RU2396065C2 - Suction device - Google Patents

Abstract

FIELD: personal use articles.

SUBSTANCE: invention relates to suction device, in particular for drawers, and is aimed at provision of compact suction device with additionally returning forces that insignificantly depend on displacement. Suction device comprises body, along which leash passes as arranged with the possibility of displacement from pulled-in condition into final position opposite to force pulled by spring. Leash is arranged with the possibility of connection to closed element of furniture in order to retain this furniture element in closed position. Leash in pulled-in position is previously stressed by means of at least two springs connected to each other by means of connection element. At least two springs are arranged so that one of them is inserted into another one.

EFFECT: provision of compact suction device with additionally returning forces that insignificantly depend on displacement.

13 cl, 12 dwg

Description

This invention relates to a retractor, in particular for drawers, with a housing through which a leash is arranged, which is movable against the force exerted by the spring, from the retracted position to the final position, the leash being adapted to be attached to a closable furniture element, to keep this element closed.

A closing mechanism for drawers is known from EP 391221, in which automatic retraction is provided, which makes it possible to keep the drawer in the closed position or bring it into this position due to the force of the spring. To do this, a leash is provided that moves linearly in the guide, which, due to the prestressed spring, moves to the final position, and is held in the opposite end position by tilting and fixing the journal in the corner of the guide. In this case, one end of the spring is attached to a movable leash, the other end to the device body or furniture. The disadvantage of this automatic retraction is that a minimal force is sufficient to completely close the movable furniture element, however, when this element is opened, the spring is additionally loaded, thereby increasing the returning force. Since the returning force must be overcome by the user when the pulling force is applied, it is perceived by him as undesirable, and therefore this effort should be minimized. In particular, the increased spring force due to displacement is superfluous.

An automatic retractor for drawer guides is known from DE 202004005322, in which a long spring is used passing around the biasing device, thus, due to the elongated spring, the return forces are slightly reduced. True, the disadvantage of this design is that due to the displacement on the spring, additional friction forces act, and an additional installation space, perpendicular to the longitudinal direction, in which the automatic retractor is located, is required. In addition, this automatic retractor is relatively expensive to manufacture.

Therefore, the aim of the claimed invention is to provide a compact retractor with slightly dependent on the movement of additional returning forces. This goal is achieved due to the retractor containing the features of claim 1 of the claims.

According to the invention, the leash in the retracted position is prestressed by at least two springs connected to each other by means of a connecting element. Thanks to the use of individual springs, it is possible to ensure a large stroke of the spring and place the individual springs compactly. In particular, it is possible to cascade several springs. Thus, there is no need for biasing elements, and restoring forces can be minimized.

According to a preferred embodiment of the invention, at least one spring is designed as a tension spring and at least one spring as a compression spring. Due to this, the resulting force on the leash is created by a tension spring and a compression spring, which, in particular, provides compact placement and a small occupied volume, since the tension and compression springs can be inserted into each other. In this case, the springs are preferably arranged concentrically relative to each other. When using coil springs, adjacent springs may have opposite windings to prevent mutual jamming.

It is particularly preferred that the compression spring is located around the tension spring. In this case, the tension spring can pass through the compression spring and protrude beyond its limits into the housing where the leash passes. In this case, the connecting element is held by the compression spring and the tension spring so that it is movable, and when the leash is moved, the connecting element also moves. To ensure a particularly compact design, the springs are placed coaxially relative to each other.

If the retractor needs to be made of a small number of parts, then in this case only two springs are preferably present: one compression spring and one tension spring. In this case, the tension spring can be attached to the leash, and the compression spring can abut against the housing on the side that faces the leash. For fastening, you can use well-known clamps and clips.

In addition, in an additional embodiment of the invention, it is possible to provide at least one coil spring with an increasing and / or decreasing radius of the turns. This allows in a limited space to achieve a relatively large stroke of the spring. You can also connect several coil springs in series.

To ensure a particularly simple design of the retractor, both springs are made of one wire as a whole. At the same time, the transition region from the stretching section to the compressing section is a connecting element, thus, the installation of the retractor is simplified and reduced to only a few operations.

Below the invention is explained in more detail on the basis of several implementation examples and the accompanying drawings:

figure 1 schematically shows a retractor according to the claimed invention in comparison with a retractor known from the prior art;

on figa, 2B, 2B presents views of the retractor according to the claimed invention;

on figa and 3B are a perspective view of two types of modified retractor in different positions;

on figa and 4B presents two types of coil springs for the retractor according to the invention;

figure 5 schematically shows a retractor with coil springs;

6 shows an embodiment of a retractor.

The retractor 1, shown in the lower part of FIG. 1, comprises a housing 2 configured to be mounted on a furniture housing or on a fixed part of a rail for extension. A curved guide 20 with an angled end portion 21 is made in the housing 2. A leash 3 with two fingers 4 passes into the guide 20 along a curved guide 20. A groove 5 for the activator is made on the leash 3, which enters the groove 5 for connecting the leash 3 with a movable furniture element in the area of the curved guide 20.

The leash 3 in the left position is tensioned by a compression spring 6 and a tension spring 7. The compression spring 6 on one side abuts against the housing 2, and on the opposite side it is connected to the connecting element 9, which in turn is connected to the tension spring 7. The tension spring 7 from the side opposite to the connecting element 9 is connected to the connecting element 8 and the leash 3.

Two retractors, which are shown in the upper part of figure 1, are made according to the prior art, with the leash 3 extending along the curved guide 20 in the housing 2. These elements can be made in a well-known manner. In the device known from the prior art, only a tension spring 10 is provided, which, on the side opposite to the lead 3, is fastened by means of a connecting portion 11 which is integral with it, and from the opposite side with the lead 3 is connected as a single integral connecting portion 12.

According to the prior art, the spring 10 in an unstressed state has a length L0, then it is pre-tensioned to a length L1, while the furniture element connected to the lead 3 is tensioned in the closed position. In this case, depending on the coefficient of stiffness of the spring R, the elastic force of the spring 10 increases if the spring moves to a position with a length L2 in which the leash 3 has traveled the path N. The elastic force F2 of the spring acts.

In a retractor made according to the claimed invention, an external compression spring 6 is provided that surrounds the tension spring 7. If the leash 3 moves from the extreme position from left to right towards the curved end portion 21 to the final position, the compression spring 6 is compressed while the tension spring 7 is stretched. The connecting element 9 moves to the right by h.

The spring length L1 * shown is the length of a (conditional) single tensile spring equivalent to two mechanically connected springs 6 and 7, which in the ideal case (the same stiffness coefficients) has approximately doubled length and, therefore, increases the structural length. When displaced by a value of H, an equivalent spring of length L1 * will stretch by a value of H and, thus, will have a length of L2 *, as a result, due to the doubled length of the spring, a half increment of the restoring force is obtained (i.e., a flatter characteristic). So, L2 * is equal to L1 * plus H (L2 * = L1 * + H).

According to the invention, two springs 6 and 7 connected to each other, with approximately the same stiffness coefficient and total deviation H, are stretched only by the value N / 2, as a result of which a half increase in force is also obtained. Two partial displacements on N / 2 due to the connection of the free ends are summed up approximately to obtain the value N. Thus, the length of the conditional equivalent tension spring is equal to

L2 * = L2 (tensile) + L2 (compression) + H.

In this case, the tension spring lengthens, and the compression spring is shortened: due to the opposite direction of action, both displacements are combined. The sum of the tension of the spring 7, the tension and compression of the compression spring 6 gives an offset N. To ensure optimal design, the tension and compression are set so that they are approximately the same. Otherwise, one of the two springs will move more strongly, because of which the increment of force will be large.

In the retractor according to the invention, the prestress force F1 * = F1 is achieved due to the fact that both springs 6 and 7 have a different length in the unstressed state, then the compression spring 6 is compressed and the tension spring 7 is stretched. When installed, the springs are tensioned relative to each other and provide the necessary pre-stress force F1 *.

The resulting return force F2 * is less than the force F2, which corresponds to the device known from the prior art, and accordingly, the total coefficient of spring stiffness R * will also be less.

The springs 6 and 7 can be made with different stiffness factors, so that the ratio of displacements and forces will change in proportion to the stiffness coefficients. However, it is optimal for the springs to be calculated equally, since in this case the displacements (stretching) are distributed equally, so the increment of the force is minimized.

On figa-2B presents a retractor according to the claimed invention. The compression spring 6 concentrically surrounds the tension spring 7, whereby a connecting element 90 is provided in which the compression spring 6 abuts. The connecting element 90 forms a supporting surface 15, supporting from the outside of the coils of the compression spring 6. On the inside, the connecting element 90 is connected to the connecting element 9 of the tension spring 7.

Between the compression spring 6 and the tension spring 7, a cylindrical guide tube 60 can be placed to prevent spring deflection, thus, the resulting forces act in the direction of movement of the lead 3. If the lead is in the extended position (FIG. 2B), the tube 60, as shown in 2B, can move into a recess on the housing 2. If necessary, the housing 2 can also be an abutment for the guide tube 60 to limit the maximum movement of the connecting element 90.

In figures 1 and 2, the compression spring 6 and the tension spring 7 are made in the form of coil springs. You can use other types of springs, for example, spiral, plate, crown, leaf, etc.

On figa presents a modified retractor in the initial position, in which the compression spring 6 is located around the tension spring 7, and on the one hand they are connected by means of the connecting element 9. In this case, the compression spring 6 is no longer guided by the inner guide tube, but with a guide surface 22 of the housing 2, which prevents the compression spring 6 from bending down or to the side. The guide surface 22 can be made in the form of a sleeve to create support for the compression spring 6 in all directions and prevent movement in the transverse direction.

In addition, a damper 30 is provided on the leash 3, connected to the leash 3 by means of the rod 31. Thus, damping can occur during intermittent movement of the leash 3.

On figb depicts a retractor with a leash 3 in the extended position, in which the compression spring 6 is compressed, and the tension spring 7 is tensioned.

On figa and 4B shows a spiral spring, which can also be made in the form of a sheet metal flat crown spring 16. The crown spring 16 is fixed on the side 17 and is made in the form of a spiral, so that the central end portion 18 forms the opposite end castellated spring 16 and can move in the perpendicular direction with respect to the surface of the flat castellated spring 16.

As shown in FIG. 5, several such crown springs 16 can be connected to each other by means of connecting elements 19, so that a relatively large spring travel can be realized with the help of crown springs 16. By combining several crown springs 16 alternately from the outside, then inside, you can create a package of springs whose properties are similar to those of the above combination of crown springs 16.

In Fig. 5, a spring package consisting of crown springs 16 is placed in a compression spring 6. Due to this, the available installation space is used in an optimal way.

In principle, in a retractor, three or more springs can be connected to each other in order to optimally use their elastic properties. To ensure simplicity of design, one spring can also have a section with a compression load and a section with a tensile load, so that a transition in the form of a connecting element is formed between these sections. This ensures extreme ease of assembly, since in this case a minimum number of parts is necessary.

The springs 6 and 7 can protrude from the housing 2, so the housing 2 can be made very compact, since it is not used to tension the spring. In this case, in order to avoid distortion, the springs 6 and 7 can be held by guide elements, for example, strips, tubes, etc.

In the illustrated embodiments, the leash is attached to a tension spring. As shown in Fig.6, the leash 3 can act on the longitudinally directed compression spring 6, which in this case is connected via a connecting piece 90 to the tension spring 7. A spring package made in this way is located on the side of the curved guide 20 with an angular end portion, the tension spring 7 being fixed to the housing 2 from the side opposite to the connecting part 90.

In addition, the drawings show only two springs located coaxially relative to each other. Of course, here you can invest in each other and arrange four, six, eight or more springs coaxially to reduce the increment of the returning forces. In addition, the springs can also be located next to each other and on the one hand connected to each other by means of corresponding connecting elements.

Claims (13)

1. A retractor, in particular for drawers, comprising a housing (2) through which a leash (3) is arranged to move from the retracted position to the end position against the force exerted by the spring, the leash (3) being configured to attaching to the closable furniture element in order to keep this furniture element in the closed position, while the lead (3) in the retracted position is pre-tensioned by at least two springs (6, 7, 16) connected to each other by a connecting element ohm (9, 9 ′, 90), characterized in that at least two springs (6, 7, 16) are arranged so that one of them is inserted into the other. 2. A retractor according to claim 1, characterized in that at least one spring is made in the form of a tension spring (7, 16), and at least one spring is in the form of a compression spring (6). 3. A retractor according to claim 1 or 2, characterized in that the compression spring (6) is located around the tension spring (7), and these springs are connected to each other by means of a connecting element (9, 9 ′, 90). 4. The retractor according to claim 1, characterized in that the springs (6, 7, 16) are located coaxially relative to each other. 5. The retractor according to claim 1, characterized in that the springs (6, 7, 16) are made in the form of coil springs, while the springs adjacent to them have opposite windings. 6. The retractor according to claim 1, characterized in that two springs are provided, wherein one spring is made in the form of a tension spring (7), and the second spring is in the form of a compression spring (6). 7. A retractor according to claim 2, characterized in that the tension spring (7, 16) is attached to the lead (3), and the compression spring (6) abuts against the housing (2) from the side facing the lead (3). 8. A retractor according to claim 7, characterized in that the stiffness coefficients of the tension spring (7) and compression spring (6) are approximately equal, due to which the displacement of both springs during movement of the lead (3) is approximately the same. 9. A retractor according to claim 1 or 2, characterized in that at least one crown spring (16) is provided with an increasing and (or) decreasing radius of the turns. 10. A retractor according to claim 10, characterized in that several crown springs (16) are connected to each other. 11. A retractor according to any one of claims 1, 2, 8, 10, characterized in that the two springs (6, 7) are made of one wire as a whole, and the transition section from the stretching section to the compression section forms a connecting element. 12. A retractor according to any one of claims 1, 2, 8, 10, characterized in that a guide piece (22, 60) is provided for the compression spring (6), preventing downward deflection in various positions. 13. A retractor according to claim 12, characterized in that a guide sleeve (22) is made for the compression spring (6), which forms a unit with the housing (2).

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