JPH05185437A - Apparatus for cleaning plastic tube - Google Patents

Abstract

PURPOSE:To certainly remove the flash bonded to the end surface of a tube by providing a transfer means for transferring a cut tube and a melting means arranged on the side where the end surface of the tube is positioned of the transfer means to melt the flash bonded to the end surface of the tube. CONSTITUTION:A transfer means 10 intermittently moves respective rollers and is equipped with a destaticizing means 20, first and second air supply means 30, 40, first and second positioning means 50, 70 and first and second melting means 60, 80 and a drive rope 14 is brought into contact with the roller present at the position opposed to a laminating roller 90 to rotate said roller on its own axis. When a tube P is transferred to the positions of the first and second air supply means 30, 40, the tube P is temporarily stopped to be rotated on its own axis. At this time, compressed air is sprayed to the outer peripheral surface of the tube P from the nozzle 31 of the first air supply means 30. By this constitution, the flash bonded to the tube can be certainly removed.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a cleaning device for a plastic tube (parison) for forming various containers, and more particularly to a cleaning device suitable for removing burrs and the like attached to the end surface of the plastic tube.

[0002]

2. Description of the Related Art At present, various plastic containers are widely used in all fields. In this way, various widely used containers are usually produced by cutting a tube extruded by an extruder into an appropriate length and then molding the cut tube into a desired shape by blow molding or the like. ing. However, when the extruded tube is cut, cutting scraps, burrs, and the like are generated, which adhere to the inner peripheral surface and the outer peripheral surface of the tube or remain in the tube end surface in a whisker shape or a burr shape. When the container is molded with these cut scraps and burrs as they are, the cut scraps and burrs enter as foreign substances into the contents and mix with the contents, or so-called rough skin is generated outside the container. For this reason, especially in containers used for medical treatment, food, beverages, etc., in order to prevent foreign matter from entering the inside of the container and to prevent skin roughness on the outside of the container, a tube It is necessary to remove cutting debris and burrs that are generated and attached during cutting. Therefore, conventionally, an oven cleaner, that is, an air cleaner is provided on the inlet side of the oven that preheats the tube before molding, air is blown to the tube cut by this air cleaner, and the cut dust and burrs attached to the tube Was being removed.

[0003]

Although the above-mentioned removal method using the air cleaner has some effect in removing the cutting dust simply adhering to the inner peripheral surface and the outer peripheral surface of the tube, it is compared with the end surface of the tube. It was not enough to remove burrs that were firmly attached. For this reason, burrs that could not be removed with an air cleaner, for example, fall off during the tube transfer process and enter as foreign matter inside the container, or adhere to the outside and cause rough skin, resulting in a high incidence of defective containers. There was a problem that the yield was very bad.

The present invention has been made in view of the above problems, and an object of the present invention is to provide a cleaning device for a plastic tube capable of reliably removing burrs adhering to the end surface of the tube.

[0005]

To achieve the above object, a plastic tube cleaning device of the present invention is provided with a transfer means for transferring a cut tube and a side of the transfer means where the tube end surface is located. It is configured to include a melting means for melting flash or the like attached to the tube end surface, preferably the melting means is a burner for injecting a flame toward the inner and outer peripheral surface edges of the tube end surface, and the transfer means is , While transferring the tube intermittently,
It has a structure with a rotating means for rotating the tube stopped at a position corresponding to the burner, and if necessary,
At least the upstream side and the downstream side of the melting means, a means for blowing compressed air to the inner and outer peripheral surfaces of the tube is arranged.

[0006]

According to the plastic tube cleaning apparatus of the present invention having the above-mentioned structure, the flash or the like attached to the tube end surface is reliably separated from the tube end surface by heating and melting by the melting means.

[0007]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS An embodiment of the present invention will be described below with reference to the drawings. FIG. 1 is a plan view of an entire main part of a cleaning device for a plastic tube of this embodiment, and FIG. 2 is a side view of the same. In these drawings, 10 is a transfer means for the plastic tube P, and a large number of rollers 11
Are connected in an endless track by a chain 12 installed on a sprocket 13, and are intermittently moved. The roller 11 has a large-diameter portion 11a for mounting the tube P in the middle portion, and is rotatably supported by the chain 12. Reference numeral 14 denotes a drive rope, which is erected by a pulley 15 under a predetermined roller 11 at a position corresponding to various cleaning means described later. 1
Reference numeral 6 denotes a pressing pulley, which is located below the predetermined rollers 11 and is urged by the information by the spring 16a to push up the drive rope 14 to bring it into contact with the predetermined rollers 11 so that the rollers 11 can rotate. Is becoming

Reference numeral 17 denotes a tube separator arranged at the inlet of the transfer means 10, which is not shown.
At this time, the tubes P cut into a predetermined length are supplied one by one between the rollers 11 of the transfer means 10 (see FIG. 2).

Numeral 20 is a static electricity removing means arranged above the transfer means 10, and removes the static electricity charged in the tube P by blowing static electricity off the tube P.

Reference numeral 30 is a first air supply means for blowing compressed air onto the outer peripheral surface of the tube P, and static electricity removing means 20
Is arranged above the transfer means 10 on the downstream side. The first air supply unit 30 has nozzles 31 at appropriate intervals in the longitudinal direction of the tube P, and blows compressed air from the nozzle 31 toward the outer peripheral surface of the tube P.

Reference numeral 40 denotes a second air supply means for blowing compressed air onto the inner peripheral surface of the tube P, which is arranged on the side portion of the transfer means 10 corresponding to the first air supply means 30. This second air supply means 40, as shown in FIG. 3, arranges a pipe 41 having an outer diameter smaller than the inner diameter of the tube P in the longitudinal direction of the tube P, and connects the pipe 41 to the direct acting cylinder 42.
It is configured to move in the longitudinal direction of the tube P by being connected to. In addition, the pipe 41 has a structure shown in FIGS.
As shown in FIG. 5, a large number of nozzle holes 43 are bored in the circumferential direction and the longitudinal direction of the pipe. That is, the second air supply means 40 is configured to insert the pipe 41 into the tube P and blow out the compressed air from the nozzle hole 43.

The first and second air supply means 30,
40 need not be provided at the same position of the transfer means 10,
It may be another position. Further, the first air supply means can be omitted by using the static electricity removing means 20.

50 is a first positioning means,
It is arranged on the downstream side of the second air supply means 30 and 40.
In this first positioning means 50, the pressing cylinder 51 is provided on one side of the transfer means 10, and the stopper 52 is provided on the pressing cylinder 5.
1. The pressure cylinder 51 is provided on the other side side facing 1
The tube P is positioned by pushing one end of the tube P and applying the other end to the stopper 52.

Reference numeral 60 denotes a first melting means, which is arranged on the same side as the stopper 52 on the downstream side of the first positioning means 50. As shown in FIGS. 5 and 6, the melting means 60 includes a gas burner 61 having two craters 61 a, a cylinder 62 for vertically moving the gas burner 61, and a pilot for the gas burner 61 located above the transfer means 10. It has a sensor 64 for monitoring whether or not the crater 63 and the gas burner 61 are ignited. Further, the two craters 61a of the gas burner 61 are arranged so as to eject a flame near the edges of the inner and outer peripheral end faces of the tube P. The gas burner 61 rises while the tube P is being transferred and is in the standby position (the position where the pilot crater 63 and the sensor 64 are located), and is lowered only when the flash etc. attached to one end surface of the tube P is melted. To do. In addition, it is preferable to use hydrogen gas containing no impurities for the gas burners in the first and second melting means 60, 80. By doing so, it is possible to prevent generation of black smoke and to adjust the size of the flame. It can be done reliably.

Reference numeral 70 denotes a second positioning means, which is arranged on the downstream side of the first melting means 60. The pressing cylinder 71 and the stopper 72 are opposite to those of the first positioning means 50. That is, the pressing cylinder 71 is provided on the same side as the gas burner 61, and the stopper 72 is provided on the side facing the pressing cylinder 71. Further, the second positioning means 70 includes a holding cylinder 73 for holding the tube P on the pressing cylinder 71 side, as shown in FIG. This is because the end surface of the tube P pressed by the pressing cylinder 71 is the side heated by the first melting means 60,
The pressing piece of the pressing cylinder 71 may adhere to the end surface of the tube. Therefore, when the pressing cylinder 71 is retracted, the pressing cylinder 73 suppresses the tube P so that the tube P does not move back together with the pressing cylinder 71. belongs to.

Reference numeral 80 is a second fusing means having the same construction as the first fusing means 60 and is arranged downstream of the second positioning means 70. In the second melting means 80, the gas burner 81 is provided on the side opposite to the gas burner 61 of the first melting means 60, that is, on the same side as the stopper 72 of the second positioning means 70 to melt the other end surface of the tube P. I am doing it. As a result, burrs and the like on both end surfaces of the tube P are melted.

In this embodiment, the above-mentioned first and second air supply means 30, 4 are provided on the downstream side of the second melting means 80.
0 is arranged, and compressed air is blown again to the inner and outer peripheral surfaces of the tube P. This is for blowing off the flash or the like melted by the first and second melting means 60, 80 when it adheres to the tube P. Therefore, it is not necessary to provide it when molten flash or the like does not adhere to the tube.

Reference numeral 90 designates a sticking roller which comes into contact with the outer peripheral surface of the tube P, which is arranged on the most downstream side of the transfer means 10 and sticks the cut debris and the molten flash adhered to the outer peripheral surface of the tube P. This is for forcibly peeling by the force of adhesion. The sticking roller 90 is not necessarily provided as long as the cleaning effect can be obtained by each of the preceding means.

A collecting duct for cutting debris or burrs may be arranged below the roller 11 corresponding to each means, and in this case, the cutting debris or burrs do not scatter, which is convenient for collecting these. At the same time, the atmosphere around the cleaning device is improved.

Next, the operation of the plastic tube cleaning device of this embodiment having the above construction will be described. The transfer means 10 intermittently moves each roller 11, and also removes static electricity 20, first and second air supply means 30 and 40, first and second positioning means 50 and 70, and first and second. The driving rope 14 is brought into contact with the fusing means 60 and 80 and the roller 11 at a position corresponding to the sticking roller 90 to rotate them. This transfer means 10
The tubes P are supplied one by one between the rollers 11 by the tube separator 17. The tubes P are sequentially transferred, and when the tubes P reach below the static elimination unit 20, the transfer is temporarily stopped and the rollers P are rotated by the rotation (rotation) of the rollers 11. Then, static elimination air is blown to the tube P to remove the static electricity charged.

Next, the first and second air supply means 30,
When the tube P is transferred to the position 40, the transfer of the tube P is stopped again and the tube P is rotated. At this time, the nozzle 31 of the first air supply means 30 is provided on the outer peripheral surface of the tube P.
Compressed air is blown from. At the same time,
The pipe 41 of the second air supply means 40 is inserted into the inner peripheral surface of the tube P by the direct acting cylinder 42, and the compressed air is blown from the nozzle hole 43. As a result, the cut debris attached to the inner and outer peripheral surfaces of the tube P is removed.

When the pipe 41 of the second air supply means 40 is transferred from the tube P to the position of the first positioning means 50 after being pulled out from the tube P, the transfer of the tube P is temporarily stopped and the pressing cylinder 51 is used. By stopper 5
Pressed on 2. As a result, the one end surface of the tube P (lower end surface in FIG. 1) is positioned.
In this case as well, it is preferable to rotate the tube P about its axis for more accurate positioning, but it is also possible to rotate the tube P without rotating about it.

When the tube P whose one end face is positioned is transferred to the position of the first melting means 60, the transfer of the tube P is also temporarily stopped and rotated. Further, the gas burner 61 is lowered by the cylinder 62, and the tubes P are discharged from the two craters 61a.
The flame is ejected toward the inner and outer peripheral edges of the one side end surface. As a result, the burr-like or whisker-shaped flash attached to the one end surface of the tube P is melted and falls from the end surface of the tube P.

When the deburring of the one end surface of the tube P is completed, the first positioning means 50 and the first melting means 60 described above.
Similarly to the above case, the second positioning means 70 and the second melting means 80 deburr the other end surface of the tube P. Further, by the first and second air supply means 30 and 40 arranged on the downstream side of the second melting means 80,
In the same manner as described above, the cut debris and the melted flash adhered to the inner and outer peripheral surfaces of the tube P are removed.

When the tube P that has undergone the cleaning process is transferred to the position of the sticking roller 90, the transfer of the tube P is temporarily stopped and the tube P is rotated. At this time, the adhering surface of the adhering roller 90 comes into contact with the outer peripheral surface of the tube, and reliably removes cutting dust, melted burrs, etc. adhering to the outer peripheral surface of the tube P.

The present invention is not limited to the above embodiments, but various modifications can be made within the scope of the invention, and include, for example, the following modifications. Other than a gas burner type melting means, for example, an electric heater, a laser, or the like. The melting means is adapted to rotate along the inner and outer peripheral edges of the end face of the tube. Other than a cylinder, for example, a motor is used as each driving means in the positioning means, the melting means, and the like. The second positioning means and the melting means are omitted in the case where the tube has a bottomed shape or one side has burrs and only the burrs on one side of the end face need to be removed.

[0027]

As described above, according to the plastic tube cleaning apparatus of the present invention, burrs and the like attached to the tube can be reliably removed, and foreign matter remains inside the manufactured plastic container. In addition, the outer surface of the plastic container is not roughened. In addition, cutting scraps and the like attached to the inner and outer peripheral surfaces of the tube can be reliably removed.

[Brief description of drawings]

FIG. 1 is a plan view of a main portion of an embodiment of a plastic tube cleaning device of the present invention.

FIG. 2 is a side view of the essential parts of one embodiment of the plastic tube cleaning device of the present invention.

FIG. 3 (a) is an explanatory view of a second air supply means, FIG.
FIG. 3B is an enlarged sectional view taken along the line AA of FIG.

FIG. 4 shows a side view of a main part of a second positioning means.

FIG. 5 shows a partial side view of the fusing means.

FIG. 6 shows a partially enlarged perspective view of a melting means.

[Explanation of symbols]

 DESCRIPTION OF SYMBOLS 10 ... Transfer means 11 ... Roller 12 ... Chain 14 ... Drive rope 16 ... Pressing pulley 20 ... Static electricity removing means 30 ... First air supply means 31 ... Nozzle 40 ... Second air supply means 41 ... Pipe 50 ... First positioning means 51 ... Pressing cylinder 52 ... Stopper 60 ... First melting means 61 ... Gas burner 70 ... Second positioning means 71 ... Pressing cylinder 72 ... Stopper 73 ... Suppressing cylinder 80 ... Second melting means 90 ... Paste roller

Claims (3)

[Claims] 1. A transfer means for transferring the cut tube, and a melting means arranged on the side of the tube end surface of the transfer means for melting a flash or the like attached to the tube end surface. Cleaning device for plastic tubes. 2. The melting means is a burner for injecting a flame toward the inner and outer peripheral surface edges of the tube end surface, and the transferring means intermittently transfers the tube and automatically rotates the tube stopped at a position corresponding to the burner. The plastic tube cleaning device according to claim 1, further comprising rotating means for rotating the plastic tube. 3. The plastic tube cleaning device according to claim 1, wherein a means for blowing compressed air to the inner and outer peripheral surfaces of the tube is arranged at least on the upstream side and the downstream side of the melting means.