CN110656537A

CN110656537A - Impregnating machine

Info

Publication number: CN110656537A
Application number: CN201911007797.7A
Authority: CN
Inventors: 陆新明
Original assignee: NANTONG SITONG FORESTRY MACHINE MANUFACTURE INSTALLATION CO Ltd
Current assignee: NANTONG SITONG FORESTRY MACHINE MANUFACTURE INSTALLATION CO Ltd
Priority date: 2019-10-22
Filing date: 2019-10-22
Publication date: 2020-01-07
Anticipated expiration: 2039-10-22
Also published as: CN110656537B

Abstract

A steeping machine comprises a rack, wherein a feeding roller is rotatably connected between the front ends of the rack, and a rubber basin is arranged at the bottom of the rack; a first impregnation roller and a second impregnation roller are sequentially arranged between cross beams at the bottom of the rack, one side of each impregnation roller is provided with an operating roller for adjusting the position, and one end of each operating roller is connected with an operating handle; a metering roller assembly is arranged above the cross beam at the bottom of the rack and is positioned above the second impregnation roller; the metering roller assembly comprises a first rubber extruding roller and a second rubber extruding roller; one side of the rubber extruding roller II is connected with a servo motor. Compared with the prior art, the impregnating machine provided by the invention has the advantages that the contact surface of the paper and the glue in the glue basin is changed by adjusting the front position and the rear position of the first impregnating roller, the glue dipping time is indirectly changed, the paper reaches the impregnating requirement, the gap between the first glue extruding roller and the second glue extruding roller is accurately controlled by the servo motor subsequently, the glue amount on the surface of the paper is strictly controlled, and the subsequent drying requirement is met.

Description

Impregnating machine

Technical Field

The invention relates to the field of mechanical equipment, in particular to a dipping machine.

Background

The function of the impregnator in the impregnation drying production line is to perform impregnation metering and floating on the impregnated paper tape, and the currently adopted impregnator cannot effectively control the impregnation amount and floating amount of the paper, so that the quality of the finished paper is greatly influenced.

Disclosure of Invention

The invention aims to solve the technical problem of providing a dipping machine aiming at the defects of the prior art.

In order to solve the technical problems, the invention adopts the technical scheme that:

a dipping machine comprises a frame, wherein a feed roller is rotatably connected between the front ends of the frame, and a back coating device is arranged below the feed roller; an adjusting roller assembly is arranged above the rack, and a rubber basin is arranged at the bottom of the rack; a first impregnation roller and a second impregnation roller are sequentially arranged between cross beams at the bottom of the rack, and one side of each impregnation roller is provided with an operating roller for adjusting the position; a metering roller assembly is arranged above the cross beam at the bottom of the rack and is positioned above the second impregnation roller; positioning seats are connected to two sides of a cross beam at the bottom of the rack, and racks are connected to the outer wall of the rack between the positioning seats; a guide pipe is connected between the positioning seats, and a group of sliding blocks are connected on the guide pipe in a sliding manner; the upper end of the sliding block is provided with a positioning plate; the first impregnation roller and the operating roller are rotatably connected between the positioning plates; one side of the impregnation roller penetrates through the positioning plate and is connected with a first speed reducer; two sides of the operating roller are sleeved with a first gear; a fixing column is connected to the inner side of the positioning plate, and a second gear is sleeved on the fixing column; the second gear is meshed with the first gear and the rack respectively; the metering assembly on the metering roller assembly comprises a metering housing support, a linear guide rail, a pushing cylinder, a speed reducer II and a servo motor, the metering housing support comprises a housing support mounting plate, a first baffle and a second baffle, the first baffle and the second baffle are connected to two sides of the housing support mounting plate, and the metering housing support is connected above a cross beam at the bottom of the rack through the housing support mounting plate; the linear guide rail is connected to the upper end of the housing support mounting plate, and a first sliding block and a second sliding block are connected to the linear guide rail in a sliding mode; the end surfaces of the first sliding block and the second sliding block are respectively connected with a first mounting block and a second mounting block; the end surfaces of the first mounting block and the second mounting block are respectively connected with a first rubber extruding roller sub-base and a second rubber extruding roller base; the first glue spreading roller seats are rotatably connected with one glue extruding roller through bearings, and the second glue extruding roller seats are rotatably connected with one glue extruding roller through bearings; the output end of the speed reducer II is connected with the central shaft of the glue extruding roller I; the pushing cylinder is arranged on the outer side surface of the first baffle plate, and the piston end of the pushing cylinder penetrates through the first baffle plate to be connected with one end surface of the mounting block; the servo motor is arranged on the outer side face of the second baffle, and the output end of the servo motor is connected with the second mounting block through a lead screw.

Furthermore, one end of the operating roller penetrates through the positioning plate and is connected with an operating handle.

Furthermore, the outer sides of the first rubber extruding roller sub-base and the second rubber extruding roller base are respectively connected with a first convex base and a second convex base; a first fixed shaft is connected between the first convex seats, and a second fixed shaft is connected between the second convex seats; the middle positions of the first fixed shaft and the second fixed shaft are both connected with a glue scraping plate and a glue collecting groove; the glue scraping plate is respectively tangent to the first glue extruding roller and the second glue extruding roller; the glue collecting groove is connected to the tail part of the glue scraping plate in an extending mode.

Furthermore, the back coating device comprises a rotating roller, a first compression roller, a second compression roller, a first adjusting motor and a second adjusting motor, wherein the first adjusting motor and the second adjusting motor are arranged on the rack; the rotating roller is rotatably connected above a cross beam at the bottom of the rack through a bearing seat, and one side of the rotating roller penetrates through the bearing seat and is connected with a third speed reducer; the first compression roller and the second compression roller are arranged above the rotating roller; the first compression roller is connected with a first adjusting structure shaft through an adjusting arm, and the second compression roller is connected with a second adjusting shaft through a fixed arm; the first adjusting structure shaft is connected with the output end of the first adjusting motor, and the second adjusting shaft is connected with the output end of the second adjusting motor; the adjusting arm is provided with a slot, and the first pressing roller adjusts the position through the slot.

Compared with the prior art, the impregnating machine provided by the invention has the advantages that the contact surface of the paper and the glue in the glue basin is changed by adjusting the front position and the rear position of the first impregnating roller, the glue dipping time is indirectly changed, the paper reaches the impregnating requirement, the gap between the first glue extruding roller and the second glue extruding roller is accurately controlled by the servo motor subsequently, the glue amount on the surface of the paper is strictly controlled, and the subsequent drying requirement is met.

Drawings

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

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

FIG. 3 is a cross-sectional view taken at line A-A of FIG. 2;

FIG. 4 is a cross-sectional view taken at FIG. 2B-B;

the device comprises a frame 1, a frame 2, a feeding roller 3, a back coating device 4, an adjusting roller assembly 5, a glue basin 6, a first dipping roller 7, a second dipping roller 8, an operating roller 9, a metering roller assembly 10, a rack 11, a guide pipe 12, a positioning plate 13, a first speed reducer 14, a first gear 15, a second gear 16, an operating handle 311, a rotating roller 312, a first pressure roller 313, a second pressure roller 314, a first adjusting motor 315, a second adjusting motor 316, a third speed reducer 317, a groove 911, a linear guide 912, a pushing cylinder 913, a second speed reducer 914, a servo motor, a housing 915, a support mounting plate 916, a first baffle 917, a second baffle 918, a first mounting block 919, a second mounting block 920, a first glue extruding roller 921, a second glue extruding roller 922, a first boss 923, a first boss 924, a glue scraping plate 925 and a glue collecting groove.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below.

As shown in figure 1 ~ 4, the impregnating machine comprises a rack 1, a feed roller 2 is rotatably connected between the front ends of the rack 1, a back coating device 3 is arranged below the feed roller 2, an adjusting roller assembly 4 is arranged above the rack 1, a rubber basin 5 is arranged at the bottom of the rack 1, a first impregnating roller 6 and a second impregnating roller 7 are sequentially arranged between cross beams at the bottom of the rack 1, an operating roller 8 for adjusting the position is arranged on one side of the first impregnating roller 6, a metering roller assembly 9 is arranged above the cross beams at the bottom of the rack 1, the metering roller assembly 9 is arranged above the second impregnating roller 7, positioning seats are connected to two sides of the cross beams at the bottom of the rack 1, a rack 10 is connected to the outer wall of the rack 1 between the positioning seats, a guide pipe 11 is connected between the positioning seats, a group of sliding blocks are slidably connected to the guide pipe 11, positioning plates 12 are arranged at the upper ends of the sliding blocks, the first impregnating roller 6 and the operating roller 8 are rotatably connected between the positioning plates 12, one side of the first impregnating roller 6 is connected with a first speed reducer 13 through the positioning plates 12, a first gear 14 is connected to two sides of the operating roller 8, a fixed plate 12 is connected with a fixed column, a sleeved with a second gear 15, a second gear 15.

The metering roller assembly 9 comprises a metering housing support, a linear guide rail 911, a pushing cylinder 912, a second speed reducer 913 and a servo motor 914, the metering housing support comprises a housing support mounting plate 915, a first baffle 916 and a second baffle 917 which are connected to two sides of the housing support mounting plate 915, and the metering housing support is connected above a cross beam at the bottom of the rack 1 through the housing support mounting plate 915; the linear guide rail 911 is connected to the upper end of the housing support mounting plate 915, and a first sliding block and a second sliding block are connected to the linear guide rail 911 in a sliding manner; the end surfaces of the first sliding block and the second sliding block are respectively connected with a first mounting block 918 and a second mounting block 919; the end surfaces of the first mounting block 918 and the second mounting block 919 are respectively connected with a first glue squeezing roller seat and a second glue squeezing roller seat; the first glue extruding roller 920 is rotatably connected between the first glue coating roller seats through a bearing, and the second glue extruding roller 921 is rotatably connected between the second glue extruding roller seats through a bearing; the output end of the second speed reducer 913 is connected with the central shaft of the first glue extruding roller 920; the pushing cylinder 912 is installed on the outer side surface of the first baffle 916, and the piston end of the pushing cylinder 912 penetrates through the first baffle 916 to be connected with the end surface of the first mounting block 918; the servo motor 914 is arranged on the outer side face of the second baffle plate 917, the output end of the servo motor 914 is connected with the second mounting block 919 through a lead screw, and the gap between the first glue extruding roller 920 and the second glue extruding roller 921 is adjusted through the accurate control of the servo motor 914, so that the gluing amount on the surface of the paper is accurate.

The outer sides of the first rubber extruding roller sub-seat and the second rubber extruding roller seat are respectively connected with a first convex seat 922 and a second convex seat 923; a first fixing shaft is connected between the first convex seats 922, and a second fixing shaft is connected between the second convex seats 923; the middle positions of the first fixed shaft and the second fixed shaft are both connected with a glue scraping plate 924 and a glue collecting groove 925; the scraping plate 924 is respectively tangent to the first glue squeezing roller 920 and the second glue squeezing roller 921; the glue collecting groove 925 extends and is connected to the tail part of the glue scraping plate 924.

The back coating device 3 comprises a rotating roller 311, a first pressing roller 312, a second pressing roller 313, a first adjusting motor 314 and a second adjusting motor 315, wherein the first adjusting motor 314 and the second adjusting motor 315 are arranged on the rack 1; the rotating roller 311 is rotatably connected above a cross beam at the bottom of the rack 1 through a bearing seat, and one side of the rotating roller 311 penetrates through the bearing seat and is connected with a third speed reducer 316; the first compression roller 312 and the second compression roller 313 are arranged above the rotating roller 311; the first compression roller 312 is connected with a first adjusting structure shaft through an adjusting arm, and the second compression roller 313 is connected with a second adjusting shaft through a fixed arm; the first adjusting structure shaft is connected with the output end of a first adjusting motor 314, and the second adjusting shaft is connected with the output end of a second adjusting motor 315; the adjusting arm is provided with a slot 317, and the position of the first pressing roller 312 is adjusted through the slot 317.

The present invention is not limited to the embodiments described above, and those skilled in the art may make modifications or changes within the scope of the disclosure without departing from the spirit of the present invention, so that the scope of the present invention is defined by the appended claims.

Claims

1. A dipping machine comprises a frame, wherein a feed roller is rotatably connected between the front ends of the frame, and a back coating device is arranged below the feed roller; frame top is provided with adjusting roller subassembly, and the frame bottom is installed and is glued the basin, its characterized in that: a first impregnation roller and a second impregnation roller are sequentially arranged between cross beams at the bottom of the rack, and one side of each impregnation roller is provided with an operating roller for adjusting the position; a metering roller assembly is arranged above the cross beam at the bottom of the rack and is positioned above the second impregnation roller; positioning seats are connected to two sides of a cross beam at the bottom of the rack, and racks are connected to the outer wall of the rack between the positioning seats; a guide pipe is connected between the positioning seats, and a group of sliding blocks are connected on the guide pipe in a sliding manner; the upper end of the sliding block is provided with a positioning plate; the first impregnation roller and the operating roller are rotatably connected between the positioning plates; one side of the impregnation roller penetrates through the positioning plate and is connected with a first speed reducer; two sides of the operating roller are sleeved with a first gear; a fixing column is connected to the inner side of the positioning plate, and a second gear is sleeved on the fixing column; the second gear is meshed with the first gear and the rack respectively; the metering assembly on the metering roller assembly comprises a metering housing support, a linear guide rail, a pushing cylinder, a speed reducer II and a servo motor, the metering housing support comprises a housing support mounting plate, a first baffle and a second baffle, the first baffle and the second baffle are connected to two sides of the housing support mounting plate, and the metering housing support is connected above a cross beam at the bottom of the rack through the housing support mounting plate; the linear guide rail is connected to the upper end of the housing support mounting plate, and a first sliding block and a second sliding block are connected to the linear guide rail in a sliding mode; the end surfaces of the first sliding block and the second sliding block are respectively connected with a first mounting block and a second mounting block; the end surfaces of the first mounting block and the second mounting block are respectively connected with a first rubber extruding roller sub-base and a second rubber extruding roller base; the first glue spreading roller seats are rotatably connected with one glue extruding roller through bearings, and the second glue extruding roller seats are rotatably connected with one glue extruding roller through bearings; the output end of the speed reducer II is connected with the central shaft of the glue extruding roller I; the pushing cylinder is arranged on the outer side surface of the first baffle plate, and the piston end of the pushing cylinder penetrates through the first baffle plate to be connected with one end surface of the mounting block; the servo motor is arranged on the outer side face of the second baffle, and the output end of the servo motor is connected with the second mounting block through a lead screw.

2. An impregnation machine as claimed in claim 1, characterized in that: one end of the operating roller penetrates through the positioning plate to be connected with an operating handle.

3. An impregnation machine as claimed in claim 1, characterized in that: the outer sides of the first rubber extruding roller sub-base and the second rubber extruding roller base are respectively connected with a first convex base and a second convex base; a first fixed shaft is connected between the first convex seats, and a second fixed shaft is connected between the second convex seats; the middle positions of the first fixed shaft and the second fixed shaft are both connected with a glue scraping plate and a glue collecting groove; the glue scraping plate is respectively tangent to the first glue extruding roller and the second glue extruding roller; the glue collecting groove is connected to the tail part of the glue scraping plate in an extending mode.

4. An impregnation machine as claimed in claim 1, characterized in that: the back coating device comprises a rotating roller, a first compression roller, a second compression roller, a first adjusting motor and a second adjusting motor, wherein the first adjusting motor and the second adjusting motor are arranged on the rack; the rotating roller is rotatably connected above a cross beam at the bottom of the rack through a bearing seat, and one side of the rotating roller penetrates through the bearing seat and is connected with a third speed reducer; the first compression roller and the second compression roller are arranged above the rotating roller; the first compression roller is connected with a first adjusting structure shaft through an adjusting arm, and the second compression roller is connected with a second adjusting shaft through a fixed arm; the first adjusting structure shaft is connected with the output end of the first adjusting motor, and the second adjusting shaft is connected with the output end of the second adjusting motor; the adjusting arm is provided with a slot, and the first pressing roller adjusts the position through the slot.