JPS6090730A - External diameter adjuster of hose tube - Google Patents

Abstract

PURPOSE:To prepare a tube of suitable external diameter automatically and efficiently by a method wherein during continuous molding of a tube the external diameter of the tube is measured and when it reaches the upper limit value the tube is brought into contact with a friction body to make automatic correction. CONSTITUTION:The tube 10 with an iron core 11 is mounted on the rod of an air cylinder 22 and goes on out of contact with a friction body 20 since the support roller 13 equipped on the rod of an air cyinder 22, in a usual state, is at a lifting point. The tube 10 with the iron core 11 passes a braider 15 and when a braid layer 12 begins to be braided the external diameter of the tube 10 is measured by an external diameter measuring device 30 and a measured signal is inputted into a controller 32. When the tube 10 is pulled by the wire 16 through braiding of the braid layer 12 and the external diameter becomes larger than the suitable one, an output signal is sent from the measuring device 30 to the controller 32, the air cylinder 22 operates, the rod 23 shrinks, the support roller 13 falls, the tube 10 touches the friction body 20 and the external diameter of the tube 10 is reduced.

Description

DETAILED DESCRIPTION OF THE INVENTION The present invention relates to a device for adjusting the outside diameter of a hose tube. When the hose tube is reached, the hose tube is brought into contact with the friction body and advanced, thereby automatically correcting the outer diameter of the hose tube from becoming larger than the appropriate outer diameter due to braiding.

Generally, when molding a high-pressure hose, a rubber tube extruded from an extruder is placed over a molding iron core, a layer of wire or other braid is knitted on top of it using a knitting machine, and then a cover rubber is covered. However, the tube rubber that covers the iron core is unvulcanized rubber, so when knitting the braid layer on top of it, it is tightened and stretched by the tension of a wire, etc., and the tube behind the braid layer is stretched. The rubber expands and becomes larger than the correct outside diameter for the hose tube. In order to correct the outer diameter of the hose tube, which has become large in this way, to the appropriate outer diameter, conventionally, compressed air is introduced from the rear end of the hose tube to create a gap between the hose tube and the iron core. I held the hose tube in my hand and pulled it while adjusting the outside diameter. However, in order to knit a braid layer into a hose tube with a standard length of 20 m, it usually requires adjustment of the outer diameter three to five times, so manual adjustment increases the number of man-hours in the braid layer knitting process. This will reduce work efficiency. If you adjust the outer diameter of the hose tube at a position close to the support roller, there is a risk of getting your fingers caught between the iron cored hose tube and the support roller, resulting in injury. Furthermore, even if the outer diameter of the hose tube is adjusted manually, it is difficult to adjust the outer diameter to the appropriate outer diameter over the entire length of the hose tube, resulting in uneven product outer diameters and defective products. There is a problem in that it adversely affects the quality of the product.

This invention was made to solve the above problems, and an object of the invention is to provide an outer diameter adjusting device that automatically reduces the outer diameter by bringing a hose tube into contact with a friction body. The purpose of this invention is to improve the efficiency and safety of hose tube braiding work, and to improve product quality.
The purpose of the present invention is to provide a hose tube outer diameter adjustment device that contributes to heat resistance.

That is, in the present invention, as shown in the embodiments and drawings to be described later, a hose tube 10 that has been pushed out from the pusher 1 over an iron core 11 is supported by a support roller 13 and sent to a braiding machine 15, and the braided layer 12 is braided. In this device, an outer diameter measuring device 30 is disposed in the passage of the hose tube 10, and a friction body 20 is laid down, and a fluid pressure cylinder 22 is operated based on the tenth and lower limit measurement values of the outer diameter measuring device 30. When the support roller 16 can be moved up and down (-1), the hose tube 16 can be moved up and down at the lower limit of the outside diameter measuring device 60.
A hose tube outer diameter adjusting device characterized in that the hose tube 10 is brought into contact with the friction body 20 by lowering the support roller 13 supporting the outer diameter measuring device 30 at the upper limit value of the outer diameter measuring device 30. Pertains to.

Embodiments of the present invention will be described below with reference to the drawings.

FIG. 1 shows a hose tube braid layer knitting device which is equipped with the outer diameter adjusting device of the present invention. In the above figure 3, the symbol +310 is the tube rubber (hose tube) extruded from an extruder (not shown), 11 is the tube rubber 10'lr-covered iron core, and 13 is the tube rubber specified in the passage of the hose tube. Support rollers arranged at intervals, 14 a guide roller for centering, 15 a knitting machine, 1
Reference numeral 7 indicates a take-up device, and 17a indicates a drive motor for the take-up device.

A table 18 of a constant height is installed between the support rollers 16 in the passage of the hose tube 10, and a sheet-like friction body 20 is laid on the upper surface of the table 18. As the friction body 20, a material having high frictional resistance with the hose tube 10, such as sponge, is used. Further, an air cylinder 22 is fixed to a bracket 19 attached to the front surface of the table 18, and a support roller 16 is attached to the tip of a rod 23 of the air cylinder 22 so as to be movable up and down.

In addition, an outer diameter measuring device 60 is located near the knitting machine 15.
is arranged to measure the outer diameter of the hose tube 1o. The outer diameter measuring device 3 4 - and the electromagnetic valve 25 of the air cylinder 22 (only the frontmost air cylinder is shown) 25 are electrically connected to a control panel 32 . This control panel 62 is set with an upper limit value and a lower limit value (appropriate outer diameter) of the outer diameter of the hose tube 10, and the measured value of the outer diameter measuring device 30 is inputted as a signal, and the input signal is When the value matches the tenth limit set value and the lower limit set value, output signals are sent to the solenoid valves 25 of the air cylinders 22 to excite them.

The outer diameter adjusting device having the above configuration operates as follows.

The cored hose tube 10 is supported by a support roller 13 and pushed out, centered by a guide roll 14 and sent to a braiding machine 15, where the braid layer 12 is braided by a wire 16 fed out from the braiding machine 15. be done. The hose tube 10 on which the braiding of the braided layer 120 has started is taken up by the taking-off device 17 at a constant speed and advances.

Until the iron cored hose tube 10 is sent to the knitting machine 15, the rod 23 of the air cylinder 22 is extended and the support roller 13 is in the raised position, and the iron cored hose tube 1
0 advances without contacting the friction body 20 while maintaining an appropriate distance therebetween.

When the iron core hose tube 10 passes through the braiding machine 15 and braiding of the braid layer 12 is started, the outer diameter of the hose tube 10 is determined by the outer diameter measuring device 30 at a position rearward than the braid layer 12. Then, the measurement signal is sent to the control panel 6.
2 is input.

Due to the braiding of the braided layer 120, the hose tube 10 receives the tension of the wire 16, and its outer diameter becomes larger than the appropriate outer diameter, and when the measured value of the outer diameter measuring device 30 reaches the upper limit setting value, the air cylinder 22 , control panel 32 on the valve regulator 25
An output signal is sent from the magnet, which excites it. As a result, the air cylinder 22 is activated, the rod 23 is contracted, and the support roller 13 is lowered. When the support roller 16 is lowered, the hose tube 10 is moved to the table 18 as shown in FIG.
It comes into contact with the friction body 20 placed above. Due to the contact with the friction body 20, the hose tube 1o will move in a dragged state due to the frictional resistance of the friction body 20.
The hose tube 10 behind the blade layer 12 is stretched between the friction body 20 and its outer diameter gradually becomes smaller.

In this way, the measured value of the outer diameter measuring device 30 is transmitted to the control panel 62.
When the lower limit set value is reached, the solenoid valve 2 of the air cylinder 22
5 is excited in response to an output signal from the control panel 62, and as a result, the rod 26 of the air cylinder 22 is actuated to extend, the support roller 16 is raised, and the hose tube 10 is moved against the friction body 20.
and return to the original non-contact state.

In the above embodiment, the support roller is moved up and down by an air cylinder, but a hydraulic cylinder may be used instead of the air cylinder.

As described above, the present invention measures the outer diameter of the braided braid of a hose tube with an iron core, and operates a fluid pressure cylinder based on the upper limit signal and lower limit signal of the measured value to move the support roller. The hose tube is moved up and down, and the hose tube is supported in the raised position of the support roller, and the hose tube is brought into contact with the friction body in the lowered position of the support roller. 1-7- Therefore, according to the present invention, the adjustment work of the outer diameter of the iron cored hose tube by braiding the braided layer is automated, which not only greatly reduces the number of work hours and improves efficiency, but also improves work efficiency. The risk of injury to persons is eliminated and safety is improved.

Furthermore, according to this invention, the outer diameter of the hose tube is automatically corrected by contact friction with the friction body, so the overall length of the hose tube can be adjusted to an appropriate outer diameter, and the outer diameter of the product Since this becomes more uniform, it is possible to achieve the effect of contributing to quality improvement and reduction of defective products.

[Brief explanation of the drawing]

FIG. 1 is a front view showing an embodiment of the invention, and FIG. 2 is a front view showing an embodiment of the invention.
FIG. 7 is a partial cross-sectional view showing the state of the support roller when it is lowered. In the figure, 10 is a hose tube, 11 is an iron core, 12 is a blade layer, 13 is a support roller, 15 is a knitting member, 20 is a friction body, 22 is an air cylinder, and 30 is a diameter measuring device. 8-

Claims (1)

[Claims] In a device that supports a hose tube that has been heated and extruded by an iron core with support rollers and sends it to a braiding machine to braid a blade layer, an outer diameter measuring device is placed in the passage of the hose tube and a friction body is laid. The support roller is made vertically movable via a hydraulic cylinder that operates based on the upper and lower limit measurements of the outer diameter measuring device, and supports the hose tube in the raised position at the lower limit value of the outer diameter measuring device. A hose tube outer diameter adjusting device characterized in that the support roller is lowered at an upper limit value of an outer diameter measuring device to bring the hose tube into contact with a friction body.