FR3146420A1 - Tool for holding and guiding a screw or rod against a rotating grinding wheel - Google Patents

Abstract

Device (1) for holding and guiding a screw (5) or a rod (5) against a rotating grinding wheel (10) allowing the shortening and shaping of screw (4) or rod (5) ends. The device (1) is a hand tool which has two parts (2) (3) secured to each other. First part, a handle (2) which allows the device (1) to be held and second part a stepped guide (3) (3a) (3b) (3c) having a series of holes (9) which can accommodate screws (4) or rods (5) of different sections. The operator (8) using this device (1) will choose from the holes (9) the one which is best suited to holding the screw (4) or the rod (5), he will then insert the screw (4) or the rod (5) into the hole (9) selected and proceed with grinding. The device improves on the one hand the precision of the grinding of the screws (4) and rod (5) and on the other hand the safety of the operator (8) whose hands (8a) (8b) will be much better protected. Figure for the abstract: Fig. 2

Description

Tool for holding and guiding a screw or rod against a rotating grinding wheel

The present invention relates to hand tools and more particularly to tools for holding and guiding a screw or rod in order to grind them precisely and safely.

The state of the art does not offer a satisfactory solution to an operator who would like to adjust the length of a screw or rod and modify its end profile on a rotating grinding wheel.

Too often the operator will grab the screw or rod by hand, or even with pliers, and machine it directly on the grinding wheel. This method has the following disadvantages:

The operator risks injuring his hand if it accidentally comes into contact with the grinding wheel.

The screw or rod may slip from the operator's fingers and be thrown, also risking injury to the operator.

The machining of the screw or rod on the grinding wheel remains imprecise, generating incorrect end lengths and shapes.

The machining time of the screw or rod is not optimized.

The invention:

To overcome the above drawbacks, the invention proposes a hand tool that will make it possible to optimally hold and guide the screw or rod whose length or the shape of its end the operator wishes to modify. Indeed, the invention proposes a device for holding and guiding a screw but also a rod against a rotating grinding wheel. The device of the invention is implemented by an operator grinding the screw or rod in question. The device of the invention is characterized in that it is in the form of two means secured to each other. A first means called a handle allowing said device to be held in one hand by said operator and a second means called a guide which is provided with at least one through-type hole. It is in this through-hole that said screw or said rod is placed with play, which is then held and guided on the rotating grinding wheel by the operator's second hand. Thus, the device of the invention makes it possible on the one hand to grind the end of said screw or said rod with precision and on the other hand to protect the hands of said operator.

According to various particular embodiments of the invention set out below.

The guide of the device of the invention has several holes of different sections in order to adapt the latter to different sections of screws or rods.

The holes can be of cylindrical, rectangular, ovoid or any other section in order to best hold and guide rods or screws with the corresponding sections.

The guide has at least three levels of different thickness in order to adapt the device to different rod and screw lengths.

The handle is ergonomically shaped to match the profile of the hand to improve the operator's grip.

The handle and the guide are obtained by a single manufacturing operation, either plastic injection or 3D printing.

The guide is made of a transparent material to allow the operator to better control the grinding of the screw or rod.

The guide is made partly of metal and partly obtained either by metal machining or by casting said metal.

The device is equipped with a means for measuring its inclination, either of the spirit level type, or of the ball slide type, or of a mark integrated into the handle indicating the angle of inclination of said device in order to allow the grinding of the screw or rod with a given angle of inclination.

The device has a length of approximately 30 cm and a handle with a diameter of approximately 30 mm.

Attached drawings illustrating the invention :

Is a view of the invention in its complete environment: operator, grinding wheel.

Shows a perspective view of the invention: handle, stepped guide, inclinometer.

Methods of implementation :

In reference to the the operator (8) holds in his left hand (8a) the handle (2) of the device (1) of the invention and in his right hand (8b) the screw (4) / rod (5) of which he wishes on the one hand to shorten the length and on the other hand to modify the end profile. The handle (2) thus held by the operator (8) makes it possible to correctly position the guide (3) as close as possible to the grinding wheel (10). The guide (3) then being in the correct position, the operator (8) will insert the screw (4) / rod (5) into the hole (9) best suited to the section of the screw (4) / rod (5) and then proceed with grinding. To hold the screw (4) / rod (5) in question, the operator (8) can use a screwdriver-type tool (6) or a pliers-type tool. Once the screw (4) / rod (5) has been ground to the desired length, the operator (8) will be able, for example, to make a chamfer at the end of the screw (4a) / rod (5a) and to do this, tilt his device (1) using the means (7) for measuring the inclination. This means is in other words an inclinometer (7).

In reference to the , the invention (1) proposes several particularities which concern either the handle (2) or the guide (3).

Concerning the handle (2), it can be of cylindrical section but also adapted to the shape of the hand (8a) of the operator (8) and therefore be ergonomic. As for its materials, they can be, for example, made of wood, metal, synthetic material or even a flexible and shock-absorbing material such as rubber.

Regarding the guide (3), it can be of different sections and presented different stages (3a) (3b) (3c). If the preferred section of the invention (1) is rectangular, it can also be of cylindrical section.

The invention (1) has provided a guide (3) with several stages (3a) (3b) (3c) otherwise with different thicknesses in order to best adapt the latter (3) to the lengths and sections of the screws (4) / rod (5). The invention (1) has provided that the different stages (3a) (3b) (3c) of the guide (3) are provided with holes (9) of different sizes whose section will preferably be cylindrical so that they are suitable for grinding cylindrical screws (4) and rods (5).

As an example, the guide (3) is therefore provided with several stages (3a) (3b) (3c) and 14 holes (9) of different diameters which are 10mm 8 mm 6 mm 5 mm 4 mm and 3 mm for the first stage (3a) on the handle side (2) which has a thickness of 10mm for long screws. The second stage (3b) has a thickness of 5.5mm and is provided with 4 holes of different diameters which are 6 mm 5 mm 4 mm and 3 mm for the length adjustment of medium length. The last and third stage (3c) has a thickness of 4mm and is provided with 4 holes of different diameters which are 4 mm 3 mm 2 mm and 1.5 mm for the length adjustment of screws (4) or rod (5) of short lengths. The holes (9) are all centered relative to the axis of the stages (3a) (3b) (3c) of the guide (3).

The invention (1) also provides hole sections (9) other than cylindrical. For example, these holes (9) may be of square section in order to receive rods (5) of square section.

Concerning the means for measuring the inclination of the device (1) of the invention, this can be placed either on the handle (2) or on the guide (3). This inclinometer (7) can be of the spirit level type (7), of the housing or slide type containing a ball (7) or simply a reference line (7) on the handle (2).

The materials used to manufacture the guide (3) may be, for example, wood, metal or synthetic material.

The invention (1) also provides for the use of transparent materials, at least for the guide part (3), in order to better see and control the grinding of the screw (4) / rod (5). This material being for example an anti-scratch plastic.

If we consider the manufacturing of the entire device, it can advantageously be obtained in a single manufacturing operation, either of the plastic injection type or of the machining type.

As an example, the length of the entire device (1) of the invention will be approximately 30 cm and the section of the handle (2) approximately 30 mm.

Claims (10)

Device (1) for holding and guiding a screw (4) or a rod (5) against a rotating grinding wheel (10) implemented by an operator (8) grinding said screw (4) or said rod (5), said device (1) being characterized in that it is in the form of two means (2) (3) integral with each other, a first means called handle (2) allowing said device (1) to be held in one hand (8a) by said operator (8) and a second means called guide (3) provided with at least one hole (9) of the through type in which said screw (4) or said rod (5) is placed with play then held and guided on the rotating grinding wheel (10) by the second hand (8b) of said operator (8), said device (1) allowing on the one hand to grind the end (4a) of said screw (4) and the end (5a) of said rod (5) with precision and on the other hand to protect the hands (8a) (8b) of said operator (8). Device (1) according to claim R1 characterized in that the guide (3) has several holes (9) of different sections in order to adapt said device (1) to different sections of screws (4) or rods (5) Device (1) according to claim 1 or claim 2, characterized in that the holes (9) can be of cylindrical, rectangular, ovoid or any other section in order to best maintain and guide the screws (4) or the rods (5) at the corresponding sections. Device (1) according to any one of the preceding claims, characterized in that the guide (3) has at least three different thickness levels (3a, 3b, 3c) in order to adapt said device (1) to different diameters and lengths of screws (4) and rods (5). Device (1) according to any one of the preceding claims, characterized in that the handle (2) is of an ergonomic shape corresponding to the profile of the hand (8a) in order to improve its grip by the operator (8). Device (1) according to any one of the preceding claims, characterized in that the handle (2) and the guide (3) are obtained by a single manufacturing operation, either of the plastic injection type or of the 3D printing type. Device (1) according to claim 6 characterized in that the handle (2) and the guide (3) are made of a transparent material in order to allow the operator (8) to better control the grinding of the screw (4) or the rod (5) Device (1) according to any one of claims 1 to 5 characterized in that the guide (3) is on the one hand made of metal and on the other hand obtained either by metal machining or by molding said metal. Device (1) according to any one of the preceding claims in that the device (1) is equipped with means (7) for measuring the inclination of said device (1) either of the spirit level type, or of the ball slide type or a tilt mark integrated into the handle (2) indicating the angle of inclination of said device (1) in order to allow grinding of the screw (4) or the rod (5) with a given angle of inclination. Device (1) according to any one of the preceding claims, characterized in that said device (1) has a length of approximately 30 cm and a handle with a diameter of approximately 30 mm.