JP2015218064A - Article supply device - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide an article supply device suppressing as much as possible articles from being supplied in the form of a mass made by adhering to each other.SOLUTION: Articles to be carried are sorted in a sorting part 12, and a single article or a small mass of articles falls from the sorting part 12, is sent into a conveyance trough 13, vibration-transported to a fixed direction, and supplied to a downstream side. At this time, a large mass of articles receives vibration to be loosened in the sorting part 12, and becomes a single substance or a small mass to fall to the conveyance trough 13. The small mass of articles falling to the conveyance trough 13 is loosened by impact or vibration transportation when falling, and supplied to a downstream side.

Description

  The present invention relates to an article supply apparatus that supplies articles to a combination weigher or the like.

  Articles are supplied to the combination weigher, for example, as shown in Japanese Patent Application Laid-Open No. H10-133707, the articles put in the reservoir hopper are oscillated and conveyed by a supply feeder and supplied to a dispersion feeder provided at the upper center of the combination weigher. It is known what has been configured.

JP 2013-127488 A

  Generally, articles that are combined and weighed in a predetermined weight range with a combination weigher are discharged to a packaging machine and packaged and packed in a packaging machine. For example, articles that are easy to stick together, such as sweet natto processed with syrup In this case, the articles tend to stick to each other due to their own weight and become a lump, and a plurality of articles may be supplied to the combination weigher as a lump.

  In such a case, the articles that are combined and weighed by the combination weigher include a lump. When the packaging machine is of a specification that wraps a belt-shaped packaging material around a forming tube and continuously shapes it into a relatively small-diameter tube shape, the article discharged from the combination weigher is put into the upper end opening of the forming tube. Large clogs may become clogged at the upper end opening of the forming tube, and the weighing and packaging operation must be interrupted to remove clogs of clogged articles, which contributes to a decrease in productivity.

  Also, in the combination weigher, when a plurality of articles are supplied in a lump as a lump, a large number of articles are supplied, making it difficult to establish a combination and reducing the accuracy of combination weighing. Furthermore, when a lump of articles is mixed, there is a problem that smooth discharge of articles tends to be impaired, and it becomes easy to bite when opening and closing the gates in each hopper.

  The present invention has been made paying attention to such a situation, and an object of the present invention is to provide an article supply apparatus that suppresses as much as possible the supply of articles in a lump that is attached to each other. .

  In order to achieve the above object, the present invention is configured as follows.

  (1) The article supply device according to the present invention receives a sorting unit that sifts while carrying an article to be carried in, and an article falling from the sorting part, and vibrates and conveys the received article in a certain conveyance direction. And a transport trough to be supplied to the downstream side in the transport direction.

  According to the present invention, when supplying articles that are likely to be combined into a lump with each other, the carried-in articles are first subjected to a sieving action in the sorting section, and single articles and small articles lump fall from the sorting section. It is sent to the transport trough, oscillated and transported in a fixed direction, and supplied downstream. Further, in the sorting section, a large article lump is broken by receiving vibrations, falls as a single or a small article lump, and only a large article lump that has not been broken is sorted. In addition, a lump of small articles that have fallen from the sorting portion is easily broken into a single article by impact or vibration conveyance when dropped and received by the conveyance trough.

  (2) In a preferred embodiment of the present invention, the bottom surface of the transport trough is inclined downward toward the downstream in the transport direction.

  According to this embodiment, since the transport trough is inclined downward toward the downstream in the transport direction, a single item or a small lump of article that has fallen from the separation unit is transported downstream without stagnation on the transport trough. On the other hand, since the conveying speed of the article is slower than that of the conveying trough in the separation section, it is possible to impart a sufficient vibration-dissolving action to the lump of articles during the vibration conveyance in the separation section. In the separation section, the lump of articles can be effectively unwound and dropped onto the transport trough.

  (3) In another embodiment of the present invention, a vibration device that vibrates and drives the transport trough is provided, and the separation unit includes a plurality of sieve members arranged in parallel and is connected to an upper portion of the transport trough. .

  According to this embodiment, the separation unit can vibrate a plurality of sieve members arranged in parallel to be sieved, and the separation unit and the transport trough can be driven to vibrate with a single vibration device. By sharing the vibration device, the drive structure can be simplified and the cost can be reduced.

  (4) In another embodiment of the present invention, the transport trough is detachably coupled and supported via a coupling mechanism that can be manually operated with respect to the vibration device, and the separation unit is manually coupled to the transport trough. It is detachably connected via an operable clamp mechanism.

  According to this embodiment, the separation unit and the transport trough can be easily and quickly separated without using a tool, and cleaning and maintenance work can be easily performed.

  (5) In still another embodiment of the present invention, the plurality of sieving members of the sorting section are composed of a plurality of bar members arranged in parallel at intervals through which a single article can pass.

  According to this embodiment, an article or a small lump of articles easily slips through and falls between bars, and a large lump of articles moves smoothly along the longitudinal direction of the bars and stays stationary. It can be avoided.

  (6) In another embodiment of the present invention, the sorting unit includes a plurality of sorting parts including a plurality of sieve members arranged in parallel, and the plurality of sorting parts are arranged in a plurality of stages along the transport direction. At the same time, the sieving member of the separation part on the downstream side in the conveying direction is arranged at a position lower than the sieving member of the separation part on the upstream side.

  According to this embodiment, the lump of articles is easily unraveled by a drop impact when being transported from the upstream sorting portion to the downstream sorting portion in the transport direction, and the sorting of the articles is effectively performed in the sorting section. And can be dropped onto the transport trough.

  (7) In still another embodiment of the present invention, a discharge chute for discharging articles from the transport trough is provided at the end of the transport trough in the transport direction, and a discharge end on the bottom surface of the discharge chute is provided. The discharge chute is notched at an intermediate portion in the width direction.

  According to this embodiment, when the article that has reached the end of the transport trough is dropped and discharged through the discharge chute, the article that exists in the intermediate portion in the width direction of the bottom surface of the discharge chute is located at both ends in the width direction of the bottom surface of the discharge chute. It will fall from a notch part upstream in the conveyance direction rather than the existing article, and the article can be dispersed and dropped and discharged. In this way, since the article can be widely dispersed and dropped and discharged to the transporting means at the subsequent stage, for example, an article processed with syrup, a minute amount peeled off from the article due to an impact when dropped is supplied. It can be avoided that sugar concentrates and deposits on the same portion of the conveying surface of the conveying means in the subsequent stage and hinders the conveyance of the article.

  (8) In still another embodiment of the present invention, the article supply device is arranged in a front stage of a weighing device for weighing an article, and supplies the article to the weighing device.

  According to this embodiment, the weighing device can be prevented from being supplied in the form of a large lump attached to each other. Therefore, when an item weighed by the weighing device is put into a packaging machine, Articles can be prevented from being clogged at a small input port of the packaging machine, and when combination weighing is performed with a weighing device, it is possible to prevent a reduction in combination weighing accuracy.

  As described above, according to the present invention, an article including a lump in which articles are adhered to each other is sieved in the separation unit, and a single article or a small lump of the article falls from the separation unit and is sent to the conveyance trough. In this case, the separation unit is subjected to vibration to break up a large lump of the article and fall into a single or small lump and fall to the conveyance trough. Since the small lump of the article that has fallen into the container is also sunk by the impact or vibration conveyance at the time of dropping and is supplied to the downstream side, it is possible to prevent the article from being supplied to the downstream side as a lump that is stuck together. it can.

FIG. 1 is an overall side view of the weighing and packaging apparatus. FIG. 2 is a perspective view including an article supply apparatus according to an embodiment of the present invention. 3 is a perspective view of the article supply apparatus of FIG. 4 is a perspective view of the article supply apparatus of FIG. 3 as viewed from below. FIG. 5 is an exploded perspective view of the article supply apparatus of FIG. 6 is a side view of the article supply apparatus of FIG. FIG. 7 is a longitudinal side view of a part of the article supply apparatus. FIG. 8 is a front view in which a part of the article supply apparatus is vertically cut. FIG. 9 is a front view of a part of an article supply apparatus according to another embodiment. FIG. 10 is a perspective view showing an article supply apparatus according to another embodiment.

  Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings.

  FIG. 1 is a side view of a weighing and packaging apparatus including an article supply apparatus 3 according to an embodiment of the present invention. The weighing and packaging apparatus includes a combination weigher 1 for weighing and discharging supplied articles by a predetermined weight, a packaging machine 2 for bagging and packing discharged articles, and an upper center of the combination weigher 1 by vibrating and conveying the articles. And an article supply device 3 for supplying to the product.

  The article to be weighed and packaged is not particularly limited, but in this embodiment, it is an article that easily sticks to form a lump, such as sweet natto processed with syrup or the like.

  The combination weigher 1 and the article supply device 3 are installed on the high floor portion 4 on the floor, and the packaging machine 2 is installed on the floor surface on the lower floor.

  The combination weigher 1 is arranged along the outer periphery of the dispersion feeder 5 having a cone-shaped dispersion feeder 5 that radially distributes and conveys the article supplied to the center upper portion, and the article that has been dispersed and conveyed is vibrated and conveyed radially. A plurality of linear feeders 6, a supply hopper 7 that is disposed below the end of each linear feeder 6, temporarily stores the conveyed articles, receives articles discharged from each supply hopper 7, and measures their weights A weighing hopper 8, a collecting chute 9 for guiding the articles discharged from the weighing hoppers 8 to flow downward toward the center of the apparatus, a collecting hopper 10 disposed below the center of the collecting chute 9, and the like are provided. In this combination weigher 1, articles from a plurality of weighing hoppers 8 that are selected in combination so that the total weight of articles falls within a predetermined weight range are collected in a collection hopper 10 via a collection chute 9 and discharged from the packaging machine 2. In response to the command, it is discharged from the collecting hopper 10 to the packaging machine 2.

  Although not shown in detail, the packaging machine 2 wraps a packaging material made of a belt-shaped film around a forming tube and continuously shapes the article into a tube shape while discharging an article of a predetermined weight discharged from the collecting hopper 10 of the combination weigher 1. A specification is used in which articles are continuously packaged by being inserted into the upper end opening of the forming tube and welded and sealed with a tubular packaging material at every constant pitch in the longitudinal direction.

  The article supply device 3 according to this embodiment includes a sorting unit 12 that receives articles from the belt-type carry-in conveyor 11 and sifts and sorts the articles, and an article that is disposed below the sorting unit 12 and falls from the sorting unit 12. Is provided with a conveying trough 13 that vibrates and conveys the toner in a fixed direction and supplies the same to the crosshead feeder 14, and a vibration device 18 that vibrates the sorting unit 12 and the conveying trough 13 integrally. The crosshead feeder 14 receives the article supplied from the transport trough 13, continues to vibrate in the same direction, and supplies it to the center of the dispersion feeder 5 in the combination weigher 1.

  Two columns 15 and 16 are erected on the high floor portion 4, and the vibration device 18 of the article supply device 3 is mounted and connected to the upper end portion of one column 15 via the base 17. The transport trough 13 is detachably connected to the vibration device 18, and the separation unit 12 is detachably connected to the transport trough 13 in an overlapping manner. Further, the vibration device 20 of the crosshead feeder 14 is mounted on the upper end portion of the other support column 16 via the base 19.

  2 is an overall perspective view including the article supply apparatus 3 of FIG. 1, FIG. 3 is a perspective view of the article supply apparatus 3, and FIG. 4 is a perspective view of the article supply apparatus 3 as viewed from below. FIG. 3 is an exploded perspective view of the article supply device 3.

  The conveyance trough 13 refracts the stainless steel plate, the rear end on the downstream side in the article conveyance direction is opened, and as shown in the side view of FIG. 6 and the longitudinal side view of FIG. It is formed in a wide bowl shape that is slightly inclined downward toward the downstream side in the direction. The transport trough 13 is dropped and attached to a support frame 21 connected to the vibration device 18 as shown in FIGS. As shown in FIG. 5, the transport trough 13 mounts and supports the connection flange portion 13 a horizontally projecting laterally outward from the upper end on the left and right support flange portions 21 a of the support frame 21 from above. At this time, the pair of left and right protrusions 22 provided on the upper surface of the support flange portion 21a are fitted and positioned with the through holes of the connection flange portion 13a.

  As shown in FIGS. 4 and 6, the support frame 21 is detachably connected to the vibration head 18 a of the vibration device 18 via a buckle type connection mechanism 23. By swinging the operating lever 23a of the connecting mechanism 23 upward beyond the dead point, the support frame 21 is tightened and connected to the vibration head 18a, and by swinging the operating lever 23a downward beyond the dead point. The connection is released, and the transport trough 13 can be removed together with the support frame 21.

  As shown in FIG. 5, a discharge chute 24 that is greatly inclined downward is connected to the end of the conveyance trough 13 in the conveyance direction of the article. As shown in FIG. 2, the discharge end of the discharge chute 24 is disposed so as to face the upper end of the cross head feeder 14 on the upstream side in the article transport direction. A recess 25 is formed in the middle of the discharge end on the bottom surface of the discharge chute 24 in the width direction so as to disperse and discharge the conveyed articles.

  The separation unit 12 has a front and rear separation part 12A located upstream in the article conveyance direction and a rear separation part 12B located downstream and has a front and rear two-stage division structure. Yes. In each of the separation portions 12A and 12B, base materials 27a and 27b made of hollow rectangular plate materials, sieving members 28a and 28b for separating and separating a single article from the supplied article, and an article to be conveyed are laterally outward. Left and right side plates 29a and 29b are provided to prevent leakage.

  The sieving members 28a and 28b are constructed by horizontally laying a large number of round bars in parallel in the horizontal direction with a certain small interval sufficient for a single article to pass through. As shown in FIGS. 5 and 7, in the front-stage separation portion 12 </ b> A, a plurality of bar members (sieving members) are formed across the front side plate 27aa erected at the front end of the base material and the stay portion 27ab erected at the rear end of the base material. 28a is installed in parallel, and in the rear-stage separation portion 12B, a plurality of bar members (sieving members) 28b extend in parallel between the front end of the base material 27b and the stay portions 27ba and 27bb raised from the rear end. It has a structure built in.

  Here, as shown in FIG. 7, the height of the bar 28b in the rear part 12B is lower than the height of the bar 28a in the front part 12A, and the longitudinal front view of FIG. As shown, the bar erection position is set so that the front and rear bar members 28a and 28b are connected in a line in the front and rear direction.

  As another embodiment, the bar 28a in the preceding separation portion 12A and the rod 28b in the subsequent separation portion 12B may have the same height.

  Further, as shown in FIG. 2, a mountain shape that receives a lump of articles conveyed without falling from between the bars 28 b and guides and flows downward laterally outwardly from the rear end of the rear-stage separation portion 12 </ b> B. The reject chute 29 is provided. The lump of articles guided by the reject chute 29 and discharged to the left and right are collected by flowing down into the left and right collection boxes 30 that are fixedly arranged. The collection box 30 is detachably attached to an upper end portion of a support frame 31 erected from the base 19 on which the vibration device 20 is mounted and supported.

  The front and rear separation parts 12A and 12B configured as described above are connected and supported on the transport trough 13 in a detachable manner as follows.

  That is, as shown in FIG. 5, the right and left side portions of the base materials 27 a and 27 b in the separation portions 12 A and 12 B are transparent through the positioning projections 22 that protrude from the upper surface of the connection flange portion 13 a in the transport trough 13. A hole 38 is provided. The base materials 27 a and 27 b are placed on the connection flange portion 13 a of the transport trough 13 with the through hole 38 fitted to the protrusion 22. Thus, the front and rear separation portions 12A and 12B are received and supported by the support flange portion 21a of the support frame 21 together with the connecting flange portion 13a of the transport trough 13 in a state where the front and rear and lateral directions are positioned.

  A pair of left and right clamp mechanisms 32 are provided on the support frame 21 before and after the support flange portion 21a. Using the clamp mechanism 32, the left and right side portions of the base materials 27 a and 27 b in the separation portions 12 A and 12 B are fastened and fixed to the support flange portion 21 a of the support frame 21 together with the connection flange portion 13 a of the transport trough 13.

  As shown in the longitudinal sectional front view of FIG. 8, the clamp mechanism 32 includes a fulcrum bracket 33 connected and fixed to the protruding portion 21a ′ of the support flange portion 21a, and the fulcrum bracket 33 pivotally supported at its lower end so as to be able to swing laterally. A bifurcated operation lever 34 connected, a clamp arm 35 pivotally connected at one end to the fulcrum bracket 33, and an upper portion of the operation lever 34 and an intermediate portion of the clamp arm 35 are pivotally connected. The operation link 36 and the pressing bolt 37 that is mounted and fixed to the free end of the clamp arm 35 so as to be adjustable in height are provided.

  As shown by the solid line in FIG. 8, the clamp mechanism 32 lifts and swings the operation lever 34 to a vertical posture, so that the clamp arm 35 becomes horizontal and the pressing bolt 37 is moved in the separation portion 12A (12B). When pressed by the base material 27a (27b), and at this time, the operating link 36 is in a vertical posture, and a tightening lock state that prevents the clamp arm 35 from swinging upward is brought about. Further, as shown by the phantom line in FIG. 8, when the operating lever 34 is swung laterally outward, the clamp arm 35 is lifted and swung via the operation link 36, and the pressing by the pressing bolt 37 is released. The separation portion 12A (12B) is unlocked so that it can be removed upward. It should be noted that the operation lever 34 is strongly swung to the tightening lock position while the members are slightly bent and deformed so that the operation lever 34 standing up and swinging to the tightening lock position does not operate in the unlocking direction due to vibration. In addition, the height of the pressing bolt 37 is adjusted in advance.

  The article supply device 3 of the present embodiment is configured as described above, and the article supplied to the sorting unit 12 by the carry-in conveyor 11 is first vibrated and transported by the sorting part 12A in the previous stage, so that a single article or article The small lump falls between the bars 28 a and falls to the front half of the transport trough 13. In addition, the large lump of articles that stick to each other is unraveled by being vibrated on the bar 28a, and the article that has become a single or small lump falls between the bars 28a.

  Articles that have not fallen in the preceding sorting portion 12A are fed into the succeeding sorting portion 12B and sorted by sieving in the same manner as described above. In this case, since the article that has reached the end of the preceding separation portion 12A is supplied to the separation portion 12B that is one step lower, the part of the article lump is solved by the drop impact at this time.

  During the vibration conveyance by the front and rear two-stage separation parts 12A and 12B, the dropped single article and a small lump of the article are vibrated and conveyed rearward by the conveyance trough 13, and the article in the crosshead feeder 14 through the discharge chute 24. It is sent to the front, which is the upstream side in the transport direction.

  At this time, the discharge end portion of the bottom surface of the discharge chute 24 cuts out the central portion in the width direction to form the concave portion 25, so that the article flowing down the horizontal central portion of the discharge chute 24 is Articles that fall quickly from the back end and flow down the lateral side of the discharge chute 24 are dropped and discharged later, and the articles are dropped and supplied to the crosshead feeder 14 while being distributed in the front-rear and width directions. . That is, compared with the case where the recess 25 is not formed in the discharge chute 24, the article can be supplied by being widely dispersed in the crosshead feeder 14. When the article is an article processed with syrup like Amanatto, a small amount of sugar peeled off from the article adheres to the crosshead feeder 14 due to the impact when dropped and supplied to the crosshead feeder 14. Since the article can be dispersed and supplied to the crosshead feeder 14 as described above, a small amount of sugar peeled off from the article adheres and accumulates at the same location, and the article adheres to the adhered and deposited sugar and hinders conveyance. There is nothing.

  A large lump of articles remaining up to the end of the sorting unit 12 flows down to the left and right via the reject chute 29 and is collected in the collection box 30. In this case, since the reject chute 29 is formed in a mountain shape, the discharge chute 24 of the transport trough 13 can be easily seen, and the article discharge state from the transport trough 13 can be easily monitored.

  According to the article supply apparatus 3 of the present embodiment, since a large lump of articles is removed and the article is supplied to the combination weigher 1, the articles that are combined and weighed by the combination weigher 1 and put into the packaging machine are It is possible to avoid a situation in which the measuring and packaging operation is interrupted due to clogging in the small diameter upper end opening of the forming tube, and it is possible to prevent the productivity from being lowered.

  Further, by releasing the locked state of the clamp mechanism 32 as necessary, the separation unit 12 can be removed from the transport trough 13 for cleaning and maintenance. At this time, the front and rear separation portions 12A and 12B can be removed individually, and if the coupling mechanism 23 is released, the support frame 21 can be removed together with the transport trough 13, so that the transport trough 13 can be cleaned and vibrated. The vicinity of the vibration head 18a of the device 18 can be easily cleaned.

  The crosshead feeder 14 is also connected to the vibration device 20 with a connection structure similar to the connection structure of the support frame 21, and can be easily detached and removed for manual cleaning and maintenance. .

[Other Embodiments]
The present invention can also be implemented in the following forms.

  (1) As shown in FIG. 9, when the rod 28a of the front-stage separation portion 12A and the bar 28b of the rear-stage separation portion 12B are shifted by a half pitch, the rear-stage separation portion 12B is shifted from the front-stage separation portion 12A. The mass of the article that falls and moves to the step is caught at the stepped portion, and is easily subjected to the unwinding action by vibration, and the unraveling of the mass of the article is promoted.

  Moreover, although the bar 28a of the front part 12A and the bar 28b of the rear part 12B are both installed horizontally, at least the bar 28a of the front part 12A is downstream in the transport direction. You may make it incline below and this may assist the vibration conveyance of articles | goods.

  In the case of an article processed with syrup or the like due to an impact when the article is dropped and supplied from the carry-in conveyor 11, a small amount of sugar peeled off from the article adheres to the bar 28a of the separation part 12A in the previous stage. However, by tilting the bar 28a, the article can be smoothly conveyed downstream in the conveying direction without being disturbed by the adhering sugar.

  (2) As shown in FIG. 10, the fractionation part 12 can also be implemented with the form which arrange | positioned the rod 28 in series over the full length.

  (3) The parallel spacing of the rods 28a and 28b in the separation unit 12 is configured to be adjustable. For example, a long hole extending in the width direction is formed on the support plate that supports both ends of the rods 28a and 28b. By fixing and supporting both ends of the rods 28a and 28b at the required positions in the width direction, it is possible to cope with the separation of articles of various sizes, and versatility is improved.

  (4) The sieving member of the sorting unit 12 (A, B) is not limited to the circular bar 28 (a, b) as described above, but a tapered shape whose diameter changes along the conveying direction of the article, or the like The shape may also be Further, as the sieving member of the sorting section 12 (A, B), in addition to arranging the rods 28 (a, b) in parallel, a mesh-like one in which wires are knitted to a predetermined scale, a large number of holes and slits May be selected as appropriate according to the size and properties of the article, such as a flat plate formed by punching.

  (5) The sorting unit 12 and the transport trough 13 can be driven by separate vibration devices. According to this, it is possible to individually drive the sorting unit 12 and the transport trough 13 with vibration characteristics suitable for sieving sorting and article transport. In addition, even if the article to be supplied is changed, it is easy to change the driving control specifications corresponding to the properties of the article.

  (6) When the separation unit 12 and the transport trough 13 are driven by separate vibration devices, the vibration transport direction in the separation unit 12 and the vibration transport direction in the transport trough 13 can be made different.

  (7) In the above embodiment, the article carried out from the transport trough 13 is configured to be supplied to the dispersion feeder 5 of the combination weigher 1 via the crosshead feeder 14. It is also possible to supply the dispersion feeder 5 directly from the discharge chute 24 by extending to the upper center.

  (8) The rods 28a and 28b in the separation unit 12 may be rotatably supported. In this case, since the bars 28a and 28b can be rotated by vibration, the sugar peeled off from the article processed with syrup or the like is difficult to adhere, and it can be prevented from adhering and depositing on the same place. Can be oscillated and conveyed without stagnation.

DESCRIPTION OF SYMBOLS 12 Sorting part 12A Sorting part 12B Sorting part 13 Conveying trough 18 Vibrating device 23 Connection mechanism 24 Discharge chute 28 Sieve member (bar)
28a Sieve member (bar material)
28b Sieve member (bar)
32 Clamp mechanism

Claims (8)

A sorting unit that sifts while conveying articles to be carried in, and a conveying unit that receives articles falling from the separating unit, and that vibrates and conveys the received articles in a certain conveying direction and supplies them downstream in the conveying direction. With trough,
An article supply apparatus. The bottom surface of the transport trough is inclined downward toward the downstream in the transport direction,
The article supply apparatus according to claim 1. A vibration device that vibrates and drives the transport trough;
The separation unit includes a plurality of sieve members arranged in parallel and is connected to an upper portion of the transport trough.
The article supply apparatus according to claim 1 or 2. The conveyance trough is detachably connected to and supported by a coupling mechanism that can be manually operated with respect to the vibration device, and the separation unit is detachably connected to the conveyance trough via a clamp mechanism that can be manually operated. To
The article supply apparatus according to claim 3. The plurality of sieving members of the sorting section are composed of a plurality of bar members arranged in parallel at intervals through which a single article can pass.
The article supply apparatus according to claim 3 or 4. The separation unit includes a plurality of separation parts including a plurality of sieve members arranged in parallel, the plurality of separation parts are arranged in a plurality of stages along the conveyance direction, and the separation part on the downstream side in the conveyance direction The sieving member is arranged at a position lower than the sieving member of the upstream separation portion,
The article supply apparatus according to any one of claims 3 to 5. A discharge chute for discharging articles from the conveyance trough is provided at the end of the conveyance trough in the conveyance direction, and a discharge end of the bottom surface of the discharge chute is cut out at an intermediate portion in the width direction of the discharge chute.
The article supply apparatus according to any one of claims 1 to 6. The article supply device is disposed in front of a weighing device for weighing the article, and supplies the article to the weighing device;
The article supply apparatus according to any one of claims 1 to 7.

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