JP2005343521A - Cap feeding apparatus - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a cap feeding apparatus capable of feeding a cap with a definite posture to a mounting apparatus. <P>SOLUTION: A feeding path 12 is equipped with guide members 22 and 23 guiding the cap 4, and holding recessed parts 28 and 29 with a shape corresponding to the lower part 34 of the cylindrical part of the cap 4 are formed on the guide members 22 and 23. The holding recessed parts 28 and 29 are formed so that the cap 4 with a posture facing its top board part 32 outward is held at the lower part 34 of its cylindrical part by the guide members 22 and 23, and the cap 4 with a posture facing its top board part 32 inward is not held by the guide members 22 and 23. Therefore, it is possible to feed only the cap 4 with a posture facing its top board part 32 outward to a capper, and to prevent the cap 4 from inferior mounting. <P>COPYRIGHT: (C)2006,JPO&NCIPI

Description

  The present invention relates to an apparatus for supplying a cap to a cap mounting apparatus that mounts the cap on a container.

The cap supply device includes a cap supply unit that serves as a supply source of the cap, and a supply path that guides the cap to the capper (see, for example, Patent Document 1).
Some cap supply devices are provided with an alignment mechanism that keeps the cap posture constant. In this cap supply device, a cap having a predetermined posture can be supplied to the cap mounting device.
JP 2001-301889 A

However, in the cap supply device, it is difficult to keep the postures of all the caps constant, and a cap that takes a posture other than the predetermined posture (for example, an inverted cap) is supplied to the cap mounting device, and the cap mounting There was a problem.
The present invention has been made in view of the above circumstances, and an object of the present invention is to provide a cap supply device that can supply a cap having a fixed posture to a mounting device.

The cap supply device of the present invention includes a cap supply unit serving as a supply source of the cap, and a supply path that guides the cap to the cap mounting apparatus, and the supply path includes a guide member that guides the cap, and the guide member Is formed with a holding recess having a shape conforming to a predetermined portion of the cap, and the holding recess is held by the guide member at the predetermined portion and takes a posture other than the predetermined posture. The cap is formed so as not to be held by the guide member.
The holding recess has a shape corresponding to a large-diameter portion having a larger outer diameter than other portions in the cylindrical portion of the cap, and the cap is formed to be held by the guide member at the large-diameter portion. preferable.
The supply path includes a base portion to which a guide member is attached, and a blow hole portion for blowing air is formed in the base portion, and the blow hole portion blows air in a direction in which the cap is detached from the guide member. It is preferable to be formed so that

In the cap supply device of the present invention, the guide member is formed with a holding recess having a shape corresponding to a predetermined portion of the cap, and the holding recess is held by the guide member at the predetermined portion with the cap taking a predetermined posture, and A cap having a posture other than the predetermined posture is formed so as not to be held by the guide member.
For this reason, only the cap which takes a predetermined attitude | position can be supplied to a cap mounting apparatus.
Accordingly, it is possible to prevent a defective mounting of the cap.

FIG. 1 is a plan view showing a capping device provided with an example of a cap supply device of the present invention, and FIG. 2 is a side view of the capping device. FIG. 3 is a perspective view showing a discharge portion of the cap supply device. 4 and 5 are a front view and a side view of the discharge portion, respectively.
As shown in FIGS. 1 and 2, the capping device 1 should be mounted on the container 2, a container transport unit 3 that transports the container 2, a capper 5 (cap mounting device) that mounts the cap 4 on the container 2, and the container 2. And a cap supply device 6 for supplying the cap 4 to the capper 5.

The container transport unit 3 receives the container 2 from a container supply unit (not shown) and rotates and transports it in the y1 direction.
The container transport unit 3 fills the container 2 being transported with the inner solution, and passes the container 2 to the capper 5 at the position A1.
The capper 5 attaches the cap 4 received from the cap supply device 6 to the container 2 while rotating and conveying the container 2 in the y2 direction.

The cap supply device 6 includes a cap supply unit 11 serving as a supply source of the cap 4 and a supply path 12 that guides the cap 4 to the capper 5.
The cap supply unit 11 desirably has an alignment mechanism (not shown) that makes the posture of the cap 4 constant.
Hereinafter, a posture in which the top plate portion 32 faces rightward in FIG. 4 may be referred to as a normal posture, and a posture in which the top plate portion 32 faces leftward may be referred to as a reverse posture.

As shown in FIGS. 3 to 5, the supply path 12 includes a supply rail 13 and a discharge unit 14.
The supply rail 13 is a substantially cylindrical member composed of a substrate portion 16, an upper plate portion 17, a lower plate portion 18, and a lid plate portion 19, and the cap 4 can be accommodated therein.

The discharge portion 14 is for discharging the cap 4 that takes a posture other than a predetermined posture, and includes a plate-like base portion 21 and two guide members 22 and 23 for guiding the cap 4, and is surrounded by these. The cap 4 enters the inner space S.
The base 21 can be formed in a plane substantially perpendicular to the horizontal plane.

The guide members 22 and 23 are provided substantially parallel to each other with an interval in the vertical direction.
The upper guide member 22 is formed in an L-shaped cross section including a substrate portion 24 provided on one surface of the base portion 21 and a guide plate 25 extending laterally from the upper end edge of the substrate portion 24.
A holding recess 28 is formed on the inner surface side (lower surface side) of the guide plate 25. The holding recess 28 is for holding the cap 4 and has a shape corresponding to the lower portion 34 (thick diameter portion) of the cylindrical portion 33.

The lower guide member 23 is formed in an L-shaped cross section including a substrate portion 26 provided on one surface of the base portion 21 and a guide plate 27 extending laterally from the lower end edge of the substrate portion 26.
A holding recess 29 is formed on the inner surface side (upper surface side) of the guide plate 27. The holding recess 29 is for holding the cap 4 and has a shape corresponding to the lower portion 34 of the cylindrical portion 33.

The distance between the guide plate 25 and the guide plate 27 (distance A shown in FIG. 4; the minimum distance between the guide plate 25 and the guide plate 27) is made smaller than the outer diameter of the cylindrical portion lower portion 34.
The distance between the inner surface of the holding recess 28 formed in the guide plate 25 and the inner surface of the holding recess 29 formed in the guide plate 27 (distance B shown in FIG. 4) is made larger than the outer diameter of the cylindrical lower portion 34. Yes.
That is, the guide plates 25 and 27 are formed such that the cylindrical portion lower part 34 of the cap 4 taking the normal posture enters the holding recesses 28 and 29 and the cap 4 does not fall off.

The base 21 is formed with a blowing hole 30. By blowing air into the internal space S through the blowing hole 30, a lateral force is applied to the cap 4 to take a reverse posture. 4 can be easily detached from the guide members 22 and 23.
The discharge unit 14 can be provided at any position of the supply path 12. Moreover, the supply path 12 may be comprised by the discharge part 14 over the full length.

Next, a method for using the capping device 1 will be described.
As the cap 4, a top plate portion 32 and a cylindrical portion 33 that hangs down from the periphery of the top plate portion 32 can be used.
The container transport unit 3 receives the container 2 from a container supply unit (not shown) and rotationally transports the container 2 in the y1 direction. The container transport unit 3 fills the container 2 being transported with the internal solution, and passes the container 2 to the capper 5 at the position A1.

In the cap supply device 6, the cap 4 is introduced from the cap supply unit 11 into the supply path 12. The cap 4 is introduced from the supply rail 13 to the discharge unit 14.
As shown in FIGS. 3 to 5, in the discharge portion 14, the cap 4 that takes the normal posture (the posture in which the inner surface of the top plate portion 32 faces the base portion 21 side) has the cylindrical lower portion 34 in the holding recesses 28 and 29. It enters the state.
Since the cylindrical portion lower portion 34 has an outer diameter larger than the distance A between the guide plate 25 and the guide plate 27, the cap 4 is held by the guide members 22 and 23 at the cylindrical portion lower portion 34.
The cap 4 moves toward the capper 5 while rolling on the guide plate 27.

  On the other hand, as shown in FIG. 6, the cap 4 taking the reverse posture (the posture in which the outer surface of the top plate portion 32 faces the base portion 21 side) has the cylindrical portion upper portion 35 positioned in the internal space S, and the cylindrical portion lower portion. Since 34 is located outside the internal space S, it is easily removed from the guide members 22 and 23 as indicated by a two-dot chain line.

  As shown by arrows in FIG. 6, by blowing air into the internal space S through the blowing hole 30, the cap 4 taking the reverse posture can be easily detached from the guide members 22 and 23.

Since the cap 4 taking the reverse posture is discharged, only the cap 4 taking the normal posture is supplied to the capper 5 through the supply rail 13.
The capper 5 attaches the cap 4 received from the cap supply device 6 to the container 2 while rotating and conveying the container 2 in the y2 direction.

Thus, in the cap supply device 6, the discharge portion 14 has the guide members 22 and 23 in which the holding recesses 28 and 29 for holding the cylindrical portion lower portion 34 of the cap 4 are formed. The cap 4 which is held and takes the opposite posture is discharged.
For this reason, only the cap 4 taking the normal posture can be supplied to the capper 5.
Therefore, mounting failure of the cap 4 can be prevented.

In the discharge part 14, the base part 21 may be inclined with respect to the vertical plane. For example, by tilting the base portion 21 so that the surface on which the guide members 22 and 23 are formed faces obliquely downward, the cap 4 in the reverse posture can be easily discharged.
The cap 4 may be a synthetic resin cap or a metal cap having a metal (such as aluminum) cap body.

It is a top view which shows an example of the cap supply apparatus of this invention. It is a side view of the cap supply apparatus shown in FIG. It is a perspective view which shows the discharge part of the cap supply apparatus shown in FIG. It is a front view of the discharge part of the cap supply apparatus shown in FIG. It is a side view of the discharge part of the cap supply apparatus shown in FIG. It is a front view of the discharge part of the cap supply apparatus shown in FIG.

Explanation of symbols

4 ... Cap,
5 ... Cap mounting device,
6 ... Cap supply device,
11: Cap supply unit,
12 ... supply path,
21 ... Base 22, 23 ... Guide member,
28, 29 ... holding recesses,
30 ... Blow hole 32 ... Top plate part,
33 ... Cylinder part,
34 ... Lower part of the cylindrical part (predetermined part, large diameter part),
35 ... Upper part of the cylinder

Claims (3)

A device for supplying a cap to a cap mounting device (5) for mounting the cap (4) on the container (2),
A cap supply unit (11) serving as a supply source of the cap, and a supply path (12) for guiding the cap to the cap mounting device;
The supply path includes guide members (22, 23) for guiding the cap,
The guide member is formed with a holding recess (28, 29) having a shape conforming to a predetermined portion (34) of the cap,
The holding recess is formed so that a cap having a predetermined posture is held by the guide member at the predetermined portion, and a cap having a posture other than the predetermined posture is not held by the guide member. Cap supply device (6).   The holding recess has a shape conforming to the large-diameter portion (34) having a larger outer diameter than other portions in the cylindrical portion (33) of the cap, and the cap is held by the guide member at the large-diameter portion. The cap supply device according to claim 1, wherein the cap supply device is formed. The supply path includes a base portion to which a guide member is attached, and a blowing hole portion (30) for air blowing is formed in the base portion,
The cap supply device according to claim 1, wherein the blowing hole is formed so that air can be blown in a direction in which the cap is detached from the guide member.

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