NL1022997C2 - Combination of wall mounting device and radiator, includes radiator tilt compensation device, preferably spring - Google Patents

Abstract

Devices (13) for compensating for radiator tilt between two radiator tilt positions are connected to the wall support (3) and radiator. The wall mounting device (1) comprises at least one wall support for securing to the wall. The radiator can be tilted relative to the wall by pivoting it about a substantially horizontal axis (11).

Description

Brief indication: Radiator wall mounting device

The present invention relates to a radiator wall mounting device, in particular to a combination of a radiator and a wall mounting device for supporting the radiator, wherein the wall mounting device comprises at least one wall mount to be mounted to the wall, and wherein the radiator in mounted condition is pivotable between two positions relative to the wall about a substantially horizontal pivot axis.

Radiators of a heating or cooling device 10 are often mounted on a wall. It is difficult to remove dirt or dust behind such a radiator or to paint the wall behind the radiator.

GB 2 096 451 discloses a wall mounting device with which it is possible to pivot the radiator away from the wall, so that cleaning or painting can easily be done behind the radiator. To this end, a connecting hook behind the radiator must first be released, whereafter the radiator is only connected to the wall at at least two pivot points and thus can pivot about these pivot points. The maximum pivot of the radiator I 20 is determined by a chain between the wall and the radiator.

A drawback of the known wall mounting device is the large tilting moment of the radiator. A radiator in mounted I. state is filled with water, which ensures a relatively large mass. After a connection between the radiator and the wall has been released, the large tilting moment of the radiator requires a great deal of force and effort to cause the radiator to pivot gradually. If the I radiator is not retained during pivoting, there is a chance that the chain will break or come loose from the wall, with the result that the I radiator will come completely loose from the wall and will be damaged.

Furthermore, the water supply and discharge pipes which are connected to the radiator and which allow a normal swivel may be damaged in the event of an excessive swivel, whereby the risk of unwanted leakage is high.

To return the radiator from a pivoted position to a vertical position, a great deal of effort and effort is again required II because of the large tilting moment that the radiator has relative to its II pivot axis. When the radiator is back in its vertical position, the connection between wall and radiator must then be reconnected, while the radiator is kept in the H correct place, which will also be difficult.

The present invention has for its object to provide a wall mounting device and radiator, wherein the radiator can be tilted without undue difficulty.

It is a further object of the present invention to provide an H wall mounting device, wherein it is possible to easily reach the wall behind H along at least three sides of the radiator when the radiator is tilted away from the wall.

One or more of these and other objects are achieved by a combination according to the present invention of a radiator; - a wall mounting device for supporting the radiator; wherein the wall mounting device comprises at least one wall bracket to be fixed to the wall and wherein the radiator is mounted in a mounted state about a substantially horizontal pivot axis between two positions relative to the wall, and wherein tilting moment compensation means engaging on the wall support and the radiator compensating at least partially a tilting moment of the radiator in a tilting area determined by the first and second positions of the radiator are provided.

An important advantage of the combination according to the present invention is that little force is required during pivoting of the radiator. Conventional radiators mounted on a wall I are in a first, substantially vertical position. According to the invention, the tilting moment of the filled radiator that arises when the radiator is tilted from the vertical position is at least partially compensated. As a result, only a small or no tilting moment remains.

A user who pivots the radiator from a first, usually vertical - 3 position, may only have to overcome a small tilting moment. This naturally also applies if the radiator has to be returned from a second, tilted position to the first vertical position.

Many different types of radiators can be used in the combination according to the present invention. The radiator preferably extends substantially in one plane. This can be a hollow, rectangular plate, as they are often used. Such a radiator has finite dimensions in three dimensions (height, width, and thickness), but the shape is essentially a rectangular surface, stretched by height and width. A radiator that is composed of interconnected, hollow slats placed in parallel can also be regarded as a radiator extending in a plane if the thickness determined by the width of the slats is not taken into consideration. Other shapes, for example slightly curved or wavy shapes, can often be regarded as shapes extending substantially in a plane. In this optic a vertical position of the radiator is a position in which said surface is directed substantially vertically, that is to say parallel to the wall.

When the radiator is tilted, the surface of the radiator pivots around the pivot point or pivot axis. The pivot axis runs horizontally through the surface of the radiator, parallel to the wall. This pivot axis can be physically present, but can also be fictitious. If the pivot axis is fictional, it is determined by at least two tilt points located in the plane.

A wall mount of the wall mounting device according to the present invention can be designed in many ways. The wall support is preferably suitable for mounting on a wall and is also suitable for supporting a radiator such that a pivot axis for the radiator is created. A known shape is, for example, an L-shaped bracket. Such a bracket has a body which is suitable for mounting on a wall by means known per se, such as for instance a screw connection, and an arm which is substantially perpendicular to it. The arm usually has a concave portion at its free end in which a side of a radiator or an edge thereof can be received and on which the radiator can pivot.

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As stated, when the working line of gravity through the center of gravity of the radiator does not run through the pivot axis, a turning or tilting moment acts on the radiator. Due to the large weight of a radiator filled with water, this tilting moment is also large, and indeed greater as the distance between the aforementioned working line and the pivot axis is larger. To be able to tilt the radiator without much force, this tilting moment must be reduced. The tilting moment compensation means serve for this purpose. Tilt moment compensation means can generally be any means that can exert a force on an object, such as for example a resilient element, an H elastic material, but the weight of any H object can also generate such a force. The use of one or more of the aforementioned means in a manner suitable for this purpose H can therefore be used as a tilting moment compensating means.

Advantageously, the wall mounting device further comprises at least one radiator support, the tilting moment compensating means H being active between the at least one radiator support and the at least one wall support. The radiator support can be attached to the radiator and ensures a simple assembly and a good connection between radiator and wall support.

The person skilled in the art will understand that the radiator support can be attached to the radiator in many ways. For example, the radiator can be clamped in a clamp, but a screw connection can also be applied, or the radiator support can be welded to the radiator. Furthermore, flexible connections H are also possible, such as a hook which engages an eye, a cavity or behind an I edge of the radiator.

Preferably the at least one radiator support is hingedly connected to the at least one wall support for hinging the radiator. The radiator is then attached to the at least one radiator support. The radiator support is hingedly connected to the at least one wall support, so that the radiator I is hingedly connected to the wall support, and thus can be hinged to the wall. The tilting moment compensation means are effective on the at least one radiator support and therefore also on the I radiator. Such a construction ensures simple mounting of the wall mounting device and the radiator. In addition, this construction ensures that no undesired forces, such as torsional forces, can come to act on the radiator when it is tilted. All forces are then in fact active on or in the wall mounting device, which greatly reduces the risk of damage to the radiator.

It is furthermore advantageous that the at least one radiator support comprises an arm on which the tilting moment compensation means engage. With such an arm it is possible to provide the force of the tilting moment compensation means with respect to the pivot axis, so that a moment of force is exerted on the at least one radiator support relative to the pivot axis, while the tilting moment compensation means have as little access as possible. to the wall behind the radiator when the radiator is tilted. With the aid of the arm on the radiator support, the tilting moment compensation means can engage at a different location than on a side of the radiator adjacent the pivot axis. This side adjacent to the pivot axis is a side where, among other things, an opening is created when the radiator is tilted. This opening provides access to the wall and space behind the radiator. With an arm on the radiator support, the tilting moment compensation means need not be located in this opening and access to the rear space is not impeded.

In order to keep the said opening free, it is also possible to place the tilting moment compensation means near the wall, as a result of which they are not located in said opening. In this case, therefore, near the wall means that the tilting moment compensation means are substantially closer to the wall than to the radiator.

The pivot axis is preferably situated below the mass center of gravity of the radiator, in particular near the underside of the radiator. This causes the radiator to tilt because the tilting moment is directed downwards. Advantageously, the mass center of gravity is substantially vertically above the pivot axis when the radiator is in a first, usually vertical position, since there is then no tilting moment and the radiator is then in a situation of balance of forces, which means that the radiator , without other forces acting upon it, will not move.

In a preferred embodiment of the invention, the tilting moment compensation means extend between two engagement points 1009007 Η - 6 points, with a change in the distance between the engagement points changing a force generated by the tilting moment compensation means. Such tilting moment compensation means operate substantially outside the pivot axis.

In another preferred embodiment, the tilting moment compensation means extend between two engagement H points, with a change in the mutual angular position of H the engagement points changing a force generated by the tilt moment compensation means H 10. Such H tilting moment compensation means are substantially active at the pivot axis.

As stated above, tilting moment compensating means may comprise springs. Feathers come in many different types. In the case of, for example, used gas, tension or compression springs, a force is generated when the distance between the points of engagement changes. Use can also be made advantageously of screw, leaf or coil springs, for instance between a physical pivot axis which is fixedly connected to the radiator, and a wall support, wherein a torsional force is generated when the mutual angular position of the points of engagement changes.

In yet another preferred embodiment according to the invention, a counterweight is used as a tilting moment compensation means. The counterweight can for instance be mounted under the pivot axis, while the mass center of gravity of the radiator is above the pivot axis. When the radiator tilts, I turns the counterweight along and creates an opposing moment of force on the counterweight. The counterweight with a wire connection via a pulley can also convert gravity into an opposing moment of force acting on the radiator.

Furthermore, the wall mounting device preferably comprises blocking means for blocking the radiator in the first or second or both positions. With such blocking means I the radiator is fixed in one of the two positions and then I cannot undergo any unwanted or unexpected pivoting, for example when the radiator is accidentally bumped. Suitable examples of such blocking means are clamps, rods and chains.

In the following, the present invention is further elucidated with reference to a non-limiting preferred embodiment and described with reference to a drawing. Herein: Fig. 1 shows a perspective view of a wall mounting device for tiltable wall mounting of a radiator in a first position; and Fig. 2 is a perspective view of a wall mounting device for tiltable wall mounting of a radiator in a second position.

In the figures, the same reference numerals refer to the same parts.

FIG. 1 shows a wall mounting device 1 for a radiator. For the sake of clarity, the figure does not show a radiator. The wall mounting device 1 comprises a wall support 3 # which is provided with two support arms 5. The wall support 3 is attached to a wall with per se known fixing means, such as screws, which is also not shown for the sake of clarity.

Radiator supports 7 are hingedly mounted on the carrying arms 5 of the wall support 3 about an (imaginary) hinge pin 11. Each radiator support 7 comprises an arm 9, which in the shown embodiment is perpendicular to the radiator support 7. A radiator can for instance be attached to the radiator support 7 by means of clamps or screws. The wall mounting device 1 is in a state where the radiator is in a first, vertical position. Due to the placement of the radiator support 7 near the pivot axis 11, the mass center of gravity of the radiator will be above the pivot axis 11 and the pivot axis 11 will be located near the underside of the radiator.

The arm 9 of the radiator support 7 is connected near a free end thereof to a first point of engagement of tilting moment compensation means 13, which in the embodiment shown are formed by gas springs. The tilting moment compensation means 13 are connected with a second point of engagement to the wall support 3 near a free end of an upright part thereof. The person skilled in the art will understand that instead of the gas springs other tilting moment compensation means 13 can be used which ^ R can also engage in other places, such as, for example, ^ R mechanical pressure - or tension springs.

R 5 A stop is provided on the wall support 3 in the form of R. The arms 9 rise with the hinge of the R radiator and against the stop that blocks further movement of the arms 9. The radiator ^ R cannot tilt further due to the blocking of the nuts 9.

IR 10 FIG. 2 shows the wall mounting device 1 of FIG. 1, but in the situation where a radiator attached thereto, which for reasons of clarity is not shown, would be in a second, H tilted position, as can be seen from the H position of the radiator supports 7. The position of the wall support 3 is H 15 the same as its position in Fig. 1. With respect to the wall support 3, the radiator supports 7 are rotated together with the arms 9 about pivot axis 11. The tilting moment compensation means 13 are depressed by the rotation of the arms 9. Depressing the gas springs produces a counter-pressure, so that an opposite directional torque is created on the arms 9. The sum of the initial tilting moment and the oppositely directed torque results in a smaller tilting moment.

With reference to figs. 1 and 2, the operation of the wall mounting device 1 will be explained. In the normal H-use condition, a radiator will be in a first, substantially vertical position, i.e. parallel to the wall. The wall mounting device 1 is then in the state as shown in Fig. 1.

Since there is no tilting moment, the radiator is in its first, vertical position at rest. If the torque supplied by the tilting moment compensation means 13 is greater than a possible tilting moment of the radiator, a blocking is necessary so that the radiator does not tilt to the wall. This may, for example, be a stop under the arms 9, so that in the vertical position of the radiator supports 7 the arms rest on the stop. Another possibility is that the tilting moment compensation means have reached their extreme length, as a result of which the nuts 9 cannot rotate further.

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As soon as a user starts to tilt the radiator, the balance of forces is disturbed. The radiator starts to move and will continue to move downwards due to the tilting moment, which then increases. At the same time, the arm 9 rotates with the radiator and radiator support 7 and thereby reduces the distance between the points of engagement of the tilting moment compensation means 13, in this case gas springs. The tilting moment compensation means 13 will give a counterpressure by pressing, which translates into a torque on the radiator support 7, which torque is opposed to the initial tilting moment of the radiator. Due to the small resulting tilting moment, the radiator with radiator support 7 and arm 9 will tilt down slowly and in a controllable manner.

FIG. 2 shows the situation in which a radiator has reached the second extreme position. The radiator is tilted away from the wall under the influence of a resulting tilting moment, as described above. Fig. 2 clearly shows how the arms 9 of the radiator supports 7 have depressed the tilting moment compensation means 13. In addition, it can clearly be seen how blocking means 15 block the arms 9 from going further up, so that the radiator supports 7, to which in practice a radiator is attached, cannot go further down. The openings thus created provide access to the space behind the radiator and the part of the wall that is behind the radiator, so that the wall and the radiator can be cleaned. After cleaning or painting, the radiator can be tilted back by pushing the radiator back to the first, vertical position.

Although the invention has been elucidated with reference to only one embodiment, the person skilled in the art will understand that the invention can be carried out in many other suitable ways. It is to be noted that the radiator may also comprise a ventilation device, such as of the kind disclosed in EP-A-0 783 655.

1022987

Claims (13)

2. Combination according to claim 1, characterized in that the wall mounting device (1) further comprises at least one radiator support (7) to be fixed to the I radiator, wherein the tilting moment compensation means (13) between the at least one wall support (3) and the at least one radiator support (7) is operative. Combination according to claim 2, characterized in that the at least one radiator support (7) is hingedly connected to the at least one wall support (3) for hinging the radiator. 4. Combination according to claim 2 or 3, characterized in that the at least one radiator support (7) comprises an arm (9) on which the tilting moment compensation means (13) engage. Combination according to one of the preceding claims, characterized in that the tilting moment compensation means (13) are placed near the wall. Combination according to one of the preceding claims, characterized in that the pivot axis (11) is located below the mass center of gravity of the radiator. 7. Combination as claimed in any of the foregoing claims, characterized in that the pivot axis (11) is located near the underside of the radiator. - 11 - A combination as claimed in any one of the preceding claims, characterized in that the tilting moment compensation means (13) extend between two engagement points, wherein in use I with a change in the distance between the engagement points, a tilting moment compensation means (13) generated power I can change. 9. Combination as claimed in any of the foregoing claims, characterized in that the tilting moment compensation means extend between two engagement points, wherein in use when a change in the mutual angular position of the engagement points I can change a force generated by the tilting moment compensation means I . 10. Combination as claimed in any of the foregoing claims, characterized in that the tilting moment compensation means (13) comprise a spring, in particular selected from the group comprising a gas spring, a coil spring, a coil spring, a leaf spring, a compression spring. , a tension spring or a torsion spring. 11. Combination as claimed in any of the foregoing claims, characterized in that the tilting moment compensation means (13) comprise a counterweight. A combination according to any one of the preceding claims, characterized in that the combination comprises blocking means (15) for blocking the radiator in the first or second or both I positions. 13. Combination according to claim 12, characterized in that the blocking means (15) comprise a clamp, a chain or a rod. 14. Combination as claimed in any of the foregoing claims, characterized in that the radiator extends substantially in a plane H, wherein said plane of the radiator extends substantially vertically in a first position, and said plane I of the radiator extends vertically at an angle with the I in a second position. 15. Wall mounting device (1), apparently intended for use in a combination according to one of the preceding claims. 1099007