JPH0318453Y2 - - Google Patents

Description

[Detailed description of the invention] (Industrial application field) This invention is a suction gun that uses pressurized liquid to capture and suction yarn, and thread the yarn to a desired location. Regarding equipment.

(Prior art and its problems) In order to thread the traveling yarn onto a desired location, such as a godet roller, winder bobbin, yarn guide, etc., the present invention is equipped with a movable suction gun that captures and suctions the traveling yarn. A thread hooking device is used, and the working fluid for such a suction gun is pressurized air or pressurized liquid.

Among these, when a pressurized liquid such as pressurized water is used, a mechanism for supplying working water to the suction gun is required. As this working water supply mechanism, there is a system that circulates the working water. In this system, the working waste water sent from the suction gun together with the yarn (waste thread) is separated from the waste thread, and then this working waste water is again pressurized and operated. It is used as water. FIG. 3 shows an example of such a system proposed by the present applicant in Utility Application No. 82943/1982, in which a working water supply mechanism is constructed in combination with a waste yarn processing device.

In the figure, waste water and waste threads discharged from a suction gun (not shown) are made to flow through a drainage hose 51 into a dewatering tank 52 that has a number of holes drilled around the wall, and when waste threads are appropriately accumulated. ,
The dewatering tank 51 is rotated by a drive motor 53 to centrifugally separate and dehydrate the waste water contained in the yarn. Then, whether it naturally flows out from the dehydration tank 52,
Alternatively, the working water obtained by this centrifugation is stored in a water tank 54, and is circulated and supplied from a high-pressure water pump 55 to a suction gun via a water supply hose 56.

However, in such a circulating working water supply mechanism, when the working water is repeatedly used at high pressure and high speed, heat is generated in the working water due to various frictional resistances in the flow path. . The water temperature then gradually rises, eventually reaching over 70 degrees Celsius, so high that it is impossible to hold the suction gun body with bare hands.

In such a state, the threading operation cannot be carried out smoothly and quickly, and the continuous operation of the threading device is also hindered. There are also health and safety issues, such as burns to workers.

Furthermore, when using high-pressure, high-speed pressurized water, it is necessary to use particularly reliable seals for valves, headers, pipe fittings, pumps, etc. in the flow path of the working water. Then, there is a problem in that these seals etc. deteriorate more quickly and their lifespan is shortened.

(Purpose of the invention) This invention is intended to overcome the above-mentioned problems in the prior art, and is intended to prevent the temperature of the working liquid from rising in a threading device equipped with a circulation type working liquid supply mechanism, thereby improving the threading operation. The purpose of the present invention is to provide a threading device that can make work smoother, faster, safer and more sanitary, and prevent deterioration of equipment.

(Means for Achieving the Object) In order to achieve the above-mentioned object, in this invention, the working liquid supply mechanism is provided with a cooling mechanism for the working liquid.

(Embodiment) FIG. 1 is a schematic diagram of a threading device that is an embodiment of this invention. In the same figure, suction gun 1
The working water and waste threads discharged from the drain pipe 22 enter the waste thread storage treatment tank 1 via a drain hose 20 and an inlet 21 . In the waste yarn storage treatment tank 1,
A dehydration tank 2 and a drainage tank 3 are arranged concentrically, and the dehydration tank 2 is driven to rotate by a drive motor 4. The working water flowing out of the dehydration tank 2 or centrifugally separated and discharged in the dehydration tank 2 falls through a radiator 5 serving as a working water cooling device into a water storage tank 6 and is stored in this water storage tank 6 .
Then, the working water in this water storage tank 6 is transferred to the strainer 7.
The water is pumped up by a high-pressure water pump 9 via a pipe 8 and a pipe 8.

The high-pressure water pump 9 is provided with a bypass 10, which operates a relief valve in the bypass when the pump's discharge pressure becomes excessive, allowing a portion of the working water to flow back to the water storage tank 6. This is to adjust the pressure. The high-pressure working water then reaches the header 16 from the bypass 10 through the flexible tube 11 and check valve 12. An accumulator 17 and a pressure gauge 18 are attached to this header 16 for pressure adjustment.

The working water from the header 16 reaches the suction gun 19, and the suction gun 19 sucks and captures the yarn. This working water becomes thread (waste thread).
It is discharged along with the Therefore, this entire circulation path corresponds to the working water supply mechanism.

On the other hand, the power switch 13 is connected to the high pressure water pump 9.
is installed, and in addition to starting the high-pressure water pump 9 based on the operation of this power switch 13, the motor 15 that drives the fan 14 in the radiator 5 also starts.
It is also starting to start. Therefore, when the power switch 13 is turned on, high-pressure working water is circulated to the suction gun 19, and this working water is cooled by the radiator 5, so that the temperature of the working water is prevented from rising. Become.

FIG. 2 shows another embodiment of this invention. This device differs from the device shown in FIG. 1 in that a radiator 5 is provided between a water storage tank 6 and a high-pressure water pump 9.

As described above, the cooling device can be installed at any desired location, but it is preferable to install it in the path from the drain tank 3 to the high-pressure water pump 9 in order not to affect the high-pressure water feeding operation. Although not shown, it is also possible to separately install a pump that sends working water to the cooling device and cool it completely independently of the pressure water pump 9. From the point of view of cooling performance, this method is possible. is the most desirable. Even when the pressure water pump is out of service,
This is because the working water can be cooled independently.
Furthermore, the cooling device is not limited to the air-cooled radiator as described above, but may also be a water-cooled type. The cooling temperature is not particularly limited either, and may be set as necessary.

Of course, it is also possible to apply this invention when two or more cooling devices are provided or when a liquid other than water is used as the working liquid.

(Effects of the invention) As explained above, in this invention, the working liquid supply mechanism is provided with a cooling device for the working liquid, which prevents the temperature of the working liquid from rising, thereby making threading work smooth and quick. It is possible to improve the safety and hygiene of work. Furthermore, it is possible to prevent deterioration of the equipment due to a rise in the temperature of the working fluid.

[Brief explanation of the drawing]

FIG. 1 is a schematic diagram of a threading device according to one embodiment of the invention, FIG. 2 is a schematic diagram of another embodiment, and FIG. 3 is a diagram showing a conventional threading device. 1...Wrap storage processing tank, 2...Dehydration tank, 3...
Drain tank, 5...Radiator, 6...Water tank, 9...
...High pressure water pump, 13...Power switch.

Claims (1)

[Claims for Utility Model Registration] A suction gun for suctioning and capturing running yarn with a pressurized working fluid and threading the yarn at a desired location; and a circulating supply of the working fluid to the suction gun. What is claimed is: 1. A threading device comprising a working liquid supply mechanism, characterized in that the working liquid supply mechanism is provided with a cooling device for cooling the working liquid.