CN214136469U

CN214136469U - Full-automatic plywood production board feeding device

Info

Publication number: CN214136469U
Application number: CN202021751184.2U
Authority: CN
Inventors: 彭晖
Original assignee: Individual
Current assignee: Individual
Priority date: 2020-08-20
Filing date: 2020-08-20
Publication date: 2021-09-07
Anticipated expiration: 2030-08-20

Abstract

The utility model discloses a board device is advanced in full-automatic plywood production, a serial communication port, including one can carry out the board feeding mechanism body of hot pressing work in the automatic transport to the hot pressing mechanism of the slab on the row board workshop section, the board feeding mechanism body sets up the low reaches at row board workshop section, the board feeding mechanism body sets up the upper reaches at hot pressing mechanism, the utility model discloses the advantage is simple structure, convenient operation, can make the slab carry out automatic dress board, realizes the automation mechanized operation of slab when advancing the board, has not only reduced operating personnel's intensity of labour to improve the production efficiency of plywood, brought great facility for the production work of plywood.

Description

Full-automatic plywood production board feeding device

Technical Field

The utility model relates to a plywood manufacturing technical field, in particular to board device is advanced in full-automatic plywood production.

Background

Plywood is a three-layer or multi-layer plate material made up by using wood segments and making them be rotary-cut into single board or sliced into thin wood and using adhesive to make them be glued together, and usually using odd number of layers of single board and making the fibre directions of adjacent layers of single board be mutually perpendicular.

The plywood is one of common furniture materials, is one of three large plates of an artificial plate, and can also be used as a material for airplanes, ships, trains, automobiles, buildings, packing boxes and the like. A group of veneers are typically assembled and glued perpendicular to each other in the direction of the adjacent layers of wood grain, and the skins and inner sheets are typically symmetrically disposed on either side of the center layer or core. The glued veneer is pressed into the wood grain board blank by the criss-cross matching of the glued veneer according to the wood grain direction under the condition of heating or not heating. The number of layers is generally odd, and a few are even. The difference of physical and mechanical properties in the longitudinal and transverse directions is small. The types of plywood commonly used are plywood, plywood and the like. The plywood can improve the utilization rate of the wood and is a main way for saving the wood.

In plywood production plants, the board feeding device is one of the most important plants. The plate device goes forward at present mostly through the manual work dress board, adopts artifical dress board mode not only to improve operating personnel's intensity of labour to reduce the production efficiency of plywood, can't realize the automated production of plywood, brought great inconvenience for the production work of plywood.

SUMMERY OF THE UTILITY MODEL

For solving the problem that prior art exists, the utility model aims at providing a reasonable in design, simple structure, convenient operation can make the slab carry out automatic dress board, realize the automation mechanized operation of slab when advancing the board, have not only reduced operating personnel's intensity of labour to improve the production efficiency of plywood, brought the full-automatic plywood production of great facility and advanced the board device for the production work of plywood.

For solving the above technical problem, the utility model discloses a following technical scheme realizes:

a full-automatic plywood production board feeding device is characterized by comprising

The plate feeding mechanism body can automatically convey the plate blank on the plate arranging working section to the hot pressing mechanism for hot pressing work, the plate feeding mechanism body is arranged at the downstream of the plate arranging working section, and the plate feeding mechanism body is arranged at the upstream of the hot pressing mechanism;

the plate feeding mechanism body comprises

A board inlet base;

the plate feeding frame can move up and down, and a plurality of layers of plate feeding conveying mechanisms capable of automatically conveying the plate blanks on the plate arranging working section to the hot pressing mechanism for hot pressing are arranged on the plate feeding frame at intervals along the height direction of the plate feeding frame;

the first oil cylinder is used for driving the plate feeding frame to move up and down, the bottom of the first oil cylinder is arranged on the plate feeding base, the telescopic end of the first oil cylinder is arranged on the plate feeding frame, and the first oil cylinder is in communication connection with the control system;

the single-layer plate feeding driving mechanism can sequentially drive each layer of plate feeding conveying mechanism from top to bottom to automatically convey the plate blanks on the plate arranging working section to the upper part of the plate feeding conveying mechanism, is arranged at one end, close to the plate arranging working section, of the plate feeding base and is in communication connection with the control system;

the multilayer board feeding driving mechanism can drive the board feeding conveying mechanism of each layer to move simultaneously and convey the board blank placed on the board feeding conveying mechanism of each layer to the hot pressing mechanism for hot pressing, the multilayer board feeding driving mechanism is arranged at one end of the board feeding frame far away from the board arranging workshop section, and the multilayer board feeding driving mechanism is in communication connection with the control system.

In a preferred embodiment of the present invention, the plate feeding conveying mechanism includes a first angle iron disposed on the plate feeding frame, a first driving roller is disposed on one end of the first angle iron away from the plate discharge working section, a first driven roller corresponding to the first driving roller is disposed on one end of the first angle iron close to the plate discharge working section, and a first conveying belt is disposed between the first driving roller and the first driven roller;

a plurality of first upper supporting rollers for supporting the upper surface of the inner side of the first conveying belt are arranged on the upper side of the first angle iron at intervals along the length direction of the first angle iron, and two ends of each first upper supporting roller are arranged on the upper side of the first angle iron through first upper bearing blocks;

and a plurality of first lower supporting rollers used for supporting the lower surface of the inner side of the first conveying belt are arranged at intervals along the length direction of the lower side of the first angle iron, and two ends of each first lower supporting roller are arranged on the lower side of the first angle iron through first lower bearing seats.

In a preferred embodiment of the present invention, the single-layer plate feeding driving mechanism includes a first plate feeding transmission shaft and a first dual-shaft anisotropic output stepless speed change reducer for driving the first plate feeding transmission shaft to rotate, a middle portion of the first plate feeding transmission shaft is disposed on an output shaft of the first dual-shaft anisotropic output stepless speed change reducer, the first dual-shaft anisotropic output stepless speed change reducer is fixedly mounted on a middle portion of the plate feeding base, first plate feeding driving bevel gears are respectively disposed at two ends of the first plate feeding transmission shaft, and the first dual-shaft anisotropic output stepless speed change reducer is in communication connection with the control system;

second plate feeding transmission shafts are symmetrically arranged on two sides of the plate feeding base, a first plate feeding driven helical gear matched with the first plate feeding driving helical gear is arranged at the lower end of each second plate feeding transmission shaft, a second plate feeding driving helical gear is arranged at the upper end of each second plate feeding transmission shaft, and second plate feeding driven helical gears matched with the second plate feeding driving helical gears are respectively arranged at two ends of each first driven roller;

the second advances and is equipped with a plurality of first board dovetails of advancing along its length direction interval on the board transmission shaft first advances to be equipped with the bearing between board transmission shaft with the second, first board dovetails of advancing is connected with the second hydro-cylinder through first board connecting rod, the second hydro-cylinder sets up on first support frame, the lower extreme of first support frame is fixed to be set up on advancing the board base set up on the first support frame and advance board dovetail with first board dovetail matched with of advancing first it is equipped with first board photoelectric switch to advance in first support frame upper end, first board photoelectric switch and second hydro-cylinder are connected with control system communication respectively.

In a preferred embodiment of the present invention, the multi-layer plate feeding driving mechanism includes a third plate feeding transmission shaft and a second dual-shaft anisotropic output stepless speed change reducer for driving the third plate feeding transmission shaft to rotate, a middle portion of the third plate feeding transmission shaft is disposed on an output shaft of the second dual-shaft anisotropic output stepless speed change reducer, the second dual-shaft anisotropic stepless speed change reducer is fixedly mounted on a middle portion of one side of the plate feeding frame away from the plate arrangement working section, third plate feeding driving bevel gears are respectively disposed at two ends of the third plate feeding transmission shaft, and the second dual-shaft anisotropic stepless speed change reducer is in communication connection with the control system;

fourth plate feeding transmission shafts are symmetrically arranged on two sides of the plate feeding frame, third plate feeding driven bevel gears matched with the third plate feeding driving bevel gears are arranged at the upper ends of the fourth plate feeding transmission shafts, fourth plate feeding driving bevel gears which are in one-to-one correspondence with the multilayer plate feeding conveying mechanisms are arranged on the fourth plate feeding transmission shafts at intervals along the axial direction of the fourth plate feeding transmission shafts, and fourth plate feeding driven bevel gears matched with the fourth plate feeding driving bevel gears are respectively arranged at two ends of the first driving roller;

the fourth advances the upper and lower both ends of board transmission shaft and is equipped with the second respectively and advances the board forked tail the second advances to be equipped with the bearing between board forked tail and the fourth board transmission shaft, the second advances the board forked tail and advances the board connecting rod through the second and be connected with the third hydro-cylinder, the third hydro-cylinder sets up on the second support frame, second support frame fixed mounting advances on the grillage seted up on the second support frame and advanced board forked tail matched with second with the second and advance board forked tail matched with the afterbody that advances on the grillage and be located every layer and advance board conveying mechanism all is equipped with a second and advances board photoelectric switch, the second advances board photoelectric switch and third hydro-cylinder and is connected with control system communication respectively.

Compared with the prior art, the utility model adopts the above structure can make the slab carry out automatic dress board, realizes the automation mechanized operation of slab when advancing the board, has not only reduced operating personnel's intensity of labour to improve the production efficiency of plywood, brought great facility for the production work of plywood.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without creative efforts.

Fig. 1 is a front view of the plate feeding mechanism body of the present invention.

Fig. 2 is a left side view of fig. 1.

Fig. 3 is a right side view of fig. 1.

Detailed Description

In order to make the technical means, creation features, achievement purposes and functions of the present invention easy to understand and understand, the present invention is further explained by combining with the specific drawings.

Referring to fig. 1-3, the full-automatic plywood production board feeding device provided in the figures comprises a board feeding mechanism body a, wherein the board feeding mechanism body a is arranged at the downstream of a board arranging working section, and the board feeding mechanism body a is arranged at the upstream of a hot pressing mechanism.

Advance board mechanism body A including advance the board base, advance grillage 41, first hydro-cylinder 16, the board actuating mechanism is advanced to the individual layer and the board actuating mechanism is advanced to the multilayer, advances grillage 41 and can carry out the oscilaltion removal, is equipped with the multilayer along its direction of height interval on advancing grillage 41 and can carry out hot pressing work's board conveying mechanism that advances in hot pressing mechanism with arranging the automatic conveying of slab 42 on the board workshop section.

The first oil cylinder 16 is used for driving the plate feeding frame 41 to move up and down, the bottom of the first oil cylinder 16 is arranged on the plate feeding base, the telescopic end of the first oil cylinder 16 is arranged on the plate feeding frame 41, and the first oil cylinder 16 is in communication connection with the control system.

The single-layer plate feeding driving mechanism can sequentially drive the plate feeding conveying mechanism of each layer from top to bottom to automatically convey the plate blank 42 on the plate arranging working section to the upper part of the plate feeding conveying mechanism, the single-layer plate feeding driving mechanism is arranged at one end, close to the plate arranging working section, of the plate feeding base, and the single-layer plate feeding driving mechanism is in communication connection with the control system.

The multilayer board feeding driving mechanism can drive the board feeding conveying mechanism of each layer to move simultaneously and convey the board blank 42 placed on the board feeding conveying mechanism of each layer to the hot pressing mechanism for hot pressing, the multilayer board feeding driving mechanism is arranged at one end of the board feeding frame 41 far away from the board arranging workshop section, and the multilayer board feeding driving mechanism is in communication connection with the control system.

The plate feeding conveying mechanism comprises a first angle iron 31 arranged on a plate feeding frame 41, a first driving roller 34 is arranged at one end, away from the plate discharging working section, of the first angle iron 31, a first driven roller 14 corresponding to the first driving roller 34 is arranged at one end, close to the plate discharging working section, of the first angle iron 31, and a first conveying belt 15 is arranged between the first driving roller 34 and the first driven roller 14.

A plurality of first upper supporting rollers 30 for supporting the upper surface of the inner side of the first conveyor belt 15 are arranged at intervals along the length direction of the upper side of the first angle iron 31, and both ends of the first upper supporting rollers 30 are arranged on the upper side of the first angle iron 31 through the first upper bearing blocks 29.

A plurality of first lower supporting rollers 28 for supporting the inner lower surface of the first conveyor belt 15 are arranged at intervals along the length direction of the lower side of the first angle iron 31, and both ends of the first lower supporting rollers 28 are arranged at the lower side of the first angle iron 31 through the first lower bearing blocks 27.

The single-layer plate feeding driving mechanism comprises a first plate feeding transmission shaft 2 and a first double-shaft anisotropic output stepless speed change speed reducer 1 used for driving the first plate feeding transmission shaft to rotate, the middle of the first plate feeding transmission shaft 2 is arranged on an output shaft of the first double-shaft anisotropic output stepless speed change speed reducer 1, the first double-shaft anisotropic output stepless speed change speed reducer 1 is fixedly arranged on the middle of a plate feeding base, first plate feeding driving bevel gears 3 are arranged at two ends of the first plate feeding transmission shaft 2 respectively, and the first double-shaft anisotropic output stepless speed change speed reducer 1 is in communication connection with a control system.

Second plate feeding transmission shafts 5 are symmetrically arranged on two sides of the plate feeding base, a first plate feeding driven helical gear 4 matched with the first plate feeding driving helical gear 3 is arranged at the lower end of each second plate feeding transmission shaft 5, a second plate feeding driving helical gear 10 is arranged at the upper end of each second plate feeding transmission shaft 5, and second plate feeding driven helical gears 11 matched with the second plate feeding driving helical gears 10 are respectively arranged at two ends of each first driven roller 14.

A plurality of first plate-feeding dovetails 8 are arranged on the second plate-feeding transmission shaft 5 at intervals along the length direction, a bearing is arranged between the first plate-entering dovetail joint 8 and the second plate-entering transmission shaft 5, the first plate-entering dovetail joint 8 is connected with the second oil cylinder 6 through the first plate-entering connecting rod 7, the second oil cylinder 6 is arranged on the first supporting frame 9, the lower end of the first supporting frame 9 is fixedly arranged on the plate-entering base, a first plate-entering dovetail groove matched with the first plate-entering dovetail 8 is arranged on the first supporting frame 9, a first plate-feeding photoelectric switch 12 is arranged at the upper end of the first supporting frame 9, the first plate-feeding photoelectric switch 12 and the second oil cylinder 6 are respectively in communication connection with a control system, a first tension deviation adjusting device 13 and a second tension deviation adjusting device 20 are respectively arranged at the first driven roller 14 and the first driving roller 34, and the first driving roller 34 is arranged on the first angle iron 31 through a bearing seat 33.

The single plate feeding principle and action are that the control system firstly controls the second oil cylinder 6 to be opened, under the action of the first plate feeding connecting rod 7, the first plate feeding driving helical gear 3 is meshed with the first plate feeding driven helical gear 4 and the second plate feeding driving helical gear 10 is meshed with the second plate feeding driven helical gear 11, then the first double-shaft anisotropic output stepless speed change reducer 1 is started, the first double-shaft anisotropic output stepless speed change reducer 1 drives the second plate feeding driven helical gear 11 to rotate, the second plate feeding driven helical gear 11 drives the first conveying belt 15 to move, when the front end of the plate blank 42 touches the second plate feeding photoelectric switch 40, the first double-shaft anisotropic output stepless speed change reducer 1 stops, and simultaneously controls the second oil cylinder 6 to be closed, and under the action of the first plate feeding connecting rod 7, the first plate feeding driving helical gear 3 is separated from the first plate feeding driven helical gear 4 and the second plate feeding driving helical gear 10 is separated from the second plate feeding driven helical gear 11, the control system controls the first oil cylinder 16 to work, so that the plate feeding frame 36 integrally ascends one layer, and then the next layer of plate feeding is carried out.

The control system controls the second oil cylinder 6 to be opened again, under the action of the first plate feeding connecting rod 7, the first plate feeding driving helical gear 3 is meshed with the first plate feeding driven helical gear 4, the second plate feeding driving helical gear 10 is meshed with the second plate feeding driven helical gear 11, the first double-shaft anisotropic output stepless speed change reducer 1 is started again, the first double-shaft anisotropic output stepless speed change reducer 1 drives the second plate feeding driven helical gear 11 to rotate, the second plate feeding driven helical gear 11 drives the first conveying belt 15 to move, when the plate blank 42 touches the second plate feeding photoelectric switch 39, the first conveying belt 15 stops, the second oil cylinder 6 is closed, under the action of the first plate feeding connecting rod 7, the first plate feeding driving helical gear 3 is separated from the first plate feeding driven helical gear 4, the second plate feeding driving helical gear 10 is separated from the second plate feeding driven helical gear 11 again, the plate feeding frame 36 is integrally lifted by one layer again, and the cycle is carried out, the program sets the number of the mounted boards and automatically finishes the board-by-board mounting state.

The multilayer plate feeding driving mechanism comprises a third plate feeding transmission shaft and a second double-shaft different-direction output stepless speed change speed reducer 26 used for driving the third plate feeding transmission shaft to rotate, the middle of the third plate feeding transmission shaft is arranged on an output shaft of the second double-shaft different-direction output stepless speed change speed reducer 26, the second double-shaft different-direction stepless speed change speed reducer 26 is fixedly arranged on the middle of one side, away from the plate arrangement working section, of the plate feeding frame 41, third plate feeding driving bevel gears 25 are arranged at two ends of the third plate feeding transmission shaft respectively, and the second double-shaft different-direction stepless speed change speed reducer 26 is in communication connection with the control system.

Fourth plate feeding transmission shafts 19 are symmetrically arranged on two sides of the plate feeding frame 41, third plate feeding driven bevel gears 24 matched with the third plate feeding driving bevel gears 25 are arranged at the upper ends of the fourth plate feeding transmission shafts 19, fourth plate feeding driving bevel gears 22 corresponding to the multilayer plate feeding conveying mechanisms one by one are arranged on the fourth plate feeding transmission shafts 19 at intervals along the axial direction of the fourth plate feeding transmission shafts, and fourth plate feeding driven bevel gears 21 matched with the fourth plate feeding driving bevel gears 22 are respectively arranged at two ends of the first driving roller 34.

The upper end and the lower end of a fourth board feeding transmission shaft 19 are respectively provided with a second board feeding dovetail 18, a bearing is arranged between the second board feeding dovetail 18 and the fourth board feeding transmission shaft 19, the second board feeding dovetail 18 is connected with a third oil cylinder 23 through a second board feeding connecting rod, the third oil cylinder 23 is arranged on a second supporting frame, the second supporting frame is fixedly arranged on a board feeding frame 41, the second board feeding dovetail groove 17 matched with the second board feeding dovetail 18 is formed in the second supporting frame, a second board feeding

photoelectric switch

35, 36, 37, 38, 39 and 40 is arranged on the board feeding frame 41 and positioned at the tail of each layer of board feeding conveying mechanism, and the second board feeding

photoelectric switch

35, 36, 37, 38, 39 and 40 and the third oil cylinder 23 are respectively in communication connection with a control system.

After the plate feeding mechanism body is completely provided with the plate blank 42, the control system controls the third oil cylinder 23 to be closed, the second plate feeding dovetail joint 18 to move inwards, so that the fourth plate feeding driving bevel gear 22 and the fourth plate feeding driven bevel gear 21 are meshed with the third plate feeding driving bevel gear 25 and the third plate feeding driven bevel gear 24, the second double-shaft anisotropic stepless speed change speed reducer 26 is synchronously started, then the third double-shaft anisotropic output stepless speed change speed reducer 55 of the hot pressing mechanism B is started, so that the first conveying belt 15 and the second conveying belt 56 run synchronously, when the tail part of the plate blank 42 touches the second plate feeding

photoelectric switches

35, 36, 37, 38, 39 and 40, the first conveying belt 15 stops, the whole plate feeding work is completed, the control system controls the third oil cylinder 23 to be opened, so that the second plate feeding bevel gear 18 moves outwards, so that the fourth plate feeding driving bevel gear 22 and the fourth plate feeding driven bevel gear 21 are separated from the third plate feeding bevel gear 25, and the plate feeding frame 41 descends to the lowest position, the first plate feeding driving bevel gear 3 is meshed with the first plate feeding driven bevel gear 4, and the second plate feeding driving bevel gear 10 is meshed with the second plate feeding driven bevel gear 11, so that the next plate loading period is carried out.

To sum up the utility model discloses an above-mentioned structure can make the slab carry out automatic dress board, realizes the automation mechanized operation of slab when advancing the board, has not only reduced operating personnel's intensity of labour to improve the production efficiency of plywood, brought great facility for the production work of plywood.

The foregoing shows and describes the general principles, essential features, and advantages of the invention. It will be understood by those skilled in the art that the present invention is not limited to the above embodiments, and that the foregoing embodiments and descriptions are provided only to illustrate the principles of the present invention without departing from the spirit and scope of the present invention. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims

1. A full-automatic plywood production board feeding device is characterized by comprising

the plate feeding mechanism body comprises

A board inlet base;

2. The board feeding device for full-automatic plywood production according to claim 1, wherein the board feeding conveying mechanism comprises a first angle iron arranged on the board feeding frame, a first driving roller is arranged at one end of the first angle iron, which is far away from the board arranging working section, a first driven roller corresponding to the first driving roller is arranged at one end of the first angle iron, which is close to the board arranging working section, and a first conveying belt is arranged between the first driving roller and the first driven roller;

3. The board feeding device for full-automatic plywood production according to claim 1, wherein the single-layer board feeding driving mechanism comprises a first board feeding transmission shaft and a first double-shaft anisotropic output stepless speed change reducer for driving the first board feeding transmission shaft to rotate, the middle part of the first board feeding transmission shaft is arranged on an output shaft of the first double-shaft anisotropic output stepless speed change reducer, the first double-shaft anisotropic output stepless speed change reducer is fixedly arranged on the middle part of the board feeding base, first board feeding driving bevel gears are respectively arranged at two ends of the first board feeding transmission shaft, and the first double-shaft anisotropic output stepless speed change reducer is in communication connection with the control system;

4. The board feeding device for full-automatic plywood production according to claim 2, wherein the multilayer board feeding driving mechanism comprises a third board feeding transmission shaft and a second double-shaft different-direction output stepless speed change reducer for driving the third board feeding transmission shaft to rotate, the middle part of the third board feeding transmission shaft is arranged on an output shaft of the second double-shaft different-direction output stepless speed change reducer, the second double-shaft different-direction stepless speed change reducer is fixedly arranged on the middle part of one side of the board feeding frame, which is far away from the board arrangement working section, third board feeding driving bevel gears are respectively arranged at two ends of the third board feeding transmission shaft, and the second double-shaft different-direction stepless speed change reducer is in communication connection with the control system;