin particles below the cotton gauze to gaps of the cotton gauze, then, the resin particles and the cotton gauze are paved on the rest positions of the bottom plate according to the operation process, and finally, when the cutting unit 136 passes through the electric expansion plate 143, the electric expansion plate 143 extends out and drives the cutting unit 136 to cut off the connection part of the cotton gauze covered on the bottom plate and the cotton gauze on the central shaft 130; this assembly completes the work of laying the resin particles and the cotton gauze on the bottom plate.

The gluing component 2 comprises a third screw 201, a fourth screw 202, an eighth driving wheel 203, a ninth driving wheel 204, a tenth driving wheel 205, a third slide block bracket 206, an electric push rod 207, a second slide rail bracket 208, a fourth electric slide block 209, a glue conveying machine part 210, a second material conveying pipe 211, a third material conveying pipe 212, a distributor 213, a second material spraying pipe 214 and a trimming unit 215; above the first screw rod 117, a third screw rod 201 is rotatably connected with the support table 3; on one side of the third screw rod 201, a fourth screw rod 202 is rotatably connected with the support table 3; the eighth driving wheel 203 and the ninth driving wheel 204 are fixedly connected with the third screw rod 201; the tenth transmission wheel 205 is fixedly connected with the fourth screw rod 202; the third driving wheel 116 is in driving connection with the eighth driving wheel 203 through a belt; the two groups of third slider brackets 206 are respectively screwed with the third screw rod 201 and the fourth screw rod 202; each group of third slider supports 206 is in sliding connection with the support table 3; the two groups of electric push rods 207 are fixedly connected with the corresponding group of third slider brackets 206; two sides of the second slide rail frame 208 are fixedly connected with a group of electric push rods 207 respectively; the fourth electric slider 209 is connected with the second slide rail frame 208 in a sliding manner; on one side of the second slide rail frame 208, a rubber material conveying machine part 210 is fixedly connected with the support table 3; the third material conveying pipe 212 is fixedly connected with a fourth electric slide block 209; two ends of the second material conveying pipe 211 are fixedly connected with the third material conveying pipe 212 and the rubber conveying machine member 210 respectively; the distributor 213 is fixedly connected with the third material conveying pipe 212; five groups of second material spraying pipes 214 are fixedly connected with the distributor 213; two sets of trimming units 215 are respectively connected to two sides of the second slide rail frame 208.

Firstly, an electric push rod 207 drives a second slide rail frame 208 and components connected with the slide rail frame to move downwards, so that a second material spraying pipe 214 is positioned on the upper surface of a bottom plate, then a sizing material conveying machine part 210 conveys sizing materials into a distributor 213 through a second material conveying pipe 211 and a third material conveying pipe 212, the distributor 213 distributes the sizing materials into five groups of second material spraying pipes 214, simultaneously, a fourth electric slide block 209 drives a third material conveying pipe 212 and the components connected with the third material conveying pipe to move transversely above the bottom plate, simultaneously, the second material spraying pipe 214 sprays a layer of sizing materials on the surface of the bottom plate, after the fourth electric slide block 209 passes through the side edge of the bottom plate, an edge smearing unit 215 returns the sizing materials overflowing from the side edge of the bottom plate to the inside of the bottom plate, then, a third driving wheel 116 drives a third screw rod 201 to rotate through an eighth driving wheel 203 through a belt, the third screw rod 201 drives a ninth driving wheel 204 to rotate, the ninth driving wheel 204 drives a tenth driving wheel, the two groups of third slider supports 206 drive the connected components to move on the support table 3 along the insections of the third screw rod 201 and the fourth screw rod 202 respectively, so that the second material spraying pipe 214 performs glue spraying treatment on the rest positions of the bottom plate; the assembly completes the glue spraying treatment of the bottom plate.

The grinding unit 134 comprises a shaft sleeve 13401, a first telescopic rod 13402, a fifth rotating shaft 13403 and a grinding block 13404; the shaft sleeve 13401 is fixedly connected with the fourth rotating shaft 132; eight groups of first telescopic rods 13402 are equidistantly arranged on the two side surfaces of the surrounding shaft sleeve 13401; the sixteen groups of first telescopic rods 13402 are in sliding connection with the same group of shaft sleeves 13401; both sides of the eight groups of fifth rotating shafts 13403 are respectively rotatably connected with one group of corresponding first telescopic rods 13402; the eight groups of rolling blocks 13404 are fixedly connected with one group of corresponding fifth rotating shafts 13403 respectively; the rolling mass 13404 is designed to be heavy at the bottom and light at the top.

First, the fourth rotating shaft 132 drives the shaft sleeve 13401 to rotate around the axis of the fourth rotating shaft 132 with the connected components, when the rolling block 13404 passes above the cotton gauze on the bottom plate, the rolling block 13404 rolls the cotton gauze downwards into the resin particles, meanwhile, the first telescopic rod 13402 stretches and retracts, meanwhile, the rolling block 13404 rotates around the axis of the fifth rotating shaft 13403, and then, the rolling block 13404 leaves the surface of the cotton gauze.

The cutting unit 136 includes a first double slider holder 13601, a cutter 13602, a sixth shaft 13603, a support 13604, a turntable 13605, a second telescopic rod 13606, and a return spring 13607; the sliders at the two ends of the first double-slider support 13601 are respectively connected with a set of fork bars 127 in a sliding manner; the cutter 13602 is fixedly connected with the side surface of the fork 127; the sixth shaft 13603 is rotatably connected to the fork 127; the support rod 13604 and the turntable 13605 are fixedly connected with the sixth rotating shaft 13603; the turntable 13605 is in transmission connection with a second telescopic rod 13606; the second expansion link 13606 is in transmission connection with the bottom end of the first double-slider support 13601 through a rotating shaft; two groups of return springs 13607 are respectively fixedly connected with the slide blocks at two ends of the first double-slide block bracket 13601; each group of the return springs 13607 is fixedly connected with a corresponding group of the fork 127; a set of sixth shafts 13603, a support 13604, a turntable 13605, and a second extension rod 13606 are provided on each side of the first double slider holder 13601.

Firstly, the electric expansion board 143 extends, when the support 13604 passes through the electric expansion board 143, the support 13604 is blocked by the electric expansion board 143 to displace and drive the sixth rotating shaft 13603 to rotate, the sixth rotating shaft 13603 drives the turntable 13605 to drive the second expansion board 13606 to rotate, the second expansion board 13606 drives the first double-slider support 13601 to move along the fork 127 through the rotating shaft driving cutter 13602, meanwhile, the return spring 13607 is stretched, so that the cutter 13602 cuts off the cotton gauze after entering the cutter 13602 groove on the guide board 135, then, the support 13604 leaves the electric expansion board 143, the electric expansion board 143 retracts, and the return spring 13607 drives the first double-slider support 13601 to return to the connected part.

The edge wiping unit 215 comprises a spring slider bracket 21501, a seventh rotating shaft 21502, a twelfth spur gear 21503, a short toothed bar 21504, an eleventh driving wheel 21505, an eighth rotating shaft 21506, a twelfth driving wheel 21507, a hook plate 21508 and a side bar 21509; the two groups of spring slide block brackets 21501 are respectively connected with the two sides of the second slide rail bracket 208 in a sliding manner; the spring component of the spring slider bracket 21501 is fixedly connected with the second slide rail bracket 208; both sides of the seventh rotating shaft 21502 are rotatably connected with a group of spring slider supports 21501; the twelfth straight gear 21503 and the eleventh driving wheel 21505 are both fixedly connected with the seventh rotating shaft 21502; below the twelfth spur gear 21503, the short rack bar 21504 is fixedly connected with the second slide rail frame 208; the twelfth spur gear 21503 is engaged with the short toothed bar 21504; below the seventh rotating shaft 21502, both sides of the eighth rotating shaft 21506 are rotatably connected with a set of spring slider supports 21501, respectively; the twelfth driving wheel 21507 and the hook plate 21508 are fixedly connected with the eighth rotating shaft 21506; the eleventh driving wheel 21505 is in driving connection with the twelfth driving wheel 21507 through a belt; above the hook plate 21508, two ends of the side bar 21509 are fixedly connected to a set of spring slider supports 21501.

Firstly, when the fourth electric slider 209 passes through the side edge of the bottom plate, the side rod 21509 and the components connected with the side rod are pushed to move to the outer side of the bottom plate along the second slide rail frame 208, meanwhile, the spring component of the spring slider bracket 21501 is stretched, when the fourth electric slider 209 moves to the other side of the bottom plate, the spring component of the spring slider bracket 21501 drives the spring slider bracket 21501 to move towards the inner direction of the bottom plate, meanwhile, the twelfth straight gear 21503 is meshed with the short-tooth rod 21504 to drive the seventh rotating shaft 21502 to rotate, the seventh rotating shaft 21502 drives the eleventh driving wheel 21505 to rotate, the eleventh driving wheel 21505 drives the twelfth driving wheel 21507 to drive the eighth rotating shaft 21506 to rotate through a belt, the eighth rotating shaft 21506 drives the hook plate 21508 to rotate, and the hook plate 21508 hooks the sizing material overflowing from the side edge of.

The crush blocks 13404 on each two adjacent sets of crush-in units 134 are of an interleaved cross-over design.

When the rolling blocks 13404 on one set of the roll-in units 134 are off the surface of the cotton gauze, the rolling blocks 13404 on the other set of the roll-in units 134 press the cotton gauze downwards, so that the cotton gauze cannot be rolled off the surface of the bottom plate.

The guide plate 135 is provided with a cutter 13602 groove corresponding to the cutter 13602.

The web of cotton yarn may be cut.

The above description is only an example of the present invention and is not intended to limit the present invention. All equivalents which come within the spirit of the invention are therefore intended to be embraced therein. Details not described herein are well within the skill of those in the art.

Claims (8)

1. A corrugated board production resin particle and cotton gauze bonding device comprises a control console, and is characterized by also comprising a spreading component, a gluing component and a support platform; the spreading assembly is connected with the gluing assembly; the spreading assembly is connected with the bracket platform; the gluing component is connected with the support platform; the console is connected with the support table.

2. A corrugated cardboard producing resin particle and web bonding apparatus as claimed in claim 1 wherein the spreading means comprises a table, a main motor, a motor rotating shaft, a first spur gear, a second spur gear, a first electric slider, a third spur gear, a first rotating shaft, a fourth spur gear, a first driving wheel, a second electric slider, a fifth spur gear, a second rotating shaft, a sixth spur gear, a third driving wheel, a first lead screw, a first slider holder, a second lead screw, a second slider holder, a fourth driving wheel, a fifth driving wheel, a third rotating shaft, a seventh spur gear, a sixth driving wheel, an eighth spur gear, a yoke, a ninth spur gear, a seventh driving wheel, a center shaft, a tenth gear, a fourth rotating shaft, an eleventh spur gear, a straight-in unit, a guide plate, a cutting unit, a first slide rail holder, a third electric slider, a fourth spur gear, a third spur gear, a fourth straight gear, a, The device comprises a first material spraying pipe, a resin particle conveying machine part, a first material conveying pipe, a long toothed bar and an electric expansion plate; the workbench is fixedly connected with the support platform; on one side of the workbench, the main motor is fixedly connected with the support platform; the motor rotating shaft is rotatably connected with the support platform; the output shaft of the main motor is fixedly connected with the motor rotating shaft; the first straight gear and the second straight gear are fixedly connected with a motor rotating shaft; the first electric sliding block is connected with the support platform in a sliding manner on one side of the motor rotating shaft; the third straight gear is rotationally connected with the first electric slide block through a rotating shaft; on one side of the first electric slide block, a first rotating shaft is rotatably connected with the support platform; the fourth straight gear and the first driving wheel are fixedly connected with the first rotating shaft; when two sides of the third straight gear are simultaneously meshed with the first straight gear and the fourth straight gear, the third straight gear and the fourth straight gear rotate; when the two sides of the third straight gear are not meshed with the first straight gear and the fourth straight gear, the third straight gear and the fourth straight gear do not rotate; the second electric sliding block is connected with the support platform in a sliding manner on one side of the first electric sliding block; the fifth straight gear is rotationally connected with the second electric slide block through a rotating shaft; the second rotating shaft is rotatably connected with the support platform on one side of the second electric sliding block; the sixth straight gear and the third transmission wheel are fixedly connected with the second rotating shaft; when two sides of the fifth straight gear are simultaneously meshed with the second straight gear and the sixth straight gear, the fifth straight gear and the sixth straight gear rotate; when the two sides of the fifth straight gear are not meshed with the second straight gear and the sixth straight gear, the fifth straight gear and the sixth straight gear do not rotate; the third driving wheel is connected with the gluing component; on one side of the first rotating shaft, a first screw rod is rotatably connected with the support platform; the first sliding block bracket is connected with the bracket platform in a sliding manner; the first sliding block bracket is in screwed connection with the first screw rod; on one side of the first screw rod, the second screw rod is rotatably connected with the support platform; the second sliding block bracket is connected with the bracket platform in a sliding manner; the second sliding block bracket is in screwed connection with the second screw rod; the second driving wheel and the fourth driving wheel are fixedly connected with the first screw rod; the first driving wheel is in transmission connection with the second driving wheel through a belt; the fifth driving wheel is fixedly connected with the second screw rod; the fourth transmission wheel is in transmission connection with the fifth transmission wheel through a belt; the third rotating shaft is rotatably connected with the first sliding block bracket; the seventh straight gear, the sixth transmission wheel and the eighth straight gear are fixedly connected with the third rotating shaft; on one side of the first sliding block bracket, a long toothed bar is fixedly connected with a bracket platform; when the seventh straight gear is meshed with the long rack rod, the seventh straight gear rotates; when the seventh straight gear is not engaged with the long rack rod, the seventh straight gear does not rotate; the two groups of fork rods are fixedly connected with the first sliding block bracket and the second sliding block bracket respectively; the ninth straight gear and the seventh transmission wheel are fixedly connected with the same rotating shaft, and are in rotating connection with a fork rod on the first slide block bracket through the rotating shaft; the sixth driving wheel drives the seventh driving wheel through a belt; the two sides of the central shaft are respectively contacted with the surfaces of the clamping grooves of the fork rods; the tenth straight gear is fixedly connected with one end of the central shaft close to the first sliding block bracket; the ninth spur gear is meshed with the tenth spur gear; on one side of the third rotating shaft, two sides of the fourth rotating shaft are respectively in rotating connection with the first sliding block bracket and the second sliding block bracket; the eleventh straight gear is fixedly connected with the fourth rotating shaft; the eighth straight gear is meshed with the eleventh straight gear; the eleven groups of rolling-in units are connected with the fourth rotating shaft; two sides of the guide plate are fixedly connected with the side surfaces of the fork rods respectively; two sides of the cutting unit are respectively connected with a group of fork rods; on one side of the fork rod, two sides of the first slide rail frame are fixedly connected with the first slide block bracket and the second slide block bracket respectively; the third electric slide block is connected with the first slide rail frame in a sliding way; the first material spraying pipe is fixedly connected with the third electric sliding block; on one side of the long toothed bar, the resin particle conveying machine part is fixedly connected with the support platform; the first material conveying pipe is fixedly connected with the resin particle conveying machine part; the first material conveying pipe is fixedly connected with the first material spraying pipe; two groups of electric expansion plates are fixedly connected with the support platform on two sides of the workbench.

3. A corrugated cardboard producing resin particle and cotton gauze bonding device according to claim 2, wherein the gluing component comprises a third screw rod, a fourth screw rod, an eighth driving wheel, a ninth driving wheel, a tenth driving wheel, a third slide block bracket, an electric push rod, a second slide rail bracket, a fourth electric slide block, a glue material conveying machine part, a second material conveying pipe, a third material conveying pipe, a distributor, a second material spraying pipe and a trimming unit; the third screw rod is rotatably connected with the support platform above the first screw rod; on one side of the third screw rod, the fourth screw rod is rotatably connected with the support platform; the eighth driving wheel and the ninth driving wheel are fixedly connected with the third screw rod; the tenth driving wheel is fixedly connected with the fourth screw rod; the third driving wheel is in transmission connection with the eighth driving wheel through a belt; the two groups of third sliding block brackets are respectively screwed with the third screw rod and the fourth screw rod; each group of third sliding block brackets is in sliding connection with the bracket platform; the two groups of electric push rods are fixedly connected with the corresponding group of third sliding block brackets; two sides of the second slide rail frame are fixedly connected with a group of electric push rods respectively; the fourth electric slide block is in sliding connection with the second slide rail frame; on one side of the second slide rail frame, a rubber material conveying machine part is fixedly connected with the support platform; the third material conveying pipe is fixedly connected with the fourth electric slide block; two ends of the second conveying pipe are fixedly connected with the third conveying pipe and the rubber conveying machine part respectively; the distributor is fixedly connected with the third material conveying pipe; the five groups of second material spraying pipes are fixedly connected with the material distributor; and the two groups of edge wiping units are respectively connected with two sides of the second slide rail frame.

4. A corrugated cardboard producing resin particle and cotton gauze bonding device according to claim 3 wherein the grinding unit comprises a shaft sleeve, a first telescopic rod, a fifth rotating shaft and a grinding block; the shaft sleeve is fixedly connected with the fourth rotating shaft; eight groups of first telescopic rods are arranged on the two side surfaces of the surrounding shaft sleeve at equal intervals; the sixteen groups of first telescopic rods are all in sliding connection with the same group of shaft sleeves; two sides of the eight groups of fifth rotating shafts are respectively connected with one group of corresponding first telescopic rods in a rotating manner; the eight groups of pressing blocks are fixedly connected with one group of corresponding fifth rotating shafts respectively; the grinding block is designed to be heavy at the bottom end and light at the top end.

5. A corrugated cardboard producing resin particle and cotton gauze bonding device according to claim 4 wherein the cutting unit comprises a first double-slider bracket, a cutter, a sixth rotating shaft, a support rod, a rotating disc, a second telescopic rod and a return spring; the sliding blocks at the two ends of the first double-sliding-block bracket are respectively connected with a group of fork rods in a sliding manner; the cutter is fixedly connected with the side surface of the fork rod; the sixth rotating shaft is rotatably connected with the fork rod; the supporting rod and the rotary table are fixedly connected with the sixth rotating shaft; the rotary table is in transmission connection with the second telescopic rod; the second telescopic rod is in transmission connection with the bottom end of the first double-slider bracket through a rotating shaft; two groups of reset springs are fixedly connected with the sliding blocks at the two ends of the first double-sliding-block bracket respectively; each group of reset springs is fixedly connected with a group of corresponding fork rods; and a group of sixth rotating shaft, a supporting rod, a rotating disc and a second telescopic rod are respectively arranged on two sides of the first double-slider bracket.

6. A corrugated cardboard producing resin particle and cotton gauze bonding device as claimed in claim 5 wherein the edge wiping unit comprises a spring slider bracket, a seventh rotating shaft, a twelfth spur gear, a short rack bar, an eleventh driving wheel, an eighth rotating shaft, a twelfth driving wheel, a hook plate and a side bar; the two groups of spring slide block brackets are respectively connected with the two sides of the second slide rail frame in a sliding way; the spring part of the spring slide block bracket is fixedly connected with the second slide rail frame; two sides of the seventh rotating shaft are respectively rotatably connected with a group of spring slide block brackets; the twelfth straight gear and the eleventh transmission wheel are fixedly connected with the seventh rotating shaft; a short rack bar is fixedly connected with the second slide rail frame below the twelfth straight gear; the twelfth straight gear is meshed with the short rack bar; two sides of the eighth rotating shaft are respectively rotatably connected with a group of spring slide block brackets below the seventh rotating shaft; the twelfth driving wheel and the hook plate are fixedly connected with the eighth rotating shaft; the eleventh transmission wheel is in transmission connection with the twelfth transmission wheel through a belt; above the hook plate, two ends of the side lever are respectively fixedly connected with a group of spring slide block brackets.

7. A corrugated board producing resin particle and gauze bonding apparatus as claimed in claim 6, wherein the pressing blocks of each two adjacent sets of the pressing units are of a cross-over design.

8. A corrugated cardboard producing resin particle and gauze bonding apparatus as claimed in claim 7 wherein the guide plate is provided with a cutter groove corresponding to the cutter.

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