The present disclosure falls within the field of flush mounting mechanisms, specifically of the type intended to be flush mounted in walls. More specifically, it relates to a frame and connection base assembly for flush mounting mechanisms that allow for carrying out a more comfortable and reliable coupling method between both.
Frame and connection base assemblies are widely known for flush mounting mechanisms such as outlets, switches, dimmers, cable outlets, blind controllers, TV RJ, HDMI and USB sockets, bus couplers, etc.
The frame is a metallic plate provided with holes for fastening to a flush mounted box and an opening for the introduction and fitting of the connection base. The connection base is the component in which there are incorporated at least one electrical mechanism and some connection terminals to cables that reach the flush mounted box. For example, in an outlet, the connection base is the component in which are incorporated the housing for the male plug, the pin-holes for the pins and, in a second portion that can be called the lower one, the connection terminals of the cables that reach the flush mounted box.
In these assemblies, the opening is delimited by a guide and fitting perimeter of the connection base. In other words, from a certain moment during the coupling process, by means of complementary shapes, obviously with a certain gap, the connection base is guided by an inner edge of the frame, a process which ends with the locking between both portions, for example by means of a clipping between elastic legs and notches complementary to them, generally arranged in the connection base and in the frame, respectively.
The connection base usually has a support framework in the frame, which acts as a stop in order to stabilize the assembly in the coupling configuration. The connection base also comprises a connection body joined to the framework, which is where the elements that carry out the electrical connection are housed, specifically the pin-holes and the terminals.
Therefore, the assembly allows for defining a first configuration in which the frame and the connection base are uncoupled and a second configuration in which the frame and the connection base are coupled.
In the second configuration, the framework abuts on the frame on one side thereof and the connection body is introduced into the opening and protrudes out from the other side of the frame. Said in other words, in the framework of the connection base two surfaces are defined, an outer one that will be oriented towards the outside once the assembly is coupled, and an inner one oriented towards the outer surface of the frame, such that when the frame and the base are coupled, the inner surface of the framework of the connection base and the outer surface of the frame are adjoining.
In going from the first configuration to the second configuration, there is a first phase of the introduction of the connection base in the opening of the frame. During this phase, the enabled movement of the connection base with respect to the frame is of six degrees of freedom, in other words, three of translation and three of rotation. This first phase ends with the correct fitting of the connection base in the frame, such that they are fitted to each other in order to enable a guide until the second configuration, which is that of coupling, and in which only one degree of freedom is enabled.
Previous to this coupling process, obviously, the installer will have connected the cables that come out of the flush mounted box in terminals arranged in the bottom of the connection base, connection which is usually made by means of quick connection levers that cooperate with insulate-displacement connectors. Once the connections are made, the connection base is brought closer to the frame while simultaneously arranging the cables inside the flush mounted box so they do not interfere, or barely do, with the connection base, for which reason the installer must be particularly attentive in that approach phase.
The problem that arises is that once the connection base begins to be introduced into the opening of the frame, the installer starts to move the connection base with respect to the frame according to the six degrees of freedom indicated, when the connection base is further introduced into the frame and while he tries to find the position in which the connection base and the frame coincide, in order to make one last push in the introduction direction in order to proceed to the final clipping. The tentative movements during this phase of searching for the fitting between the portions of the assembly implies movements that can cause the previously organized cables in the box to become disorganized and leave their intended position. It can also occur that some portions of the frame and of the connection base get hooked and further hinder the introduction, or it could cause jamming of the connection base in the frame and a forced movement to free it could crack or break one of the portions.
In order to overcome the mentioned disadvantages, an assembly of frame and connection base for flush mounting mechanisms is proposed herein, in which the frame comprises at least one opening for the introduction and fitting of the connection base, the opening being delimited by a guide and fitting perimeter of the connection base, in which the connection base comprises a connection body, a first configuration being defined in which the frame and the connection base are uncoupled and a second configuration in which the frame and the connection base are coupled, such that in the second configuration the connection body is introduced in the opening, the outline of the connection body at one of its ends being in contact with the guide and fitting perimeter, the rest of the connection body protruding by its other end from the other side of the frame, and in which the connection body has two portions, a first portion that in the second configuration is fastened to the guiding and fitting perimeter by one of its ends and a second portion joined to the first portion, both first and second portions being of different sections such that in the transition between both of them bearing surfaces are defined, such that in a third configuration these bearing surfaces rest on the edge of the frame adjacent to its guiding and fitting perimeter, the outline of the second portion of the connection body in the section change between the first and second portions being inscribed in a first circle that is internally tangent to the guiding and fitting perimeter, such that in the third configuration the connection base can rotate with respect to the frame according to a rotation that has the direction normal to the plane of the frame. This structure largely resolves the disadvantages of the state of the art, since first of all it allows for dividing the coupling method into several phases, all of which are very comfortable for the user and in which it reduces the possibility of making undesired movements that lead to the previously explained situations.
Specifically, this structure allows for dividing the coupling into a first approaching phase in which a portion of the connection base with a smaller cross section is introduced into the opening of the frame, and due to the difference in outlines, it does not have any impediments in the introduction. Next, upon reaching the transition area between the first and second portions two things can occur, either it is already in a relative position that allows for correct guiding between frame and connection base, which only occurs in very defined positions, and in which case the coupling is very easy, or that contact may be produced between the aforementioned bearing surfaces and the edge of the frame on its outer surface, which will most likely occur. In this second case, the contact in the edge of the frame impedes the installer to go on carrying out random tentative movements of the connection base with respect to the frame, but instead the connection base is forced to have its upper surface parallel to the frame, and therefore the main possible movement from this moment on is the rotation of the connection base with respect to the frame. This rotating movement is made with a certain gap and it is not necessary that the tolerances be very tight to do so. Then the installer will rotate the connection base until it reaches a position in which the introduction of the connection base in the direction normal to the surface of the frame is made possible, for the subsequent final coupling of the assembly.
Therefore, the characteristics of the disclosure allow for structuring the coupling maneuver to impede the creation of locking positions, and so that the minimum guide necessary to achieve coupling is guaranteed. In this way, movements that lead to a defective mounting are eliminated.
In some embodiments, the connection base further comprises a framework that is located connected to the connection body, specifically the framework is located connected to the first portion of the connection body, this framework in the second configuration abuts the frame on one of its sides (in other words they are adjoining) while the connection body is introduced through the opening of the frame and protrudes through the other side of the frame. In the third configuration, the surface of the framework of the connection base stays parallel to the surface of the frame while a rotation is made for the transition to the second configuration.
In some embodiments, the first portion of the connection body has an outer surface, this outer surface and the guiding and fitting perimeter being provided with guide means between them according to a coupling direction that is perpendicular to the plane of the frame.
In some embodiments, the outer surface of the first portion of the connection body comprises ridges that have the coupling direction, the guiding and fitting perimeter being provided with notches complementary to the ridges. In some embodiments, the second portion of the connection body is provided with connection terminals for the connection of cables.
In some embodiments, the outline of the second portion of the connection body in the section change between the first and second portions of the connection body comprises at least two points arranged in a second circle with a radius smaller than the circle internally tangent to the guiding and fitting perimeter, the outline of the first portion of the connection body being tangent to a third circle with a radius larger than the circle internally tangent to the guiding and fitting perimeter, the difference between the radii of the third circle and the circle internally tangent to the guiding and fitting perimeter being larger than the difference between the radii of the second circle and the circle internally tangent to the guiding and fitting perimeter.
These geometric characteristics allow on one hand the rotation between the portions of the assembly and on the other hand prevent the loss of the correct contact between connection base and frame.
In some embodiments, the assembly comprises locking means of the connection base in the frame in the second configuration.
In some embodiments, the locking means comprise elastic legs in the first portion of the connection body and notches in the guiding and fitting perimeter for the fitting of the end of the elastic legs.
In some embodiments, the frame has a housing recess of the framework of the connection base.
In some embodiments, the frame is square or rectangular and the second portion of the connection body is a body with an oblong cross section, its larger side being arranged obliquely with respect to the sides of the frame in the second configuration.
In some embodiments, the guide means have an angular frequency of 90°, such that four angular positions are defined relative to the coupling between the frame and the connection base.
In some embodiments, the first portion comprises a cavity for receiving the body of a male plug while the second portion comprises a plurality of quick connection levers. Thus, the first and second portions have distinct functions and as is habitual, it has to do with two portions differentiated with distinct functions, which can be manufactured separately and joined later, as is shown for example in the document published with number ES 1 133 990 U.
In some embodiments, the frame comprises a plurality of openings and the corresponding connection bases.
The disclosure also relates to a coupling method of an assembly according to any of the disclosed variations, which sequentially comprises the phases of:
As a complement to the description, and for the purpose of helping to make the characteristics of the disclosure more readily understandable, in accordance with a practical embodiment thereof, said description is accompanied by a set of figures constituting an integral part thereof, which by way of illustration and not limitation represent the following:
As can be seen in the figures, the disclosure relates to a frame 1 and connection base 2 assembly for flush mounting mechanisms. In a preferred embodiment, the flush mounting mechanism is a plug. In the figures, a preferred embodiment is shown in which the flush mounting mechanism is a plug, only the components of the claimed assembly being shown, neither the flush mounted box nor the cables, the trims or the male plug being shown.
As can be seen in
The opening, as seen in
As seen in the elevation view of
It is notable that in the described embodiment the connection base has a stop framework 21 of fastening of the connection base 2 to the frame 1. However, this framework 21 is not always necessary, since a person skilled in the art can conceive other embodiments in which the contact stop is carried out in other ways, such as for example a projection or even by means of the locking and fastening means themselves.
Therefore, a first configuration is defined, shown in
According to the present disclosure as seen in
A first portion 23 of the connection body is joined to the framework 21, and is the one that has the cavity 25 for receiving the body of a male plug (not shown) and in which the neutral fork 26 and the pin-hole protection device 27 are fastened, as indicated in
The second portion 24 is joined to the first portion 23 on the side opposite to the fastening framework 21.
The first 23 and second 24 portions have different cross sections such that in the transition between both of them bearing surfaces S2 are defined.
The transition should be such that in a third configuration, shown in
Therefore, in the third configuration the connection base 2 can rotate with respect to the frame 1 according to a rotation that has the direction normal to the plane of the frame 1.
In this text, the concepts of perimeter and edge must be distinguished. Perimeter should be understood as the surface or inner edge of the frame that is facing the outer surface of the first portion of the base. It relates to surfaces that contain the direction of introduction. In contrast, the edge is contained in a surface perpendicular to this perimeter. Therefore, the perimeter is that which makes it possible to limit the movement of the base with respect to the frame and according to movements with direction contained in the plane of the frame in the third configuration, while the edge is that which impedes the movement according to the direction normal to the frame, in other words the direction of introduction.
As it is known, the first portion 23 has an outer surface S23, this outer surface S23 and the guiding and fitting perimeter 12 being provided with guide means between them according to a coupling direction that is perpendicular to the plane of the frame 1. Moreover, according to the present disclosure, these guide means only actuate once the bearing surfaces are introduced in the opening of the frame, the frame and connection base assembly staying in the relative position suitable for their coupling, after the relative rotation between connection base 2 and frame 1, and being followed by the introduction according to the direction normal to the plane of the frame 1 which brings the assembly from the third configuration to the second configuration.
As seen in
As seen in
According to an especially preferred embodiment, and as can be seen in the cross section of
It must be noted that the rotating contact of the connection base 2 in the frame at the level of the transition can be made in many ways. What is essential is achieving enough contact between the connection base 2 and the frame 1 that enables the connection base 2 to rotate with respect to the frame 1 until it reaches the position of coinciding guides. The contact can be made by means of two, three or more points or areas conveniently arranged for an effective contact.
Also, as can be seen in
As can be seen in
As seen in
According to the present embodiment, and as seen in the plan view in
As seen in
As seen in
In all of the embodiments, it is preferred that the frame 1 be made of steel and that the connection base 2 be made of polyamide.
The described assembly coupling method will be carried out by means of the phases of:
In this text, the word “comprises” and its variants such as “comprising”, etc. should not be understood in an exclusive sense, i.e. they do not exclude the possibility of that which is described including other elements, steps, etc.
Also, the disclosure is not limited to the specific embodiments described herein, but rather encompasses the variations that one skilled in the art could make (e.g. in terms of choice of materials, dimensions, components, design, etc.), within the scope of what may be deduced from the claims.
Number | Date | Country | Kind |
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P201630911 | Jul 2016 | ES | national |
Filing Document | Filing Date | Country | Kind |
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PCT/ES2017/070465 | 6/27/2017 | WO | 00 |