WO2023057664A1 - Supports with precision rotary features for drills and screw attachment - Google Patents

Supports with precision rotary features for drills and screw attachment Download PDF

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Publication number
WO2023057664A1
WO2023057664A1 PCT/ES2022/000039 ES2022000039W WO2023057664A1 WO 2023057664 A1 WO2023057664 A1 WO 2023057664A1 ES 2022000039 W ES2022000039 W ES 2022000039W WO 2023057664 A1 WO2023057664 A1 WO 2023057664A1
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WO
WIPO (PCT)
Prior art keywords
precision
supports
suction cup
screws
support
Prior art date
Application number
PCT/ES2022/000039
Other languages
Spanish (es)
French (fr)
Inventor
Miguel GONZÁLEZ ESCOBAR
Original Assignee
Gonzalez Escobar Miguel
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by Gonzalez Escobar Miguel filed Critical Gonzalez Escobar Miguel
Publication of WO2023057664A1 publication Critical patent/WO2023057664A1/en

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Classifications

    • BPERFORMING OPERATIONS; TRANSPORTING
    • B23MACHINE TOOLS; METAL-WORKING NOT OTHERWISE PROVIDED FOR
    • B23BTURNING; BORING
    • B23B49/00Measuring or gauging equipment on boring machines for positioning or guiding the drill; Devices for indicating failure of drills during boring; Centering devices for holes to be bored
    • B23B49/02Boring templates or bushings
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B23MACHINE TOOLS; METAL-WORKING NOT OTHERWISE PROVIDED FOR
    • B23HWORKING OF METAL BY THE ACTION OF A HIGH CONCENTRATION OF ELECTRIC CURRENT ON A WORKPIECE USING AN ELECTRODE WHICH TAKES THE PLACE OF A TOOL; SUCH WORKING COMBINED WITH OTHER FORMS OF WORKING OF METAL
    • B23H1/00Electrical discharge machining, i.e. removing metal with a series of rapidly recurring electrical discharges between an electrode and a workpiece in the presence of a fluid dielectric
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B23MACHINE TOOLS; METAL-WORKING NOT OTHERWISE PROVIDED FOR
    • B23QDETAILS, COMPONENTS, OR ACCESSORIES FOR MACHINE TOOLS, e.g. ARRANGEMENTS FOR COPYING OR CONTROLLING; MACHINE TOOLS IN GENERAL CHARACTERISED BY THE CONSTRUCTION OF PARTICULAR DETAILS OR COMPONENTS; COMBINATIONS OR ASSOCIATIONS OF METAL-WORKING MACHINES, NOT DIRECTED TO A PARTICULAR RESULT
    • B23Q1/00Members which are comprised in the general build-up of a form of machine, particularly relatively large fixed members
    • B23Q1/25Movable or adjustable work or tool supports
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B23MACHINE TOOLS; METAL-WORKING NOT OTHERWISE PROVIDED FOR
    • B23QDETAILS, COMPONENTS, OR ACCESSORIES FOR MACHINE TOOLS, e.g. ARRANGEMENTS FOR COPYING OR CONTROLLING; MACHINE TOOLS IN GENERAL CHARACTERISED BY THE CONSTRUCTION OF PARTICULAR DETAILS OR COMPONENTS; COMBINATIONS OR ASSOCIATIONS OF METAL-WORKING MACHINES, NOT DIRECTED TO A PARTICULAR RESULT
    • B23Q1/00Members which are comprised in the general build-up of a form of machine, particularly relatively large fixed members
    • B23Q1/70Stationary or movable members for carrying working-spindles for attachment of tools or work
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B23MACHINE TOOLS; METAL-WORKING NOT OTHERWISE PROVIDED FOR
    • B23QDETAILS, COMPONENTS, OR ACCESSORIES FOR MACHINE TOOLS, e.g. ARRANGEMENTS FOR COPYING OR CONTROLLING; MACHINE TOOLS IN GENERAL CHARACTERISED BY THE CONSTRUCTION OF PARTICULAR DETAILS OR COMPONENTS; COMBINATIONS OR ASSOCIATIONS OF METAL-WORKING MACHINES, NOT DIRECTED TO A PARTICULAR RESULT
    • B23Q11/00Accessories fitted to machine tools for keeping tools or parts of the machine in good working condition or for cooling work; Safety devices specially combined with or arranged in, or specially adapted for use in connection with, machine tools
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B23MACHINE TOOLS; METAL-WORKING NOT OTHERWISE PROVIDED FOR
    • B23QDETAILS, COMPONENTS, OR ACCESSORIES FOR MACHINE TOOLS, e.g. ARRANGEMENTS FOR COPYING OR CONTROLLING; MACHINE TOOLS IN GENERAL CHARACTERISED BY THE CONSTRUCTION OF PARTICULAR DETAILS OR COMPONENTS; COMBINATIONS OR ASSOCIATIONS OF METAL-WORKING MACHINES, NOT DIRECTED TO A PARTICULAR RESULT
    • B23Q3/00Devices holding, supporting, or positioning work or tools, of a kind normally removable from the machine
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B25HAND TOOLS; PORTABLE POWER-DRIVEN TOOLS; MANIPULATORS
    • B25HWORKSHOP EQUIPMENT, e.g. FOR MARKING-OUT WORK; STORAGE MEANS FOR WORKSHOPS
    • B25H1/00Work benches; Portable stands or supports for positioning portable tools or work to be operated on thereby
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B23MACHINE TOOLS; METAL-WORKING NOT OTHERWISE PROVIDED FOR
    • B23PMETAL-WORKING NOT OTHERWISE PROVIDED FOR; COMBINED OPERATIONS; UNIVERSAL MACHINE TOOLS
    • B23P19/00Machines for simply fitting together or separating metal parts or objects, or metal and non-metal parts, whether or not involving some deformation; Tools or devices therefor so far as not provided for in other classes
    • B23P19/04Machines for simply fitting together or separating metal parts or objects, or metal and non-metal parts, whether or not involving some deformation; Tools or devices therefor so far as not provided for in other classes for assembling or disassembling parts
    • B23P19/06Screw or nut setting or loosening machines

Definitions

  • the invention relates to various supports with precision rotating elements, with coupling for bits and coupling for alien keys.
  • the precision support with electromagnet which is made up of a casing, having a precision rotating axis with bearings in its upper part, which is secured by two clamps with their corresponding screws, together with the clamps on the front.
  • the tray In the upper part, the tray is located to collect the fragments that come off the holes to be made, and inside said tray, there is an LED light to illuminate the work area, and just below the tray for the fragments
  • the electromagnet with its switch which is powered by an electrical cable that is connected to the network (it could also be powered by a battery), inside the casing at the top, there is a box with its corresponding lid to store the electrical cables, and on the opposite side of the electromagnet, you can see the rubber-covered handle with the switch that activates the LED light (for more information see figure 1, where the different supports are shown).
  • the precision support with magnet being composed of a casing that has a rubber-coated handle on one of its sides, and on its opposite part, a magnet, just above both, the two jaws are located with their corresponding screws holding the rotating axis with bearings prisoner, right next to it and above the magnet, is the tray for the fragments with an LED light inside, which is powered by batteries, being these inside a box which is located in the upper part of the casing below the jaws, said box having a lid, the LED light switch is located on the front of the rubber-lined handle.
  • the precision support with a rubber base is made up of a casing that has a rubber-coated handle on one of its sides, and in front of it, a rubber base, and just above, the two jaws are located with their corresponding screws keeping the rotating axis with bearings prisoner, next to it and above the rubber base, the tray for the fragments is located with an LED light inside, which is powered by batteries, being these inside a box that It is located in the upper part of the casing below the jaws, said box having a lid, the LED light switch is located on the front of the rubber-lined handle
  • This other precision support with suction cup and angular extension is made up of a casing that has a rubber-coated handle on one of its sides, and on the opposite side, a rubber base, just above both, the two clamps with their corresponding screws holding the rotating axis with bearings prisoner, right next to it and above the rubber base, the fragment tray is located with an LED light inside, which is powered by batteries, being these in the interior of a box that is located in the upper part of the casing below the jaws, said box having a lid, the LED light switch is located on the front of the rubber-lined handle, in the lower part of the casing, there are the pressure screws with knobs, which are joined with the metric plates, imprisoning the casing and the guide of the angle extension to leave the separation to the precise measurement and later block it, below the angle extension is located the suction cup, said suction cup is unified with the vertical extension through the union screws.
  • the precision support with suction cup and vertical extension is made up of a casing that has a rubber-coated handle on one of its sides and on the opposite side, a rubber base, just above both, the two clamps are located with their corresponding screws keeping the rotating axis with bearings prisoner, right next to it and above the rubber base, the fragments tray is located with an LED light inside, which is powered by batteries, being these inside of a box that is located in the upper part of the casing below the jaws, said box having a lid, the LED light switch is located on the front of the rubber-lined handle, in the lower part of the casing , there is the leveling screw with knob having a rubber stop allowing the vertical extension to slide through the adjustment guide, the suction cup is located below the vertical extension, said suction cup is unified with the vertical extension through the union screws.
  • a suction cup which is made up of a casing that has a rubber-coated handle on one of its sides, and on the opposite side, a base also made of rubber, just above both, the two clamps are located with their corresponding screws holding the rotating shaft with bearings prisoner, right next to it and above the rubber base, the tray for the fragments is located with a LED light inside, which is powered by batteries, being these inside a box that is located in the upper part of the casing below the jaws, said box having a lid, the LED light switch is Located on the front of the rubber-lined handle, below the casing, the suction cup is located, remaining unified with the casing through the union screws, for its adherence to aluminium, glass, iron or ceramic.
  • the supports with precision rotating elements for drills and fixing screws are made up of several common elements, such as; a casing, a precision rotating shaft with bearings, two jaws, a bit attachment and an alien key attachment, a fragment tray, a rubber covered handle, a switch for the LED light, a battery box and its corresponding cap.
  • These common elements described it has, the precision support with a magnet base, the precision support with the rubber base, the precision support with electro magnet, the precision support with suction cup and angle extension and the precision support with suction cup and vertical extension.
  • the precision holder with electromagnet has all the common elements described, plus a switch for the electromagnet and an electrical cable.
  • the precision support with suction cup and angle extension has all the common elements described plus a suction cup, the angle extension guide, pressure screws with knobs, metric flat plates and union screws.
  • the precision support with suction cup and vertical extension has all the common elements described plus a suction cup, the extension guide that is vertical, a leveling screw with knob and rubber stop.
  • iron plate is applied to the magnet, being very necessary for the simple reason that if the iron residues adhere directly to the magnet, detaching them would be quite a feat, however, on the iron plate they remain adhered until the plate is separated from the magnet, the other rubber plate is recommended to apply it on the electromagnet or the magnet when necessary, to avoid scratching the surface, at the same time that an interesting lateral adherence is achieved.
  • Figure 1.- Is a side sectional view of the different supports with precision rotating elements of the invention.
  • Figure 2.- Is a side section view of the different supports with precision rotating elements attached to different tubes and surfaces.
  • Figure 3 It is a side section view of three of the supports with precision rotating elements, with their corresponding holes going through some tubes
  • Figure 4. It is a side section view of three of the supports with precision rotating elements with suction cups, with their corresponding holes going through some tubes
  • Figure 5. It is a sectional view showing the adherence capacity of the precision support with electromagnet, with one of the holes suspended preventing it from tipping over.
  • Figure 6.- Is a side section view, in side perspective and exploded view of the precision support with electromagnet, with some couplings.
  • Figure 7.- Is a side section view of the precision support with magnet, with the rubber and iron plates.
  • Figure 8 It is a side section view of the precision support with suction cup, with the handle in the closed and open position
  • Figure 9 It is a side, front front and rear front section view of the precision support with suction cup and angular extension, with the handle in the closed and open position.
  • Figure 10. It is an inverted view and in lateral section, front front and front rear, of the precision support with suction cup and angular extension, with the handle in the closed and open position.
  • Figure 11. Is a side sectional view, front front and rear front, of the precision support with suction cup and vertical extension, with the handle in the closed and open position.
  • Figure 12. It is an inverted view and in lateral section, front front and rear front, of the precision support with suction cup and vertical extension, with the handle in the closed and open position.
  • Figure 13 Is a side sectional view of the precision support with magnet, showing the coupling for bits, and the bit, before and after being fixed to the drill and inserted inside the precision rotating shaft with bearings.
  • Figure 14. It is a side view of the metric deep head screw with pointed end, with the allen key with handle, and the self-tapping deep head screw with the drill and the allen key.
  • Figure 15. It is a side view of the deep-headed self-tapping screw perfectly connecting and attracting the tube to be fixed, and the same deep-headed screw with self-tapping connecting and attracting the tube to be fixed irregularly
  • Figure 16. It is a side section view of the precision support with the rubber base, where you can see the coupling for bits, and the bit, before and after being fixed to the drill and introduced inside the rotating axis of precision with bearings, and the socket wrench with the coupling for socket before and after being inserted into the rotating shaft of precision with bearings.
  • Figure 17. It is a lateral and perspective view, where the precision rotary axes with bearings are shown, with different sizes of couplings for bits and coupling for the allen key.
  • Figure 18. It is a side view of the metric deep head screw with a pointed end, with the allen wrench with a handle trying to connect with the holes made in the tubes for free, and the same allen wrench with a normal screw.
  • Figure 19. It is a side view of the deep head and metric screw with a pointed end, with the allen wrench with handle being guided by a precision support, and the same precision support guiding the allen wrench with handle and a screw normal.
  • Figure 20 - It is a side view of the metric deep head screw finished in end, with the allen key with handle trying to connect freely with the holes made in the tubes, and the same allen key and the same screw being guided by a precision support.
  • Figure 1 in which a lateral section view can be seen starting from the upper left margin, the support with electromagnet 1A, which is composed by a casing 1, having in its upper part a precision rotating axis with A2 bearings, being secured by two A3 clamps with their corresponding screws 5, on the upper front, the A4 fragment tray is located, and inside it there is an LED light A5, just below the tray for the fragments A4, you can see the electromagnet A1, which is powered by an electrical cable 3 that is connected to the network, the electromagnet being activated by a switch 2, in Inside the casing 1, in its upper part, the box 6 is located to store the electrical cables 3 that feed the LED light A5 and the electromagnet A1.
  • the precision support with magnet 1 B is made up of a casing 1, which has a rubber-coated handle 24, a magnet A6, and two jaws A3 with their corresponding screws 5 that hold the rotary axis with bearings A2 prisoner, above from the magnet A6, the tray for the fragments A4 is located with an LED light A5 inside, which is powered by batteries 25, these being found inside the box 6, said box 6 having a lid 26.
  • the switch 4 of the A5 LED light is located on the front of the rubber-covered handle 24.
  • the precision support with the rubber base 1C is made up of a casing 1, which has a rubber-coated handle 24 on one of its sides, and in front of it, an A7 base, also made of rubber, and just above, the two A3 clamps are located with their corresponding screws 5, holding the rotating axis prisoner with A2 bearings, next to it, is the tray for the A4 fragments with a light LED A5 inside, which is powered by batteries 25, these being found inside a box 6 of the casing 1, said box 6 having a lid 26, the switch 4 of the LED A5 light is located on the front of the rubber-covered handle 24.
  • the precision support with suction cup and angle extension 1 D consists of a casing 1 that has one of its sides have a handle lined with rubber 24, and a rubber base A7, just above the two jaws A3 with their corresponding screws 5 holding the rotating axis prisoner with A2 bearings, and next to it, the tray for the A4 fragments with an A5 LED light inside, which is powered by batteries 25, these being found inside a box 6 of the casing 1, said box 6 having a lid 26, the switch 4 of the A5 LED light is located in the handle covered with rubber 24, in the lower part of the casing 1, the pressure screws with knobs A8 are located, which are joined with the plates with metric 7, imprisoning when necessary the casing 1 and the guide of the angle extension A10, below this, the suction cup A12 is located with the handle 9 and the union screws A17.
  • the precision support with suction cup and vertical extension 1 E is identical to the precision support 1 D, the only difference is the leveling screws with A9 knobs, which have rubber stops 8, and the extension guide, which is vertical A11, instead of angular A10, having the same suction cup A12.
  • the precision support with suction cup 1F is identical to the precision support with suction cup and vertical extension 1 E, and the precision support with suction cup and angular extension 1 D, the differential elements are, which lacks the A7 rubber base, extensions A10 and A11, and screws with A8 and A9 knobs
  • Figure 2 shows in a side view and in section, the precision support with electromagnet 1A attached to the iron tube 16 and this, attached to the tube 18.
  • the precision support with magnet 1B is attached to a tube of iron 16 and tube 18.
  • the precision support with rubber base 1C can be seen attached to what could be an iron tube 16 or an aluminum tube 17 and these connected to tube 18.
  • the precision support with suction cup and angle extension 1D shown with the suction cup A12 attached to the glass 21 and attached to the aluminum mullion profile 19 for curtain wall buildings, and to the tube 18.
  • the precision bracket with suction cup and vertical extension 1E can be seen with the suction cup A12 attached to the glass 21 and attached to the aluminum crossbar profile 20 for curtain wall buildings, and to the tube 18.
  • the precision support with suction cup 1F is shown attached through the suction cup A12 to what could be a polished iron tube 16, a tube aluminum 17, a glass 21 or a ceramic plate 22, next to the tube 18
  • Figure 3 shows a side view and in section, the precision support with electromagnet 1A, with the drill 13, and the bit 15, passing through the coupling for bits A13 as it is inserted into the rotating shaft with bearings A2.
  • precision holder with magnet 1B shown with hole 13, and bit 15, passing through the coupling for drill bits A13 when it is inserted in the rotary axis with bearings A2
  • the precision support with rubber base 1C is shown with the hole 13, and the drill bit 15, passing through the coupling for drill bits A13 when it is inserted in the rotary axis with A2 bearings.
  • the precision support with suction cup and angular extension 1D is shown in a side view and in section, with the drill 13 and the bit 15, passing through the bit coupling A13 while it is inserted into the rotary axis.
  • A2 bearings see below the casing 1 the angle extension A10 as it is connected to the suction cup A12 through the union screws A17, on its upper edge, the precision support with suction cup and vertical extension 1E.
  • figure 5 it is shown in a side view and in section, and on the letter A, the drill 13, and the bit 15, passing through the precision support with electromagnet 1A, see on the letter B an example of the utility of the 1A precision support with electromagnet, by keeping the drill 13 supported, preventing it from tipping over, very useful when the operator leaves the machine suspended while searching for the necessary tools
  • figure 6 it is shown in a side view, in side perspective, and in section, starting from the upper left margin, the rotary axis with bearings A2 with bearings 11, and next to it, the coupling for drill bit A13 and the coupling for A14 allen keys with their stops 10, see above the letter A, in exploded form, the precision support with electromagnet 1A, with jaws A3 and holes with metric 27, below the jaws A3 the rotating axis is located with bearings A2, note in the upper part of the casing 1, the tray for fragments A4, and below, the electromagnet A1 with its switch 2, and the electrical cable 3, in the opposite part of the electromagnet A1, the handle is located covered with rubber 24 with switch 4 of the LED light A5, on the letter B, you can see in a compact way, the same elements that make up the precision support with electromagnet 1 A, already described on the letter A, and as the only difference, we can see that it has the coupling for A13 bits, on the letter C, it is shown with the elements described on the letter A,
  • the precision support with magnet 1 B is shown in a side section view, providing four solutions, the first, on the letter A, with the magnet base A6, the next on the letter B, before of A15 rubber plate or A16 iron plate being connected to A6 magnet base, on the letter C you can see the A16 iron plate connected to the A6 magnet base, and on the letter D, it is shown with the rubber plate A15 connected to magnet base A6.
  • figure 8 it is shown in a side section view and on the letter A, the precision support with suction cup 1F with the suction cup A12, and the handle 9 in closed position, and on the letter B, the handle 9 in closed position. open.
  • Figure 9 shows a side sectional view on the letter A, the precision support with suction cup and angle extension 1D. with the handle 9 in the open position, and the pressure screws with knob A8 with the plates with metric 7 controlling the sliding of the angle extension A10 to move the suction cup A12 to the precise point, see how the angle extension A10 is connected to the suction cup A12 through the union screws A17, on the letter B, the same elements described in the letter A, with another displacement of the angle extension A10 and the suction cup A12, see how the handle 9 is in the closed position, observe on the letter C In a front front view, the precision mount with suction cup and 1D angle extension with the lever 9 in the closed position, and above the letter D, in a rear front view, the precision mount with suction cup and 1D angle extension, with the handle 9 in closed position.
  • Figure 10 shows an inverted view in relation to figure 9, the precision support with suction cup and 1D angle extension, this inverted view is to show that the precision support with suction cup and 1D angular extension can work In any position, specifically in this position, the A4 fragment tray loses its effectiveness.
  • Figure 11 shows a side sectional view, and above the letter A, the precision support with suction cup and vertical extension 1 E. with the handle 9 in the open position, and the leveling screw with knob A9 with stop rubber 8 allowing through gluttony adjustment 23 that the vertical extension A11 slides vertically, displacing the suction cup A12.
  • the same elements described in letter A with a different displacement of the vertical extension A11 and the suction cup A12, see with handle 9 in the closed position.
  • Figure 12 shows an inverted view in relation to figure 11, the precision support with suction cup and vertical extension 1 E, this inverted view is to show that the precision support with suction cup and vertical extension 1E can work in any position, in this particular position, the A4 fragment tray is not effective.
  • the precision holder with magnet 18 is shown in a side section view, where it can be seen in a staggered manner, the coupling for bits A13 with the coupling stop 10, and the bit 15, before and after be fixed to the hole 13 and introduced inside the precision rotary axis with bearings A2.
  • Figure 14 shows in a side view and on the letter A, the deep-headed and metric screw with a pointed end 2A in transparency, with the allen key with handle 14 to show the internal connection, on the letter 8, the socket wrench with handle 14 and the 2A pointed metric deep head screw in a normal view, above the letter C, the 2A metric deep socket screw in transparency with the 14 socket wrench. and above the letter O, the metric deep head screw with pointed end 2A connected to the allen key 14 and the drill 13.
  • figure 15 it is shown in a side view and on the letter A, the deep head screw with self-tapping 2B, going through the tube 17, connecting and attracting the tube 18 to be fixed in parallel, and on the letter 8, the same screw deep head with self-tapping 2B, connecting and attracting the tube 18 irregularly due to the inclination of the screw 2B itself.
  • a lateral section view is shown on the letter A, the precision support with the rubber base 1C, where the coupling for drill bits A13 can be seen, and the drill bit 15, before and after being fixed. to hole 13 and introduced inside of the precision rotary axis with bearings A2, see how the bit 15 goes through the tube 18, and on the letter B, the precision support with the rubber base 1C, and the socket wrench 14 with handle, with the coupling for socket A14, before and after being inserted into the precision rotating shaft with A2 bearings, see socket wrench 14 with handle connecting 2A metric deep head screw to tube 18.
  • Figure 17 shows a perspective view on letter A, the coupling for drill bit A13 with its stop 10, entering the rotating shaft with bearings A2, and in detail the bearings 11, on letter B, the coupling for drill A14 with its stop 10, entering the rotary axis with bearings A2 and bearings 11 , on the letter C the rotary axis with bearings A2 and bearings 11 is shown, on the letter D in a side view, it can be seen the A13 drill bit coupling with its stop 10, being inserted into the rotary axis with A2 bearings and the bearings 11, see letter E, by way of a non-limiting example, different sizes of the A13 drill bit coupling and its stops 10, which can be coupled to any size of drill bit 15 on the market, on the letter F, different sizes of the coupling for A14 socket with its stops 10, being able to be coupled to any size of socket wrench 14, on the letter G in a side view, the couplings for drill A13 or couplings for alien A14 with their stops 10, and finally, on the letter H, the rotating
  • Figure 18 shows in a side view and above the letter A, the metric deep head screw with a pointed end 2A with the allen wrench 14 with a handle trying to connect freely (without a guide element) with the holes. 12 made in the tubes without detaching the deep headed and metric screw finished in a point 2A, and on the letter B, the same example with the allen key 14 with a normal screw 5 trying to connect also freely with the hole 12 output, and a sample of the drop of said screws 5 due to its limitation in fixing with the alien key 14 due to the lack of depth in the head of screw 5.
  • FIG 19 the metric deep head screw with pointed end 2A is shown in a side view and above the letter A, with the allen key 14 with handle being guided by a precision support 1C to hole 12, (which could be any other of the precision supports of the invention) and on the letter B, showing the effectiveness of guiding the normal screw 5 to hole 12, in this case the precision support 1C intervenes.
  • Figure 20 shows in a side view on the letter A, the metric deep head screw with a pointed end 2A, with the allen wrench 14 with a handle trying to connect freely with the holes 12 made in the tubes, and on the letter B, the same alien key 14 and the same screw 2A, being guided by a precision support 1C (it could be any other of the supports described in the patent).

Abstract

All supports with precision rotary features for drills and screw attachment are made up of several common features, such as a casing (1), a precision rotary shaft having bearings (A2), two clamps (A3), coupling for drill bits (A13) and coupling for Allen keys, a tray for the fragments, a rubber-coated handle (24), a switch for the LED light (2), a box (6) for the batteries (25) and the access cover (26) thereof. These common features described are part of the precision support with a magnet base (1B), the precision support with a rubber base (1C), the precision support with an electromagnet (1A), the precision support with a suction cup and angular extension (1D) and the precision support with a suction cup and vertical extension (1E). The precision support with an electromagnet (1A) has all the common features described, in addition to a switch for the electromagnet (2) and an electric cable (3). The precision support with a suction cup and angular extension (1D) has all the common features described, in addition to a suction cup (A12), the guide of the angular extension (10), pressure screws with knobs (A17), metered plates (7) and connecting screws (AS). The precision support with a suction cup and vertical extension (1E) has all the common features described, in addition to a suction cup (A12), the guide of the extension that is vertical (A11), a levelling screw with knob and rubber stop.

Description

Soportes con elementos giratorios de precisión para taladros y fijación de tornillos. Supports with precision rotating elements for drilling and fixing screws.
OBJETO DE LA INVENCIÓN OBJECT OF THE INVENTION
La invención se refiere a varios soportes con elementos giratorios de precisión, con acoplamiento para brocas y acoplamiento para llaves de alien. The invention relates to various supports with precision rotating elements, with coupling for bits and coupling for alien keys.
ANTECEDENTES DE LA INVENCIÓN BACKGROUND OF THE INVENTION
Poniendo como ejemplo, el soporte de precisión con electroimán, que está formado por una carcasa, disponiendo en su parte superior de un eje giratorio de precisión con cojinetes, quedando esté asegurado por dos mordazas con sus correspondientes tomillos, junto a las mordazas en el frontal superior, se localiza la bandeja para recoger los fragmentos que se desprendan de los taladros a efectuar, y en el interior de dicha bandeja, se encuentra una luz LED para iluminar la zona de trabajo, y justo por debajo de la bandeja para los fragmentos se encuentra el electroimán con su interruptor, que es alimentado por un cable eléctrico que es conectado a la red (también podria ser alimentado por batería), en el interior de la carcasa en su parte superior, se localiza la caja con su tapa correspondiente para almacenar los cables eléctricos, y en la parte opuesta del electroimán, se puede ver el asa forrada de caucho con el interruptor que acciona la luz LED (para más información véase la figura 1 , donde se muestran los distintos soportes). Taking as an example, the precision support with electromagnet, which is made up of a casing, having a precision rotating axis with bearings in its upper part, which is secured by two clamps with their corresponding screws, together with the clamps on the front. In the upper part, the tray is located to collect the fragments that come off the holes to be made, and inside said tray, there is an LED light to illuminate the work area, and just below the tray for the fragments Find the electromagnet with its switch, which is powered by an electrical cable that is connected to the network (it could also be powered by a battery), inside the casing at the top, there is a box with its corresponding lid to store the electrical cables, and on the opposite side of the electromagnet, you can see the rubber-covered handle with the switch that activates the LED light (for more information see figure 1, where the different supports are shown).
Otro de los soportes, es el soporte de precisión con imán, estando compuesto por una carcasa que posee en uno de sus lados un asa revestida de caucho, y en su parte contraria, un imán, justo encima de ambos, se localizan las dos mordazas con sus correspondientes tornillos manteniendo prisionero el eje giratorio con cojinetes, justo a su lado y por encima del imán, está la bandeja para los fragmentos con una luz LED en su interior, que es alimentada por pilas, encontrándose estas en el interior de una caja que se localiza en la parte alta de la carcasa por debajo de las mordazas, poseyendo dicha caja de una tapa, el interruptor de la luz LED se encuentra en el frontal del asa forrada de caucho. Another of the supports is the precision support with magnet, being composed of a casing that has a rubber-coated handle on one of its sides, and on its opposite part, a magnet, just above both, the two jaws are located with their corresponding screws holding the rotating axis with bearings prisoner, right next to it and above the magnet, is the tray for the fragments with an LED light inside, which is powered by batteries, being these inside a box which is located in the upper part of the casing below the jaws, said box having a lid, the LED light switch is located on the front of the rubber-lined handle.
El soporte de precisión con la base de caucho, está compuesto por una carcasa que posee en uno de sus lados un asa revestida de caucho, y frente a ella, una base también de caucho, y justo encima, se localizan las dos mordazas con sus correspondientes tornillos manteniendo prisionero al eje giratorio con cojinetes, a su lado y por encima de la base de caucho, se localiza la bandeja para los fragmentos con una luz LED en su interior, que es alimentada por pilas, encontrándose estas en el interior de una caja que se localiza en la parte alta de la carcasa por debajo de las mordazas, poseyendo dicha caja de una tapa, el interruptor de la luz LED se encuentra en el frontal del asa forrada de caucho The precision support with a rubber base, is made up of a casing that has a rubber-coated handle on one of its sides, and in front of it, a rubber base, and just above, the two jaws are located with their corresponding screws keeping the rotating axis with bearings prisoner, next to it and above the rubber base, the tray for the fragments is located with an LED light inside, which is powered by batteries, being these inside a box that It is located in the upper part of the casing below the jaws, said box having a lid, the LED light switch is located on the front of the rubber-lined handle
Este otro soporte de precisión con ventosa y alargador angular, está compuesto por una carcasa que posee en uno de sus lados un asa revestida de caucho, y en el lado contrario, una base también de caucho, justo encima de ambos, se localizan las dos mordazas con sus correspondientes tomillos manteniendo prisionero al eje giratorio con cojinetes, justo a su lado y por encima de la base de caucho, se localiza la bandeja para los fragmentos con una luz LED en su interior, que es alimentada por pilas, encontrándose estas en el interior de una caja que se localiza en la parte alta de la carcasa por debajo de las mordazas, poseyendo dicha caja de una tapa, el interruptor de la luz LED se encuentra en el frontal del asa forrada de caucho, en la parte baja de la carcasa, se encuentran los tornillos de presión con pomos, que se unen con las pletinas con métrico, aprisionando la carcasa y la gula del alargador angular para dejar la separación a la medida precisa y posteriormente bloquearla, por debajo del alargador angular se localiza la ventosa, dicha ventosa queda unificada con el alargador vertical a través de los tomillos de unión. This other precision support with suction cup and angular extension, is made up of a casing that has a rubber-coated handle on one of its sides, and on the opposite side, a rubber base, just above both, the two clamps with their corresponding screws holding the rotating axis with bearings prisoner, right next to it and above the rubber base, the fragment tray is located with an LED light inside, which is powered by batteries, being these in the interior of a box that is located in the upper part of the casing below the jaws, said box having a lid, the LED light switch is located on the front of the rubber-lined handle, in the lower part of the casing, there are the pressure screws with knobs, which are joined with the metric plates, imprisoning the casing and the guide of the angle extension to leave the separation to the precise measurement and later block it, below the angle extension is located the suction cup, said suction cup is unified with the vertical extension through the union screws.
El soporte de precisión con ventosa y alargador vertical, está compuesto por una carcasa que posee en uno de sus lados un asa revestida de caucho y en el lado contrario, una base también de caucho, justo encima de ambos, se localizan las dos mordazas con sus correspondientes tomillos manteniendo prisionero al eje giratorio con cojinetes, justo a su lado y por encima de la base de caucho, se localiza la bandeja para los fragmentos con una luz LED en su interior, que es alimentada por pilas, encontrándose estas en el interior de una caja que se localiza en la parte alta de la carcasa por debajo de las mordazas, poseyendo dicha caja de una tapa, el interruptor de la luz LED se encuentra en el frontal del asa forrada de caucho, en la parte baja de la carcasa, se encuentra el tornillo nivelador con pomo poseyendo un tope de caucho permitiendo a través de la guía de regulación que se deslice el alargador vertical, por debajo del alargador vertical se localiza la ventosa, dicha ventosa queda unificada con el alargador vertical a través de los tomillos de unión.The precision support with suction cup and vertical extension, is made up of a casing that has a rubber-coated handle on one of its sides and on the opposite side, a rubber base, just above both, the two clamps are located with their corresponding screws keeping the rotating axis with bearings prisoner, right next to it and above the rubber base, the fragments tray is located with an LED light inside, which is powered by batteries, being these inside of a box that is located in the upper part of the casing below the jaws, said box having a lid, the LED light switch is located on the front of the rubber-lined handle, in the lower part of the casing , there is the leveling screw with knob having a rubber stop allowing the vertical extension to slide through the adjustment guide, the suction cup is located below the vertical extension, said suction cup is unified with the vertical extension through the union screws.
Y por último, está el soporte de precisión con ventosa, que está compuesto por una carcasa que posee en uno de sus lados un asa revestida de caucho, y en el lado contrario, una base también de caucho, justo encima de ambos, se localizan las dos mordazas con sus correspondientes tomillos manteniendo prisionero al eje giratorio con cojinetes, justo a su lado y por encima de la base de caucho, se localiza la bandeja para los fragmentos con una luz LED en su interior, que es alimentada por pilas, encontrándose estas en el interior de una caja que se localiza en la parte alta de la carcasa por debajo de las mordazas, poseyendo dicha caja de una tapa, el interruptor de la luz LED se encuentra en el frontal del asa forrada de caucho, por debajo de la carcasa, se localiza la ventosa quedando unificada con la carcasa a través de los tomillos de unión, para su adherencia en el aluminio, vidrio, hierro o cerámica. And finally, there is the precision support with a suction cup, which is made up of a casing that has a rubber-coated handle on one of its sides, and on the opposite side, a base also made of rubber, just above both, the two clamps are located with their corresponding screws holding the rotating shaft with bearings prisoner, right next to it and above the rubber base, the tray for the fragments is located with a LED light inside, which is powered by batteries, being these inside a box that is located in the upper part of the casing below the jaws, said box having a lid, the LED light switch is Located on the front of the rubber-lined handle, below the casing, the suction cup is located, remaining unified with the casing through the union screws, for its adherence to aluminium, glass, iron or ceramic.
BREVE DESCRIPCIÓN DE LA INVENCIÓN BRIEF DESCRIPTION OF THE INVENTION
Los soportes con elementos giratorios de precisión para taladros y la fijación de tomillos, están formados por varios elementos comunes, como son; una carcasa, un eje giratorio de precisión con cojinetes, dos mordazas, acoplamiento para brocas y acoplamiento para llaves de alien, una bandeja para los fragmentos, un asa forrada de caucho, un interruptor para la luz LED, una caja para las pilas y su tapa correspondiente. Estos elementos comunes descritos, lo posee, el soporte de precisión con una base de imán, el soporte de precisión con la base de caucho, el soporte de precisión con electro imán, el soporte de precisión con ventosa y alargador angular y el soporte de precisión con ventosa y alargador vertical. The supports with precision rotating elements for drills and fixing screws, are made up of several common elements, such as; a casing, a precision rotating shaft with bearings, two jaws, a bit attachment and an alien key attachment, a fragment tray, a rubber covered handle, a switch for the LED light, a battery box and its corresponding cap. These common elements described, it has, the precision support with a magnet base, the precision support with the rubber base, the precision support with electro magnet, the precision support with suction cup and angle extension and the precision support with suction cup and vertical extension.
El soporte de precisión con electroimán posee todos los elementos comunes descritos, más un interruptor para el electroimán y un cable eléctrico. El soporte de precisión con ventosa y alargador angular posee todos los elementos comunes descritos más una ventosa, la guía del alargador angular unos tomillos de presión con pomos, unas pletinas con métrico y unos tornillos de unión. El soporte de precisión con ventosa y alargador vertical, posee todos los elementos comunes descritos más una ventosa, la guia del alargador que es vertical, un tomillo nivelador con pomo y tope de caucho. The precision holder with electromagnet has all the common elements described, plus a switch for the electromagnet and an electrical cable. The precision support with suction cup and angle extension has all the common elements described plus a suction cup, the angle extension guide, pressure screws with knobs, metric flat plates and union screws. The precision support with suction cup and vertical extension, has all the common elements described plus a suction cup, the extension guide that is vertical, a leveling screw with knob and rubber stop.
El complemento ideal para estos soportes descritos son el acoplamiento para brocas y el acoplamiento para llaves de alien, que se acoplan en el interior del eje giratorio de precisión con cojinetes, ajustándose a la medida necesaria de las brocas, o a la medida que precise de la llave de alien con mango, pudiendo ser el interior, tanto del acoplamiento para brocas, como el acoplamiento para llaves de alien, de cualquier medida de bracas o llaves de alien existentes en el mercado, el acoplamiento para brocas y el acoplamiento para llaves de alien, poseen unos topes de acoplamiento, para controlar y delimitar el empuje del taladro o la llave de alien (para más información véanse las figuras 6, 13, 16 y 17). The ideal complement to these described supports are the coupling for bits and the coupling for alien keys, which are coupled inside the precision rotating shaft with bearings, adjusting to the necessary size of the bits, or to the size required by the alien wrench with handle, the interior of both the bit coupling and the alien wrench coupling being any size of existing bits or alien wrenches on the market, the bit coupling and the coupling For allen keys, they have coupling stops to control and limit the thrust of the drill or allen key (for more information see figures 6, 13, 16 and 17).
Otros complementos que también aportan sus soluciones son, la placa de hierro, y la placa de caucho, la placa de hierro se aplica sobre el imán, siendo muy necesario por la sencilla razón que si los residuos de hierro se adhieren directamente sobre el imán, el deprenderlos seria toda una hazaña, sin embargo, sobre la placa de hierro quedan adheridos hasta que la placa es separada del imán, la otra placa de caucho, es recomendable para aplicarla sobre el electroimán o el imán cuando se precise, para evitar rallar la superficie, a la par que se consigue una adherencia lateral interesante. Other accessories that also provide their solutions are the iron plate and the rubber plate. The iron plate is applied to the magnet, being very necessary for the simple reason that if the iron residues adhere directly to the magnet, detaching them would be quite a feat, however, on the iron plate they remain adhered until the plate is separated from the magnet, the other rubber plate is recommended to apply it on the electromagnet or the magnet when necessary, to avoid scratching the surface, at the same time that an interesting lateral adherence is achieved.
Un elemento importante a proteger en la patente, por las distintas soluciones que aporta, es el tomillo con cabeza profunda con métrico acabado en punta, y el tornillo de cabeza profunda autorroscante, el tornillo con cabeza profunda con métrico acabado en punta, por sus características, puede contribuir a culminar con éxito su conexión desde el orificio de entrada al de salida a través de tubos cuadrados o rectangulares de cualquier tamaño, utilizando tanto las herramientas tradicionales de forma directa o a través de los soportes de precisión, siendo imprescindible el utilizar dicho tornillo sobre todo para atravesar los perfiles montantes de aluminio de los edificios muros cortina o fachadas ligeras, ya que estos suelen tener una pared de refuerzo intermedia de medidas considerables, si la conexión es a través de una herramienta tradicional se tardara bastante más (aunque culmine con éxito) que si se utiliza cualquiera de los soportes de precisión descritos en la patente, en cuanto al tornillo de cabeza profunda autorroscante si se utiliza con cualquiera de los soportes de precisión de la invención, con una llave de alien puesta en un taladro, se consigue una unión paralela e uniforme entre los tubos, sin embargo, el mismo tornillo, si se utiliza sin uno de los soportes de precisión, y conectan con el tubo a unir de forma angular, la conexión entre tubos será segura, pero puede ser irregular e imperfecta, (para más información véase la figura 15), siendo el principal culpable la inclinación, por la carencia de un elemento guia An important element to be protected in the patent, due to the different solutions it provides, is the screw with a deep head with a metric finish in a point, and the self-tapping screw with a deep head with a metric finish in a point, due to its characteristics , can contribute to the successful completion of the connection from the inlet to the outlet hole through square or rectangular tubes of any size, using both traditional tools directly or through precision supports, it being essential to use said screw especially to cross the aluminum stud profiles of buildings, curtain walls or light facades, since these usually have an intermediate reinforcement wall of considerable measures, if the connection is through a traditional tool it will take much longer (although it ends with success) that if any of the precision brackets described in the patent are used, as for the self-tapping deep head screw if used with any of the precision brackets of the invention, with an allen key placed in a drill, it will achieves a parallel and uniform joint between the tubes, however, the same screw, if used without one of the precision supports, and they connect with the tube to be joined in an angular way, the connection between tubes will be secure, but it can be irregular and imperfect, (for more information see figure 15), the main culprit being the inclination, due to the lack of a guide element
Habitualmente, se utilizan una amplia gama de soportes para taladros, pudiendo ser de sobremesa, o de mural con base magnética simple o con electroimán, también los hay con ventosas, y es cierto que con ellos se pueden hacer taladros de precisión, pero también es cierto que todos ellos suelen ser de unas medidas y peso considerables, y no se pueden utilizar en espacios reducidos, por ejemplo, para taladrar el perfil que forma el marco de un ventanal o halconera que linde con el suelo, o el perfil del techo o de las paredes, y también es cierto que todos ellos, carecen de un acoplamiento de precisión para poder colocar una llave de tubo, un destornillador o una llave de alien con o sin mango y asi poder atornillar en la distancia una vez efectuado el taladro el tomillo correspondiente, por ejemplo, atravesando un tubo cuadrado o rectangular de un extremo a otro, hasta conectar con el tubo o pieza anexa exterior, es evidente que es un problema el intentar introducir un tomillo por dentro de un tubo hasta el orificio de conexión de salida totalmente a ciegas, y contra mayor sea la anchura del tubo, peor, y es que no se puede ver a través del orificio de entrada, y al tropezar el tomillo con la pared frontal del tubo en las tentativas de localizar el orificio de salida, el tomillo se suele desprender de la herramienta de atornillar, y el problema no es el coste de los tomillos que se desprendan, sino, el tiempo que se pierde en efectuar la conexión entre elementos, que a veces hay que repetirla una y otra y otra vez, y no es que solo pierda el tiempo la persona que está intentando efectuar dicha conexión, ya que en ocasiones son varias las personas que dependen de la finalización de la operación, también se suelen utilizar elementos imantados para las conexiones, pero no suelen ser de mucha utilidad cuando el tornillo tropieza lateralmente junto al orificio de salida desprendiéndose del elemento imantado, teniendo que repetir la operación nuevamente, el problema se agrava cuando se intenta atravesar con un tomillo y su herramienta correspondiente, un perfil o tubo múltiple denominado montante para la construcción de los edificios de cristal, fachadas ligeras o muros cortina, ya que estos perfiles tienen una pared de refuerzo intermedia de un grosor considerable, y si en la tentativa de querer llegar al orificio exterior (de salida, para la conexión con el elemento anexo) pasando a través del orificio intermedio y se quedara atascado el tornillo en dicho orificio intermedio, la gravedad seria considerable al tener que repetir de nuevo taladros, dejando los anteriores sin cerrar, pudiendo derivar en filtraciones Usually, a wide range of supports for drills are used, which can be desktop, or wall-mounted with a simple magnetic base or with an electromagnet, there are also those with suction cups, and it is true that precision drills can be made with them, but it is also It is true that all of them are usually of considerable size and weight, and cannot be use in confined spaces, for example, to drill the profile that forms the frame of a window or falcon that borders on the floor, or the profile of the ceiling or walls, and it is also true that all of them lack a coupling of precision to be able to place a socket wrench, a screwdriver or an allen wrench with or without a handle and thus be able to screw in the distance once the hole has been made, the corresponding screw, for example, going through a square or rectangular tube from one end to the other , until connecting with the tube or external attached piece, it is evident that trying to introduce a screw inside a tube to the outlet connection hole blindly is a problem, and the greater the width of the tube, the worse, and it's that you can't see through the inlet hole, and as the screw bumps against the front wall of the tube in attempts to locate the outlet hole, the screw often comes loose from the driving tool, and the problem is not the cost of the screws that come off, but the time that is lost in making the connection between elements, which sometimes has to be repeated over and over and over again, and it is not that only the person who is trying to make the connection wastes time said connection, since sometimes there are several people who depend on the completion of the operation, magnetized elements are also used for the connections, but they are not usually very useful when the screw stumbles laterally next to the exit hole, detaching itself from the element magnetized, having to repeat the operation again, the problem is aggravated when trying to cross with a screw and its corresponding tool, a profile or multiple tube called upright for the construction of glass buildings, light facades or curtain walls, since these profiles have an intermediate reinforcement wall of considerable thickness, and if in the attempt to reach the outer hole (exit, for connection with the attached element) passing through the intermediate hole and the screw gets stuck in said hole intermediate, the seriousness would be considerable as having to repeat drills again, leaving the previous ones unclosed, which could lead to leaks
Otro de los problemas evidentes al intentar acertar desde el orificio de entrada practicado en un tubo, hasta el orificio de salida, son las cabezas de los tornillos que son muy limitadas en cuanto a su profundidad, con una punta cónica de conexión muy reducida, si estos elementos descritos dispusieran de unas medidas mayores, jugarían un papel importante a la hora de conexionar a ciegas a través de un simple orificio de entrada, evitando en gran medida que el tornillo se desprendiera de la herramienta de conexión al tropezar con la pared frontal en las tentativas de localizar el orificio de salida para ser atornillado Otras características y ventajas de los soportes con elementos giratorios de precisión para taladros y fijación de tornillos, objeto de la presente invención, resultarán evidentes a partir de ia descripción de una realización preferida, pero no exclusiva, que se ilustra a modo de ejemplo no limitativo en los dibujos que se acompañan, en los cuales: Another of the obvious problems when trying to hit from the entrance hole made in a tube, to the exit hole, are the heads of the screws that are very limited in terms of their depth, with a very reduced conical connection point, if These described elements had larger measurements, they would play an important role when connecting blindly through a simple entry hole, largely preventing the screw from detaching from the connection tool when bumping into the front wall in attempts to locate the exit hole to be screwed Other characteristics and advantages of the supports with precision rotating elements for drilling and fixing screws, object of the present invention, will be evident from the description of a preferred, but not exclusive, embodiment, which is illustrated by way of non-limiting example. in the accompanying drawings, in which:
BREVE DESCRIPCIÓN DE LOS DIBUJOS BRIEF DESCRIPTION OF THE DRAWINGS
Figura 1.- Es una vista en sección lateral de los distintos soportes con elementos giratorios de precisión de la invención. Figure 1.- Is a side sectional view of the different supports with precision rotating elements of the invention.
Figura 2.- Es una vista en sección lateral de los distintos soportes con elementos giratorios de precisión unidos a distintos tubos y superficies. Figure 2.- Is a side section view of the different supports with precision rotating elements attached to different tubes and surfaces.
Figura 3 - Es una vista en sección lateral de tres de los soportes con elementos giratorios de precisión, con sus taladros correspondientes atravesando unos tubos Figure 3 - It is a side section view of three of the supports with precision rotating elements, with their corresponding holes going through some tubes
Figura 4.- Es una vista en sección lateral de tres de ios soportes con elementos giratorios de precisión con ventosas, con sus taladros correspondientes atravesando unos tubosFigure 4.- It is a side section view of three of the supports with precision rotating elements with suction cups, with their corresponding holes going through some tubes
Figura 5.- Es una vista en sección donde se muestra la capacidad de adherencia del soporte de precisión con electroimán, con uno de los taladros suspendido evitando su vuelco. Figure 5.- It is a sectional view showing the adherence capacity of the precision support with electromagnet, with one of the holes suspended preventing it from tipping over.
Figura 6.- Es una vista en sección lateral, en perspectiva lateral y explosionada del soporte de precisión con electroimán, con algunos acoplamientos. Figure 6.- Is a side section view, in side perspective and exploded view of the precision support with electromagnet, with some couplings.
Figura 7.- Es una vista en sección lateral del soporte de precisión con imán, con las placas de caucho y de hierro. Figure 7.- Is a side section view of the precision support with magnet, with the rubber and iron plates.
Figura 8 - Es una vista en sección lateral del soporte de precisión con ventosa, con la maneta en posición cerrada y abierta Figure 8 - It is a side section view of the precision support with suction cup, with the handle in the closed and open position
Figura 9 - Es una vista en sección lateral, frontal delantera y frontal trasera, del soporte de precisión con ventosa y alargador angular, con la maneta en posición cerrada y abierta.Figure 9 - It is a side, front front and rear front section view of the precision support with suction cup and angular extension, with the handle in the closed and open position.
Figura 10.- Es una vista invertida y en sección lateral, frontal delantera y frontal trasera, del soporte de precisión con ventosa y alargador angular, con la maneta en posición cerrada y abierta. Figura 11.- Es una vista en sección lateral, frontal delantera y frontal trasera, del soporte de precisión con ventosa y alargador vertical, con la maneta en posición cerrada y abierta.Figure 10.- It is an inverted view and in lateral section, front front and front rear, of the precision support with suction cup and angular extension, with the handle in the closed and open position. Figure 11.- Is a side sectional view, front front and rear front, of the precision support with suction cup and vertical extension, with the handle in the closed and open position.
Figura 12.- Es una vista invertida y en sección lateral, frontal delantera y frontal trasera, del soporte de precisión con ventosa y alargador vertical, con la maneta en posición cerrada y abierta. Figure 12.- It is an inverted view and in lateral section, front front and rear front, of the precision support with suction cup and vertical extension, with the handle in the closed and open position.
Figura 13.- Es una vista en sección lateral del soporte de precisión con imán, donde se muestran el acoplamiento para brocas, y la broca, antes y después de ser fijada al taladro e introducida en el interior del eje giratorio de precisión con cojinetes. Figure 13.- Is a side sectional view of the precision support with magnet, showing the coupling for bits, and the bit, before and after being fixed to the drill and inserted inside the precision rotating shaft with bearings.
Figura 14.- Es una vista lateral del tornillo de cabeza profunda y métrico acabado en punta, con la llave de alien con mango, y el tomillo de cabeza profunda autorroscante con el taladro y la llave alien. Figure 14.- It is a side view of the metric deep head screw with pointed end, with the allen key with handle, and the self-tapping deep head screw with the drill and the allen key.
Figura 15.- Es una vista lateral del tomillo de cabeza profunda con autorroscante conectando y atrayendo perfectamente el tubo a fijar, y el mismo tornillo de cabeza profunda con autorroscante conectando y atrayendo de forma irregular al tubo a fijarFigure 15.- It is a side view of the deep-headed self-tapping screw perfectly connecting and attracting the tube to be fixed, and the same deep-headed screw with self-tapping connecting and attracting the tube to be fixed irregularly
Figura 16.- Es una vista en sección lateral del soporte de precisión con la base de caucho, donde se puede ver el acoplamiento para brocas, y la broca, antes y después de ser fijada al taladro e introducida en el interior del eje giratorio de precisión con cojinetes, y la llave de alien con el acoplamiento para alien antes y después de ser introducidos en el eje giratorio de precisión con cojinetes. Figure 16.- It is a side section view of the precision support with the rubber base, where you can see the coupling for bits, and the bit, before and after being fixed to the drill and introduced inside the rotating axis of precision with bearings, and the socket wrench with the coupling for socket before and after being inserted into the rotating shaft of precision with bearings.
Figura 17.- Es una vista lateral y en perspectiva, donde se muestran los ejes giratorios de precisión con cojinetes, con distintas medidas de acoplamientos para brocas y acoplamiento para la llave de alien. Figure 17.- It is a lateral and perspective view, where the precision rotary axes with bearings are shown, with different sizes of couplings for bits and coupling for the allen key.
Figura 18.- Es una vista lateral del tornillo de cabeza profunda y métrico acabado en punta, con la llave de alien con mango tratando de conectar con los orificios practicados en los tubos por libre, y la misma llave de alien con un tornillo normal. Figure 18.- It is a side view of the metric deep head screw with a pointed end, with the allen wrench with a handle trying to connect with the holes made in the tubes for free, and the same allen wrench with a normal screw.
Figura 19.- Es una vista lateral del tornillo de cabeza profunda y métrico acabado en punta, con la llave de alien con mango siendo guiado por un soporte de precisión, y el mismo soporte de precisión guiando la llave de alien con mango y un tornillo normal. Figure 19.- It is a side view of the deep head and metric screw with a pointed end, with the allen wrench with handle being guided by a precision support, and the same precision support guiding the allen wrench with handle and a screw normal.
Figura 20 - Es una vista lateral del tornillo de cabeza profunda y métrico acabado en punta, con la llave de alien con mango tratando de conectar por libre con los orificios practicados en los tubos, y la misma llave de alien y el mismo tornillo siendo guiado por un soporte de precisión. Figure 20 - It is a side view of the metric deep head screw finished in end, with the allen key with handle trying to connect freely with the holes made in the tubes, and the same allen key and the same screw being guided by a precision support.
DESCRIPCIÓN DE UNA REALIZACIÓN PREFERIDA DESCRIPTION OF A PREFERRED EMBODIMENT
Descripción de la invención por medio de ejemplos y con referencia a los dibujos adjuntos en los cuales: la figura 1 , en el que se puede ver una vista en sección lateral empezando por el margen superior izquierdo, el soporte con electroimán 1A, que está compuesto por una carcasa 1, disponiendo en su parte superior de un eje giratorio de precisión con cojinetes A2, quedando esté asegurado por dos mordazas A3 con sus correspondientes tomillos 5, en el frontal superior, se localiza la bandeja para fragmentos A4, y en su interior se encuentra una luz LED A5, justo por debajo de la bandeja para los fragmentos A4, se puede ver el electroimán A1 , que es alimentado por un cable eléctrico 3 que es conectado a la red, siendo el electroimán accionado por un interruptor 2, en el interior de la carcasa 1 , en su parte superior, se localiza la caja 6 para almacenar los cables eléctricos 3 que alimentan a la luz LED A5 y al electroimán A1. por debajo de la caja 6 se encuentra la tapa 26 de acceso, en la parte opuesta del electroimán A1, se puede ver el asa forrada de caucho 24 con el interruptor 4 que acciona la luz LED A5. El soporte de precisión con imán 1 B, está compuesto por una carcasa 1 , que posee un asa revestida de caucho 24, un imán A6, y dos mordazas A3 con sus correspondientes tomillos 5 que mantienen prisionero el eje giratorio con cojinetes A2, por encima del imán A6, se localiza la bandeja para los fragmentos A4 con una luz LED A5 en su interior, que es alimentada por pilas 25, encontrándose estas en el interior de la caja 6, poseyendo dicha caja 6 de una tapa 26. el interruptor 4 de la luz LED A5 se encuentra en el frontal del asa forrada de caucho 24. El soporte de precisión con la base de caucho 1C, está compuesto por una carcasa 1 , que posee en uno de sus lados un asa revestida de caucho 24, y frente a ella, una base A7 también de caucho, y justo encima, se localizan las dos mordazas A3 con sus correspondientes tornillos 5 manteniendo prisionero al eje giratorio con cojinetes A2, a su lado, se localiza la bandeja para los fragmentos A4 con una luz LED A5 en su interior, que es alimentada por pilas 25, encontrándose estas en el interior de una caja 6 de la carcasa 1 , poseyendo dicha caja 6 de una tapa 26, el interruptor 4 de la luz LED A5 se encuentra en el frontal del asa forrada de caucho 24. El soporte de precisión con ventosa y alargador angular 1 D está compuesto por una carcasa 1 que posee en uno de sus lados un asa forrada de caucho 24, y una base A7 de caucho, justo encima, se localizan las dos mordazas A3 con sus correspondientes tomillos 5 manteniendo prisionero al eje giratorio con cojinetes A2, y a su lado, la bandeja para los fragmentos A4 con una luz LED A5 en su interior, que es alimentada por pilas 25, encontrándose estas en el interior de una caja 6 de la carcasa 1 , poseyendo dicha caja 6 de una tapa 26, el interruptor 4 de la luz LED A5 se encuentra en el asa forrada de caucho 24, en la parte baja de la carcasa 1 , se localizan los tornillos de presión con pomos A8, que se unen con las pletinas con métrico 7, aprisionando cuando se precise la carcasa 1 y la guia del alargador angular A10, por debajo de este, se localiza la ventosa A12 con la maneta 9 y los tornillos de unión A17. El soporte de precisión con ventosa y alargador vertical 1 E, es idéntico al soporte de precisión 1 D, lo único que los diferencia son los tornillos niveladores con pomos A9, que disponen de unos topes de caucho 8, y la guia del alargador que es vertical A11, en vez de angular A10, poseyendo la misma ventosa A12. El soporte de precisión con ventosa 1F, es idéntico al soporte de precisión con ventosa y alargador vertical 1 E, y al soporte de precisión con ventosa y alargador angular 1 D, los elementos diferenciales son, que carece de base de caucho A7, de alargadores A10 y A11 , y de tornillos con pomos A8 y A9 Description of the invention by means of examples and with reference to the attached drawings in which: Figure 1, in which a lateral section view can be seen starting from the upper left margin, the support with electromagnet 1A, which is composed by a casing 1, having in its upper part a precision rotating axis with A2 bearings, being secured by two A3 clamps with their corresponding screws 5, on the upper front, the A4 fragment tray is located, and inside it there is an LED light A5, just below the tray for the fragments A4, you can see the electromagnet A1, which is powered by an electrical cable 3 that is connected to the network, the electromagnet being activated by a switch 2, in Inside the casing 1, in its upper part, the box 6 is located to store the electrical cables 3 that feed the LED light A5 and the electromagnet A1. below the box 6 is the access cover 26, on the opposite side of the electromagnet A1, you can see the rubber-covered handle 24 with the switch 4 that activates the LED light A5. The precision support with magnet 1 B, is made up of a casing 1, which has a rubber-coated handle 24, a magnet A6, and two jaws A3 with their corresponding screws 5 that hold the rotary axis with bearings A2 prisoner, above from the magnet A6, the tray for the fragments A4 is located with an LED light A5 inside, which is powered by batteries 25, these being found inside the box 6, said box 6 having a lid 26. the switch 4 of the A5 LED light is located on the front of the rubber-covered handle 24. The precision support with the rubber base 1C, is made up of a casing 1, which has a rubber-coated handle 24 on one of its sides, and in front of it, an A7 base, also made of rubber, and just above, the two A3 clamps are located with their corresponding screws 5, holding the rotating axis prisoner with A2 bearings, next to it, is the tray for the A4 fragments with a light LED A5 inside, which is powered by batteries 25, these being found inside a box 6 of the casing 1, said box 6 having a lid 26, the switch 4 of the LED A5 light is located on the front of the rubber-covered handle 24. The precision support with suction cup and angle extension 1 D consists of a casing 1 that has one of its sides have a handle lined with rubber 24, and a rubber base A7, just above the two jaws A3 with their corresponding screws 5 holding the rotating axis prisoner with A2 bearings, and next to it, the tray for the A4 fragments with an A5 LED light inside, which is powered by batteries 25, these being found inside a box 6 of the casing 1, said box 6 having a lid 26, the switch 4 of the A5 LED light is located in the handle covered with rubber 24, in the lower part of the casing 1, the pressure screws with knobs A8 are located, which are joined with the plates with metric 7, imprisoning when necessary the casing 1 and the guide of the angle extension A10, below this, the suction cup A12 is located with the handle 9 and the union screws A17. The precision support with suction cup and vertical extension 1 E, is identical to the precision support 1 D, the only difference is the leveling screws with A9 knobs, which have rubber stops 8, and the extension guide, which is vertical A11, instead of angular A10, having the same suction cup A12. The precision support with suction cup 1F, is identical to the precision support with suction cup and vertical extension 1 E, and the precision support with suction cup and angular extension 1 D, the differential elements are, which lacks the A7 rubber base, extensions A10 and A11, and screws with A8 and A9 knobs
En la figura 2, se muestra en una vista lateral y en sección, el soporte de precisión con electroimán 1A adherido al tubo de hierro 16 y este, unido al tubo 18. El soporte de precisión con imán 1B, queda unido a un tubo de hierro 16 y al tubo 18. El soporte de precisión con base de caucho 1C se puede ver unido a lo que podría ser un tubo de hierro 16 o un tubo de aluminio 17 y estos conectados al tubo 18. El soporte de precisión con ventosa y alargador angular 1D se muestra con la ventosa A12 pegada al cristal 21 y unido al perfil montante 19 de aluminio para edificios muro cortina, y al tubo 18. El soporte de precisión con ventosa y alargador vertical 1E se puede ver con la ventosa A12 pegada al cristal 21 y unido al perfil travesaño 20 de aluminio para edificios muro cortina, y al tubo 18. El soporte de precisión con ventosa 1F se muestra unido a través de la ventosa A12 a lo que podría ser un tubo de hierro pulido 16, un tubo de aluminio 17, un vidrio 21 o una placa de cerámica 22, junto al tubo 18 Figure 2 shows in a side view and in section, the precision support with electromagnet 1A attached to the iron tube 16 and this, attached to the tube 18. The precision support with magnet 1B, is attached to a tube of iron 16 and tube 18. The precision support with rubber base 1C can be seen attached to what could be an iron tube 16 or an aluminum tube 17 and these connected to tube 18. The precision support with suction cup and angle extension 1D shown with the suction cup A12 attached to the glass 21 and attached to the aluminum mullion profile 19 for curtain wall buildings, and to the tube 18. The precision bracket with suction cup and vertical extension 1E can be seen with the suction cup A12 attached to the glass 21 and attached to the aluminum crossbar profile 20 for curtain wall buildings, and to the tube 18. The precision support with suction cup 1F is shown attached through the suction cup A12 to what could be a polished iron tube 16, a tube aluminum 17, a glass 21 or a ceramic plate 22, next to the tube 18
En la figura 3, se muestra en una vista lateral y en sección, el soporte de precisión con electroimán 1A, con el taladro 13, y la broca 15, pasando por el acoplamiento para brocas A13 estando este introducido en el eje giratorio con cojinetes A2, el soporte de precisión con imán 1B, se muestra con el taladro 13, y la broca 15, pasando por el acoplamiento para brocas A13 estando este introducido en el eje giratorio con cojinetes A2, el soporte de precisión con base de caucho 1C, se muestra con el taladro 13, y la broca 15, pasando por el acoplamiento para brocas A13 estando este introducido en el eje giratorio con cojinetes A2. Figure 3 shows a side view and in section, the precision support with electromagnet 1A, with the drill 13, and the bit 15, passing through the coupling for bits A13 as it is inserted into the rotating shaft with bearings A2. , precision holder with magnet 1B, shown with hole 13, and bit 15, passing through the coupling for drill bits A13 when it is inserted in the rotary axis with bearings A2, the precision support with rubber base 1C, is shown with the hole 13, and the drill bit 15, passing through the coupling for drill bits A13 when it is inserted in the rotary axis with A2 bearings.
En la figura 4, se muestra en una vista lateral y en sección, el soporte de precisión con ventosa y alargador angular 1D, con el taladro 13, y la broca 15, pasando por el acoplamiento para brocas A13 estando este introducido en el eje giratorio con cojinetes A2, véase por debajo de la carcasa 1 el alargador angular A10 como queda conectado a la ventosa A12 a través de los tornillos de unión A17, en su margen superior, el soporte de precisión con ventosa y alargador vertical 1E. se muestra con el taladro 13, y la broca 15, pasando por el acoplamiento para brocas A13 estando este introducido en el eje giratorio con cojinetes A2, y por debajo de la carcasa 1 se puede ver el alargador vertical A11 conectado a la ventosa A12 a través de los tomillos de unión A17, el soporte de precisión con ventosa 1F se muestra con el taladro 13, y la broca 15, pasando por el acoplamiento para brocas A13 estando este introducido en el eje giratorio con cojinetes A2, en la pared frontal de la carcasa 1 se pueden ver los tornillos de unión A17. In figure 4, the precision support with suction cup and angular extension 1D is shown in a side view and in section, with the drill 13 and the bit 15, passing through the bit coupling A13 while it is inserted into the rotary axis. with A2 bearings, see below the casing 1 the angle extension A10 as it is connected to the suction cup A12 through the union screws A17, on its upper edge, the precision support with suction cup and vertical extension 1E. it is shown with the drill 13, and the bit 15, passing through the coupling for bits A13 being inserted in the rotary axis with bearings A2, and below the casing 1 you can see the vertical extension A11 connected to the suction cup A12 a through the union screws A17, the precision support with suction cup 1F is shown with the hole 13, and the bit 15, passing through the coupling for bits A13 being inserted in the rotating axis with bearings A2, on the front wall of In housing 1 you can see the connection screws A17.
En la figura 5, se muestra en una vista lateral y en sección, y sobre la letra A, el taladro 13, y la broca 15, pasando por el soporte de precisión con electroimán 1A, véase sobre la letra B un ejemplo de la utilidad del soporte de precisión 1A con electroimán, al mantener sostenido el taladro 13 evitando su vuelco, muy útil cuando el operario deja la máquina suspendida mientras va en busca de las herramientas necesarias In figure 5, it is shown in a side view and in section, and on the letter A, the drill 13, and the bit 15, passing through the precision support with electromagnet 1A, see on the letter B an example of the utility of the 1A precision support with electromagnet, by keeping the drill 13 supported, preventing it from tipping over, very useful when the operator leaves the machine suspended while searching for the necessary tools
En la figura 6, se muestra en una vista lateral, en perspectiva lateral, y en sección, empezando por el margen superior izquierdo, el eje giratorio con cojinetes A2 con los cojinetes 11, y a su lado, el acoplamiento para broca A13 y el acoplamiento para llaves de alien A14 con sus topes 10, véase sobre la letra A, de forma explosionada, el soporte de precisión con electroimán 1A, con las mordazas A3 y los orificios con métrico 27, por debajo de las mordazas A3 se localiza el eje giratorio con cojinetes A2, obsérvese en la parte superior de la carcasa 1, la bandeja para fragmentos A4, y por debajo, el electroimán A1 con su interruptor 2, y el cable eléctrico 3, en la parte opuesta al electroimán A1 , se localiza el asa forrada de caucho 24 con el interruptor 4 de la luz LED A5, sobre la letra B, se pueden ver de forma compacta, los mismos elementos que forman el soporte de precisión con electroimán 1 A, ya descritos sobre la letra A, y como única diferencia, podemos observar que posee el acoplamiento para brocas A13, sobre la letra C, se muestra con los elementos descritos sobre la letra A, más el acoplamiento para llaves de alien A14, y sobre la letra D. se pueden ver en una vista en sección lateral los elementos descrito sobre la letra A. con la luz LED A5 y una placa de caucho A15 antes de su acoplamiento. In figure 6, it is shown in a side view, in side perspective, and in section, starting from the upper left margin, the rotary axis with bearings A2 with bearings 11, and next to it, the coupling for drill bit A13 and the coupling for A14 allen keys with their stops 10, see above the letter A, in exploded form, the precision support with electromagnet 1A, with jaws A3 and holes with metric 27, below the jaws A3 the rotating axis is located with bearings A2, note in the upper part of the casing 1, the tray for fragments A4, and below, the electromagnet A1 with its switch 2, and the electrical cable 3, in the opposite part of the electromagnet A1, the handle is located covered with rubber 24 with switch 4 of the LED light A5, on the letter B, you can see in a compact way, the same elements that make up the precision support with electromagnet 1 A, already described on the letter A, and as the only difference, we can see that it has the coupling for A13 bits, on the letter C, it is shown with the elements described on the letter A, plus the coupling for alien keys A14, and on the letter D. They can be seen in a view in Lateral section of the elements described above the letter A. with the A5 LED light and an A15 rubber plate before coupling.
En la figura 7, se muestra en una vista en sección lateral, el soporte de precisión con imán 1 B, aportando cuatro soluciones, la primera, sobre la letra A, con la base de imán A6, la siguiente sobre la letra B, antes de ser conectadas la placa de caucho A15 o la placa de hierro A16 a la base de imán A6, sobre la letra C se puede ver la placa de hierro A16 conectada la base de imán A6, y sobre la letra D, se muestra con la placa de caucho A15 conectada a la base de imán A6. In figure 7, the precision support with magnet 1 B is shown in a side section view, providing four solutions, the first, on the letter A, with the magnet base A6, the next on the letter B, before of A15 rubber plate or A16 iron plate being connected to A6 magnet base, on the letter C you can see the A16 iron plate connected to the A6 magnet base, and on the letter D, it is shown with the rubber plate A15 connected to magnet base A6.
En la figura 8, se muestra en una vista en sección lateral y sobre la letra A, el soporte de precisión con ventosa 1F con la ventosa A12, y la maneta 9 en posición cerrada, y sobre la letra B, la maneta 9 en posición abierta. In figure 8, it is shown in a side section view and on the letter A, the precision support with suction cup 1F with the suction cup A12, and the handle 9 in closed position, and on the letter B, the handle 9 in closed position. open.
En la figura 9, se muestra en una vista en sección lateral sobre la letra A, el soporte de precisión con ventosa y alargador angular 1D. con la maneta 9 en posición abierta, y los tornillos de presión con pomo A8 con las pletinas con métrico 7 controlando el deslizamiento del alargador angular A10 para desplazar la ventosa A12 al punto preciso, véase como el alargador angular A10 queda conectado a la ventosa A12 a través de los tomillos de unión A17, sobre la letra B, los mismo elementos descritos en la letra A, con otro desplazamiento del alargador angular A10 y la ventosa A12, véase como está la maneta 9 en posición cerrada, obsérvese sobre la letra C en una vista frontal delantera, el soporte de precisión con ventosa y alargador angular 1D con la maneta 9 en posición cerrada, y sobre la letra D, en una vista frontal trasera, el soporte de precisión con ventosa y alargador angular 1 D, con la maneta 9 en posición cerrada. Figure 9 shows a side sectional view on the letter A, the precision support with suction cup and angle extension 1D. with the handle 9 in the open position, and the pressure screws with knob A8 with the plates with metric 7 controlling the sliding of the angle extension A10 to move the suction cup A12 to the precise point, see how the angle extension A10 is connected to the suction cup A12 through the union screws A17, on the letter B, the same elements described in the letter A, with another displacement of the angle extension A10 and the suction cup A12, see how the handle 9 is in the closed position, observe on the letter C In a front front view, the precision mount with suction cup and 1D angle extension with the lever 9 in the closed position, and above the letter D, in a rear front view, the precision mount with suction cup and 1D angle extension, with the handle 9 in closed position.
En la figura 10, se muestra en una vista invertida con relación a la figura 9, el soporte de precisión con ventosa y alargador angular 1 D, esta vista invertida es para mostrar que el soporte de precisión con ventosa y alargador angular 1D, puede trabajar en cualquier posición, en esta concretamente, pierde la eficacia la bandeja para fragmentos A4. En la figura 11, se muestra en una vista en sección lateral, y sobre la letra A, el soporte de precisión con ventosa y alargador vertical 1 E. con la maneta 9 en posición abierta, y el tornillo nivelador con pomo A9 con tope de caucho 8 permitiendo a través de la gula de regulación 23 que se deslice el alargador vertical A11 verticalmente, desplazando la ventosa A12. Sobre la letra 8, los mismos elementos descritos en la letra A, con un desplazamiento distinto del alargador vertical A11 y la ventosa A12, véase con la maneta 9 en posición cerrada. Sobre la letra C en una vista frontal delantera, el soporte de precisión con ventosa y alargador vertical 1E, con la maneta 9 en posición cerrada, y sobre la letra D, en una vista frontal trasera, el soporte de precisión con ventosa y alargador vertical 1E, con la maneta 9 en posición cerrada, y al detalle, la guia de regulación 23. Figure 10 shows an inverted view in relation to figure 9, the precision support with suction cup and 1D angle extension, this inverted view is to show that the precision support with suction cup and 1D angular extension can work In any position, specifically in this position, the A4 fragment tray loses its effectiveness. Figure 11 shows a side sectional view, and above the letter A, the precision support with suction cup and vertical extension 1 E. with the handle 9 in the open position, and the leveling screw with knob A9 with stop rubber 8 allowing through gluttony adjustment 23 that the vertical extension A11 slides vertically, displacing the suction cup A12. On letter 8, the same elements described in letter A, with a different displacement of the vertical extension A11 and the suction cup A12, see with handle 9 in the closed position. Above the letter C in a front front view, the precision mount with suction cup and vertical extension 1E, with the lever 9 in the closed position, and above the letter D, in a rear front view, the precision mount with suction cup and vertical extension 1E, with the handle 9 in the closed position, and in detail, the adjustment guide 23.
En la figura 12. se muestra en una vista invertida con relación a la figura 11 , el soporte de precisión con ventosa y alargador vertical 1 E, esta vista invertida es para mostrar que el soporte de precisión con ventosa y alargador vertical 1E puede trabajar en cualquier posición, en esta concretamente, no es eficaz la bandeja para fragmentos A4. Figure 12 shows an inverted view in relation to figure 11, the precision support with suction cup and vertical extension 1 E, this inverted view is to show that the precision support with suction cup and vertical extension 1E can work in any position, in this particular position, the A4 fragment tray is not effective.
En la figura 13, se muestra en una vista en sección lateral el soporte de precisión con imán 18, donde se puede ver de manera escalonada, el acoplamiento para brocas A13 con el tope de acoplamiento 10, y la broca 15, antes y después de ser fijados al taladro 13 e introducidos en el interior del eje giratorio de precisión con cojinetes A2. In figure 13, the precision holder with magnet 18 is shown in a side section view, where it can be seen in a staggered manner, the coupling for bits A13 with the coupling stop 10, and the bit 15, before and after be fixed to the hole 13 and introduced inside the precision rotary axis with bearings A2.
En la figura 14, se muestra en una vista lateral y sobre la letra A, el tomillo de cabeza profunda y métrico acabado en punta 2A en transparencia, con la llave de alien con mango 14 para mostrar la conexión interna, sobre la letra 8, la llave de alien con mango 14 y el tomillo de cabeza profunda y métrico acabado en punta 2A en una vista normal, por encima de la letra C, el tornillo de cabeza profunda y métrico 2A en transparencia con la llave de alien 14. y sobre la letra O, el tomillo de cabeza profunda y métrico acabado en punta 2A conexionado con la llave de alien 14 y el taladro 13. Figure 14 shows in a side view and on the letter A, the deep-headed and metric screw with a pointed end 2A in transparency, with the allen key with handle 14 to show the internal connection, on the letter 8, the socket wrench with handle 14 and the 2A pointed metric deep head screw in a normal view, above the letter C, the 2A metric deep socket screw in transparency with the 14 socket wrench. and above the letter O, the metric deep head screw with pointed end 2A connected to the allen key 14 and the drill 13.
En la figura 15, se muestra en una vista lateral y sobre la letra A, el tomillo de cabeza profunda con autorroscante 2B, atravesando el tubo 17, conectando y atrayendo paralelamente el tubo 18 a fijar, y sobre la letra 8, el mismo tornillo de cabeza profunda con autorroscante 2B, conectando y atrayendo de forma irregular al tubo 18 por la inclinación del propio tornillo 2B. In figure 15, it is shown in a side view and on the letter A, the deep head screw with self-tapping 2B, going through the tube 17, connecting and attracting the tube 18 to be fixed in parallel, and on the letter 8, the same screw deep head with self-tapping 2B, connecting and attracting the tube 18 irregularly due to the inclination of the screw 2B itself.
En la figura 16, se muestra en una vista en sección lateral sobre la letra A, el soporte de precisión con la base de caucho 1C, donde se puede ver el acoplamiento para brocas A13, y la broca 15, antes y después de ser fijada al taladro 13 e introducida en el interior del eje giratorio de precisión con cojinetes A2, véase como la broca 15 atraviesa el tubo 18, y sobre la letra B, el soporte de precisión con la base de caucho 1C, y la llave de alien 14 con mango, con el acoplamiento para alien A14, antes y después de ser introducidos en el eje giratorio de precisión con cojinetes A2, véase la llave de alien 14 con mango conectando el tornillo de cabeza profunda y métrico 2A al tubo 18. In figure 16, a lateral section view is shown on the letter A, the precision support with the rubber base 1C, where the coupling for drill bits A13 can be seen, and the drill bit 15, before and after being fixed. to hole 13 and introduced inside of the precision rotary axis with bearings A2, see how the bit 15 goes through the tube 18, and on the letter B, the precision support with the rubber base 1C, and the socket wrench 14 with handle, with the coupling for socket A14, before and after being inserted into the precision rotating shaft with A2 bearings, see socket wrench 14 with handle connecting 2A metric deep head screw to tube 18.
En la figura 17, se muestra en una vista en perspectiva sobre la letra A, el acoplamiento para broca A13 con su tope 10, introduciéndose en el eje giratorio con cojinetes A2, y al detalle los cojinetes 11, sobre la letra B, el acoplamiento para broca A14 con su tope 10, introduciéndose en el eje giratorio con cojinetes A2 y los cojinetes 11 , sobre la letra C se muestra el eje giratorio con cojinetes A2 y los cojinetes 11 , sobre la letra D en una vista lateral, se puede ver el acoplamiento para broca A13 con su tope 10, introduciéndose en el eje giratorio con cojinetes A2 y los cojinetes 11, véase sobre la letra E, a modo de ejemplo no limitativo, distintas medidas del acoplamiento para broca A13 y sus topes 10, pudiendo acoplarse a cualquier medida de broca 15 del mercado, sobre la letra F, distintas medidas del acoplamiento para alien A14 con sus topes 10, pudiendo acoplarse a cualquier medida de llave de alien 14, sobre la letra G en una vista lateral, los acoplamientos para broca A13 o acoplamientos para alien A14 con sus topes 10, y por último, sobre la letra H, los ejes giratorios con cojinetes A2. Figure 17 shows a perspective view on letter A, the coupling for drill bit A13 with its stop 10, entering the rotating shaft with bearings A2, and in detail the bearings 11, on letter B, the coupling for drill A14 with its stop 10, entering the rotary axis with bearings A2 and bearings 11 , on the letter C the rotary axis with bearings A2 and bearings 11 is shown, on the letter D in a side view, it can be seen the A13 drill bit coupling with its stop 10, being inserted into the rotary axis with A2 bearings and the bearings 11, see letter E, by way of a non-limiting example, different sizes of the A13 drill bit coupling and its stops 10, which can be coupled to any size of drill bit 15 on the market, on the letter F, different sizes of the coupling for A14 socket with its stops 10, being able to be coupled to any size of socket wrench 14, on the letter G in a side view, the couplings for drill A13 or couplings for alien A14 with their stops 10, and finally, on the letter H, the rotating axes with bearings A2.
En la figura 18, se muestra en una vista lateral y sobre la letra A, el tomillo de cabeza profunda y métrico acabado en punta 2A con la llave de alien 14 con mango tratando de conectar por libre (sin un elemento guia) con los orificios 12 practicados en los tubos sin que se desprenda el tomillo de cabeza profunda y métrico acabado en punta 2A, y sobre la letra B, el mismo ejemplo con la llave de alien 14 con un tomillo 5 normal intentando conexionar también por libre con el orificio 12 de salida, y una muestra de la calda de dichos tornillos 5 por su limitación en la fijación con la llave de alien 14 por la falta de profundidad en la cabeza del tornillo 5. Figure 18 shows in a side view and above the letter A, the metric deep head screw with a pointed end 2A with the allen wrench 14 with a handle trying to connect freely (without a guide element) with the holes. 12 made in the tubes without detaching the deep headed and metric screw finished in a point 2A, and on the letter B, the same example with the allen key 14 with a normal screw 5 trying to connect also freely with the hole 12 output, and a sample of the drop of said screws 5 due to its limitation in fixing with the alien key 14 due to the lack of depth in the head of screw 5.
En la figura 19, se muestra en una vista lateral y sobre la letra A, el tomillo de cabeza profunda y métrico acabado en punta 2A, con la llave de alien 14 con mango siendo guiado por un soporte de precisión 1C hasta el orificio 12, (pudiendo ser cualquier otro de los soportes de precisión de la invención) y sobre la letra B, mostrando la eficacia de ser guiado el tomillo 5 normal hasta el orificio 12, en este caso interviene el soporte de precisión 1C. En la figura 20, se muestra en una vista lateral sobre la letra A, el tomillo de cabeza profunda y métrico acabado en punta 2A, con la llave de alien 14 con mango tratando de conectar por libre con los orificios 12 practicados en los tubos, y sobre la letra B, la misma llave de alien 14 y el mismo tomillo 2A, siendo guiado por un soporte de precisión 1C (pudiendo ser cualquier otro de los soportes descritos en la patente). In figure 19, the metric deep head screw with pointed end 2A is shown in a side view and above the letter A, with the allen key 14 with handle being guided by a precision support 1C to hole 12, (which could be any other of the precision supports of the invention) and on the letter B, showing the effectiveness of guiding the normal screw 5 to hole 12, in this case the precision support 1C intervenes. Figure 20 shows in a side view on the letter A, the metric deep head screw with a pointed end 2A, with the allen wrench 14 with a handle trying to connect freely with the holes 12 made in the tubes, and on the letter B, the same alien key 14 and the same screw 2A, being guided by a precision support 1C (it could be any other of the supports described in the patent).

Claims

REIVINDICACIONES
1 Soportes con elementos giratorios de precisión para taladros y fijación de tomillos, caracterizado porque comprende una carcasa (1), un eje giratorio de precisión con cojinetes (A2), dos mordazas (A3), unos tomillos (5) una bandeja para los fragmentos (A4). un asa forrada de caucho (24), un interruptor luz LED (4), una caja (6) y su tapa (26). 1 Supports with precision rotating elements for drilling and fixing screws, characterized in that it comprises a casing (1), a precision rotating axis with bearings (A2), two jaws (A3), some screws (5) and a tray for fragments (A4). a rubber covered handle (24), an LED light switch (4), a box (6) and its lid (26).
2. Soportes con elementos giratorios de precisión para taladros y la fijación de tornillos, según la reivindicación 1, caracterizado porque el soporte de precisión (1 A), comprende un electroimán (A1), un interruptor del electroimán (2), un cable eléctrico (3). 2. Supports with precision rotating elements for drilling and fixing screws, according to claim 1, characterized in that the precision support (1 A) comprises an electromagnet (A1), an electromagnet switch (2), an electric cable (3).
3. Soportes con elementos giratorios de precisión para taladros y la fijación de tornillos, según la reivindicación 1, caracterizado porque el soporte de precisión (1B). comprende una base de imán (A6) y unas pilas (25). 3. Supports with rotating precision elements for drilling and fixing screws, according to claim 1, characterized in that the precision support (1B). It comprises a magnet base (A6) and batteries (25).
4. Soportes con elementos giratorios de precisión para taladros y la fijación de tornillos, según la reivindicación 1 , caracterizado porque el soporte de precisión (1 D), comprende unos tomillos de presión con pomos (A8), las pletinas con métrico (7), un alargador angular (A10), la ventosa (A12) con los tomillos de unión (A17) y unas pilas (25). 4. Supports with precision rotating elements for drilling and fixing screws, according to claim 1, characterized in that the precision support (1 D) comprises pressure screws with knobs (A8), the plates with metric (7) , an angle extension (A10), the suction cup (A12) with the union screws (A17) and some batteries (25).
5. Soportes con elementos giratorios de precisión para taladros y la fijación de tornillos, según la reivindicación 1 , caracterizado porque el soporte de precisión (1E), comprende un tomillo nivelador con pomo (A9) con tope de caucho (8) la guia de regulación (23) el alargador vertical (Al 1 ), la ventosa (A12) los tomillos de unión (A17) y unas pilas (25).5. Supports with precision rotating elements for drilling and fixing screws, according to claim 1, characterized in that the precision support (1E) comprises a leveling screw with knob (A9) with a rubber stop (8) the guide of adjustment (23) the vertical extension (Al 1 ), the suction cup (A12) the union screws (A17) and some batteries (25).
6. Soportes con elementos giratorios de precisión para taladros y la fijación de tomillos, según la reivindicación 1, caracterizado porque el soporte de precisión (1F), comprende una ventosa (A12) los tornillos de unión (A17) y unas pilas (25). 6. Supports with precision rotating elements for drilling and fixing screws, according to claim 1, characterized in that the precision support (1F) comprises a suction cup (A12), the union screws (A17) and some batteries (25). .
7. Soportes con elementos giratorios de precisión para taladros y la fijación de tomillos, según cualquiera de las reivindicaciones anteriores, caracterizado porque comprende un acoplamiento para brocas (A13) o un acoplamiento para llaves de alien (A14), que se acoplan en el eje giratorio de precisión con cojinetes (A2), ajustándose a la medida de la broca (15), o a la medida de la llave de alien con mango (14), disponiendo dichos acoplamientos de un tope de acoplamiento (10). 7. Supports with precision rotating elements for drills and fixing screws, according to any of the preceding claims, characterized in that it comprises a coupling for bits (A13) or a coupling for allen keys (A14), which are coupled to the axis precision swivel with bearings (A2), adjusting to the size of the drill bit (15), or to the size of the socket wrench with handle (14), having said couplings with a coupling stop (10).
8. Soportes con elementos giratorios de precisión para taladros y la fijación de tomillos, según las reivindicaciones 1 y 3, caracterizado porque la placa de hierro (A16) se aplica sobre el imán (A6) del soporte de precisión con imán (1B). 8. Supports with precision rotating elements for drilling and fixing screws, according to claims 1 and 3, characterized in that the iron plate (A16) is applied onto the magnet (A6) of the precision holder with magnet (1B).
9. Soportes con elementos giratorios de precisión para taladros y la fijación de tomillos, según las reivindicaciones 1 a 3, caracterizado porque la placa de caucho (A15), se aplica sobre el electroimán (A1) del soporte de precisión con electroimán (1A), o el imán (A6) del soporte de precisión con imán (1 B). 9. Supports with precision rotating elements for drilling and fixing screws, according to claims 1 to 3, characterized in that the rubber plate (A15) is applied to the electromagnet (A1) of the precision support with electromagnet (1A). , or the magnet (A6) of the precision holder with magnet (1 B).
10. Soportes con elementos giratorios de precisión para taladros y la fijación de tomillos, según cualquiera de las reivindicaciones anteriores, caracterizado porque el tomillo con cabeza profunda con métrico acabado en punta (2A), pasa por el orificio (12) a través de los tubos (16) (17) (18) (19) o (20) utilizando los soportes giratorios de precisión (1 A) (1 B) (1C) (1 D) (1E) o (1F). 10. Supports with precision rotating elements for drilling and fixing screws, according to any of the preceding claims, characterized in that the screw with a deep head with a pointed metric finish (2A) passes through the hole (12) through the tubes (16) (17) (18) (19) or (20) using precision swivels (1A) (1B) (1C) (1D) (1E) or (1F).
11. Soportes con elementos giratorios de precisión para taladros y la fijación de tomillos, según cualquiera de las reivindicaciones anteriores, caracterizado porque el tomillo de cabeza profunda autorroscante (2B) con uno de los soportes de precisión giratorios (1A) (1B) (1C) (1D) (1E) o (1F). y una llave de alien (14) puesta en un taladro (13), se consigue una unión paralela entre los tubos (16) (17) (19) o (20) y el de conexión (18). 11. Supports with precision rotating elements for drilling and fixing screws, according to any of the preceding claims, characterized in that the self-tapping deep head screw (2B) with one of the rotating precision supports (1A) (1B) (1C ) (1D) (1E) or (1F). and an alien key (14) placed in a hole (13), a parallel connection is achieved between the tubes (16) (17) (19) or (20) and the connection tube (18).
PCT/ES2022/000039 2021-10-08 2022-09-29 Supports with precision rotary features for drills and screw attachment WO2023057664A1 (en)

Applications Claiming Priority (2)

Application Number Priority Date Filing Date Title
ESU202100389 2021-10-08
ES202100389U ES1288474Y (en) 2021-10-08 2021-10-08 Holders with precision rotating elements for drilling and screw fixing

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WO2023057664A1 true WO2023057664A1 (en) 2023-04-13

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Citations (7)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
GB338836A (en) * 1929-03-23 1930-11-27 August Prokasky
US4179231A (en) * 1978-10-30 1979-12-18 Hadden Terence B Drill guide
US4978257A (en) * 1984-12-19 1990-12-18 Nowman William G Safe drilling rig
GB2377399A (en) * 2001-07-10 2003-01-15 John Owen Watkins Drill jig with adhesive grip pads for use on a ceramic workpiece
US20060263154A1 (en) * 2005-04-19 2006-11-23 Fuller Mark W Door core drilling apparatus
US20110002751A1 (en) * 2009-07-06 2011-01-06 The Boeing Company Guide assembly and method
GB2494445A (en) * 2011-09-09 2013-03-13 Ferro Carbon Entpr Co Ltd Drill positioning device

Patent Citations (7)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
GB338836A (en) * 1929-03-23 1930-11-27 August Prokasky
US4179231A (en) * 1978-10-30 1979-12-18 Hadden Terence B Drill guide
US4978257A (en) * 1984-12-19 1990-12-18 Nowman William G Safe drilling rig
GB2377399A (en) * 2001-07-10 2003-01-15 John Owen Watkins Drill jig with adhesive grip pads for use on a ceramic workpiece
US20060263154A1 (en) * 2005-04-19 2006-11-23 Fuller Mark W Door core drilling apparatus
US20110002751A1 (en) * 2009-07-06 2011-01-06 The Boeing Company Guide assembly and method
GB2494445A (en) * 2011-09-09 2013-03-13 Ferro Carbon Entpr Co Ltd Drill positioning device

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ES1288474Y (en) 2022-06-17

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