This U.S. National stage application of PCT/JP2015/078703 claims priority under 35 U.S.C. ยง 119(a) to Japanese Patent Application No. 2015-010896, filed in Japan on Jan. 23, 2015, the entire contents of which are hereby incorporated herein by reference.
The present invention relates to a push-in mechanism and a box packing device provided with the same.
Box packing devices are often used for packing a plurality of wrapped articles automatically in cardboard boxes for the purpose of shipment in factories that produce products wrapped in film bags. Japanese Laid-Open Patent Publication No. 2010-155648 discloses one example of such a box packing device.
Most box packing devices are functionally divided into a feed mechanism, an accumulating mechanism, and a push-in mechanism. The feed mechanism feeds wrapped articles one at a time. The accumulating mechanism accumulates a predetermined number of wrapped articles among the wrapped articles supplied by the feed mechanism. The push-in mechanism pushes the group of accumulated wrapped articles into a cardboard box. The push-in action is repeated a predetermined number of times for one cardboard box.
If the action for pushing in the group of wrapped articles into the cardboard box by the push-in mechanism is slow, this push-in action becomes a bottleneck in the production line. Even if the processing capabilities of the feed mechanism and the accumulating mechanism, for example, are fast, the mechanisms must temporarily stop operating in order to wait for the preparation of the push-in action to be completed. As a result, the efficiency of the overall production line falls.
An object of the present invention is to increase the speed of the push-in action and improve the efficiency of the production line.
A push-in mechanism according to a first aspect of the present invention pushes articles into a box that is opened sideways. The push-in mechanism is provided with a box standby part, an article placement part, a push-in plate, a horizontal movement mechanism, and a lifting/lowering mechanism. The box standby part causes the box to wait. The article placement part has a placement surface on which the articles are temporarily placed. The push-in plate is installed in a standing state so as to have a pressing surface for pushing the articles toward the box. The horizontal movement mechanism reciprocates the push-in plate horizontally over the placement surface so that the push-in plate moves toward the box or moves away from the box. The lifting/lowering mechanism moves the push-in plate so as to change a separation distance in the vertical direction between a lower edge of the pressing surface and the placement surface.
According to this configuration, the height of the lower edge of the pressing surface can be changed. Therefore, after the push-in action of the push-in plate pushing the article into the box is finished, hindering of the movement of the next article to be pushed into the box can be suppressed by increasing the height of the lower edge of the pressing surface.
The push-in mechanism according to a second aspect of the present invention is related to the push-in mechanism according to the first aspect, wherein the push-in plate has a first plate and a second plate. The first plate is installed in a standing state. The second plate is installed in a standing state closer to the placement surface than the first plate. The second plate has the pressing surface described in the first aspect. The lifting/lowering mechanism moves the second plate in the vertical direction to change the separation distance.
According to this configuration, the dimension in the vertical direction of the push-in plate is extended and shrunk by the movement of the second plate. Therefore, the push-in mechanism conforms to articles of varying sizes.
The push-in mechanism according to a third aspect of the present invention is related to the push-in mechanism according to the first aspect or the second aspect, wherein the lifting/lowering mechanism sets the separation distance to a first distance when the horizontal movement mechanism moves the push-in plate toward the box. The lifting/lowering mechanism sets the separation distance to a second distance when the horizontal movement mechanism moves the push-in plate away from the box. The second distance is greater than the first distance.
According to this configuration, the height of the lower edge of the pressing surface increases during the return action of the push-in plate. Therefore, the next article to be pushed into the box can be moved during the return action of the push-in plate and, consequently, the speed of the push-in action can be increased.
The push-in mechanism according to a fourth aspect of the present invention is related to the push-in mechanism according to the first aspect or the second aspect, wherein the lifting/lowering mechanism sets the separation distance to a first distance when the horizontal movement mechanism moves the push-in plate toward the box. The lifting/lowering mechanism sets the separation distance to a second distance when the horizontal movement mechanism moves the push-in plate away from the box. The second distance is greater than the first distance when the size of the article is smaller than a predetermined size. The second distance is equal to the first distance when the size of the article is greater than the predetermined size.
According to this configuration, an article having a greater height can be packed into the box in a stable manner due to the second plate as well as the first plate being involved in the pushing action.
The push-in mechanism according to a fifth aspect of the present invention is related to the push-in mechanism described in any one of the first aspect to fourth aspect, wherein the push-in plate is capable of extending and retracting in the width direction. The width direction is perpendicular to both a reciprocating direction and the vertical direction of the push-in plates.
According to this configuration, the width of the push-in plate can be increased when handling a large product wrapped in a bag, for example. Therefore, the push-in action of an article that is larger than a predetermined size can be carried out in a stable manner.
A box packing device according to a sixth aspect of the present invention comprises a feed mechanism, an accumulating mechanism, and the push-in mechanism. The feed mechanism feeds the articles in order one at a time. The accumulating mechanism accumulates a predetermined number of the articles. The push-in mechanism pushes a predetermined number of the articles into a box. The push-in mechanism is related to any one of the first to fifth aspects.
According to this configuration, the box packing device is provided with a push-in mechanism having a fast processing speed. Therefore, the processing speed of the box packing device can be improved.
The box packing device according to a seventh aspect of the present invention is related to the box packing device according to the sixth aspect, wherein the accumulating mechanism has a first conveyor belt, a second conveyor belt, and a third conveyor belt. The first conveyor belt receives articles from the feed mechanism. The first conveyor belt is disposed in an inclined manner. The second conveyor belt forms an article group including the predetermined number of the articles. The third conveyor belt receives the article group from the second conveyor belt and is capable of temporarily holding the article group. The article placement mechanism has a placement conveyor belt. The placement conveyor belt receives the article group from the third conveyor belt and moves the article group to the placement surface.
According to this configuration, the third conveyor belt of the accumulating mechanism functions as a buffer. Therefore, the accumulating mechanism can be prevented from becoming a bottleneck in the production line.
According to the push-in mechanism as in the present invention, hindering of the movement of the articles can be suppressed. The processing speed of the box packing device in which the push-in mechanism is mounted is faster.
Overall Configuration
The box packing device 500A is provided with a feed mechanism 100, an accumulating mechanism 200A, and a push-in mechanism 300.
The feed mechanism 100 receives the articles WP wrapped in bags one at a time from an unillustrated wrapping device installed in the previous stage of the box packing device 500A, feeds the articles WP in a feeding direction F1, and passes the articles WP on to the accumulating mechanism 200A.
The feed mechanism 100 has a feed conveyor belt 110 and a discharge conveyor belt 120. The discharge conveyor belt 120 is disposed in an inclined manner.
The accumulating mechanism 200A accumulates a predetermined number of the articles WP. The accumulating mechanism 200A has a first conveyor belt 210 and a second conveyor belt 220. The first conveyor belt 210 is inclined with respect to the horizontal direction and forms a sloped surface. The first conveyor belt 210 constantly operates.
The second conveyor belt 220 is stopped or operates at a low speed until the predetermined number of the articles WP are accumulated. As a result, a plurality of the articles WP fed sequentially from the feed mechanism 100 are accumulated on the second conveyor belt 220 in a partially overlapped manner.
When the predetermined number of the articles WP are accumulated, the second conveyor belt 220 operates at a high speed and passes the group of the articles WP on to the push-in mechanism 300.
The push-in mechanism 300 receives the predetermined number of articles WP accumulated by the accumulating mechanism 200A, aligns the articles WP and packs the articles WP into a box.
The article placement part 310 is for placing one group of the articles WP to be boxed. The article placement part 310 includes a conveyor belt and is able to feed the articles WP in a feeding direction F2.
As illustrated in
Returning to
The push-in plate 340 is able to move or reciprocate in a reciprocating direction P due to the horizontal movement mechanism 360. The push-in plate 340 has a first plate 341 and a second plate 342. The first plate 341 is fixed to the horizontal movement mechanism 360. The second plate 342 is able to move relative to the first plate in a vertical direction V.
As illustrated in
Returning to
The horizontal movement mechanism 360 moves the push-in plate 340 in the reciprocating direction P. The horizontal movement mechanism 360 has a beam 361 and a fixing member 362. The first plate 341 of the push-in plate 340 is fixed to the fixing member 362, The fixing member 362 is moved in the reciprocating direction P along the beam 361 by, drive mechanism 363.
The lifting/lowering mechanism 370 lifts and lowers the second plate 342 by moving the second plate 342 relative to the first plate 341 in the vertical direction V. The lifting/lowering mechanism 370 has a roller 371 and a belt 372. The roller 371 is fixed to the fixing member 362 in a rotatable manner and is rotated by a motor 373. The belt 372 has one end fixed to the roller 371 and the other end fixed to the second plate. Due to the force of the motor, the roller 371 winds the belt 372 up or returns the belt 372 whereby the second plate 342 is lifted or lowered.
In this step, a group of the articles WP that has come from the accumulating mechanism 200A (
In this step, the push-in plate 340 moves toward the box B and consequently the pressing surface SP pushes the group of the articles WP toward the box B. As a result, the group of the articles WP is packed into the box B. The separation distance between the height of the placement surface SS and the height of the lower edge of the pressing surface SP is maintained at the first distance d1.
In this step, the push-in plate 340 returns to the location of the first step. At this time, the second plate 342 is lifted upward. As a result, the separation distance between the height of the placement surface SS and the height of the lower edge of the pressing surface SP becomes a second distance d2 which is greater than the first distance d1. As a result, the next group of the articles WP to be boxed can be placed on the placement surface SS without being hindered by the push-in plate 340. Thereafter, the push-in action returns to the first step.
The lifting/lowering mechanism 370 in the push-in mechanism 300 is able to move the push-in plate 340 so that the distance separating the lower edge of the pressing surface SP and the placement surface SS in the vertical direction changes. Therefore, after the push-in action of the push-in plate 340 pushing the articles into the box B is finished, hindering of the movement of the next articles WP to be pushed into the box can be suppressed by increasing the height of the lower edge of the pressing surface SP.
In the orientation shown in
The lifting/lowering mechanism 370 sets the separation distance to the first distance d1 when the horizontal movement mechanism 360 moves the push-in plate 340 toward the box B. The lifting/lowering mechanism 370 sets the separation distance to the second distance d2, which is greater than the first distance d1, when the horizontal movement mechanism 360 moves the push-in plate 340 away from the box B. Therefore, the movement of the next articles WP to be pushed into the same box B or a different new box B can be performed during the return action of the push-in plate 340, and consequently the speed of the push-in action can be improved.
The box packing device 500A is provided with the push-in mechanism 300 having a fast processing speed. Therefore, the processing speed of the box packing device 500A is improved.
The push-in mechanism 300 mounted in the box packing device 500A according to a first modified example 1A of the first embodiment changes the action of the lifting/lowering mechanism 370 according to the size of the article WP.
The box packing device 500A according to the first modified example 1A is further provided with a detection means, which is not illustrated, for detecting the size of the article WP, specifically, the height h of the article WP. The box packing device 500A determines, on the basis of a signal from the detection means, whether the height h of the article WP is greater than the second distance d2 explained in
If the height h of the article WP is less than the second distance d2, the push-in mechanism 300 according to the modified example 1A performs the push-in action including the steps illustrated in
On the other hand, if the height h of the article WP is equal to or greater than the second distance d2, the push-in mechanism 300 according to the modified example 1A performs a push-in action including a first step in
In the first step illustrated in
In the second step illustrated in
Next, without the lifting and lowering of the second plate being performed, the push-in plate 340 is returned to the disposition in
According to this configuration, the first plate 341 as well as the second plate 342 contribute to the action of pushing the article WP and therefore the article WP having the large height h can be packed into the box B in a stable manner.
The push-in mechanism 300 mounted in the box packing device 500A according to a second modified example 1B of the first embodiment extends and retracts the width of the push-in plate 340 according to the size of the article WP.
Furthermore, the box packing device 500A according to the second modified example 1B is further provided with a detecting means, which is not illustrated, for detecting the size of the article WP, specifically, the dimension in the feeding direction F2 (
According to this configuration, the width of the push-in plate 340 can be increased due to the extension of the first plate extension part 341a and the second plate extension part 342a when handling the article WP having a dimension equal to or greater than a predetermined value. Therefore, the push-in action of a large article WP can be performed in a stable manner.
The push-in mechanism 300 mounted in the box packing device 500A according to a third modified example 1C of the first embodiment also extends and retracts the width of the push-in plate 340 according to the size of the article WP.
The push-in mechanism 300 mounted in the box packing device 500A according to the third modified example 1C of the first embodiment does not have the lifting/lowering mechanism 370 of the first embodiment, and in place thereof, has an extension mechanism, which is not illustrated, for changing the form of the push-in plate 340 as illustrated in
The first plate 341, the second plate 342, the third plate 343, and the fourth plate 344 are configured by thin plates having a thickness, for example, of 1.5 mm or less. Therefore, the step between the second plate 342 and the fourth plate 344 is a small dimension of 3.0 mm or less in the extended push-in plate 340 illustrated in
As illustrated in
Overall Configuration
The accumulating mechanism 200B differs from the accumulating mechanism 200A according to the first embodiment in that the accumulating mechanism 200B has a third conveyor belt 230 in addition to the first conveyor belt 210 and the second conveyor belt 220.
The first conveyor belt 210 is inclined with respect to the horizontal direction and forms a sloped surface. The first conveyor belt 210 constantly operates.
The second conveyor belt 220 is stopped or operates at a low speed until the predetermined number of the articles WP are accumulated. As a result, a plurality of the articles WP fed sequentially from the feed mechanism 100 are accumulated on the second conveyor belt 220 in a partially overlapping manner.
When the predetermined number of the articles WP are accumulated, the second conveyor belt 220 operates at a high speed and passes the group of the articles WP on to the third conveyor belt 230.
The third conveyor belt 230 operates when predetermined conditions, such as the state of the subsequent push-in mechanism 300 and the like, are satisfied, and passes the group of the articles WP on to the push-in mechanism 300.
According to this configuration, the third conveyor belt 230 functions as a buffer. When the push-in mechanism 300 is carrying out an action, the third conveyor belt 230 is not able to pass the group of the articles WP on to the push-in mechanism 300 and therefore holds the group of the articles WP. During that time, the accumulating mechanism 200B is able to execute the accumulation action by using the first conveyor belt 210 and the second conveyor belt 220. Therefore, the utilization rate of the accumulating mechanism 200B is improved and the accumulating mechanism 200B can avoid becoming a bottleneck in the production line.
The configurations of the push-in mechanism 300 according to the first modified example 1A, the second modified example 1B, and the third modified example 1C of the first embodiment may be integrated with the box packing device 500B according to the second embodiment.
Number | Date | Country | Kind |
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2015-010896 | Jan 2015 | JP | national |
Filing Document | Filing Date | Country | Kind |
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PCT/JP2015/078703 | 10/9/2015 | WO | 00 |
Publishing Document | Publishing Date | Country | Kind |
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WO2016/117178 | 7/28/2016 | WO | A |
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