The present invention relates to a buffering device in an automatic cloth feeder in which cloth is introduced to a feeding conveyor at a substantially central portion in a carrying direction, right and left trailing end portions thereof are detected by crumpling the cloth from the right and left, and the right and left trailing end portions are held by a deposition section.
As linen products handled in the so-called linen supply industry, there are bed sheets, bed covers, large and small towels, other various types of cloth, and clothing such as gowns. The cloth collected from a customer is repeatedly subjected to a process of washing, ironing, and folding, before being delivered to the customer. The cloth is fed into the process by a feeder. However, in an automated feeding process, when the cloth is placed on a feeding conveyor, a particular portion is held by a member on the feeder side while being carried, and then, the cloth is automatically spread. The spread cloth is fed onto a carrying conveyor from leading end portions. Accordingly, the cloth can be carried into the ironing process in a spread state, for example.
An automatic feeding method is divided into two main types of methods. One is a method in which one end or both ends of cloth are searched for so as to be fed, and the other one is a method in which both ends of cloth are automatically searched for and are automatically spread when a side of the cloth is fed onto the carrying conveyor. Presently, the main stream is the former method because the latter method has low stability and quality. However, according to the studies carried out by the inventor, it is difficult to say that the former method is absolutely advantageous. The latter method rather has room for improvement, achieving a prospect of being superior to the former method when improved. As the latter method, there is the invention disclosed in JP-A-10-5500.
As the automatic feeding method is employed, working efficiency per worker is improved, and production volume per feeding station is increased. Thus, by adopting the two-station feeding process, it is possible to exhibit the maximum capacity of a straightening unit for straightening cloth. Meanwhile, balance cannot be maintained with respect to a supply amount from the feeding station, and a delay of feeding has become a problem. It is preferable to be able to increase the number of cloth pieces which can be accumulated from the feeding station to the straightening unit, but there is no room for an increase in the existing device. The delay of feeding leads directly to a problem of reduced production volume. When a delay occurs once, it is extremely difficult to recover after the delay.
The present invention has been made taking the foregoing circumstances into consideration. An object thereof is to provide a buffering device in an automatic cloth feeder including a cloth standby section in which cloth stands by temporarily, and allowing the cloth to be accumulated. Another object of the present invention is to provide a cloth spreading device in which the cloth standby section can be arranged either before or after a feeding conveyor and a deposition section, and the number of cloth pieces to be accumulated can be increased and decreased.
In order to solve the above-mentioned problems, the present invention includes a cloth supply section that can supply a quantity of cloth exceeding a processing quantity of feeding so as to proceed with feeding in an automatic cloth feeder without congestion in the automatic cloth feeder in which the cloth is introduced to a feeding conveyor at a substantially central portion, right and left trailing end portions of the cloth are detected by crumpling the cloth from the right and left, and the right and left trailing end portions are held in a deposition section. Means for setting a cloth standby section in which the cloth to be carried stands by temporarily at a preceding stage of the feeding conveyor or at a following stage thereof is devised. The central portion of cloth denotes a central portion of cloth to be carried in a movement direction. Cloth is considered as the workpiece in the device of the present invention. However, it is possible that the cloth includes clothing as well.
The automatic cloth feeder applied with the buffering device of the present invention adopts a method in which a side of cloth is fed onto the carrying conveyor and both ends of cloth are automatically searched for and are automatically spread. When the cloth is introduced to the feeding conveyor at the substantially central portion in the carrying direction and is carried to a predetermined position on the front face of the feeder main body, both the right and left portions of cloth are crumpled in a central portion direction of the cloth, thereby performing deposition from the right and left trailing end portions of the cloth. As the cloth is introduced to the feeding conveyor at the substantially central portion and is carried to a predetermined position on the front face of the feeder main body, both the right and left portions of the cloth drooping on the right and left sides of the feeding conveyor are crumpled and in the central portion direction of the cloth, and the right and left trailing end portions are held by a member provided on the feeder side.
In such a configuration, according to the device of the present invention, means for arranging the cloth standby section in which the cloth to be carried stands by temporarily at the preceding stage of the feeding conveyor or at the following stage. The cloth supply section is a means for supplying the cloth to perform automatic feeding. Therefore, the cloth supply section itself can also be the cloth standby section. The cloth standby section causes the cloth to stand by temporarily without congesting feeding of the cloth which flows at a substantially regular speed and is a buffering means and a type of retention means. Having the feeding conveyor as a focal point, the cloth standby section can be arranged at the preceding stage or the following stage, or at both the preceding stage and the following stage at the same time.
The cloth standby section, a configuration in which cloth is held at the substantially central portion between the right and left sides in the movement direction and the cloth supply section equipped with clamps moving upward to the feeding conveyor from below is arranged at the preceding stage of the feeding conveyor is one of the desirable configurations. This is a method of newly providing new buffering means, that is, the so-called cloth supply section in a process of carrying cloth, thereby realizing buffering in a relatively easy manner.
In addition, the straightening unit can be provided at the following stage of the feeding conveyor in order to pull cloth held in the deposition section to the right and left sides so as to achieve a straightened state, and the straightening unit can be arranged at a plurality of places so as to function as the cloth standby section. When the straightening unit is provided at one place on the front face of the feeder, the straightening unit is also provided on the right and left sides, thereby easily realizing buffering.
Moreover, it is preferable to have a configuration in which the cloth standby section includes the circulation carrying device and a circulation route is equipped with multiple clamps for holding cloth at the substantially central portion between the right and left sides in the movement direction. On account of such a configuration equipped with the multiple clamps so as to perform circulation, only the attaching of cloth can be independently performed with respect to the clamp, being separated from an operation of the feeder. Thus, it is possible to establish a stable system having high productivity. The clamp in this method is common to the configuration described in the second previous section in that the clamp is equipped with a portion which moves upward to the feeding conveyor from below.
According to the present invention which is configured and operates as described above, a cloth standby section in which cloth stands by temporarily is provided so as to accumulate the cloth, thereby preventing a delay of feeding. As a result, it is possible to exhibit an effect in that a stable system having high productivity can be established. In addition, according to the present invention, it is possible to provide a buffering device in an automatic cloth feeder in which the cloth standby section can be arranged either before or after a feeding conveyor and the number of cloth pieces to be accumulated can be arbitrarily increased and decreased.
Hereinafter, the present invention will be described in more detail with reference to an illustrated embodiment.
The cloth supply section 11 is arranged at three places, at the center and on the right and left sides on the front face of the feeder main body, and movement mechanisms 13 are respectively provided therein. The illustrated movement mechanism 13, see
The pair of the clamps 12 and 12 on the right and left sides fixes cloth at the substantially central portion in the movement direction. Each clamp 12 may be a known clamp for pinching cloth and moves from the higher position closer to a worker to the higher position closer to the feeding conveyor 20 due to the aforementioned movement configuration (refer to
The clamps 12 and the movement mechanism 13 hold the cloth at the substantially central portion between the right and left sides in the movement direction and configure the cloth supply section 11 equipped with the clamp 12 which moves upward towards the feeding conveyor 20 from below. In addition, in the embodiment, the cloth supply section 11 configures a cloth standby section 14 in which cloth to be simultaneously carried stands by temporarily. Particularly, the cloth standby section 14 corresponds to the cloth standby section 14 which is arranged at a preceding stage of the feeding conveyor 20.
A trailing end separation mechanism 15 for cloth is provided so as to be parallel to the cloth supply section 11. The trailing end separation mechanism 15 includes a trailing end guidance frame 16, see
In the illustrated feeder main body, the feeding conveyor 20 is arranged at an upper portion of the trailing end separation mechanism 15, and the feeding conveyor 20 is formed with a lower conveyor 19 and an upper conveyor 21, see
The lower conveyor 19 is supported upward in its entirety by a pressing mechanism 22 formed with a cylinder device and has a structure in which contact pressure with respect to the upper conveyor 21 is adjustable. The feeding conveyor 20 includes the feeding port 20a which is obliquely downward in accordance with a track of the movement mechanism 13 and is provided so as to be able to feed the approaching cloth carried by the clamp 12, with no difficulty. The upper conveyor 21 is formed with a belt conveyor and is arranged obliquely upward from below so as to be low on a side closer to the feeding port 20a and high on a side of an output portion on the opposite side,
In the feeding conveyor 20, guide members 23 and 24 which are provided in tapered shapes are arranged on both the right and left sides in order to gather and crumple both the right and left portions of cloth drooping on the right and left sides thereof in the central portion direction,
Each catch means 29 is formed to include a pair of rolls 31 and 32 at the front and rear which is provided to be able to come into contact with and to separate from each other so as to be able to pinch the trailing end portions Wl and Wr of cloth, and a catch member 33 which operates in the direction of the arrows in
The catch means 29 in the embodiment is connected to one end of a crank 35 which is pivotally supported by a support shaft 35a on the feeder main body side, and operates by a drive unit 36 which is connected to the other end of the crank 35 and includes a linear cylinder, for example, refer to
In
The spreading members 37 and 38 are provided to form one set of a pair for holding the right and left trailing end portions Wl and Wr of cloth. In other words, in an example of the embodiment in which depositing cloth to be carried is performed on the feeding conveyor 20, the pair of one set of the spreading members 37 and 38 is provided on both the right and left sides toward the front face of the feeder, refer to
A lifting means 39 is arranged in the deposition position S. The lifting means 39 in the embodiment utilizes a suction force. However, without being limited to the suction force, a picking up method can be applied with no technical problem. When the catch member 33 moves from the reception position R to the deposition position S, the lifting means 39 performs suctioning of the right and left trailing end portions of cloth, thereby lifting the right and left trailing end portions of cloth to positions higher than the spreading members 37 and 38. When the catch member 33 moves to the deposition position S, the spreading members 37 and 38 move to a standby position in a right and left direction, refer to
The spreading members 37 and 38 can move in the right and left direction by a guide rail 44 which is installed in an upper portion at the rear portion of the feeder main body. The reference numeral 41 in
In the device of the present invention having such a configuration, while the cloth W in the forefront is in a spread state in the spreading members 37 and 38, a worker can attach the cloth W to the clamps 32 at three places, refer to
As the spreading members 37 and 38 approach the right and left trailing end portions Wl and Wr of cloth at a position higher than the catch member 33 which is at the deposition position S, thereby holding the right and left trailing end portions Wl and Wr. In this manner, the first stage of transferring the cloth W is completed, refer to
In an automatic feeder of the related art, a supplying amount of cloth depends on only the working speed of a worker, and thus, it is not possible that the working speed exceeds the feeding speed of the automatic feeder. However, according to the present invention, one piece of the cloth W is fed into the process in accordance with the above-described feeding processing at one place among the three places of the clamps 12 and the cloth W is not directly placed on the feeding conveyor, but the cloth passes through the movement mechanism 13 first. Accordingly, the movement mechanism 13 functions as the cloth standby section 14 at the preceding stage of the feeding conveyor 20. While the first cloth W is in the feeding process as described above, one for each, that is, two pieces of the cloth W in total are in standby states in the clamps 12 at the two remaining places, and thus, the two pieces of the cloth W is also in buffering states. Therefore, it is possible to adjust the number of the cloth pieces to be accumulated while the cloth is slowly carried through the process.
Moreover, a further embodiment of the buffering device according to the present invention will be described with reference to
Accordingly, a worker P can concentrate on only attaching the cloth W to the clamp 12 in the circulation carrying device 50, and the attaching is performed independently of an operation of an automatic feeder 10. The last conveyor line in the circulation carrying device 50 coincides with the conveyor in the movement mechanism 13 as illustrated in
Number | Date | Country | Kind |
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2014-237821 | Nov 2014 | JP | national |
Filing Document | Filing Date | Country | Kind |
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PCT/JP2015/061842 | 4/17/2015 | WO | 00 |
Publishing Document | Publishing Date | Country | Kind |
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WO2016/084401 | 6/2/2016 | WO | A |
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