KR800001185Y1 - Apparatus for detecting the amount of cocoon - Google Patents

Abstract

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Description

High value detection device

1 is a partial cross-sectional view when the amount of cocoons in the cocoon supply container showing an embodiment of the present invention is large.

2 is a partial cross-sectional front view when the amount of cocoons in the cocoon supply container is small.

3 is a partial cross-sectional front view when the amount of cocoons in the cocoon supply container of another embodiment is large.

4 is a partial cross-sectional front view when the amount of cocoons in the cocoon supply container of another embodiment is small.

5 is a partial cross-sectional front view showing an embodiment of the prior art.

The present invention relates to a cocoon detection device for detecting the amount of cocoon in the cocoon supply container of the automatic radiator and operating the cocoon supplying basket to supply a new cocoon to the cocoon supply container when the amount of cocoon is insufficient. In the high-value detection device of the type which detects a part of the quantity and changes the flow path of the pressure fluid for operating the cocoon supply basket by the movement of the detector which changes the movement amount, the movement of the detector is prevented. It is an object of the present invention to be delivered to the flow path switching device of the pressure fluid without malfunction.

Applicant, as in the fifth figure, the tip is located in the traveling trajectory of the cocoon supply container 31 to invade the cocoon supply container 31, and the amount of movement of the cocoon 32 in the cocoon supply container 31 is adjusted. The nozzle 33 to be changed and a jet hole installed in the jet cylinder 35 of the fluid detection device 34 are provided to face each other, the jet nozzle is closed by the movement of the detector 33, and the jet nozzle is closed. To change the flow path of the fluid in the detection device 34 by controlling the fluid ejection of the device 34 and supplying a pressure fluid to the fluid actuated actuator to operate the cocoon supply basket. It is proposed as patent application No. 48-85,247.

In this apparatus, the closing torque for switching the flow path of the fluid, that is, the force for bringing the jet cylinder 35 forming the jet port into close contact with the detector 35 is a rotational torque due to the weight of the detector 33. Since it was generated by the bay, the detector 33 pops out due to a reaction that collides with the ejection cylinder 35, and the detector 33 and the ejection cylinder 35 are loosened, and the fluid is ejected again from the ejection port. . And after repeating this several times, it becomes closely followed. During the swinging of the detector 33, since the fluid detection device cannot completely change the flow path of the fluid, the cocoon feed basket cannot be operated until it is kept in close contact, and the cocoon supply container is in the cocoon supply proper position. Can't supply cocoons As a result, it was found that an uncomfortable point, such as a lack of cocoon in the cocoon supply container, occurred.

The device of the present invention, in view of the above-mentioned inconvenience, changes the movement of the detector to the movement of the cam and closes the jet port by controlling the flow of the fluid by closing a part of the lever moved by the cam to the jet cylinder, The fluid path of the fluid detection device is to be changed, the embodiment of which will be described with reference to the accompanying drawings. In FIG. 1, FIG. 2, (1) is a fluid type | mold detection apparatus, and is fixed to the base 3 with the bracket 2 interposed. (4) is a jet container in which a jet port is provided in opposition to the shielding plate 5 mentioned later. The fluid detection apparatus 1 replaces the movement path of the fluid in the pressure fluid supply source by controlling the ejection of the ejection fluid at the ejection outlet. A shielding plate 5 made of an elastic body such as rubber is fixed to the end of the lever 6 that is supported by the shaft 7 so as to be opposed to the jet cylinder 4.

This shielding plate 5 is more complete in closing the jet port, and it is not necessary to install it in the form which does not need to close the jet port, and the thing closed only by (6).

(8) is a cam floor which is rotatably supported by the shaft (9) fixed to (6). The cam floor 8 always comes into contact with the cam 10 by the weight of the lever 6 or by a force applied by the spring.

The lever 6 may be brought into contact with the cam 10 without using the cam floor 8. The cam 10 is provided with the upper part 10a and the lower part 10b, and are rotatable on the fixed shaft 11.

The detector 12 is fixed to the support piece 13 formed integrally with the cam 10 by a bolt or the like. When the cocoons in the cocoon supply container 15 are small, that is, when cocoon supply is necessary, the upper portion 10a is used, when there are many cocoons in the cocoon supply container 15, that is, when the cocoons are not supplied, the lower portion 10b is provided. The position of the detector 12 is adjusted to engage the cam flowr 8.

This detector 12 is located in the movement trajectory of this cocoon supply container so that the front-end | tip can be inserted in the cocoon supply container 15 which moves to the arrow 14 direction. Reference numeral 16 is a counterweight of the lever 6. However, since this is provided to reduce the contact pressure between the cam 10 and the cam flower 8 and to facilitate the swinging of the detector 12, it is not necessary to install it.

Another embodiment of the present invention will be described with reference to FIGS. 3 and 4. In the drawings, the same parts as in the above-described embodiment will be denoted by the same reference numerals, and only the other parts will be described. The cam flower 21 is rotatably supported by the lower end of the lever 23 guided by the guide 22 and moving in the vertical direction. The lever 23 always contacts the cam 10 by its own weight. The upper end surface of this lever 23 opposes the jet cylinder 4.

Referring to the operation of the device of the present invention configured as described above are as follows.

When the cocoon supply container 15 with a small amount of cocoon moves, and the front-end | tip of the detector 12 is located in the cocoon supply container 15, the detector 12 will rotate clockwise in a figure. Accordingly, in the embodiment in which the cam 10 also rotates in the same direction and is shown in FIGS. 1 and 2, the cam flower 8 of the lever 6 and the upper portion 10a of the cam 10 come into contact with each other. The lever 6 is rotated in the clockwise direction with the shaft 7 as a point so that the shield plate 5 and the jet cylinder 4 are in close contact with each other to close the air jet port (except to completely close the flow path of the fluid). It also refers to the amount of fluid ejected as much as possible).

In the embodiment shown in FIGS. 3 and 4, the cam flower 21 comes into contact with the upper portion 10a of the cam 10 in accordance with the rotation of the cam 10. Thereby, the lever 23 is moved upwards, and its upper end surface is in close contact with the ejection cylinder 4, and closes the ejection opening.

When the jet port is closed as described above, the fluid transfers the cocoons by operating the cocoon transfer basket by changing the movement path.

Next, when the detector 12 is located in the cocoon supply container 15 with many cocoons, the swing angle of the detector 12, and therefore the rotation angle of the cam 10, is small, so that the first and second embodiments are the same. In the embodiment, the cam flower 8 engages with the lower portion 10b of the cam 10 in the third and fourth embodiments. As a result, the rotation of the lever 6 in the clockwise direction is small, and thus the cam flowrs 8 and 21 are in contact with the lower portion 10b of the cam 10, and the shield plate 5 or the lever 23 The ejection vessel 4 is not in close contact and the travel path of the fluid of the fluid detector 1 is not replaced and the cocoon transport basket does not work.

In the above-described embodiment, the cam was rotated in relation to the movement of the detector, which may be moved in a straight line.

The device according to the present invention is provided with a moving cam and a lever moved by the cam in relation to a detector positioned in the cocoon supply container as described above, and the lever is replaced with a spout of the fluid detection device. Even if the vehicle collides with the spout tube and tries to pop out, it is blocked by the upper part of the cam, so that the cocoon supply container can receive the cocoon at an appropriate position without releasing the closing of the spout port.

Claims (1)

Rotate the detector body freely so that the tip is in the traveling trajectory of the cocoon supply container, control the ejection of the ejection fluid in the ejection port by the displacement of the detector by the oscillation motion, and the flow path of the fluid in the pressure fluid supply source A high cocoon amount detecting device having a fluid detecting device for actuating a cocoon supplying basket, the cam being movable with respect to the swing of the detector and a lever moved by the cam, the lever and the spout port High-value detection device characterized in that the opposite installation.