JP2010222072A - Drum feeder - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a drum feeder capable of efficiently and surely taking out slender bar-shaped members such as Ose one by one from a drum storing the rod-shaped members in deposited states. <P>SOLUTION: This drum feeder includes the rotatable drum 1 having two or more opening parts 3 on an outer periphery and a member guide 5 having a curved surface facing to an outer peripheral surface of the drum 1, and stores the bar-shaped members 4 in the drum 1. A member storing part 6 including a member receiving surface and a member feed surface is provided on drum rotating direction rear sides of the opening parts 3. The member receiving surface is directed to the drum outside and is projected in the drum rotating direction and is directed to the drum inside at an angle of 0 to 15° from a position intersecting the member feed surface. The length of the drum rotating direction is made 0.7 to 1.5 times as long as a long width of the member 4. The member feed surface is directed in the drum rotating direction, and a position intersecting the member receiving surface is made 1 to 1.5 times as long as a short width of the member 4 in the drum radius direction from the curved surface. <P>COPYRIGHT: (C)2011,JPO&INPIT

Description

  The present invention relates to a drum feeder in which elongated rod-shaped members such as platinum ears and disposable resin azees used for specimen inoculation are housed in a drum, and the members are taken out one by one from the drum.

  In clinical testing of microorganisms, the bottom of a petri dish or petri dish, commonly called a solid medium such as agar or gelatin, is coated on the surface with the cell content of the test strain, and propagated in a specific environment determined by the purpose. Has been done.

  What is used when applying the cell-containing material of the test strain is a platinum ear or the like, which is an elongated rod-like member called an ase. When the test strain is automatically applied in the above clinical test, a set operation is performed in which a large number of ase are self-supported one by one in advance, and the self-supported ase is gripped by a conveying means such as a robot, The test strain is applied to the surface of a solid medium such as a petri dish using a spherical or linear part at the edge of the ase.

  When handling the ase in this way, it is necessary to take it out one by one. However, as a mechanism for automating this work, it is assumed that a mechanism is provided as a reference, and the parts are aligned in Patent Document 1 by rotating the drum. In addition, there is disclosed an aligning / feeding apparatus in which an individual receiving pocket is provided in a separately provided drum and is supplied to the outside at a required interval.

  The alignment / supply device disclosed in Patent Document 1 has an alignment supply unit and a part storage unit as separate bodies, and preliminarily sets the posture in the direction along the rotation axis direction while loosening the initial mass state of the small parts. A rotating drum and an individual feeding device connected to the rotating drum are provided. In this individual feeding device, an individual receiving pocket is formed on the peripheral surface of the individual aligning drum, a receiving guide surface around the pocket portion, a lifting plate on the rear side in the drum rotating direction, and a cross section on the front side in the drum rotating direction. An R-shaped posture selection plate is formed, a reverse feed blocking portion is formed on the base peripheral surface portion of the lifting plate, and a support guide plate covering an individual receiving pocket is stretched on the outer lower half of the individual alignment drum. ing. With this configuration, the object to be conveyed such as small parts is fed into the individual receiving pocket, held by the lifting plate and the support guide plate, and conveyed to the next individual delivery chute.

  However, in the aligning / feeding device disclosed in Patent Document 1, small parts are aligned and individually taken out from the first receiving / retracting zone through the final appropriate amount regulation zone and several zones, so that the installation space increases. There is.

  In addition, when the present inventor tested whether the ase can be taken out one by one using the aligning / feeding device of Patent Document 1, since the ase is an elongated rod-like and lightweight member, a plurality of pieces are placed in the individual receiving pocket. The ase enters and is discharged to the individual delivery chute in the state where it overlaps as it is, or the ase on the individual delivery chute is pushed by what was discharged later and overlaps in a similar manner, and the ase is taken out stably one by one I couldn't.

  On the other hand, when the aze is stored in the drum and the drum is rotated from the stopped state, the ace that has been stationary in the drum and accumulated in the lower side in the drum is subjected to frictional resistance with the drum inner peripheral surface as the drum rotates. Is lifted in the direction of rotation of the drum, and when the preceding one reaches the top dead center, it rolls downward to produce apparent fluidity as a whole. Therefore, an opening is provided at one outer periphery of the drum as an outlet for ase, and a claw portion for taking out the ase is provided in the opening. When the drum is rotated and the opening reaches the upper side in the vertical direction, Although the mechanism for taking out the ase on the part has been examined, it is difficult to take out the ase one by one simply by providing the claw part, and only one ase per rotation of the drum at one opening. There was a problem that the cycle time was long because it could not be taken out.

  In addition, if two or more openings are provided to shorten the cycle time, the rotation angle of the drum is reduced with respect to one take-off, so that the apparent fluidity is deteriorated, and the upper side of the drum is When the rotation of the drum is stopped when the ase is taken out from the positioned opening, the ase is buried in the opening located on the lower side of the drum, and only one piece is stably taken out from the thickly accumulated ase lump. There was a problem that I could not.

JP 2003-020116 A

  The problem to be solved by the present invention is to provide a drum feeder that can efficiently and reliably take out the members one by one from the drum that is housed in a state where elongated rod-like members such as ase are accumulated. is there.

  A drum feeder according to the present invention includes a rotatable drum having two or more openings on the outer periphery, a member guide having a curved surface facing the outer peripheral surface of the drum, and a notch for removing a member on the upper side in the vertical direction. And a rod-shaped member having a substantially rectangular or substantially elliptical cross section in the longitudinal direction is housed in the drum, and the members are rotated one by one from the opening that reaches the upper side in the vertical direction by rotating the drum. A drum feeder that can be taken out, and a member receiving portion provided with a member receiving surface and a member feed surface on the rear side in the drum rotation direction of the opening is provided integrally with the drum, and the member receiving surface is It faces the outside of the drum, protrudes in the drum rotation direction, and goes to the inside of the drum at an angle of 0 to 15 degrees from the position where it intersects the member feed surface. The length of the right-angle cross section is 0.7 to 1.5 times, the member feed surface faces the drum rotation direction, and the position where the member feed surface intersects the member receiving surface extends from the curved surface to the drum radial direction. It is provided so as to be 1 to 1.5 times the short width of the right-angle cross section.

  According to the present invention, by specifying the shape and dimensional relationship of the member accommodating portion provided in the opening of the drum as described above, the drum is accommodated in the drum under the condition that the drum is rotated in less than one revolution. Even if the apparent fluidity of the rod-shaped member is poor and accumulated, the rod-shaped members can be stably taken out one by one from the drum. That is, using a drum having two or more openings on the outer periphery, one bar-like member can be stably taken out from each opening one by one, so that the rod-like member can be taken out efficiently and reliably. The cycle time for taking out can be shortened.

It is a schematic perspective view of the drum feeder of this invention. It is AA sectional drawing of the drum stocker of FIG. 1, (a) shows the state which accommodated the member before drum rotation, (b) shows during rotation of a drum, The behavior of the member accompanying rotation of a drum is shown. Show. The fragmentary front sectional view around the member accommodation part of the drum feeder of the present invention is shown. It is explanatory drawing which shows the member taking-out process by the drum feeder of this invention, (a) shows the relationship between the member accommodating part periphery of a drum feeder, and a member, (b) has entered the member accommodating part of the drum feeder. (C) shows the state immediately before the take-out in which the member accommodating portion has reached the vicinity of the top due to the rotation of the drum feeder. The disposable resin ase which is an example of the elongate rod-shaped member used by this invention is shown, (a) is the side view, (b) is BB sectional drawing of (a). It is a fragmentary front sectional view which shows other embodiment of a member accommodating part. It is the fragmentary front sectional view which shows other embodiment of the drum feeder of this invention, (a) shows the drum feeder which provided the three opening parts, (b) is the drum feeder which provided the four opening parts (C) shows a drum feeder provided with five openings. It is a fragmentary front sectional view which shows other embodiment of a member accommodating part.

Embodiments of the present invention will be described with reference to the drawings.
FIG. 1 shows a drum stocker of the present invention. The drum 1 is rotatably supported by a rotating shaft 2. The rotating shaft 2 is connected to a drum rotating motor (drive mechanism) (not shown), and rotates by an angle designated in one direction by a program command.

  Two or more (two in FIG. 1) openings 3 are provided on the outer periphery of the drum 1. Further, the dimension in the longitudinal direction of the drum 1 is set to have a margin with respect to the length of the elongated rod-like member 4 to be accommodated. Further, when the drum 1 is rotating, the curve that faces the outer peripheral surface of the drum 1 is prevented so that the member 4 does not flow out from the opening 3 facing the installation surface side (lower side in FIG. 1). A member guide 5 having a surface is disposed along the outer peripheral surface of the drum 1, and supports the member 4 about to flow out from the opening 3. In FIG. 1, the member guide 5 has a length that is about two-thirds of the length of the drum 1 and is arranged at the center. Further, the member guide 5 has an opening 3 on the upper side in the vertical direction so that the member 4 can be taken out from the opening 3 when the opening 3 of the drum 1 reaches the top (vertical upper side). A notch portion that is slightly wider than the width in the drum circumferential direction is provided. In addition, the member guide 5 is not divided in the longitudinal direction (axial direction) of the drum, but is divided into a plurality of parts within a range in which the interval capable of stably supporting the elongated rod-like member 4 can be maintained, so that the entire drum feeder is provided. Weight reduction can be achieved. Further, in the drum feeder of the present invention, since the dimensional relationship between the drum 1 and the member guide 5 is important as will be described later, the drum 1 and the member guide 5 are shown in FIG. As shown in FIG.

  A member conveying means 9 having a clamping means is arranged above the drum feeder of the present invention. When the opening 3 of the drum 1 reaches the top, the rotation of the drum 1 is temporarily stopped to After the conveying means 9 is lowered and the member 4 is sandwiched by the clamping means of the member conveying means 9 in the notch 90 formed in the central portion of the opening 3, the conveying means 9 is conveyed to another place (for example, a specimen spreading position). To do.

  2 is a cross-sectional view taken along the line AA in FIG. As shown in FIG. 2A, the member 4 is accommodated in the drum 1. The member 4 is previously inserted by the operator into the inside of the opening portion 3 of the drum 1 located at the notch portion of the member guide 5.

  In order to efficiently perform the work of removing the member by the drum feeder of the present invention, a spare drum feeder is prepared, the member is put in the drum feeder in advance, and the use of the drum feeder shown in FIG. Then, it is preferable that the rotating shaft 2 of the drum 1 is detachably provided with a shaft of a motor that is a driving mechanism of the drum 1 so that the drum 1 can be replaced immediately.

  As shown in FIG. 2 (b), the member 4 is lifted in the rotation direction by the resistance with the inner peripheral surface as the drum stocker 1 rotates, and comes to the top dead center of each member 4 in the lump state. The material collapses below the drum 1. In the present invention, since the plurality of openings 3 are provided, the drum 1 is rotated at an angle obtained by dividing 360 degrees by the number of the openings 3 for each extraction, and the above-described deterioration of the apparent fluidity, Alternatively, the member 4 is in a state of being deposited thickly by filling the opening 3 coming below the drum. The drum feeder of the present invention solves this problem by providing a member accommodating portion in the opening 3 and devising the configuration thereof as described later. In addition, by increasing the number of openings 3, it is possible to increase the number of extractions per drum rotation, and it is possible to improve work efficiency.

  An example in which three or more openings 3 (3a to 3e) are arranged on the outer periphery of the drum 1 is shown in FIG. If the number of the openings 3 is increased as shown in the figure, the cycle time for taking out the member 4 can be shortened. However, when many are provided as described later, another problem arises.

  In the drum feeder of the present invention, as shown in FIG. 3, a claw portion 60 is provided on the rear side in the drum rotation direction of the opening 3 of the drum 1 so as to cover a part thereof in the circumferential direction of the opening 3. A member receiving surface 7 facing the outside of the drum 1 is formed at 60, and a member feed surface 8 connected to the member receiving surface 7 is provided facing the rotation direction of the drum 1. In the present embodiment, a pair of claw portions 60 are arranged at an interval of about two-thirds of the length dimension of the member 4.

  The member receiving surface 7 is provided so as to go to the inside of the drum 1 at an angle A of 0 to 15 degrees from a position H1 at which it intersects with the member feed surface 8 (the straight line that is the starting point of the angle A is a tangent at the position H1). . As a result, a gap is formed in the opening 3 and the member guide 5 of the drum 1 as shown in FIG. 4A, and the member in contact with the member guide 5 as shown in FIG. 4B. When the member 4 is lifted as the drum 1 rotates, the member 4 comes into contact with the periphery of the tip of the member receiving surface 7 and pushes the member 4 receiving the weight of the other member 4. However, the direction of the member 4 is adjusted, the member 4 is pushed toward the member feed surface 8 side, and finally in the region surrounded by the member receiving surface 7, the member guide 5 and the member feed surface 8, that is, the member accommodating portion. Only one member 4 is accommodated in 6. The accommodated member 4 receives various forces from the other members 4..., But the member receiving surface 7 has an angle inward of the drum 1. A force pressing against the curved surface of the member guide 5 is generated, and the behavior of the member 4 accommodated in the member storage portion 6 is stabilized. While maintaining this state, the accommodated member 4 is sent out along the curved surface of the member guide 5 to the upper side in the vertical direction where the notch portion is present in the member guide 5 shown in FIG. , 60, the state where the member 4 exposed and placed on the member receiving surface 7 is maintained.

  When the angle A of the member receiving surface 7 is less than 0 degrees, that is, a surface that faces the drum outside from a tangential line in the drum rotation direction, the member 4 is sandwiched between the member receiving surface 7 and the member guide 5. Even if it is taken in the region, the force for pressing the member 4 against the member guide 5 is not generated, the behavior of the member 4 is not stabilized, and the rotational resistance of the drum 1 is increased. If the angle A exceeds 15 degrees, the inlet of the member accommodating portion 6 becomes too large, two or more members 4 are taken in, and a frictional resistance is generated between the drum 1 and the member guide 5. There is a possibility of inhibiting the rotation, and the posture of the member 4 housed in the member housing portion 6 cannot be stabilized.

  The length L (see FIG. 3) of the member receiving surface 7 is 0.7 to 1.5 times the long width (see FIG. 5) of the member 4 at right angles. When the length L of the member receiving surface 7 is less than 0.7 times the width of the member 4, the member 4 on the member receiving surface 7 falls into the drum 1 when the drum 1 stops at the member removal position. There is a fear. Further, when the ratio exceeds 1.5 times, there is a possibility that two will be ridden, and there is a possibility that the member accommodating portion 6 is clogged with a plurality of members 4 and obstructs the rotation of the drum 1.

  In addition, by setting the length L of the member receiving surface 7 as described above, in combination with the above-described action of the angle of the member receiving surface 7, the direction of the member 4 is surely adjusted, and the member 4 is attached to the member accommodating portion 6. Only one can be imported. Then, as shown in FIG. 4C, the member 4 in the vicinity of the member 4 accommodated in the member accommodating portion 6 when the drum 1 stops at the member take-out position, or the rotation direction shown in FIG. The member 4 beyond the top of the position, which is lifted together, returns again into the drum 1, and only one piece placed on the member receiving surface 7 can be left in the opening 3.

  Here, the member take-out position of the drum 1 is a position where the member receiving surface 7 is horizontal or the tip of the member receiving surface 7 is upward with respect to the horizontal. At this position, the drum 1 stops, the member conveying means 9 descends as described above, enters the notch 90, grips the member 4 supported by the claw 60, and moves up to the next work position. To do.

  In addition, you may make it suppress that the member 4 mounted on the member receiving surface 7 falls, when a plurality of unevenness | corrugations are provided in the member receiving surface 7 and the drum 1 stops. Then, a certain amount of width can be given to the member take-out position of the drum 1, so that the rotation control of the drum 1 can be easily performed. In the case where the member receiving surface 7 is provided with irregularities, the apexes of the plurality of convex portions are connected to be the starting point of the angle and position of the member receiving surface 7.

  Furthermore, in the present invention, the position H1 (see FIG. 3) where the member receiving surface 7 and the member feed surface 8 intersect is short from the curved surface (inner peripheral surface) of the member guide 5 in the drum 1 radial direction. The member feed surface 8 is provided so as to be 1 to 1.5 times the width (see FIG. 5). In other words, the member feed surface 8 is provided so that the distance H (see FIG. 3) from the curved surface (inner peripheral surface) of the member guide 5 to the position H1 is 1 to 1.5 times the short width of the member 4. .

  As a result, the reaction force received from the member receiving surface 7 by the frictional force received by the member 4 from the member guide 5 can be obtained, and the single member 4 taken into the member accommodating portion 6 is held and stabilized to the member removal position. Can be sent out.

  If the distance H is less than 1 times the short width of the member 4, the leading portion of the member guide 5 has an angle inward of the drum 1, so that the member 4 is pushed toward the member feed surface 8. As a result, the rotation load of the drum 1 increases and the motor that rotates the drum 1 may break down.

  Further, when the distance H exceeds 1.5 times the short width of the member 4, the reaction force from the member receiving surface 7 is not sufficiently obtained, and the member 4 is violently changed in direction in the member accommodating portion 6, and the member accommodating portion is changed. There is a risk of clogging between the six claw portions 60 and the member guide 5. Here, the distance H is 1 time or 1.5 times the short width of the member 4. When the member 4 is elastically deformed like a disposable resin ase, an error of 5% with respect to the short width is Is included.

  The member feed surface 8 is a surface facing forward in the rotation direction of the drum 1. Further, as shown in FIG. 8, the position where the member receiving surface 7 intersects is the length of the member 4 toward the rear side in the rotation direction of the drum 1 with respect to the straight line connecting the maximum diameter portion 10 of the member feed surface 8 and the center of the drum 1. It is preferable to fit within a width W of 0.2 times or less of the width. Thereby, the attitude | position of the taken-in member 4 becomes more stable, and the feed of the member 4 becomes reliable.

  Next, the movement of the drum feeder of the present invention will be described with reference to FIG. FIG. 4A is a view immediately after the drum 1 having the two openings 3 starts to move from the position where it is stopped at the take-out position. At this time, in the vicinity of the tip of the member receiving surface 7 of the member receiving portion 6 provided in the opening 3 of the drum 1, the member 4 accommodated in the drum 1 is rectified (the member 4 having a different orientation is replaced with the member receiving surface 7. Then, the member 4 is held by the member receiving surface 7 or the member feed surface 8 and the curved surface of the member guide 5. FIG. 4B is a view showing a state where the drum 1 is rotated about 40 degrees thereafter, and FIG. 4C is a view showing a state where the drum 1 is rotated 180 degrees and stopped at the member extraction position. In FIG. 4B, the state in which the member 4 is held is maintained, and is guided upward in the vertical direction as the drum 1 rotates. After that, as shown in FIG. 4 (c), when the opening 3 comes to a position facing the upper side in the vertical direction with respect to the installation surface of the drum feeder, among the many members 4 guided upward in the vertical direction, the member feed is performed. Only one member that contacts the surface 8 remains on the member receiving surface 7 and the other member 4 falls into the drum 1. In this state, the member 4 remaining on the member receiving surface 7 is taken by the member conveying means 9 (see FIG. 1, drive device etc. not shown) provided with a hand chuck and the like, and the member 4 is conveyed to the next process. To do.

  FIG. 5A is a side view showing a disposable resin ase that is an example of the member 4. As shown in FIG. 5B, this ASE has a rectangular shape (a shape in which corners are dropped or rounded at corners) in a cross section in the longitudinal direction of the main body 40. Therefore, in FIGS. 2 and 4, the member 4 is shown as a substantially rectangular shape. In the present invention, the right-angle cross section of the member 4 may be substantially elliptical. When the right-angle cross section is substantially oval, the long width of the right-angle cross section means the major axis length of the oval. The short width means the short axis length.

  In addition, the member receiving surface 7 and the member feed surface 8 of the present invention may be simply provided as a flat surface. The difference between the two becomes large, and it is easy to rectify a large number of members 4 and to hold them when taken in. In this case, the angle A shown in FIG. 3 is defined by a straight line connecting the position H1 and the tip of the member receiving surface 7.

  Further, in FIGS. 1 to 4, the member feed surface 8 is provided by using one side of the opening 3 of the drum 1 (thickness portion of the drum portion of the drum 1). Needless to say, it is also within the scope of the present invention to be provided with the same component as the member receiving surface 7 as in 61 and 62.

  It is also preferable to attach a low-resistance member such as hard plastic to the curved surface (inner peripheral surface) of the member guide 5 described above. Thereby, the sliding with respect to the member 4 can be improved and the rotational resistance of the drum 1 can be reduced.

  In order to verify the effects of the present invention, as the inventive examples 1 to 9 and comparative examples 1 to 6, the angle and length of the member receiving surface 7 and the position H1 (distance H) where the member receiving surface 7 and the member feed surface 8 cross each other. Are shown in Table 1, and drum feeders each having two openings 3 were prepared and subjected to a member removal experiment. Here, as the member 4, a disposable resin ase (hereinafter simply referred to as “Aze”) shown in FIG. 5 was used. The long width is 3 mm, the short width is 2 mm, and the corner is curved.

  The experimental condition is that 300 azes are stored in the drum 1 and the drum 1 is rotated at an angle obtained by dividing 360 degrees by the number of the openings 3, that is, every 180 degrees. The drum 1 was rotated and stopped by sending a program command to an encoder motor connected to the rotating shaft 2 of the drum 1. This was performed 300 times, and the presence or absence of an extraction error was confirmed. Table 1 shows the results of repeating these three sets. Further, whether the rotation of the drum was hindered was observed using the increase / decrease of the current value of the drum rotation motor as an index.

  As shown in Table 1, the inventive examples 1 to 9 were 3 sets, and a total of 900 pieces could be taken out one by one. In Examples 1, 4, and 9 of the present invention, the current value of the motor increased by about 20% several times in 100 times, but there was no mistake in taking it out. The increase in the current value is due to an increase in the rotational resistance of the drum 1. The cause of the increase in the friction of the member receiving surface 7 and the ase until the member accommodating portion 6 takes in the ase in the first example of the present invention is shown. 9, it is considered that the posture of the ase was not stabilized in the member accommodating portion 6.

  On the other hand, in Comparative Example 1, the ase may not be placed on the member receiving surface 7 at the 10th time, and it frequently occurred after that. Comparative Example 2 was sent out in a state in which two asees were placed on the member receiving surface 7 at the 23rd time. In Comparative Example 3, the ase fell from the member receiving surface 7 when the drum 1 stopped at the take-out position from the first time. Comparative Example 4 was sent out in a state where two asees were placed at the fifth time, and a plurality of ases were clogged with the member guide 5 at the 40th time, and the drum 1 was stopped. In Comparative Example 5, although the feeding itself was made, the friction between the member guide 5 and the ase was strong, and the experiment was stopped because the rotation of the drum 1 was loaded. In Comparative Example 6, the experiment was stopped at the 15th time because a plurality of azes were clogged with the member guide 5 and a load was applied to the rotation of the drum 1.

  From the above, it was found that according to the drum feeder of the present invention, the ase can be accurately taken into and sent out from the member accommodating portion 6. Further, the angle A of the member receiving surface 7 is more preferably 5 to 10 degrees, and the position H1 (distance H) where the member receiving surface 7 and the member feed surface 8 intersect is further 1 to 1.2 times the short width of the ASE. It turned out to be a preferred range.

  As Invention Examples 10-12, those having the same specifications as in Invention Example 6 and the number of openings 3 shown in Table 2 were prepared and subjected to the same tests as in Example 1.

本発明例１０〜１２は取り出しミスは起こらなかったが、表２に示すように、本発明例１２は他の本発明例に比べ、若干モータの電流値が高く、回転抵抗が大きいと推察された。これは、開口部の数が多く、エーゼと部材ガイド５の湾曲面及び部材受け面７との擦過抵抗が大きくなったためと考えられる。したがって、開口部の数は４以下が好ましい。

Inventive Examples 10 to 12 did not cause an error in taking out. However, as shown in Table 2, it is presumed that Inventive Example 12 has a slightly higher motor current value and a larger rotational resistance than the other Inventive Examples. It was. This is presumably because the number of openings is large and the abrasion resistance between the ASE and the curved surface of the member guide 5 and the member receiving surface 7 is increased. Therefore, the number of openings is preferably 4 or less.

  The drum feeder according to the present invention can be used to store and take out other elongated rod-shaped members in addition to platinum ears and disposable resinous ASEs. For example, the drum feeder of the present invention can be used without any problem as long as it is a rod-shaped member having a length of 120 to 200 mm and a long width and a short width of about 2 to 6 mm.

DESCRIPTION OF SYMBOLS 1 Drum 2 Rotating shaft 3, 3a-3e Opening part 90 Notch part 4 Member 40 Body part 5 Member guide 6 Member accommodating part 60, 61, 62 Claw part 7 Member receiving surface 8 Member feed surface 9 Member conveying means A Member receiving Surface angle L Length of member receiving surface H1 Intersection

Claims (4)

A rotatable drum having two or more openings on the outer periphery, and a member guide having a curved surface facing the outer peripheral surface of the drum and provided with a notch portion for removing a member on the upper side in the vertical direction. A drum feeder that houses a rod-shaped member having a substantially rectangular or substantially elliptical cross section with respect to the longitudinal direction, and allows the drum to be rotated and the members to be taken out one by one from the opening that has reached the upper side in the vertical direction. There,
On the rear side of the opening in the drum rotation direction, a member receiving portion provided with a member receiving surface and a member feed surface is provided integrally with the drum,
The member receiving surface faces the outside of the drum, protrudes in the drum rotation direction, and moves toward the inside of the drum at an angle of 0 to 15 degrees from the position intersecting the member feed surface, and the length in the drum rotation direction is the length of the member. 0.7 to 1.5 times the width of the right-angled section,
The member feed surface faces the drum rotation direction and is provided so that the position intersecting with the member receiving surface is 1 to 1.5 times the short width of the perpendicular section of the member from the curved surface to the drum radial direction. Drum feeder.   The drum feeder according to claim 1, wherein the member is a disposable resin ase or platinum ear.   The drum feeder according to claim 1 or 2, wherein the number of the openings is 2 to 4.   The angle of the member receiving surface from the position intersecting with the member feed surface toward the inside of the drum is 5 to 10 degrees, and the position of the member feeding surface intersecting with the member receiving surface is the member from the curved surface in the drum radial direction. The drum feeder according to any one of claims 1 to 3, wherein the drum feeder is located at a position 1 to 1.2 times the short width of the right-angle cross section.

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