WO2016108800A1

WO2016108800A1 - A functionalized cutter and/or driller bit removing debris

Info

Publication number: WO2016108800A1
Application number: PCT/TR2015/050269
Authority: WO
Inventors: Lokman TORUN
Original assignee: Torun Lokman
Priority date: 2014-12-31
Filing date: 2015-12-25
Publication date: 2016-07-07

Abstract

The invention is related to a guiding and/or directing apparatus (1) removing debris that the drill bit (2) which performs drilling or cutting process forms during the work, from the close working area and providing that said processes can be carried out in a clean, sensitive and qualified way.

Description

A FUNCTIONALIZED CUTTER AND/OR DRILLER BIT

REMOVING DEBRIS

Related technical field of the invention The invention is related to providing that drilling or cutting process can be carried out in a clean, sensitive and qualified way by providing removing debris forming during the work of a machine apparatus that performs drilling or cutting process.

Prior Art In the prior art when the drill bits are used to carry out drilling or cutting process; debris, dust and similar residuals forming on a certain shape or line in drilling, cutting or engraving area gather around the drill bit and in its close working area and this situation complicates visual observation of the work. Dust, debris and other residuals forming during drilling and milling processes prevent visual observation of the work by closing the drilling and working area of the person who uses the drill and they may cause inefficient work. Especially, it complicates that the process can be performed on the right points without deflections in the sensitive drilling and milling processes.

In addition, visual observation cannot be possible because debris close the working area completely in the existing systems in the cutting process carried out on the cutting coordinates which are specified before, on large templates in the high capacity machine tools like CNC. Material and work loss can occur in case of any process mistakes that can occur in the machine due to the automation. The same situation can occur together with decreasing the labor quality also in the manual leveler benches.

In addition to the methods mentioned above; it is currently provided that debris, dusts and similar residuals which are occurred during drilling or cutting process are removed with the help of the vacuum suction apparatus which is mounted on the driller or which is used with the driller. However, this process requires additional expense and the noise level of the medium is high because of the working of the vacuum system. This condition causes a working area in high decibels in terms of labor health and also, a completely clean working area cannot be provided.

In addition to this, a dust collecting apparatus which is used only by putting onto the driller bit without connecting to the driller body and which has a design necessitating that it is used by pressing through the surface drilled during the drilling process carried out manually is present in another state of the art. However, it risks occupational safety because of its small structure and because of the fact that it necessitates that the user has to use the hand drill manually during the drilling process. On the other hand, there is a fixture mounted on the drill, which collects the forming debris in a chamber by vacuuming in the large type hand drills. Because of the cost increasing effect of this situation, its preference by the user is low.

In the patent document with the number of EP2067554 (B l); the method of vacuuming of dusts spreading around in the drills and milling machines used especially in the machine manufacturing industry is shown, and this method cannot provide complete cleaning of the working space and enough efficiency in the hand drills used in small areas.

In the patent document with the number of SE457571 (B); a suction pipe attached to the drill bit is mentioned and the residuals forming as a result of the drilling process are cleaned via the suction pipe and collected in a chamber. Because this state of the art has a cost increasing effect, its preference by the user is low.

In another state of the art, there are dust collector and drill guiding apparatus which are designs of some hand tool producer firms. However; because they are compatible only with the hand drills produced by the firm, the price of the drill sold together with said apparatus is far above the average and it imposes an additional burden for a normal user who does not often work with drills.

Brief Description of the Invention The aim of the invention is specially to remove these known disadvantages of the art. The invention comprises directing of the air motion made by rotating of the rotor shaft of the manual or computer controlled machine performing drilling or cutting process via a guiding and/or directing apparatus mounted on the drill bit. The disclosed invention comprises throwing the residuals like debris, dust etc. forming during the drilling or cutting process out of the working space via the air motion directed.

The aim of the invention is to remove dusts or debris formed during drilling, cutting or engraving process with a high efficiency by the channel or wing on the apparatus direct air turbulence formed by the rotor shaft during the process by mounting the apparatus on all of boring, drill and milling bits in the existing systems.

Another aim of the invention is to provide that it can be used safely by mounting onto the manual or computer controlled machines, performing drilling or cutting process, which are common types that can be found in the market easily.

Another aim of the invention is to provide throwing debris, dust and other residuals forming during the cutting or drilling out of the close working space by directing the air motion formed by the cutter or driller bit during rotation with said apparatus. In the CNC type movable bits processing according to the coordinates given on the template, it is provided that the close working space of said bits stays clean constantly due to the guiding and/or directing apparatus. Therefore, visual observation of the process is carried out clearly and also the machine can be interfered in case of possible deflections or mistakes. In addition; dust, debris and other residuals forming while drilling, cutting, engraving area etc. are carried out covers lines showing other project details that is wanted to be cut or emptied in the working plan during the usage of computer controlled tools or hand tools on the purpose of drilling, cutting etc. This situation can cause drilling, cutting processes etc. to be carried out wrongly. Due to this invention, it is provided that the drilling or cutting process is carried out in a straighter way and also it is provided that steps of the drilling and cutting processes are followed easily. Preventing work and material loss that are one of the other disadvantages of the existing technology can be possible. Another aim of the invention is to remove dusts functionally during the drilling process by positioning it onto a point around the driller bit without putting it onto the drill bit.

The apparatus mounted on the drill bit starts to rotate with rotation of the drill bit and the air passing through the director apparatus which is present on the drill bit is directed and therefore, the air vortex or wind occurring removes residuals like debris, dust etc. spreading around during drilling from close working space by blowing. Thus; the dashes wanted to be cut in the work plan that is intended to be done, lines or upside of the lines showing other project details are kept clean, the visual observability of the work plan is provided.

Another aim of the invention is to be able to make a selection according to the process area and desired efficiency via options of two types of the guiding and/or directing apparatus. The wing type can be selected at the surfaces having large process area; the channel type can be selected at the smaller process areas.

Another aim of the invention is to provide that it is mounted on drill practically by threading the driller bit or by positioning around the bit.

Figures Which Help for Understanding of the Invention

Figure 1 : The perspective view of the channel type guiding and/or directing apparatus mounted on the drill bit

Figure 2: The perspective view of the wing type guide mounted on the drill bit

Figure 3: The perspective view of the toothed wing type guide mounted on the drill bit

Figure 4: The perspective view of the downward sloping type guide mounted on the drill bit

Figure 5: The perspective view of the upward sloping type guide mounted on the drill bit

Figure 6: The perspective view of the hubless type guide mounted on the drill bit

Figure 7: The top view of the channel type guiding and/or directing apparatus Figure 8: The top view of the wing type guiding and/or directing apparatus Figure 9: The top view of the toothed wing type guide Figure 10: The top view of the downward sloping wing type guide

Figure 11 : The top view of the upward sloping wing type guide

Figure 12: The top view of the hubless wing type guide

Figure 13: The perspective view of the wing type guiding and/or directing apparatus

Description of the References in the Figures:

The parts in the attached figures are numbered respectively for the purpose of this invention and the equivalents of these numbers are given below.

1. Guiding and/or directing apparatus

11. Channel type guiding and/or directing apparatus

111. Channel

12. Wing type guiding and/or directing apparatus

121. Flap

122. Toothed wing type guiding and/or directing apparatus 1221. Tooth

123. Downward sloping wing type guiding and/or directing apparatus

1231. Downward sloping flaps

124. Upward sloping wing type guiding and/or directing apparatus

1241. Upward sloping flaps

125. Hubless wing type guiding and/or directing apparatus

1251. Hubless type flap

2. Drill bit

3. Rotor body shaft

Detailed Description of the Invention

The invention comprises mounting of a guiding and/or directing apparatus comprising one or more channel(l l) or one or more wing(12) on the drill bit(2). The guiding and/or directing apparatus(l) comprises a channel(l l l) or channels(l l l) and flap(121) or flaps(121) which are one or more and are parallel or angled to the axis of the drill bit(2) and they are in the cutting direction or opposite of the cutting direction.

This flap(121) or flaps(121) or channel(l l l) or channels(l l l) direct the air motion occurring during rotation to the drill bit(2) or to the direction that the drill bit(2) is connected to the device.

When the motor which the drill bit(2) is connected to works, it turns the drill bit(2) and said guiding and/or directing apparatus(l) rotates together with the drill bit(2).

Said guiding and/or directing apparatus(l) can be made of wood, metal, cellulose or other natural materials or different composites or alloys of them and also it can be made of polypropylene, polyethylene, polyester or other synthetic materials, mixtures or composites of them. Said guiding and/or directing apparatus(l) can be also produced from soft materials like rubber or other rigid materials. A hole having a size that the drill bit fits into it is present at the middle of said guiding and/or directing apparatus(l). Said guiding and/or directing apparatus(l) made of synthetic or natural materials can be mounted by pressing onto a place on the drill bit(2) or a place between a location where the cutter part ends and a back of the drill bit(2), or the guiding and/or directing apparatus( 1) is fixed onto the drill bit(2) with the help of an adhesive after the drill bit(2) is threaded in the guiding and/or directing apparatus(l) from the hole at the middle of it(l).

The disclosed invention is the guiding and/or directing apparatus(l), it consists of the types of the channel type guiding and/or directing apparatus(l 1) and the wing type guiding and/or directing apparatus(12).

The lower versions of the wing type guiding and/or directing apparatus(12) according to the flap(121) and body structure consist of toothed wing type guiding and/or directing apparatus(122), downward sloping wing type guiding and/or directing apparatus(123), upward sloping wing type guiding and/or directing apparatus(124), hubless wing type guiding and/or directing apparatus(125).

There can be one or more flaps(121) according to the flap(121) type and capacity preference. The air stream formed by the tooth(1221) mounted on the toothed wing type guiding and/or directing apparatus(122) is preferred mostly in the drilling processes carried out in small scale areas.

The downward sloping wing type(123) provides removing debris powerfully by directing air to the working platform via the angle of the downward sloping flaps(1231) on the downward sloping wing type(123).

The upward sloping wing type guiding and/or directing apparatus(124) and upward sloping flaps(1241) which it has on itself provide removing debris powerfully by directing air to the rotor body shaft(3). The upward sloping wing type guiding and/or directing apparatus(124) and downward sloping wing type guiding and/or directing apparatus(123) directs air to the drill bit(2) or to the rotor body shaft(3) where the drill bit is attached according to the direction of rotation of the downward sloping flap(1231) upward sloping flap(1241). For example, downward sloping wing type guiding and/or directing apparatus(123) directs the air stream upwards with the rotation of the drill bit(2) in the opposite direction.

The guiding and/or directing apparatus(l) can be positioned on a point around the drill bit(2) in all types. The guiding and/or directing apparatus(l) can be mounted with injection or adhesive bonding. In the injection method, its mounting on the drill bit(2) is provided via physical compression.

The hubless type flap(1251) consists of one or more downward sloping wing(1231) or upward sloping wing(1241) or flaps, which can be mounted via bonding method.

When the drill bit(2) positions as perpendicular to the working platform during the drilling process, the channel type guiding and/or directing apparatus(l l) and the wing type guiding and/or directing apparatus(12) are parallel to the working platform. Thus, the channel type guiding and/or directing apparatus(l 1) and wing type guiding and/or directing apparatus(12) which answer to this description have agonic property. When the drill bit(2) positions as perpendicular to the working platform during the drilling process, the channel type guiding and/or directing apparatus(l l) and the wing type guiding and/or directing apparatus(12) can position on the working platform with an angle larger than zero degree.

Claims

The invention is a guiding and/or directing apparatus(l) having a property of providing that residuals like debris, dust etc. formed by the drill bit(2) during the cutting or drilling process in the hand drills or computer controlled tools performing cutting or drilling process are removed via air vortex or wind, it is characterized by having the types of channel type guiding and/or directing apparatus(l l), wing type guiding and/or directing apparatus(12), toothed wing type guiding and/or directing apparatus(122), downward sloping wing type guiding and/or directing apparatus(123), upward sloping wing type guiding and/or directing apparatus(124) and hubless wing type guiding and/or directing apparatus(125).

It is a channel type guiding and/or directing apparatus(l 1) mentioned in Claim 1, and it is characterized by having one or more channel(l 11) or channels(l 11) on itself.

It is a wing type guiding and/or directing apparatus(12) mentioned in Claim 1, and it is characterized by having one or more flap(121) or flaps(121) on itself.

It is a toothed wing type guiding and/or directing apparatus(122) mentioned in Claim 1, and it is characterized by having one or more tooth(1221) or teeth(1221) on itself.

It is a downward sloping wing type guiding and/or directing apparatus(123) mentioned in Claim 1, and it is characterized by having one or more downward sloping flaps(1231) on itself.

It is an upward sloping wing type guiding and/or directing apparatus(124) mentioned in Claim 1, and it is characterized by having one or more upward sloping flaps(1241) on itself.

It is a hubless wing type guiding and/or directing apparatus(125) mentioned in Claim 1, and it is characterized by having a hubless type flap(1251) on itself.

A guiding and/or directing apparatus(l) according to claim 1 characterized in that it can be made of a rigid or soft polymeric, composite, synthetic or wood, metal or other natural materials or composites of these.

9. A guiding and/or directing apparatus(l) according to claim 1 characterized by having a larger diameter than the drill bit(2).

10. A guiding and/or directing apparatus(l) according to claim 1 or claim 2 characterized in that the flaps(121) on the guiding and/or directing apparatus(l) can make an angle to the drilling axis, which is equal to

90° or larger or less than 90°.

11. A guiding and/or directing apparatus(l) according to claim 1 characterized in that it provides to remove the residuals like debris, dust etc., formed during the drilling or cutting process of the drill bit(2), out of the close working area, via air motion formed by the rotation of the rotor body shaft(3).

12. A guiding and/or directing apparatus(l) according to claim 1 characterized in that it can front on to the same direction or opposite direction with the sharp part of the drill bit(2) performing the drilling process.

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Figure 13