ES2324444B1 - RINGING TOOL FOR LEVER ARM AND VARIABLE TIGHTENING TORQUE. - Google Patents

Abstract

Toggle and torque arm banding tool of tightening variables.

Tool (1) banding machine, to perform the close a ring (19), which comprises an upper part (2), a lower part (3), an upper claw (4) and a lever (9), joined together by four articulated joints (7, 8, 17, 18), of which three have a fixed position and one has a variable position that allows the tool (1) to vary the  lever arm and therefore vary the force exerted on the ring (19) for the same force exerted by the user. Of this mode, the tool according to the invention can deliver forces decreasing on the ring (19) according to the ring (19) goes closing and offering less resistance.

Description

Toggle and torque arm banding tool of tightening variables.

Technical sector

The invention relates to a tool manual banding machine whose lever arm, and therefore whose pair of Tighten with the one that is capable of tightening a ring, it is variable.

State of the art

Conventional pliers are formed by two elongated pieces articulated with each other by means of a joint articulated central. At one end, the pieces are provided with a few grip areas while at the opposite end are provided with tightening tips. So, if a user exercises a force on the grip areas to bring them closer, causes double lever effect that the tightening tips approach between Yes and they can squeeze an object between them.

A banding tool is basically a type of pliers intended to close a clip, which initially It is open and when closed acquires a ring shape. For it, The banding tool comprises clamping tips between which is initially placed the staple-ring. Subsequently, a pressure is exerted on the grip areas of the banding tool, causing the tips of the press against the staple. The tightening tips are closed with a force that depends on the geometry of the pliers and the force exercised by the user the grip areas located in the opposite end of the tightening tips. The lever arm is that is, the distance between the point at which the user applies the Strength (grip areas) and the central articulated joint, is fixed. Therefore, for the same clamping force exerted by the user, the banding tool always delivers the same force of tightening on the ring. However, it should be noted that certain rings, due to its geometry (thickness, etc.), they have high bending stiffness when they are in a more open position, decreasing stiffness as the ring goes away closing. For this type of rings, it would be convenient to have a banding tool whose lever arm was variable.

The invention aims to offer a variable lever arm ringing tool that allows the clamping force exerted by the clamping tips on the ring to be variable and adapts to the stiffness or resistance offered by the ring at all times. In this way, the invention aims to offer a banding tool that allows the user not to exert considerable forces, especially at the time of initiating the closure of the
ring.

Brief Description of the Invention

The object of the invention is a tool ring binder, for closing a ring, which comprises a top piece, a bottom piece, a top claw and a lever, all joined together by four articulated joints. Three of the articulated joints have a fixed position while  that the fourth articulated joint has a variable position that allows the tool to vary the lever arm and by therefore vary the force exerted on a ring for the same force exerted by the user. In this way, the tool according to the invention can deliver maximum forces on the ring when It is still open and stiffer, while it can deliver minor forces and major angular displacements according to the ring It is closing and as it becomes less rigid. Thanks to this variable operation, the tool is very comfortable to Use for the user.

Brief description of the figures

The details of the invention can be seen in the accompanying figures, not pretending to be limiting of I achieved the invention:

- Figure 1 shows a view of the mode of preferred embodiment of the tool according to the invention, represented in its most open or resting position.

- Figure 2 shows another view of the previous tool, represented in an intermediate position in the which ring has partially closed.

Detailed description of the invention

Figure 1 shows a view of the mode of preferred embodiment of the tool according to the invention, represented in its most open or resting position. The tool (1) comprises four articulated pieces: one piece upper (2), a lower piece (3), an upper claw (4) and a lever (9). The upper part (2) and the lower part (3) they comprise respectively an upper arm (14) and an arm lower (15), said arms (14, 15) being where the user exerts a force of manual tightening. The upper claw (4) and the upper part (2) respectively comprise a clamping tip upper (5) and a lower tightening point (6), which are the zones by which the tool performs the tightening and closing of a ring (19).

The four pieces (2, 3, 4, 9) mentioned previously they are articulated with each other by means of four articulated joints that define an articulated quadrilateral:

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a articulated joint (8) between the upper part (2) and the piece lower (3),

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a articulated joint (7) between the upper part (2) and upper claw (4),

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a articulated joint (16) between the lever (9) and the lower part (3),

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a articulated joint (18) between the lever (9) and the upper claw (4).

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Articulated joints (8, 7, 16) are unions articulated whose position is fixed, that is, they do not move from no way in the tool (1) but only rotate or allow the rotation of the pieces connected to them. Instead, the articulated union (18) has a different character than above since its position may vary during use of the tool (1), allowing to vary the tightening torque of the tool (1). The upper claw (4) has a channel (10) with several entrances (A, B, C, D), and the articulated joint (18) is made in the form of a rolling bar capable of jumping or rolling from one incoming to the next along the contour of the channel (10). As will be detailed below, depending on which entrant (A, B, C, D) the lever (9) is placed the tool (1) will exert a greater or lesser torque on the ring (19).

The lever (9) presents the articulated joints (18, 16), respectively, at one end and in an intermediate zone. At the opposite end to the end where the junction is located articulated (18), the lever (9) stops with an internal stop (17) of the lower part (3). The tool (1) also comprises a spring (11) acting by compression between the upper part (2) and the end of the lever (9). Said spring (11) tends to maintain the lever (9) in the position of the figure, that is, against the stop (17). Therefore, it tends to keep the lever (9) with the joint articulated (18) located in the first recess (A). The dock (11) also tends to keep the pieces (2, 3) in the position of the figure, that is, with the arms (14, 15) open.

The operation of the tool (1) is the next. A ring (19) is inserted between the clamping tips (5, 6) as shown in figure 1. The user begins to exert a force on the arms (14, 15), said force being of certain consideration since the ring (19) has a certain stiffness or flexural strength. The force exerted on the arms (14, 15) causes the following effects:

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by middle of the articulated joint (8), the upper part (2) and the piece lower (3) turn respectively in the direction (20) and in the address (21);

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he stop (17) exerts a force against the end of the lever (9) so that the spring (11) is compressed;

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he turning the lower part (3) in the direction (21) causes the articulated joint (18) of the end of the lever (9) be maintained inside the first recess (A) and let the lever (9) push the claw upper (4) causing its turn in the direction (12) with respect to the articulated joint (7).

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According to the ring (19) it is closing and due to its decreasing stiffness, it is increasingly necessary to exercise a lower force to continue its closure. Therefore, there comes a time in that the tightening done by the user does not cause him to continue closing the ring. This is mainly due to two facts: the displacement of the tightening points (5, 6) has reached its limit and cannot continue; in addition, the user's hand is gone closing and less and less force is applied. The user perceives this moment as if the closing of the tool (1) had reached a cap. Reached that moment, the user stops pressing slightly arms (14, 15), producing the following effects:

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he spring (11) expands slightly causing the bottom piece (3) turn slightly in the direction (23) with respect to the joint articulated (8); consequently, the lever (9) moves slightly so that the articulated joint (18) leaves the first  incoming (A);

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the spring force (11) then causes the lever (9) to rotate slightly in the direction (22); accordingly the union articulated (18) rolls along the contour of the channel (10) until it remains  housed in the second entree (B).

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As can be seen in Figures 1 and 2, the distance between the point where the force is exerted on the piece upper (2), which in this case is the upper arm area (14) in which the user squeezes with his hand, and the articulated joint (7) is fixed. That is, in the tool (1) according to the invention, the acting on the upper part (2) that causes the movement of the lower clamping tip (6) is made with a lever arm permanent. Therefore, the relationship between the force of tightening exerted by the user in the upper arm (14) and the clamping force delivered by the lower clamping tip (6) is constant, as the relationship between the angle of rotation of the arm is also constant upper (14) and the angle of rotation of the clamping tip (6).

Instead, the operation of the tip of Squeeze (5) is variable. In this case, the movement of the tip of tightening (5) is caused by a force exerted on the claw upper (4). This force is exerted specifically on the specific incoming (A, B, C, D) in which the articulated joint (18). Therefore, the distance between the point on which the force is exerted and the articulated joint (7) is variable. That is, in the tool (1) according to the invention, the action on the upper claw (4) that causes the movement of the upper tightening point (5) is made with a lever arm variable. Therefore, depending on which entree (A, B, C, D) the articulated joint (18) is found, the upper tightening point (5) will rotate with a greater or lesser torque.

For example, in the situation of figure 1 the articulated joint (18) is embedded in the first entrant (TO). Said inlet (A) is the furthest from the articulated joint (7), whereby a maximum lever arm is achieved. So, the user must use a smaller force to start the tighten the ring (19), which, as mentioned previously, it has maximum stiffness when completely  open

In the situation of figure 2, the ring (19) It is partially closed and therefore its rigidity has reduced with respect to the situation in figure 1. The union articulated (18), as explained above, has jumped to incoming (B), which is closer to the junction articulated (7). Therefore, the lever arm has been reduced with respect to the previous figure. This means that for a same force exerted by the user, less force is delivered to the ring (19) (which is in accordance with the fact that the ring is already less rigid) and in return a greater advance is achieved angle of the upper clamping tip (5).

Then, every time the user reaches a ring tightening stop (19), slightly release the arms (14, 15) getting the lever (9) locked in the recess next. Thus, according to the lever (9) it advances from the first incoming (A) to the incoming room (D), you get a tool with a smaller lever arm and delivering a angle (24) of increasing advance. In other words, the arm lever or tightening torque delivered by the tool (1) goes adapting to the rigidity of the ring (19), which is decreasing according to the ring (19) it is closed.

The tool (1) according to the invention can present other embodiments other than the one represented in the figures. For example, it is contemplated that the tool (1) incorporate an automatic ring loader (19) so that the charger is fed with a ring cartridge (19) and said loader go delivering the rings (19) to the tightening tips (5, 6) as these tips (5, 6) close each ring (19).

Claims (6)

1. Banding tool (1), for closing a ring (19), which is characterized by:

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a upper part (2) provided with an upper arm (14), and a piece lower (3) provided with a lower arm (15), serving said arms (14, 15) as areas where a user exerts a force of hand tighten,

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a upper claw (4) and

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a lever (9),

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where the upper claw (5) is provided with a tightening point upper (5) and the upper part (2) is provided with a tip of lower tighten (6), said tips (5, 6) serving as zones by which the tool (1) performs the tightening and closing of the ring (19),

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where the pieces (2, 3, 4, 9) are articulated with each other by means of four articulated joints (7, 8, 16, 18), there being a union articulated (8) between the upper part (2) and the lower part (3), an articulated joint (7) between the upper part (2) and claw upper (4), an articulated joint (16) between the lever (9) and the bottom piece (3), and an articulated joint (18) between the lever (9) and the upper claw (4),

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where the articulated joints (7, 8, 16) have a fixed position and the articulated joint (18) has a variable position.

2. Banding tool (1) according to claim 1, characterized in that the articulated joints (2, 3, 4, 9) define an articulated quadrilateral. 3. Banding tool (1) according to claim 1, characterized in that the upper claw (4) comprises a channel (10) with several recesses (A, B, C, D), and the articulated joint (18) You can jump or roll from one incoming to the next along the contour of the channel (10), to vary its position. 4. Banding tool (1) according to claim 1, characterized in that the lever (9) has the articulated joints (18, 16), respectively, at one end and in an intermediate zone, and at the end opposite the end in which the articulated joint (18) is located, the lever (9) abuts with an inner stop (17) of the lower part (3), where the tool (1) further comprises a spring (11) that tends Hold the lever (9) against the stop (17). 5. Banding tool (1) according to claim 4, characterized in that the spring (11) acts by compression between the upper part (2) and the end of the lever (9) opposite the end on which it is located the articulated joint (18). 6. Banding tool (1) according to claim 1, characterized in that it further comprises an automatic ring loader (19).