CN216105170U

CN216105170U - Deviation correcting device for paper surface press polish machine

Info

Publication number: CN216105170U
Application number: CN202122414584.5U
Authority: CN
Inventors: 吕卫东
Original assignee: Shandong Huaxin Tiancheng Printing Co ltd
Current assignee: Shandong Huaxin Tiancheng Printing Co ltd
Priority date: 2021-10-08
Filing date: 2021-10-08
Publication date: 2022-03-22
Anticipated expiration: 2031-10-08

Abstract

The utility model discloses a deviation correcting device for a paper surface calender, and belongs to the technical field of calender equipment. The deviation correcting device for the paper surface calender comprises a Teflon conveyer belt, wherein an automatic deviation correcting mechanism for correcting the printing paper sheets is arranged above the Teflon conveyer belt and comprises lifting components arranged on two sides of the Teflon conveyer belt, a driving component arranged in the middle of the upper part of the Teflon conveyer belt and two deviation correcting components symmetrically arranged below the driving component and used for correcting the printing paper sheets.

Description

Deviation correcting device for paper surface press polish machine

Technical Field

The utility model relates to the technical field of calender equipment, in particular to a deviation correcting device for a paper calender.

Background

The calender is one of the calendering and glazing processes used to improve the glossiness of paper. After the surface of the printed matter is coated, the glazing layer is dried, and if the smoothness and the glossiness of the glazing coating need to be improved again, the surface of the printed matter can be calendered by a calender. The gloss of the common glazing is about 65-85%, and the gloss can reach more than 90-95% after calendering.

Printing paper is carried through forming the negative pressure to the majority to the teflon conveyer belt among the current plating press, then increases spacing roller in the feed inlet department of glazing press and pressfitting roller and rectifies a deviation to printing paper, though this kind of structure simple and practical to rectifying a deviation to printing paper, but when the defeated material speed of teflon conveyer belt accelerates, printing paper has very big probability to pile up in the feed inlet department of glazing press and pressfitting roller to lead to the plating press can't accomplish long-term high efficiency work.

Disclosure of Invention

The utility model aims to: in order to solve the problems, the deviation correcting device for the paper surface calender is provided.

In order to achieve the purpose, the utility model adopts the following technical scheme:

the deviation correcting device for the paper surface press polish machine comprises a Teflon conveyer belt, wherein an automatic deviation correcting mechanism for correcting the deviation of printing paper sheets is arranged above the Teflon conveyer belt;

the automatic deviation rectifying mechanism comprises lifting components arranged on two sides of the Teflon conveying belt, driving components arranged in the middle of the upper portion of the Teflon conveying belt and two deviation rectifying components symmetrically arranged below the driving components and used for rectifying deviation of printing paper sheets, the lifting components are used for adjusting the relative distance between the deviation rectifying components and the Teflon conveying belt, and the driving components are used for driving the deviation rectifying components to work.

As a further description of the above technical solution:

the lifting component comprises L-shaped fixed plates symmetrically arranged on two sides of a Teflon conveying belt, a sliding plate is arranged in the middle of each L-shaped fixed plate in a sliding mode, a rotating lead screw is arranged in the middle of each L-shaped fixed plate in a rotating mode, the middle of each sliding plate is provided with a rotating lead screw through a threaded connecting sleeve, two sliding blocks are symmetrically arranged on two sides of each sliding plate, each sliding block is arranged in a sliding groove formed in each L-shaped fixed plate in a sliding mode, two extrusion springs are symmetrically arranged at the lower ends of the sliding plates, the lower ends of the extrusion springs are connected with the L-shaped fixed plates, driving nuts are arranged at the upper ends of the rotating lead screws, and driving nut rotating grooves are formed in the upper ends of the L-shaped fixed plates.

As a further description of the above technical solution:

the driving assembly comprises a shell fixedly arranged between the two sliding plates and a driving motor arranged on one side of the shell, the upper end of the shell is horizontally and rotatably provided with a driving shaft, the output end of the driving motor is connected with one end of the driving shaft, the middle part of the driving shaft is symmetrically provided with two driving bevel gears, and the middle part of the driving shaft is symmetrically provided with two driving belt wheels between the two driving bevel gears;

two transmission shafts are vertically and rotatably arranged at two ends of the shell, two transmission bevel gears are symmetrically arranged at two ends of each transmission shaft, and the transmission bevel gears at the upper ends of the transmission shafts are meshed with the driving bevel gears;

the horizontal rotation of casing lower extreme is equipped with the driven shaft, driven shaft middle part equipartition is equipped with three delivery wheel, driven shaft middle part symmetry is equipped with two driven pulleys between three delivery wheel, pass through synchronous belt drive between driven pulley and the driving pulley.

As a further description of the above technical solution:

the deviation correcting assembly comprises a rotating shaft which is horizontally and rotatably arranged in one end of the shell, the included angle between the center line of the rotating shaft and the horizontal center shaft of the shell is 60 degrees, four driven bevel gears are uniformly distributed in the middle of the rotating shaft, the driven bevel gear at the middle of the rotating shaft, which is close to one end of the transmission shaft, is meshed with the transmission bevel gear at the lower end of the transmission shaft, and three deviation correcting wheel assemblies are also obliquely arranged in one end of the shell;

the deviation rectifying wheel assembly comprises a deviation rectifying shaft arranged inside one end of the shell, the center line of the deviation rectifying shaft and the center line of the rotating shaft are orthogonal in the same plane, deviation rectifying wheels are arranged in the middle of the deviation rectifying shaft, a deviation rectifying bevel gear is arranged at one end, close to the rotating shaft, of the deviation rectifying shaft, and the deviation rectifying bevel gear is meshed with the driven bevel gear.

As a further description of the above technical solution:

three grooves for rotating the deviation rectifying wheels are formed in the shell, and a rotating cavity for rotating the rotating shaft is formed in the shell.

As a further description of the above technical solution:

and Teflon coatings are arranged on the outer sides of the deviation rectifying wheel and the conveying wheel.

As a further description of the above technical solution:

the distance between the set center of the deviation rectifying wheel in the three deviation rectifying wheel assemblies and the conveying center of the Teflon conveyer belt is different.

In summary, due to the adoption of the technical scheme, the utility model has the beneficial effects that:

1. according to the utility model, the automatic deviation rectifying mechanism is arranged above the Teflon conveying belt, so that the placing position of the printing paper above the conveying belt can be adjusted in real time, the printing paper is prevented from generating large deviation on the Teflon conveying belt, the quick feeding effect is realized by matching the upper optical machine and the limiting roller of the feed inlet of the pressing roller, and the problem that materials are easy to accumulate when the traditional calender accelerates production is solved.

2. According to the printing paper correcting device, the lifting assembly, the driving assembly and the correcting assembly are matched with each other, so that the printing paper can be corrected in real time, meanwhile, the printing paper correcting device can be suitable for correcting the paper with different thicknesses, the adaptability is strong, the speed of the Teflon conveyor belt for conveying materials cannot be slowed down during automatic correction, the conveying efficiency is guaranteed, and the requirement of high-speed production can be met.

Drawings

Fig. 1 is a schematic structural diagram of a teflon conveying belt provided by an embodiment of the utility model;

FIG. 2 is a schematic structural diagram of an automatic deviation rectifying mechanism according to an embodiment of the present invention;

FIG. 3 illustrates a schematic structural diagram of a lift assembly provided in accordance with an embodiment of the present invention;

FIG. 4 is a schematic diagram of a driving assembly according to an embodiment of the present invention;

FIG. 5 is a schematic structural diagram of a deviation rectifying assembly according to an embodiment of the present invention.

Illustration of the drawings: 1. a Teflon conveyer belt; 2. an automatic deviation rectifying mechanism; 3. a lifting assembly; 4. a drive assembly; 5. a deviation rectifying component; 301. an L-shaped fixing plate; 302. a slide plate; 303. a slider; 304. rotating the screw rod; 305. a compression spring; 401. a housing; 402. a drive motor; 403. a drive shaft; 404. a drive bevel gear; 405. a driving pulley; 406. a driven shaft; 407. a delivery wheel; 408. a driven pulley; 409. a drive shaft; 410. a drive bevel gear; 501. a rotating shaft; 502. a driven bevel gear; 503. a deviation correcting wheel assembly; 504. an axis of rectification; 505. a deviation rectifying wheel; 506. and (5) correcting a bevel gear.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments.

In the description of the present invention, it is to be understood that the terms "upper", "lower", "front", "rear", "left", "right", "top", "bottom", "inner", "outer", and the like, indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, are merely for convenience in describing the present invention and simplifying the description, and do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be construed as limiting the present invention.

Referring to fig. 1-5, the present invention provides a technical solution:

the deviation correcting device for the paper surface calender comprises a Teflon conveyer belt 1, wherein an automatic deviation correcting mechanism 2 for correcting the deviation of printing paper sheets is arranged above the Teflon conveyer belt 1;

the automatic deviation rectifying mechanism 2 comprises lifting components 3 arranged on two sides of a Teflon conveyer belt 1, driving components 4 arranged in the middle of the upper portion of the Teflon conveyer belt 1 and two deviation rectifying components 5 symmetrically arranged below the driving components 4 and used for rectifying deviation of printing paper sheets, the lifting components 3 are used for adjusting the relative distance between the deviation rectifying components 5 and the Teflon conveyer belt 1, and the driving components 4 are used for driving the deviation rectifying components 5 to work.

Further, lifting unit 3 includes that the symmetry locates the L type fixed plate 301 of 1 both sides of teflon conveyer belt, L type fixed plate 301 middle part slides and is equipped with slide 302, L type fixed plate 301 middle part rotates and is equipped with rotation lead screw 304, slide 302 middle part is located rotation lead screw 304 middle part through the threaded connection cover, slide 302 bilateral symmetry is equipped with two slider 303, and slider 303 slides and locates in the spout that L type fixed plate 301 was seted up, slide 302 lower extreme symmetry is equipped with two extrusion spring 305, extrusion spring 305 lower extreme is connected with L type fixed plate 301, it is equipped with drive nut to rotate lead screw 304 upper end, drive nut pivoted recess has been seted up to L type fixed plate 301 upper end.

Further, the driving assembly 4 comprises a housing 401 fixedly arranged between the two sliding plates 302 and a driving motor 402 arranged on one side of the housing 401, a driving shaft 403 is horizontally and rotatably arranged at the upper end of the housing 401, the output end of the driving motor 402 is connected with one end of the driving shaft 403, two driving bevel gears 404 are symmetrically arranged in the middle of the driving shaft 403, and two driving pulleys 405 are symmetrically arranged in the middle of the driving shaft 403 between the two driving bevel gears 404;

two transmission shafts 409 are vertically and rotatably arranged at two ends of the shell 401, two transmission bevel gears 410 are symmetrically arranged at two ends of each transmission shaft 409, and the transmission bevel gears 410 at the upper ends of the transmission shafts 409 are meshed with the driving bevel gears 404;

the horizontal rotation of casing 401 lower extreme is equipped with driven shaft 406, and driven shaft 406 middle part equipartition is equipped with three delivery wheel 407, and driven shaft 406 middle part is equipped with two driven pulleys 408 in the symmetry between three delivery wheel 407, passes through synchronous belt drive between driven pulley 408 and the driving pulley 405.

Further, the deviation rectifying assembly 5 comprises a rotating shaft 501 horizontally and rotatably arranged inside one end of the shell 401, an included angle between the center line of the rotating shaft 501 and the horizontal center axis of the shell 401 is 60 degrees, four driven bevel gears 502 are uniformly distributed in the middle of the rotating shaft 501, the driven bevel gear 502 at the middle of the rotating shaft 501 close to one end of the transmission shaft 409 is meshed with the transmission bevel gear 410 at the lower end of the transmission shaft 409, and three deviation rectifying wheel assemblies 503 are also obliquely arranged inside one end of the shell 401;

the deviation rectifying wheel assembly 503 comprises a deviation rectifying shaft 504 arranged inside one end of the housing 401, the center line of the deviation rectifying shaft 504 and the center line of the rotating shaft 501 are orthogonal in the same plane, a deviation rectifying wheel 505 is arranged in the middle of the deviation rectifying shaft 504, a deviation rectifying bevel gear 506 is arranged at one end of the deviation rectifying shaft 504 close to the rotating shaft 501, and the deviation rectifying bevel gear 506 is meshed with the driven bevel gear 502.

Further, three grooves for rotating the deviation rectifying wheels 505 are formed in the housing 401, and a rotating cavity for rotating the rotating shaft 501 is formed in the housing 401.

Further, the outer sides of the deviation rectifying wheel 505 and the conveying wheel 407 are provided with Teflon coatings, so that the deviation rectifying conveying of the printing paper can be more effectively carried out.

Further, the distance between the set center of the deviation rectifying wheel 505 in the three deviation rectifying wheel assemblies 503 and the conveying center of the Teflon conveyer belt 1 is different, and the distance between the three deviation rectifying wheels 505 is the deviation rectifying area.

The working principle is as follows: when the printing paper automatic correction mechanism is used, when printing paper above a Teflon conveyer belt 1 enters the position below the automatic correction mechanism 2, an external controller sends a signal, a driving motor 402 is started, the driving motor 402 drives a driving shaft 403 to rotate, and the driving shaft 403 rotates so as to enable a driving bevel gear 404 and a driving belt wheel 405 to rotate;

the driving pulley 405 rotates to enable the driven pulley 408 to rotate through the synchronous belt, so that the driven shaft 406 rotates, and the driven shaft 406 rotates to drive the conveying wheel 407 to rotate;

the driving bevel gear 404 rotates to drive the transmission bevel gear 410 engaged with the driving bevel gear to rotate, the transmission bevel gear 410 rotates to drive the transmission shaft 409 to rotate, the transmission shaft 409 transmits power to the transmission bevel gear 410 below, so that the driven bevel gear 502 rotates, the driven bevel gear 502 rotates to drive the rotating shaft 501 to rotate, the rotating shaft 501 rotates to drive the other three driven bevel gears 502 and further drive the deviation rectifying bevel gears 506, so that the deviation rectifying shafts 504 rotate, the deviation rectifying bevel gears 506 further rotate, the three deviation rectifying bevel gears 506 rotate to form deviation rectifying areas, and paper automatically rectifies in the deviation rectifying areas;

when the paper with different thicknesses is to be corrected, the driving nut at the upper end of the L-shaped fixing plate 301 is rotated, so that the rotating screw rod 304 rotates, the rotating screw rod 304 rotates to drive the sliding plate 302 to ascend or descend at a proper position, and the shell 401 is driven to ascend or descend to a proper height to adapt to different printing papers.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be considered to be within the technical scope of the present invention, and equivalent alternatives or modifications according to the technical solution of the present invention and the inventive concept thereof should be covered by the scope of the present invention.

Claims

1. The deviation correcting device for the paper surface calender comprises a Teflon conveyer belt (1) and is characterized in that an automatic deviation correcting mechanism (2) for correcting the deviation of printing paper sheets is arranged above the Teflon conveyer belt (1);

automatic mechanism (2) of rectifying is including locating lifting unit (3) of teflon conveyer belt (1) both sides, locating drive assembly (4) and the symmetry at teflon conveyer belt (1) top middle part and locating drive assembly (4) below and be used for two subassembly (5) of rectifying that rectify to the printing scraps of paper, lifting unit (3) are used for adjusting the relative distance between subassembly (5) and the teflon conveyer belt (1) of rectifying, drive assembly (4) are used for driving subassembly (5) work of rectifying.

2. The deviation rectifying device for paper calender of claim 1, wherein the lifting unit (3) comprises L-shaped fixing plates (301) symmetrically arranged on both sides of the Teflon conveyer belt (1), a sliding plate (302) is arranged in the middle of the L-shaped fixing plate (301) in a sliding manner, a rotating screw rod (304) is rotationally arranged in the middle of the L-shaped fixing plate (301), the middle part of the sliding plate (302) is sleeved in the middle part of the rotary screw rod (304) through threaded connection, two sliding blocks (303) are symmetrically arranged on two sides of the sliding plate (302), the slide block (303) is arranged in a slide groove arranged on the L-shaped fixed plate (301) in a sliding way, the lower end of the sliding plate (302) is symmetrically provided with two extrusion springs (305), the lower ends of the extrusion springs (305) are connected with an L-shaped fixing plate (301), the upper end of the rotary screw rod (304) is provided with a driving nut, and the upper end of the L-shaped fixing plate (301) is provided with a groove for driving the driving nut to rotate.

3. The deviation rectifying device for the paper calender according to claim 1, wherein the driving assembly (4) comprises a housing (401) fixedly arranged between the two sliding plates (302) and a driving motor (402) arranged at one side of the housing (401), the upper end of the housing (401) is horizontally and rotatably provided with a driving shaft (403), the output end of the driving motor (402) is connected with one end of the driving shaft (403), the middle part of the driving shaft (403) is symmetrically provided with two driving bevel gears (404), and the middle part of the driving shaft (403) is symmetrically provided with two driving pulleys (405) between the two driving bevel gears (404);

two transmission shafts (409) are vertically and rotatably arranged at two ends of the shell (401), two transmission bevel gears (410) are symmetrically arranged at two ends of each transmission shaft (409), and the transmission bevel gears (410) at the upper ends of the transmission shafts (409) are meshed with the driving bevel gears (404);

the horizontal rotation of casing (401) lower extreme is equipped with driven shaft (406), driven shaft (406) middle part equipartition is equipped with three delivery wheel (407), driven shaft (406) middle part is equipped with two driven pulleys (408) between three delivery wheel (407) symmetry, pass through synchronous belt drive between driven pulley (408) and driving pulley (405).

4. The deviation correcting device for the paper calender according to claim 1, wherein the deviation correcting component (5) comprises a rotating shaft (501) which is horizontally and rotatably arranged inside one end of the housing (401), the included angle between the center line of the rotating shaft (501) and the horizontal central axis of the housing (401) is 60 degrees, four driven bevel gears (502) are uniformly arranged in the middle of the rotating shaft (501), the driven bevel gear (502) at the middle of the rotating shaft (501) close to one end of the transmission shaft (409) is meshed with the transmission bevel gear (410) at the lower end of the transmission shaft (409), and three deviation correcting wheel components (503) are also obliquely arranged inside one end of the housing (401);

the deviation rectifying wheel assembly (503) is including locating inside deviation rectifying shaft (504) of casing (401) one end, deviation rectifying shaft (504) central line and axis of rotation (501) central line quadrature in the coplanar, deviation rectifying shaft (504) middle part is equipped with deviation rectifying wheel (505), the one end that deviation rectifying shaft (504) is close to axis of rotation (501) is equipped with deviation rectifying bevel gear (506), deviation rectifying bevel gear (506) and driven bevel gear (502) intermeshing.

5. The deviation rectifying device for the paper calender of claim 3, wherein the housing (401) has three grooves for the rotation of the deviation rectifying wheel (505), and the housing (401) has a rotating cavity for the rotation of the rotating shaft (501).

6. A deviation-rectifying device for a paper-faced calender according to claim 1, characterised in that the outside of the deviation-rectifying wheel (505) and the conveying wheel (407) are provided with teflon coatings.

7. The deviation correcting device for the paper calender machine according to claim 1, wherein the distance between the center of the deviation correcting wheel (505) of the three deviation correcting wheel assemblies (503) and the conveying center of the Teflon conveyer belt (1) is different.