CN220412249U - Adjustable paperboard deviation rectifying machine - Google Patents

Abstract

The utility model relates to the technical field of paperboard processing, and discloses an adjustable paperboard deviation correcting machine. According to the utility model, the lifting adjusting mechanism is utilized to pre-adjust the distance between the first driving roller and the second driving roller, so that the conveying distance between the first driving roller and the second driving roller can be adjusted according to the thickness of the paper board, the paper board is adapted to the deviation correcting conveying work of paper boards with different thicknesses, then under the elastic and dislocation occlusion of the upper and lower groups of limiting tooth sleeves, the paper board can be always kept in a mutually-involuted state, the paper board is ensured to be horizontally corrected and guided, on one hand, the flexible use performance of the correcting machine can be improved, the paper board correcting work with different thicknesses can be adapted, on the other hand, the regulating and controlling are simple and convenient, and the popularization and the use are better.

Description

Adjustable paperboard deviation rectifying machine

Technical Field

The utility model relates to the technical field of paperboard processing, in particular to an adjustable paperboard deviation correcting machine.

Background

The cardboard is processed by various paper pulps, the thick paper sheet that the fibre interweaves and constitutes, including packing cardboard, industrial technology is with cardboard, building cardboard, wherein packing cardboard often embodies with corrugated paper's form, and when corrugated cardboard gets into subsequent cutting equipment from the exit slot of duplex machine, because corrugated cardboard can appear different degree horizontal rocking when each roller, belt or cutter are operated, make the cardboard produce skew and throw tail phenomenon, lead to most of cardboard and the distance between the deburring sword can not realize fine control, be difficult to guarantee the deburring precision of cardboard, consequently need utilize rectifying equipment to rectify it in corrugated paper production course of working, for example prior patent technology shows:

through the search, chinese patent net discloses a cardboard rectifying machine (public announcement number CN 214988934U), can push down the cardboard that comes out from the double-sided machine through first rubber roll and second rubber roll, prevents that the cardboard from drifting and rocking, and the limiting wheel can further carry out spacingly to the cardboard simultaneously, has effectively solved the cardboard rock, skew and gets rid of the tail problem. However, there are some disadvantages to the cardboard correction machines adopted in the above-mentioned published patents and the existing market: the first rubber roller and the second rubber roller are adopted to carry out involution conveying on the paperboards, the limiting wheels are utilized to carry out horizontal limiting, the deviation correcting machine can only correct deviation of the paperboards with single thickness, when the thickness of the paperboards is thicker or thinner, the deviation correcting machine cannot adapt to deviation correcting conveying of the paperboards with different thicknesses, the service performance is single, and the popularization is low. Therefore, a person skilled in the art provides an adjustable cardboard deviation correcting machine to solve the above-mentioned problems in the background art.

Disclosure of Invention

The utility model aims to provide an adjustable paperboard deviation correcting machine so as to solve the problems in the background art.

In order to achieve the above purpose, the present utility model provides the following technical solutions: the adjustable paperboard deviation correcting machine comprises a support frame, wherein the lower half part of a support of the support frame is rotationally connected with a second driving roller, the upper half part of the support frame is rotationally connected with a first driving roller, the upper half part of the support frame is provided with a lifting adjusting mechanism matched with the first driving roller, one end output end of the first driving roller is provided with a first involution gear, one end output end of the second driving roller is provided with a second involution gear meshed with the first involution gear, and two ends of a roller shaft of the first driving roller and two ends of a roller shaft of the second driving roller are respectively provided with a limiting toothed sleeve mutually involution;

the lifting adjusting mechanism comprises two groups of guide sliding grooves symmetrically arranged on the upper half part of the support frame support, a transmission screw seat is arranged at the notch end of the top of the guide sliding grooves, a guide sliding seat matched with the output end of the first transmission roller is arranged at the sliding rail end of the guide sliding grooves, and lifting screws connected with the guide sliding seat are connected in a penetrating and screwing mode at the middle part of a support of the transmission screw seat.

As still further aspects of the utility model: the bearing housing that links to each other with the direction slide is installed to the axostylus axostyle bottom of lift screw, and the knob handle is installed on the axostylus axostyle top of lift screw.

As still further aspects of the utility model: the output end of the other end of the second driving roller is provided with a driving motor arranged on the supporting frame.

As still further aspects of the utility model: the fluted disc sizes of the first involution gear and the second involution gear are the same.

As still further aspects of the utility model: the roller shaft end of the first driving roller is provided with a plurality of groups of first anti-slip yarns, the roller shaft end of the second driving roller is provided with a plurality of groups of second anti-slip yarns, and the first anti-slip yarns and the second anti-slip yarns are staggered.

As still further aspects of the utility model: the limiting gear sleeve comprises two groups of synchronous wheels which are sleeved at two ends of a shaft lever of the first driving roller and two groups of synchronous wheels which are vertically adjacent to each other in a two-to-two symmetrical mode, a plurality of groups of compression cavities are arranged in a wheel disc of each synchronous wheel along the circumferential direction of each wheel disc, compression springs are mounted at the bottoms of chambers of the compression cavities, and limiting stop rods which penetrate through the compression cavities are arranged at the tops of spring seats of the compression springs.

As still further aspects of the utility model: the limiting stop bars are annularly and symmetrically arranged relative to the axle center of the synchronous wheel, and the upper and lower adjacent limiting stop bars are staggered.

Compared with the prior art, the utility model has the beneficial effects that:

according to the utility model, the lifting adjusting mechanism is utilized to pre-adjust the distance between the first driving roller and the second driving roller, so that the conveying distance between the first driving roller and the second driving roller can be adjusted according to the thickness of the paper board, the paper board is adapted to the deviation correcting conveying work of paper boards with different thicknesses, then under the elastic and dislocation occlusion of the upper and lower groups of limiting tooth sleeves, the paper board can be always kept in a mutually-involuted state, the paper board is ensured to be horizontally corrected and guided, on one hand, the flexible use performance of the correcting machine can be improved, the paper board correcting work with different thicknesses can be adapted, on the other hand, the regulating and controlling are simple and convenient, and the popularization and the use are better.

Drawings

FIG. 1 is a schematic diagram of an adjustable paperboard deviation corrector;

FIG. 2 is an enlarged schematic view of the adjustable cardboard deviation correcting machine at A in FIG. 1;

fig. 3 is a schematic structural view of a limiting gear sleeve in an adjustable paperboard deviation corrector.

In the figure: 1. a support frame; 2. a drive motor; 3. a first driving roller; 4. a second driving roller; 5. a first anti-slip thread; 6. a second anti-slip thread; 7. a first mating gear; 8. a second mating gear; 9. a guide chute; 10. a guide slide; 11. a drive screw seat; 12. lifting screw rods; 13. a knob handle; 14. limiting tooth sleeves; 141. a synchronizing wheel; 142. a compression chamber; 143. a compression spring; 144. and a limit stop lever.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

Referring to fig. 1-3, in an embodiment of the utility model, an adjustable paperboard deviation corrector comprises a supporting frame 1, a second driving roller 4 is rotatably connected to the lower half of a support of the supporting frame 1, a first driving roller 3 is rotatably connected to the upper half of the support of the supporting frame 1, a lifting adjusting mechanism matched with the first driving roller 3 is mounted to the upper half of the support of the supporting frame 1, the lifting adjusting mechanism comprises two groups of guide sliding grooves 9 symmetrically formed in the upper half of the support of the supporting frame 1, a driving screw seat 11 is mounted to the notch end of the top of the guide sliding groove 9, a guide sliding seat 10 matched with the output end of the first driving roller 3 is mounted to the sliding rail end of the guide sliding groove 9, a lifting screw 12 connected with the guide sliding seat 10 is rotatably connected to the middle of a support of the driving screw seat 11, a bearing sleeve connected with the guide sliding seat 10 is mounted to the bottom end of a shaft of the lifting screw 12, a knob handle 13 is mounted to the top end of the shaft of the lifting screw 12, when the deviation corrector is used for correcting the paperboard, the distance between the first driving roller 3 and the second driving roller 4 can be adjusted according to the thickness of the paperboard, the distance between the first driving screw 3 and the second driving screw 4 is not rotated, and the driving screw 12 is rotated in the process of driving screw 12, and the distance is adjusted between the first driving screw and the lifting screw and the second driving screw 4 and the lifting screw 4.

The output end of one end of the first driving roller 3 is provided with a first involution gear 7, the output end of one end of the second driving roller 4 is provided with a second involution gear 8 meshed with the first involution gear 7, the output end of the other end of the second driving roller 4 is provided with a driving motor 2 arranged on the supporting frame 1, the size of fluted discs of the first involution gear 7 and the second involution gear 8 is the same, in the correcting process of correcting the paper board by using a correcting machine, the paper board in processing penetrates and is led out from the inside of the first driving roller 3 and the second driving roller 4, the synchronous driving motor 2 starts to work to drive the second driving roller 4 to rotate, the synchronous driving of the second involution gear 8 drives the first involution gear 7 to rotate, the first driving roller 3 is driven to symmetrically rotate relative to the second driving roller 4 by utilizing the involution rotation of the second driving roller 4 and the first driving roller 3, the paper board is subjected to horizontal correcting and conveying work under the horizontal limit of the limiting gear sleeve 14, and the horizontal stability of processing and conveying is ensured.

The roller shaft end of the first driving roller 3 is provided with a plurality of groups of first anti-slip wires 5 in a distributed manner, the roller shaft end of the second driving roller 4 is provided with a plurality of groups of second anti-slip wires 6 in a distributed manner, the first anti-slip wires 5 and the second anti-slip wires 6 are staggered with each other, and in the correcting process of the paper board by utilizing the correcting machine, the anti-slip performance of the two groups of driving rollers can be improved by arranging the first anti-slip wires 5 and the second anti-slip wires 6 on the first driving roller 3 and the second driving roller 4, so that the roller feeding stability of the paper board is ensured.

The two ends of the roller shafts of the first driving roller 3 and the second driving roller 4 are respectively provided with a mutually-involuted limit gear sleeve 14, the limit gear sleeve 14 comprises two groups of synchronous wheels 141 sleeved at the two ends of the shaft lever of the first driving roller 3 and the second driving roller 4 in a two-to-two symmetrical mode, the upper and lower adjacent groups of synchronous wheels 141 are mutually involuted, a plurality of groups of compression cavities 142 are arranged in the wheel disc of the synchronous wheels 141 along the circumferential direction of the wheel disc, a compression spring 143 is arranged at the bottom of a cavity of the compression cavity 142, the top ends of spring seats of the compression spring 143 are provided with limit stop rods 144 penetrating the compression cavities 142, the limit stop rods 144 are annularly and symmetrically arranged relative to the axes of the synchronous wheels 141, the upper and lower adjacent limit stop rods 144 are staggered, in the correcting process of a paper board by using a correcting machine, the limit gear sleeve 14 at the two ends of the roller shaft is synchronously and symmetrically rotated, then the upper compression spring 143 and the elastic force of the limit stop rod 144 is combined on the synchronous wheels 141, when the upper and lower adjacent limit stop rods 144 touch the synchronous wheels 141, the upper and lower adjacent stop rods 144 are pressed into the paper board, the two adjacent groups of the two adjacent drive rollers are always kept in a horizontal and the state of the same, and the two adjacent drive shafts of the paper board are always kept in a state of being stably-pressed along with the upper and lower adjacent drive roller shafts of the adjacent roller shafts, and the adjacent roller shafts are kept in a horizontal state, and the adjacent state of the adjacent drive shafts is kept in a state, and the adjacent to be stably-pressed.

The working principle of the utility model is as follows: when the deviation correcting machine is utilized to correct the paper board, the distance between the first driving roller 3 and the second driving roller 4 can be pre-adjusted according to the thickness of the paper board, then in the adjusting process, a worker rotates the knob handle 13 to push the lifting screw 12 to lift and rotate in the driving screw seat 11, then the lifting screw 12 converts the rotation force into lifting thrust to push the guiding sliding seat 10 to lift and slide in the guiding sliding groove 9, the distance between the first driving roller 3 and the second driving roller 4 is adjusted to adapt to the deviation correcting work of paper boards with different thicknesses, and then the paper board in processing is processed from the first driving roller 3 and the second driving roller 4

The second driving roller 4 is internally penetrated and led out, the synchronous driving motor 2 starts to work, drives the second driving roller 4 to rotate, synchronously drives the second involution gear 8 to rotate, pushes the first driving roller 3 to symmetrically rotate relative to the second driving roller 4 by utilizing the meshing transmission of the second involution gear 8 and the first involution gear 7, and utilizes involution rotation of the second driving roller 4 and the first driving roller 3 to horizontally correct and convey the paper board under the horizontal limit of the limit gear sleeve 14, so that the horizontal stability of processing and conveying of the paper board is ensured.

Claims (7)

1. The utility model provides an adjustable cardboard rectifying machine, includes support frame (1), its characterized in that, the support lower half of support frame (1) rotates and is connected with second driving roller (4), and the support upper half of support frame (1) rotates and is connected with first driving roller (3), the lift adjustment mechanism with first driving roller (3) looks adaptation is installed to the support upper half of support frame (1), first driving roller (3) one end output is provided with first involution gear (7), the one end output of second driving roller (4) is provided with second involution gear (8) with first involution gear (7) engaged with, and first driving roller (3) and second driving roller (4) roller both ends all are provided with spacing tooth cover (14) of mutually involuting;

the lifting adjusting mechanism comprises two groups of guide sliding grooves (9) symmetrically formed in the upper half of a support of the support frame (1), a transmission screw seat (11) is arranged at the notch end of the top of the guide sliding groove (9), a guide sliding seat (10) matched with the output end of the first driving roller (3) is arranged at the sliding rail end of the guide sliding groove (9), and lifting screws (12) connected with the guide sliding seat (10) are connected in a penetrating and screwing mode in the middle of a support of the transmission screw seat (11).

2. An adjustable paperboard deviation correcting machine according to claim 1, characterized in that the bottom end of the shaft rod of the lifting screw (12) is provided with a bearing sleeve connected with the guide slide seat (10), and the top end of the shaft rod of the lifting screw (12) is provided with a knob handle (13).

3. An adjustable cardboard deviation correcting machine according to claim 1, characterized in that the output end of the other end of the second driving roller (4) is provided with a driving motor (2) mounted on the supporting frame (1).

4. An adjustable cardboard deviation correcting machine according to claim 1, characterized in that the toothed disc of the first and second counter gears (7, 8) are the same size.

5. The adjustable paperboard deviation correcting machine according to claim 1, wherein a plurality of groups of first anti-slip wires (5) are arranged at the roller shaft end of the first driving roller (3), a plurality of groups of second anti-slip wires (6) are arranged at the roller shaft end of the second driving roller (4), and the first anti-slip wires (5) and the second anti-slip wires (6) are staggered.

6. The adjustable paperboard deviation correcting machine according to claim 1, wherein the limiting toothed sleeve (14) comprises two groups of synchronous wheels (141) which are sleeved at two ends of a shaft lever of the first driving roller (3) and the second driving roller (4) in a two-by-two symmetrical mode, the two groups of synchronous wheels (141) which are adjacent up and down are mutually matched, a plurality of groups of compression cavities (142) are distributed in a wheel disc of the synchronous wheels (141) along the circumferential direction of the wheel disc, a compression spring (143) is mounted at the bottom of a cavity of the compression cavity (142), and a limiting stop rod (144) penetrating through the compression cavity (142) is arranged at the top end of a spring seat of the compression spring (143).

7. The machine of claim 6, wherein the limit levers (144) are symmetrically arranged in a ring shape with respect to the axis of the synchronizing wheel (141), and the limit levers (144) adjacent to each other are arranged in a staggered manner.