CN214269249U - Brick shunting conveyor line - Google Patents

Abstract

The utility model relates to a brick shunting conveyor line, belonging to the technical field of brick production equipment; the left side and the right side of the parallel conveying mechanism are provided with first shunting conveyor belt mechanisms, the tail part of the parallel conveying mechanism is in butt joint with a second shunting conveyor belt mechanism, the top part of the parallel conveying mechanism is provided with a CCD camera connected to a PLC (programmable logic controller) through a bracket, and the bottom part of the parallel conveying mechanism is provided with a reversing conveying mechanism for reversing and conveying bricks to the first shunting conveyor belt mechanisms; the utility model discloses an installation parallel conveyor constructs and switching-over conveying mechanism for the fragment of brick group that conveys to the main conveyor mechanism afterbody can be through being connected to PLC's CCD camera back of shooing, can drive switching-over conveying mechanism and parallel conveyor construct and carry the fragment of brick group to first reposition of redundant personnel conveyor belt mechanism and second reposition of redundant personnel conveyor belt mechanism, and first reposition of redundant personnel conveyor belt mechanism and second reposition of redundant personnel conveyor belt mechanism can carry the fragment of brick group to the different station and carry out processes such as fragment of brick stack and ligature, have promoted conveying efficiency greatly.

Description

Brick shunting conveyor line

Technical Field

The utility model relates to a fragment of brick reposition of redundant personnel transfer chain belongs to fragment of brick production facility technical field.

Background

After the bricks are fired, the bricks need to be cooled and then operated to perform procedures such as brick stacking and binding, but the current brick conveying line is only one, the next group of bricks can be input only by one operation of a single procedure, and meanwhile, bricks with different specifications also exist in the process of producing the bricks, and need to be separately operated to different stations to operate, so that the efficiency of brick production is greatly influenced.

SUMMERY OF THE UTILITY MODEL

In order to overcome the problem that exists among the background art, the utility model discloses an installation parallel conveyor constructs and switching-over conveying mechanism for the fragment of brick group that conveys the afterbody of main conveyor constructs can be through being connected to PLC's CCD camera after shooing, can drive switching-over conveying mechanism and parallel conveyor construct and carry the fragment of brick group to first reposition of redundant personnel conveyor belt mechanism and second reposition of redundant personnel conveyor belt mechanism, first reposition of redundant personnel conveyor belt mechanism and second reposition of redundant personnel conveyor belt mechanism can carry the fragment of brick group to the different station and carry out processes such as fragment of brick stack and bundle, have promoted conveying efficiency greatly.

In order to overcome the problem that exists among the background art, for solving above-mentioned problem, the utility model discloses a following technical scheme realizes:

brick reposition of redundant personnel transfer chain includes main belt mechanism, first reposition of redundant personnel conveyer belt mechanism, second reposition of redundant personnel conveyer belt mechanism, parallel conveying mechanism, switching-over conveying mechanism, parallel conveying mechanism dock in main belt mechanism afterbody, and first reposition of redundant personnel conveyer belt mechanism is installed to the parallel conveying mechanism left and right sides, and parallel conveying mechanism afterbody docks there is second reposition of redundant personnel conveyer belt mechanism, and there is the CCD camera that is connected to PLC at parallel conveying mechanism top through the support mounting, and parallel conveying mechanism installs the bottom and is used for carrying the brick switching-over to the switching-over conveying mechanism of first reposition of redundant personnel conveyer belt mechanism.

Preferably, the parallel conveying mechanism comprises a conveying roller, a main transmission gear, a first belt transmission mechanism, a first transmission motor and an auxiliary transmission gear, the conveying roller is installed in the frame-shaped support through a bearing, adjacent conveying rollers are parallel to each other, the main transmission gear is fixedly installed on a roller shaft of the conveying roller, the auxiliary transmission gear is meshed between the adjacent main transmission gears, and the conveying roller is connected with the first transmission motor through the first belt transmission mechanism.

Preferably, the reversing conveying mechanism comprises a chain transmission mechanism, a reversing support, an air cylinder, a second transmission belt mechanism and a second transmission motor, two groups of chain transmission mechanisms are mounted on the reversing support, the chain transmission mechanisms are located between conveying rollers of the parallel conveying mechanism, a rotating shaft connected with the second transmission motor is mounted on the reversing support, the second transmission belt mechanism connected with the chain transmission mechanisms is mounted on the rotating shaft, and the air cylinder is mounted at the bottom of the reversing support.

The utility model has the advantages that:

the utility model discloses an installation parallel conveyor constructs and switching-over conveying mechanism for the fragment of brick group that conveys to the main conveyor mechanism afterbody can be through being connected to PLC's CCD camera back of shooing, can drive switching-over conveying mechanism and parallel conveyor construct and carry the fragment of brick group to first reposition of redundant personnel conveyor belt mechanism and second reposition of redundant personnel conveyor belt mechanism, and first reposition of redundant personnel conveyor belt mechanism and second reposition of redundant personnel conveyor belt mechanism can carry the fragment of brick group to the different station and carry out processes such as fragment of brick stack and ligature, have promoted conveying efficiency greatly.

Drawings

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

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

FIG. 3 is a schematic view of the reversing conveying mechanism of the present invention;

FIG. 4 is a side view of the reversing conveying mechanism of the present invention;

FIG. 5 is a front view of the parallel conveying mechanism of the present invention;

fig. 6 is a schematic structural view of the parallel conveying mechanism of the present invention.

The reference numbers in the figures are: the automatic conveying device comprises a main conveying belt mechanism 1, a first shunt conveying belt mechanism 2, a second shunt conveying belt mechanism 3, a parallel conveying mechanism 4, a reversing conveying mechanism 5, a chain transmission mechanism 6, a reversing support 7, an air cylinder 8, an anti-slip belt 9, a conveying roller 10, a main transmission gear 11, a first belt transmission mechanism 12, a first transmission motor 13, an auxiliary transmission gear 14, a second transmission belt mechanism 15, a second transmission motor 16, a CCD camera 17 and a rotating shaft 18.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention clearer, the following will explain in detail a preferred embodiment of the present invention with reference to the accompanying drawings to facilitate understanding of the skilled person.

As shown in fig. 1-6, the brick distribution conveying line comprises a main conveying belt mechanism 1, a first distribution conveying belt mechanism 2, a second distribution conveying belt mechanism 3, a parallel conveying mechanism 4 and a reversing conveying mechanism 5, wherein the parallel conveying mechanism 4 is butted at the tail of the main conveying belt mechanism 1, the first distribution conveying belt mechanism 2 is installed on the left side and the right side of the parallel conveying mechanism 4, the second distribution conveying belt mechanism 3 is butted at the tail of the parallel conveying mechanism 4, a CCD camera 17 connected to a PLC is installed at the top of the parallel conveying mechanism 4 through a support, and the reversing conveying mechanism 5 used for reversing and conveying bricks to the first distribution conveying belt mechanism 2 is installed at the bottom of the parallel conveying mechanism 4.

The parallel conveying mechanism 4 comprises a conveying roller 10, a main transmission gear 11, a first belt transmission mechanism 12, a first transmission motor 13 and an auxiliary transmission gear 14, the conveying roller 10 is arranged in a frame-shaped support through a bearing, adjacent conveying rollers 10 are parallel to each other, the main transmission gear 11 is fixedly arranged on a roller shaft of the conveying roller 10, the auxiliary transmission gear 14 is meshed between the adjacent main transmission gears 11, the conveying roller 10 is connected with the first transmission motor 13 through the first belt transmission mechanism 12, the parallel conveying mechanism 4 is mainly used for conveying brick blocks to the second shunting conveying belt mechanism 3, the brick blocks do not move in the direction in the process, meanwhile, the reversing conveying mechanism 5 is not involved in conveying the brick blocks by the parallel conveying mechanism 4, the conveying roller 10 is fixedly arranged on the roller shaft, after the first transmission motor 13 drives the conveying roller 10 through the first belt transmission mechanism 12, the conveying roller 10 rotates along with the, during the process, the roller shafts distribute power to the conveying rollers 10 one by one through the matching of the main transmission gear 11 and the auxiliary transmission gear 14, so that the plurality of conveying rollers 10 run synchronously, when the brick groups are conveyed to the tail part of the main conveying belt mechanism 1, the plurality of conveying rollers 10 run synchronously to convey the brick groups to the second branch conveying belt mechanism 3, and the brick groups are conveyed to the next process through the second branch conveying belt mechanism 3.

The reversing conveying mechanism 5 comprises a chain transmission mechanism 6, a reversing support 7, a cylinder 8, a second transmission belt mechanism 15 and a second transmission motor 16, wherein the reversing support 7 is provided with two groups of chain transmission mechanisms 6, the chain transmission mechanisms 6 are positioned between the conveying rollers 10 of the parallel conveying mechanism 4, the reversing support 7 is provided with a rotating shaft 18 connected with the second transmission motor 16, the rotating shaft 18 is provided with the second transmission belt mechanism 15 connected with the chain transmission mechanisms 6, and the bottom of the reversing support 7 is provided with the cylinder 8. In this embodiment, a rotating shaft 18 is installed on the reversing bracket 7 through a bearing seat, the rotating shaft 18 is connected with a second transmission motor 16, a belt wheel is installed on the rotating shaft 18, in addition, a belt wheel is also installed on a shaft on which the chain transmission mechanism 6 is installed, the belt wheels corresponding to each other up and down are connected through a synchronous belt, after the second transmission motor 16 drives the rotating shaft 18 to rotate, the second transmission belt mechanism 15 is driven to drive the chain transmission mechanism 6 to work, an anti-slip belt 9 made of rubber is installed on the outer side of a chain of the chain transmission mechanism 6, when in work, after a picture is taken by a CCD camera 17, a brick group needs to be driven to be conveyed to the conveying mechanism to the second branch conveying belt mechanism 3, the air cylinder 8 works to jack up the reversing bracket 7, so that the position of the chain transmission mechanism 6 is higher than that of the conveying roller 10, the brick group is jacked up, after the second transmission motor 16 drives the chain transmission mechanism 6 to work, the chain transmission mechanism 6 works, can transport fragment of brick group to first reposition of redundant personnel conveyor belt mechanism 2 on, according to the actual production needs during, control second drive motor 16 just reversing can carry fragment of brick group to different first reposition of redundant personnel conveyor belt mechanism 2, in this embodiment, first reposition of redundant personnel conveyor belt mechanism 2 is provided with two sets ofly, can carry fragment of brick group to different processes for a main conveyor belt mechanism 1 can disperse to three production lines, promotes work efficiency greatly.

In this embodiment, the air cylinder 8, the first transmission motor 13, the second transmission motor 16, and the CCD camera 17 are all connected to the PLC, and after the photo is taken by the CCD camera 17, the PLC controls the air cylinder 8, the first transmission motor 13, and the second transmission motor 16 to work, so as to control the operation direction of the brick group.

The utility model discloses a working process: after the photos are taken by the CCD camera 17, when the brick groups are required to be conveyed to the first shunting conveyor belt mechanism 2 in a reversing way by driving the conveying mechanism, the reversing support 7 is jacked up by the working of the air cylinder 8, so that the position of the chain transmission mechanism 6 is higher than that of the conveying roller 10, the brick groups are jacked up, the chain transmission mechanism 6 is driven to work by driving the second transmission motor 16, the chain transmission mechanism 6 works, the brick groups can be conveyed to the first shunting conveyor belt mechanism 2, and the brick groups can be conveyed to different first shunting conveyor belt mechanisms 2 by controlling the second transmission motor 16 to rotate forwards and backwards according to actual production requirements in the process; when the brick group needs to be transported to the second branch conveyor belt mechanism 3, the driving cylinder 8 descends, so that the chain transmission mechanism 6 is lower than the conveying rollers 10, and the brick group can be conveyed to the second branch conveyor belt mechanism 3 under the driving of the conveying rollers 10.

The utility model discloses an installation parallel conveyor constructs and switching-over conveying mechanism for the fragment of brick group that conveys to the main conveyor mechanism afterbody can be through being connected to PLC's CCD camera back of shooing, can drive switching-over conveying mechanism and parallel conveyor construct and carry the fragment of brick group to first reposition of redundant personnel conveyor belt mechanism and second reposition of redundant personnel conveyor belt mechanism, and first reposition of redundant personnel conveyor belt mechanism and second reposition of redundant personnel conveyor belt mechanism can carry the fragment of brick group to the different station and carry out processes such as fragment of brick stack and ligature, have promoted conveying efficiency greatly.

Finally, it is noted that the above-mentioned preferred embodiments illustrate rather than limit the invention, and that, although the invention has been described in detail with reference to the above-mentioned preferred embodiments, it will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the scope of the invention as defined by the appended claims.

Claims (3)

1. The utility model provides a fragment of brick reposition of redundant personnel transfer chain which characterized in that: brick reposition of redundant personnel transfer chain includes main belt mechanism, first reposition of redundant personnel conveyer belt mechanism, second reposition of redundant personnel conveyer belt mechanism, parallel conveying mechanism, switching-over conveying mechanism, parallel conveying mechanism dock in main belt mechanism afterbody, and first reposition of redundant personnel conveyer belt mechanism is installed to the parallel conveying mechanism left and right sides, and parallel conveying mechanism afterbody docks there is second reposition of redundant personnel conveyer belt mechanism, and there is the CCD camera that is connected to PLC at parallel conveying mechanism top through the support mounting, and parallel conveying mechanism installs the bottom and is used for carrying the brick switching-over to the switching-over conveying mechanism of first reposition of redundant personnel conveyer belt mechanism.

2. Brick shunt conveyor line according to claim 1, characterized in that: the parallel conveying mechanism comprises conveying rollers, a main transmission gear, a first belt transmission mechanism, a first transmission motor and an auxiliary transmission gear, the conveying rollers are installed in the frame-shaped support through bearings, adjacent conveying rollers are parallel to each other, the main transmission gear is fixedly installed on a roller shaft of each conveying roller, the auxiliary transmission gear is meshed between the adjacent main transmission gears, and the conveying rollers are connected with the first transmission motor through the first belt transmission mechanism.

3. Brick shunt conveyor line according to claim 1 or 2, characterized in that: the reversing conveying mechanism comprises a chain transmission mechanism, a reversing support, an air cylinder, a second transmission belt mechanism and a second transmission motor, wherein the reversing support is provided with two groups of chain transmission mechanisms, the chain transmission mechanisms are positioned between conveying rollers of the parallel conveying mechanism, a rotating shaft connected with the second transmission motor and the second transmission belt mechanism connected with the chain transmission mechanisms are arranged on the reversing support, and the air cylinder is arranged at the bottom of the reversing support.

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