JP6930724B2 - Aligned feeder - Google Patents

Description

The present invention relates to an alignment supply device for arranging agricultural products such as fruits and vegetables in a plurality of rows and supplying them to a sorting device on the downstream side.

Agricultural products such as fruits and vegetables are sorted by size in multiple sorting devices, and after removing defective products, they are generally packed in boxes according to size. desirable.
Therefore, conventionally, a distribution conveyor is connected to the downstream side of the supply conveyor, a distribution conveyor is connected to the downstream side of the distribution conveyor, and a plurality of rows of variable speed conveyors and an alignment conveyor are sequentially connected to the end of the distribution conveyor. The upstream end is used as a fulcrum to swing in the width direction, the transport speed of the variable conveyor is variable, and the distribution conveyor is swung according to the bias of the fruits on the distributed conveyor to unevenly distribute the fruits on the distributed conveyor. (See Patent Document 1), which modifies the above and changes the transport speed of the variable speed conveyor according to the transport amount of fruits on the align conveyor to equalize the transport amount of each align conveyor (see Patent Document 1).

However, in the above-mentioned conventional alignment and feeding device, the distribution conveyor itself is swung and the speed variable conveyor is connected to the upstream side of all the alignment conveyors, so that the structure of the entire device is complicated and large, and the price is high. Or, the energy required for operation also increases.
Further, if the transfer speed of the variable speed conveyor is reduced in order to equalize the transfer amount of all the aligned conveyors, there is a concern that the work efficiency on the downstream side may decrease.
Furthermore, in the case of amorphous agricultural products, when the agricultural products are supplied to the alignment supply device, they will be transported as they are if they are stacked, and if an impact is applied to the conveyor to level them, the agricultural products will be damaged. There is a fear.

Japanese Unexamined Patent Publication No. 2016-11207

The problem to be solved by the present invention is to provide an aligned supply device in which agricultural products can be evenly arranged in a plurality of rows and supplied to the downstream side, the load applied to the agricultural products is small, the structure is simple, and the cost is low. To provide.

The present invention relates to an aligned supply device that arranges agricultural products supplied from a supply conveyor in a plurality of rows and supplies them to the downstream side, and is installed on an inclined conveyor connected to the downstream side of the supply conveyor and on the downstream side of the inclined conveyor. Agricultural products conveyed by the inclined conveyor are divided into rows and conveyed, and the inclined conveyor is provided with a plurality of rows of aligned conveyors. A plurality of distribution plates for distributing in the width direction are installed so as to be movable in the width direction, and a bias monitoring device for measuring the deviation in the width direction of the agricultural products conveyed by the inclined conveyor is installed on the downstream side of the distribution plate. , The sorting plate moves according to the bias of the agricultural product measured by the bias monitoring device.

In a plan view, the distribution plate may form a triangle whose width gradually widens from the top on the upstream side in the transport direction toward the downstream side in the transport direction.
It is desirable that the distribution plate is provided in the central region in the width direction, the one side region in the width direction, and the other side region in the width direction of the inclined conveyor, respectively.
In this case, the distribution plate may be installed in the front stage, the middle stage, and the rear stage in the transport direction of the inclined conveyor, respectively.
A distribution conveyor is connected to the downstream side of the inclined conveyor, a plurality of rows of the alignment conveyors are connected to the end of the distribution conveyor, and a distribution arm is connected from the upstream end of the section between the alignment conveyors toward the distribution conveyor. Is oscillating in the width direction, a flow rate monitoring device for measuring the flow rate of the agricultural products conveyed by the alignment conveyor is installed, and the flow rate monitoring device measures the flow rate of the agricultural products on the alignment conveyor. The distribution arm may be swung.

According to the present invention, even if agricultural products are supplied in a stacked state from a supply conveyor, they collapse to the upstream side and are leveled flat while being conveyed by the inclined conveyor, and the load received by the agricultural products at this time is small and leveled flat. Since the produced agricultural products are distributed in the width direction by the distribution plate so that the density is not biased, they are arranged and transported in a plurality of rows equalized by the alignment conveyor, and as a result, the work on the downstream side can be efficiently performed. ..
In addition, since the structure is simpler than the one that swings the conveyor itself or changes the transfer speed for each row, the equipment is compact, there are few failures, the initial cost and running cost are low, and the transfer is performed by the conveyor. Since the speed is constant, there is no concern that the work efficiency on the downstream side will decrease.

It is a top view of the alignment feed apparatus which shows the Example of this invention. It is a side view of the alignment feed apparatus which shows the Example of this invention. It is a top view of the inclined conveyor which concerns on embodiment of this invention. It is a side view of the inclined conveyor which concerns on embodiment of this invention. It is a top view of the distribution plate support structure which concerns on embodiment of this invention. It is a front view of the distribution plate support structure which concerns on embodiment of this invention. It is a main part plan view of the distribution conveyor and the alignment conveyor which concerns on embodiment of this invention. It is a main part side view of the distribution conveyor and the alignment conveyor which concerns on embodiment of this invention. It is a top view of the distribution arm attachment part which concerns on embodiment of this invention.

Hereinafter, examples of the present invention will be described in detail with reference to the drawings.
As shown in FIGS. 1 and 2, in the alignment supply device 1 of the present embodiment, after passing through a cleaning device (not shown), potatoes (agricultural products) supplied from the supply conveyor 2 are arranged in a plurality of rows on the downstream side. It is supplied to the sorting device and includes an inclined conveyor 3, a distributed conveyor 4, and an alignment conveyor 5.
The sorting device is equipped with an image processing device that determines the size of potatoes in each row, and the aged horses are sent to different lanes according to their size, and after the defective products are manually removed, they are boxed by size. ..

The inclined conveyor 3 is a roller conveyor and is connected to the downstream side of the supply conveyor 2. In this embodiment, two parallel rows of inclined conveyors 3 are connected to both ends of the supply conveyor 2 via a belt conveyor 6.
The transport direction of the belt conveyor 6 is orthogonal to the transport direction of the supply conveyor 2 and the inclined conveyor 3, and a long belt conveyor 6 and a short belt conveyor 6 are connected to both sides of the end portion of the supply conveyor 2, respectively. Then, potatoes are supplied from the two belt conveyors 6 to both sides of the inclined conveyor 3 in the width direction.
Further, the inclined conveyor 3 is inclined so as to gradually increase toward the downstream side in the transport direction. The tilt angle of the tilt conveyor 3 is about 5 °.
Therefore, even if the washed potatoes are supplied in a state of being stacked on the inclined conveyor 3 through the supply conveyor 2 and the belt conveyor 6, they collapse to the upstream side and are leveled flat while being conveyed by the inclined conveyor 3.

As shown in FIGS. 3 and 4, in the front, middle, and rear stages of the inclined conveyor 3 in the transport direction, a distribution plate 7 that approaches the upper surface of the inclined conveyor 3 and distributes potatoes on the inclined conveyor 3 in the width direction is provided. Each is installed.
The distribution plate 7 has a triangular shape that gradually widens from the top on the upstream side in the transport direction toward the downstream side in the transport direction in a plan view.

As shown in FIGS. 5 and 6, the support frame 8 that supports the distribution plate 7 is erected along the width direction between the side frames 9 arranged on both sides of the inclined conveyor 3. Further, an electric cylinder 11 provided on the upper surface of the distribution plate 7 is attached to the support frame 8, and when the electric cylinder 11 is driven, the distribution plate 7 moves in the width direction of the inclined conveyor 3.
The guide 10 of the electric cylinder 11 is provided in the center region in the width direction of the inclined conveyor 3 in the support frame 8 in the front stage, is provided in the one side region in the width direction in the support frame 8 in the middle stage, and is provided in the support frame 8 in the rear stage. It is provided in the other side area in the width direction. That is, the distribution plate 7 in the front stage moves in the central region in the width direction of the inclined conveyor 3, the distribution plate 7 in the middle stage moves in one side region in the width direction, and the distribution plate 7 in the rear stage moves in the other side region in the width direction.

As shown in FIGS. 1 and 2, a bias monitoring device 13 for measuring the bias in the width direction of the potatoes conveyed by the tilt conveyor 3 is installed above the tilt conveyor 3 on the downstream side of the distribution plate 7.
The bias monitoring device 13 is composed of a CCD camera or the like, and is connected to a control device that controls the movement of the electric cylinder 11 attached to the distribution plate 7.
Then, this control device determines the density of potatoes in the width direction of the inclined conveyor 3 from the image data obtained by the bias monitoring device 13, and the distribution plate 7 so that the density of potatoes on the inclined conveyor 3 is as uniform as possible. Move the potatoes to collect the potatoes in the less dense area.

The distribution conveyor 4 is a horizontal belt conveyor, and two rows are connected to each other on the downstream side of the inclined conveyor 3 in parallel and adjacent to each other.
Further, a plurality of rows (three rows in this embodiment) of alignment conveyors 5 are connected to the end of the distribution conveyor 4 in parallel and adjacent to each other. The alignment conveyor 5 is a plurality of feeders, belt conveyors, etc. connected in series.
As shown in FIGS. 7 and 8, the distribution arm 14 projects from the upstream end of the section between the alignment conveyors 5 toward the distribution conveyor 4. The distribution arm 14 is erected from the upper surface of the distribution conveyor 4, and the downstream end of the distribution arm 14 is pivotally attached to the upstream end of the partition wall 15 between the alignment conveyors 5 so as to be swingable in the width direction.

Further, as shown in FIGS. 8 and 9, electric cylinders 16 are provided on the upper surfaces of the intermediate portions in the length direction of the distribution arm 14, respectively, on a frame 17 erected above the distribution conveyor 4 along the width direction. The guides 18 of the electric cylinder 16 are attached in parallel.
Therefore, when the electric cylinder 16 is driven, the intermediate portion of the distribution arm 14 moves in the width direction of the distribution conveyor 4, and the distribution arm 14 swings in the width direction around the downstream end portion. The movable range of the distribution arm 14 is about 20 ° to 25 °.

As shown in FIGS. 1 and 2, a flow rate monitoring device 19 for measuring the flow rate of potatoes conveyed by the alignment conveyor 5 is installed above the alignment conveyor 5. The flow rate monitoring device 19 is composed of a CCD camera or the like, and is connected to a control device that controls the movement of the electric cylinder 16 attached to the distribution arm 14.
This control device determines the flow rate of the horse bells of the alignment conveyor 5 from the image data obtained by the flow rate monitoring device 19, and swings the distribution arm 14 so that the flow rates of all the alignment conveyors 5 are as uniform as possible, and the flow rate is increased. The entrance portion of the small number of alignment conveyors 5 is widened.
Therefore, the potatoes that have passed through the alignment conveyor 5 are aligned in a plurality of rows with an equal flow rate and sent to the sorting device, and the image processing device installed in each row determines the size of the potatoes at almost the same speed. , Can be packed efficiently.

The specific structure of the present invention is not limited to the above examples.
For example, the distribution plate 7 may be installed in the front stage and the rear stage of the inclined conveyor 3, the distribution plate 7 in the front stage may be provided in one side region in the width direction of the inclined conveyor 3, and the distribution plate 7 in the rear stage may be provided in the other side in the width direction. , The distribution plate 7 may be provided in both side regions in the width direction of the front stage, and one distribution plate 7 may be provided in the central region in the width direction of the rear stage.
Further, the distribution plate 7 and the distribution arm 14 can be driven by a well-known device other than the electric cylinder.
Of course, the aligned feeding device of the present invention can also be applied to agricultural products other than potatoes.

1 Aligned supply device 2 Supply conveyor 3 Inclined conveyor 4 Distributed conveyor 5 Aligned conveyor 6 Belt conveyor 7 Sorting plate 8 Support frame 9 Side frame 10 Guide 11 Electric cylinder 13 Bias monitoring device 14 Distribution arm 15 Partition 16 Electric cylinder 17 frame 18 Guide 19 Flow monitoring device

Claims (5)

It is an alignment supply device that arranges agricultural products randomly supplied from the supply conveyor in multiple rows and supplies them to the downstream side.
An inclined conveyor connected to the downstream side of the supply conveyor and
It is provided on the downstream side of the inclined conveyor, and is provided with a multi-row aligned conveyor that divides and conveys the agricultural products conveyed by the inclined conveyor one by one.
The inclined conveyor is inclined so as to gradually increase toward the downstream side in the transport direction, and a plurality of distribution plates for distributing agricultural products on the inclined conveyor in the width direction are installed so as to be movable in the width direction, respectively, on the downstream side of the distribution plate. A bias monitoring device for measuring the bias in the width direction of the agricultural products conveyed by the tilt conveyor is installed, and the sorting plate is moved according to the bias of the agricultural products measured by the bias monitoring device. Device. The alignment supply device according to claim 1, wherein the sorting plate forms a triangle whose width gradually widens from the top on the upstream side in the transport direction toward the downstream side in the transport direction in a plan view. The alignment supply device according to claim 1 or 2, wherein the distribution plate is provided in a central region in the width direction, a region on one side in the width direction, and a region on the other side in the width direction of the inclined conveyor, respectively. The alignment supply device according to claim 3, wherein the distribution plate is installed in the front stage, the middle stage, and the rear stage, respectively, in the transport direction of the inclined conveyor. A distribution conveyor is connected to the downstream side of the inclined conveyor, a plurality of rows of the alignment conveyors are connected to the end of the distribution conveyor, and a distribution arm is connected from the upstream end of the section between the alignment conveyors toward the distribution conveyor. Is oscillating in the width direction, a flow rate monitoring device for measuring the flow rate of the agricultural products conveyed by the alignment conveyor is installed, and the flow rate monitoring device measures the flow rate of the agricultural products on the alignment conveyor. The aligned feeding device according to any one of claims 1 to 4, wherein the distribution arm swings.

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