CN218908730U - Portable conveyor and composite sheet production line - Google Patents

Abstract

The utility model discloses a movable conveying device and a composite board production line, comprising a frame, linear slide rails, a speed reducing motor and a transmission connecting assembly, wherein the frame is provided with a transmission mechanism arranged along the length direction of the frame, the frame is provided with a support frame for supporting the frame, the bottom of the support frame is integrally connected with a base, the linear slide rails comprise slide blocks and a plurality of guide rails respectively arranged in parallel with the width direction of the frame, at least one slide block is connected onto each guide rail in a sliding manner, the speed reducing motor is fixedly connected onto the support frame, a transmission connecting assembly for driving each slide block to slide relative to the corresponding guide rail is arranged between an output shaft of the speed reducing motor and the support frame or the base, the linear slide rails and the speed reducing motor are arranged, the transmission connecting assembly is used for realizing transmission connection, and moving power is brought to the frame, so that the conveying device moves back and forth along the guide rails, and the length occupied by the production line is reduced.

Description

Portable conveyor and composite sheet production line

Technical Field

The utility model relates to the technical field of conveying equipment, in particular to a movable conveying device and a composite board production line.

Background

The existing production line of the composite board comprises a series of devices such as a discharging device, a conveying device, a forming device, a glue spraying device, a panel turnover device and a pressing device, and the like, so that various process requirements are met, as the composite board has a certain length, if the length direction of the composite board is vertically arranged with the conveying direction of the conveying device during conveying, the width of the conveying device needs to be relatively large, the occupied area of the production line of the composite board can be greatly increased, therefore, the composite board can be usually placed along the length direction of the conveying device during conveying, after the placing mode is adopted, the composite board is difficult to turn in the conveying process, the production line of the composite board can only be arranged in a straight line in sequence, and further the length space occupied by the whole production line of the composite board is relatively large, so that the production management is not facilitated.

In view of this, the present inventors have conducted intensive studies on the above problems, and have produced the present utility model.

Disclosure of Invention

The utility model provides a take up a relatively short and do benefit to production management's a portable conveyor and composite sheet production line of length.

The utility model is realized in such a way, and comprises a frame, a linear slide rail, a gear motor and a transmission connecting component, wherein the frame is provided with a transmission mechanism arranged along the length direction of the frame, the frame is provided with a support frame for supporting the frame, the bottom of the support frame is integrally connected with a base, the linear slide rail comprises a slide block fixed at the bottom of the base and a plurality of guide rails respectively arranged in parallel with the width direction of the frame, at least one slide block is connected onto each guide rail in a sliding manner, the gear motor is fixedly connected onto the support frame, and a transmission connecting component for driving each slide block to slide relative to the corresponding guide rail is arranged between an output shaft of the gear motor and the support frame or the base.

Further, the support frame both ends are fixedly connected with terminal surface fixing base respectively, two be equipped with the transmission shaft between the terminal surface fixing base, and each all be provided with one on the terminal surface fixing base drive coupling assembling, drive coupling assembling including one rotate connect in the main sprocket that corresponds the terminal surface fixing base, two rotate connect in the vice sprocket and a first chain that pass of corresponding the terminal surface fixing base in connecting same in the transmission coupling assembling on the terminal surface fixing base, main sprocket and two vice sprocket are the article font and arrange, just main sprocket is located two vice sprocket's top, main sprocket is fixed on the transmission shaft, the position at first chain both ends respectively with the position one-to-one at guide rail both ends arranges, just first chain is in proper order around establishing one of them vice sprocket main sprocket and another vice sprocket.

Preferably, the two ends of the support frame are respectively and fixedly connected with end face fixing seats, a transmission shaft is arranged between the two end face fixing seats, each end face fixing seat is provided with one transmission connecting assembly, each transmission connecting assembly comprises a main transmission sprocket, two auxiliary transmission sprockets and a first chain, the main transmission sprocket, the auxiliary transmission sprockets and the first chain are connected to the corresponding end face fixing seats in a rotating mode, the main transmission sprocket and the auxiliary transmission sprockets are arranged in a delta-shaped mode, the main transmission sprocket is located above the two auxiliary transmission sprockets, the main transmission sprocket is fixed on the transmission shaft, the transmission connecting assembly further comprises third sprockets which are fixed at two ends of a guide rail, the positions of the two ends of the first chain are respectively arranged in one-to-one correspondence with the positions of the two ends of the frame, and the first chain sequentially winds around one of the third sprocket, the auxiliary transmission sprocket, the main transmission sprocket, the other auxiliary transmission sprocket and the other sprocket are arranged on the other third sprocket.

Further, the support frame is fixedly connected with four sensors which are sequentially arranged along the length direction of the guide rail, each sensor matched sensing piece is arranged beside the end part of each end of one guide rail, and the sensing pieces and the corresponding guide rail are relatively and fixedly arranged.

Further, the transmission mechanism comprises a plurality of rollers which are arranged in parallel with each other and are sequentially arranged along the length direction of the transmission mechanism, and a transmission motor which is used for driving each roller to rotate, each roller is fixedly connected with a double-row chain wheel, and a second chain is wound between two adjacent double-row chain wheels.

Further, the frame is provided with a plurality of guard plates, and the guard plates are sequentially and equally spaced along the conveying direction of the transmission mechanism so as to prevent conveyed objects from sliding out of the frame.

Further, the support frame comprises a plurality of vertical supporting legs which are distributed linearly along the length direction of the support frame and are vertically arranged to be connected with the frame, and transverse supporting legs which are used for connecting two adjacent vertical supporting legs.

Another object of the present application is to provide a composite board production line, which includes a glue spraying and conveying device, a turning and plywood conveying device, a pressing plate conveying device, a stacking and conveying device, and further includes a movable conveying device as described above;

the movable conveying device is connected between the output end of the glue spraying conveying device and the input end of the overturning plywood conveying device, and the overturning plywood conveying device, the pressing plate conveying device and the stacking conveying device are sequentially connected in a straight line and are respectively arranged in parallel with the glue spraying conveying device;

or the movable conveying device is connected between the output end of the overturning plywood conveying device and the input end of the pressing plate conveying device, the glue spraying conveying device and the overturning plywood conveying device are sequentially connected in a straight line to form a first line group, the pressing plate conveying device and the stacking conveying device are sequentially connected in a straight line to form a second line group, and the first line group and the second line group are mutually parallel;

or the movable conveying device is connected between the output end of the pressing plate conveying device and the input end of the stacking conveying device, and the glue spraying conveying device, the overturning plywood conveying device and the pressing plate conveying device are sequentially connected in a straight line and are respectively arranged in parallel with the stacking conveying device.

The beneficial effects of the utility model are as follows: 1. the linear sliding rail is arranged, the gear motor is connected in a transmission way through the transmission connection assembly, and moving power is brought to the frame, so that the conveying device moves back and forth along the guide rail, and the occupied length of the production line is reduced.

2. Through setting up four sensors and the induction piece of using rather than the cooperation, operations such as acceleration, deceleration and stopping when the back and forth movement along the guide rail are respectively inductive control, accurate arrival corresponding position improves efficiency.

3. The movable conveying device is connected between two devices of the composite board production line, so that the devices are arranged side by side, workers can manage one or more devices of the parallel rows at the same time, stations can be reduced, and production management is further facilitated.

Drawings

FIG. 1 is a schematic cross-sectional view of a mobile conveyor apparatus according to an embodiment of the present utility model;

FIG. 2 is an enlarged schematic cross-sectional view of portion A of FIG. 1;

fig. 3 is a schematic structural view of a composite board production line according to an embodiment of the present utility model.

Reference numerals:

1-a frame; 2-a transmission mechanism;

3-supporting frames; 4-vertical supporting legs;

5-transverse legs; 6, a base;

7-a linear slide rail; 8-a sliding block;

9-a guide rail; 10-a drive connection assembly;

11-a transmission shaft; 13-a sensor;

14-end face fixing seats; 15-a speed reducing motor;

17-main sprocket; 18-secondary sprocket;

21-a roller; 23-a second sprocket;

24-a second chain; 26-guard board;

27-a first sensor; 28-a second sensor;

29-a third sensor; 30-fourth sensor.

40-glue spraying and conveying device 41-overturning plywood conveying device

42-platen conveyor 43-palletizer conveyor.

Detailed Description

The structural and operational principles of the present utility model are described in detail below with reference to the accompanying drawings.

Embodiment one:

as shown in fig. 1-3, a mobile conveying device comprises a frame 1, a linear slide rail 7, a gear motor 15 and a transmission connection assembly 10, wherein a transmission mechanism 2 arranged along the length direction of the frame 1 is arranged on the frame 1, a support frame 3 for supporting the frame 1 is arranged on the frame 1, and a base 6 is integrally connected to the bottom of the support frame 3.

The linear slide rail 7 comprises a slide block 8 fixed at the bottom of the base 6 by bolts and a plurality of guide rails 9 which are respectively arranged in parallel with the width direction of the frame 1, and at least one slide block 8 is connected on each guide rail 9 in a sliding manner.

The gear motor 15 is fixedly connected to the support frame 3, and a transmission connection assembly 10 for driving each sliding block 8 to slide relative to the corresponding guide rail 9 is arranged between an output shaft of the gear motor 15 and the support frame 3 or the base 6.

The two ends of the support frame 3 are respectively fixed with end face fixing seats 14 by bolts, a transmission shaft 11 is arranged between the two end face fixing seats 14, and a transmission connecting assembly 10 is arranged on each end face fixing seat 14.

Taking one of the transmission connection assemblies 10 as an example for illustration, the transmission connection assembly 10 comprises a main transmission sprocket 17 rotatably connected to the corresponding end face fixing seat 14, two auxiliary transmission sprockets 18 rotatably connected to the corresponding end face fixing seat 14, and a first chain (not shown in the figure), wherein the main transmission sprocket 17 and the two auxiliary transmission sprockets 18 are arranged in a delta shape, the main transmission sprocket 17 is positioned above the two auxiliary transmission sprockets 18, the main transmission sprocket 17 is simultaneously fixed on the transmission shaft 11, the transmission connection assembly 10 at the other end of the support frame is synchronously driven by the transmission shaft 11, the positions of the two ends of the first chain are respectively arranged in one-to-one correspondence with the positions of the two ends of the guide rail 9, and the first chain is sequentially wound on one of the auxiliary transmission sprockets, the main transmission sprocket and the other auxiliary transmission sprocket, specifically, one end of the first chain is fixed at a position corresponding to one end of the guide rail 9, the other end of the first chain bypasses the lower part of one auxiliary transmission chain wheel 18, bypasses the upper part of the main transmission chain wheel 17, bypasses the lower part of the other auxiliary transmission chain wheel 18, and finally is fixed at a position corresponding to the other end of the guide rail 9, when in use, the main transmission chain wheel 17 is driven to rotate by the speed reducing motor 15 during starting, the auxiliary transmission chain wheel 18 is driven by the main transmission chain wheel 17 through the first chain to realize transmission connection, meanwhile, the main transmission chain wheels 17 at two ends of the support frame 3 are synchronously driven by the transmission shaft 11, so that the rack 1 can be driven by the speed reducing motor 15 to move along the guide rail 9 through the sliding block 8 to realize the purpose that the conveying device moves back and forth along the guide rail, so that the conveying device moves back and forth along the guide rail to be flexibly adjusted, the length occupied by the composite board production line is reduced.

The support frame 3 is fixedly connected with four sensors 13 which are sequentially arranged along the length direction of the guide rail 9, sensing pieces (not shown in the figure) which are matched with the sensors 13 are arranged beside the end parts of two ends of one guide rail 9, the sensing pieces and the corresponding guide rail 9 are relatively and fixedly arranged, the sensors are divided into a first sensor 27, a second sensor 28, a third sensor 29 and a fourth sensor 30 for convenience in description, when the support frame is used, firstly, a speed reducing motor 15 is started at first, one end of the frame 1 moves towards the other end along the guide rail 9, the fourth sensor 30 is accelerated by the sensing piece speed reducing motor 15, the third sensor 29 is decelerated by the speed reducing motor 15 when passing by the sensing piece, the second sensor 28 is stopped by the speed reducing motor 15 when passing by the sensing piece, the operations such as acceleration, uniform speed reduction, stopping and the like of the motor when the second sensor 28 respectively sensing and controlling transverse back and forth movement are respectively, and the first sensor 27 is accelerated by the sensing piece speed reducing motor 15, the second sensor 28 is decelerated by the speed reducing motor 15 when passing by the sensing piece speed reducing motor 29 from the other end to the end, the third sensor 29 is stopped by the speed reducing motor 15, the speed reducing motor 15 when the speed reducing motor 15 is started at the beginning, one end is started, the speed of the speed reducing motor 15, and the speed is reduced by the speed reducing the speed and the speed is reduced.

The transmission mechanism 2 comprises a plurality of rollers 21 which are arranged in parallel with each other and are sequentially arranged along the length direction of the transmission mechanism 2, and a transmission motor (not shown in the figure) for driving each roller 21 to rotate, each roller 21 is fixedly connected with a double-row chain wheel 23, a second chain is wound between two adjacent double-row chain wheels 23, and the conveyed plate can be conveyed stably on the transmission mechanism 2 in the process that one end of the frame moves towards the other end along the guide rail 9.

The frame 1 is provided with a plurality of guard plates 26 fixedly connected with the frame 1, and the guard plates 26 are sequentially and equidistantly arranged along the conveying direction of the transmission mechanism 2 so as to prevent conveyed objects from sliding out of the frame 1.

The support frame 3 comprises a plurality of vertical support legs 4 which are distributed in a straight line along the length direction of the support frame and are vertically arranged to be connected with the frame 1, and transverse support legs 5 which are used for connecting two adjacent vertical support legs 4, so that the support frame 1 can be better supported.

Embodiment two:

the difference between the present embodiment and the first embodiment is that the structure of the transmission connection assembly 10 is different, specifically, the transmission connection assembly 10 includes, besides a main transmission sprocket 17 rotatably connected to the corresponding end face fixing seat 14, two auxiliary transmission sprockets 18 rotatably connected to the corresponding end face fixing seat 14, and a first chain, further includes third sprockets (not shown in the drawing) fixed at two ends of the guide rail 9, the positions of the two ends of the first chain are respectively arranged in one-to-one correspondence with the positions of the two ends of the frame 1, the first chain is sequentially wound on one of the third sprockets, one of the auxiliary transmission sprockets 18, the main transmission sprocket 17, the other of the auxiliary transmission sprockets 18 and the other of the third sprockets, specifically, one end of the first chain is fixedly connected to one end of the frame 1, the other end of the first chain bypasses the lower part of the third sprocket, bypasses the lower part of the auxiliary transmission sprocket 18, bypasses the upper part of the main transmission sprocket 17, bypasses the lower part of the other auxiliary transmission sprocket 18, bypasses the third sprocket, and finally is fixed at the other end of the frame 1.

Embodiment III:

the composite board production line comprises a glue spraying conveying device 40, a turnover plywood conveying device 41, a pressing plate conveying device 42 and a stacking conveying device 43, and further comprises the movable conveying device.

The movable conveying device is connected between the output end of the glue spraying conveying device 40 and the input end of the turning-over plywood conveying device 41, and the turning-over plywood conveying device 41, the pressing plate conveying device 42 and the stacking conveying device 43 are sequentially connected in a straight line and are respectively arranged in parallel with the glue spraying conveying device;

or, the movable conveying device is connected between the output end of the turning-over plywood conveying device 41 and the input end of the pressing plate conveying device 42, the glue spraying conveying device 40 and the turning-over plywood conveying device 41 are sequentially connected in a straight line to form a first line group, the pressing plate conveying device 42 and the stacking conveying device 43 are sequentially connected in a straight line to form a second line group, and the first line group and the second line group are mutually parallel;

alternatively, the movable conveying device is connected between the output end of the pressing plate conveying device 42 and the input end of the stacking conveying device 43, and the glue spraying conveying device 40, the turning-over plywood conveying device 41 and the pressing plate conveying device 42 are sequentially connected in a straight line and are respectively arranged in parallel with the stacking conveying device 43.

The arrangement of the production line can be practically arranged according to the production condition, two devices can be connected through the movable conveying device, for example, the movable conveying device is connected between the output end of the glue spraying conveying device 40 and the input end of the turning-over plywood conveying device 41, so that the turning-over plywood conveying device 41, the pressing-plate conveying device 42 and the stacking conveying device 43 are sequentially connected in a straight line and are respectively arranged in parallel with the glue spraying conveying device, the production line of the composite board can be arranged without being in a straight line, and workers can simultaneously manage one or a plurality of devices in parallel, stations can be reduced, and the production efficiency is further improved.

The foregoing description is only of the preferred embodiments of the present application and is not intended to limit the same, but rather, various modifications and variations may be made by those skilled in the art. Any modification, equivalent replacement, improvement, etc. made within the spirit and principles of the present application should be included in the protection scope of the present application.

Claims (8)

1. The utility model provides a portable conveyor, includes frame, linear slide rail, gear motor and transmission coupling assembling, wherein, be provided with in the frame and follow the drive mechanism that the length direction of frame arranged, the frame is equipped with and is used for supporting the support frame of frame, the bottom an organic whole of support frame is connected with the base, linear slide rail including fix slider and many respectively with frame width direction parallel arrangement's guide rail in the bottom of base, each all sliding connection has at least one on the guide rail gear motor fixed connection is in on the support frame, gear motor's output shaft with the support frame or be provided with between the base be used for driving each slider for corresponding the gliding transmission coupling assembling of guide rail.

2. The movable conveying device according to claim 1, wherein two ends of the supporting frame are fixedly connected with end face fixing seats respectively, a transmission shaft is arranged between the two end face fixing seats, each end face fixing seat is provided with one transmission connecting assembly, each transmission connecting assembly comprises a main transmission chain wheel, two auxiliary transmission chain wheels and a first chain, the main transmission chain wheels and the two auxiliary transmission chain wheels are rotatably connected to the corresponding end face fixing seats, the main transmission chain wheels and the two auxiliary transmission chain wheels are arranged in a delta shape, the main transmission chain wheels are located above the two auxiliary transmission chain wheels, the main transmission chain wheels are fixed on the transmission shaft, the positions of two ends of the first chain wheels are respectively arranged in one-to-one correspondence with the positions of two ends of the guide rail, and the first chain is sequentially wound on one auxiliary transmission chain wheel, the main transmission chain wheel and the other auxiliary transmission chain wheel.

3. The movable conveying device according to claim 1, wherein two ends of the supporting frame are fixedly connected with end face fixing seats respectively, a transmission shaft is arranged between the two end face fixing seats, each end face fixing seat is provided with one transmission connecting assembly, each transmission connecting assembly comprises a main transmission chain wheel, two auxiliary transmission chain wheels and a first chain, the main transmission chain wheels and the two auxiliary transmission chain wheels are rotatably connected to the corresponding end face fixing seats, the main transmission chain wheels and the two auxiliary transmission chain wheels are arranged in a delta shape, the main transmission chain wheels are located above the two auxiliary transmission chain wheels, the main transmission chain wheels are fixed on the transmission shaft, the transmission connecting assemblies further comprise third chain wheels which are fixedly arranged at two ends of a guide rail, the positions of two ends of the first chain wheels are respectively arranged in one-to-one correspondence with the positions of two ends of the frame, and the first chain wheels are wound on one of the third chain wheels, one of the auxiliary transmission chain wheels, the main transmission chain wheels, the other auxiliary transmission chain wheels and the other main transmission chain wheels and the other third chain wheels.

4. The movable conveying device according to claim 1, wherein the supporting frame is fixedly connected with four sensors which are sequentially arranged along the length direction of the guide rail, sensing pieces matched with the sensors are arranged beside the end parts of two ends of one guide rail, and the sensing pieces are fixedly arranged relative to the corresponding guide rail.

5. The mobile conveying device according to claim 1, wherein the transmission mechanism comprises a plurality of rollers which are arranged in parallel with each other and are sequentially arranged along the length direction of the transmission mechanism, and a transmission motor for driving each roller to rotate, each roller is fixedly connected with a double-row chain wheel, and a second chain is wound between two adjacent double-row chain wheels.

6. A mobile conveyor system as in claim 1 wherein the frame is provided with a plurality of guard plates, the guard plates being sequentially equally spaced along the conveying direction of the drive mechanism.

7. A mobile conveyor system as in claim 1 wherein the support frame comprises a plurality of vertically disposed, vertically disposed legs along the length thereof for connection to the frame and laterally disposed legs for connection to two adjacent ones of the vertically disposed legs.

8. A composite board production line comprising a glue spraying conveying device, a turnover plywood conveying device, a pressing plate conveying device and a stacking conveying device, and further comprising the movable conveying device according to any one of claims 1-7;

the movable conveying device is connected between the output end of the glue spraying conveying device and the input end of the overturning plywood conveying device, and the overturning plywood conveying device, the pressing plate conveying device and the stacking conveying device are sequentially connected in a straight line and are respectively arranged in parallel with the glue spraying conveying device;

or the movable conveying device is connected between the output end of the overturning plywood conveying device and the input end of the pressing plate conveying device, the glue spraying conveying device and the overturning plywood conveying device are sequentially connected in a straight line to form a first line group, the pressing plate conveying device and the stacking conveying device are sequentially connected in a straight line to form a second line group, and the first line group and the second line group are mutually parallel;

or the movable conveying device is connected between the output end of the pressing plate conveying device and the input end of the stacking conveying device, and the glue spraying conveying device, the overturning plywood conveying device and the pressing plate conveying device are sequentially connected in a straight line and are respectively arranged in parallel with the stacking conveying device.

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