DE102015103066A1 - Housing for an RFID transponder - Google Patents

Abstract

Housing for an RFID transponder (1) for pressing into an opening with a press-fit body (2), which has a press-in section (3) on which circumferentially distributed clamping projections (4) are arranged and wherein the clamping projections ( 4) are joined together so that they are part of a clamping body (5).

Description

The present invention relates to a housing for an RFID transponder for pressing into an opening with a press-fit body, which has a press-in portion, on which circumferentially distributed clamping projections are arranged.

RFID (Radio Frequency Identification) transponders are typically used to identify and / or locate objects, such as components or medical instruments. The RFID transponder has a specific code assigned to it and is arranged on a component to be identified. With a reader, the code can be read out and thus the corresponding component can be identified.

To the RFID transponder from external influences such. B. to protect against contamination, this is usually placed in a housing. Such housings usually have an area for arranging an RFID transponder and can be pressed together with the RFID transponder into an opening in the object to be identified, for example into a bore. Such holes are usually designed as blind holes, so that the RFID transponder must be protected only from one side through the housing.

Such a housing is used for example in the DE 10 2012 104 409 disclosed. In order to secure the corresponding housing in an opening, the device has on the outside of the housing arranged clamping projections, which cooperate with the opening, so that the housing can not move unintentionally in the opening or slip out of this. Although such a device has proven itself, it can happen when pressed into the opening that the terminal projections are damaged or torn off and thus a secure hold of the housing in the opening is no longer guaranteed.

Based on this, the present invention has the object to provide a housing for an RFID transponder, in which the stability of the clamping projections is increased.

In a housing of the type mentioned, this object is achieved in that the clamping projections are connected together and part of a clamping body. Advantageous developments and refinements of the housing are part of the dependent claims.

By the connection of the individual clamping projections, the stability of the clamping projections is increased overall. Because forces acting on the press-fitting of the housing in an opening on only one clamping projection and thus expose them to large loads can be absorbed by the compounds of several clamping projections. The likelihood that pinch protrusions will not withstand the press-fit forces and as a result will be torn or damaged will therefore be reduced. The improved stability of the clamping projections also offers advantages in the manufacture of the housing. Because the clamping projections tear, for example, if they must be removed from a mold or a mold, not so easy.

In terms of design, it has proven to be advantageous if the clamping body has a polygonal cross-section. Due to the polygonal cross section, the clamping body can interact with the housing and thus secure the housing and the RFID transponder in the opening. The clamping body may preferably have a seven- or nine-cornered polygonal cross section, but also a cross section with a different number, in particular an odd number, at corners. The corners can be evenly distributed so that the housing can interact evenly with the opening and the pressing forces are evenly distributed to the clamp body. The clamping body can deform when pressed into the free areas between the clamping projections, so that it can cooperate with the opening and hold the housing in the opening. By the interaction of the clamping body with the opening, a frictional connection can arise, so that the housing is fixed and secured in the opening.

According to a further advantageous structural embodiment, the clamping body is designed as a truncated pyramid. The clamping body may be wider at a lower end than at an upper end, so that the pressing of the housing is facilitated in the opening. The required insertion force is thus dependent on how far the housing has already been pressed into the opening. Particularly preferably, the clamping body is designed as a regular truncated pyramid and / or as a hollow pyramid stump.

Furthermore, it has proved to be advantageous if the corners of the clamping body lie on a clamp body circumference. This is particularly advantageous for the reason that the opening can also have a round or a cylindrical shape. By arranging the corners of the clamp body on a clamp body circumference press-in forces can be distributed uniformly over the circumference of the clamp body. The housing can be accommodated as centrally as possible in the opening, so that Also, the RFID transponder can be arranged as centrally as possible in the opening.

In a further development of the invention, it is proposed that the press-in section is designed as a hollow cylinder or as a hollow truncated cone. It is advantageous if the base circle of the press-in portion is smaller than the clamping body circumference. The base circle of the press-in section may be arranged concentrically to the clamping body circumference, so that the press-in section and the clamping body have the same center point.

With regard to the stability of the housing, it has proven to be advantageous if the press-in portion is integrally connected to the clamping body. Due to the one-piece connection, these two elements are firmly connected to each other, so that the stability of the housing, in particular when pressed into the opening, is increased. The press-fit and the clamping body can form a Einpresskörper as union amount. This will be explained in more detail below.

It has furthermore proven to be advantageous if the press-in section and the clamping body have the same height in the press-fit direction. The press-in section and the clamping body can be flush with each other. Further, it is advantageous if the height of the press-in portion or the height of the clamping body is less than the depth of the opening, so that the housing can be completely accommodated in the opening and does not reach to a possible bottom of the opening.

Furthermore, it has proven to be advantageous if the outer surface of the press-fit body is formed in a first region by the outer surface of the clamping body. This area may extend from a lower end of the press body to a portion where the outer surface of the press-in portion penetrates the outer surface of the clamp body. Below the penetration region, the outer surface of the press-fit body can be formed only by the outer surface of the clamping body. The RFID transponder can be arranged in the press-fit body and communicate directly with it. In an alternative embodiment, a plurality of RFID transponders may be arranged in the press-fit body.

In a further embodiment of the housing, it has proven to be advantageous if the outer surface of the press-in body is formed in a wider range in sections by the outer surface of the clamping body and in sections by the outer surface of the press-in. This additional area may be above the penetration area. The portions of the outer surface of the press-fit portion and the clamp body may be alternated. The same number of outer surfaces of the injection body and outer surfaces of the clamping body can be distributed over the circumference. The penetration area may be formed as a separation curve between the outer surfaces of the clamping body and the outer surfaces of the press-fit. The separation curve may have the shape of sectional elliptical arcs. The proportion of the outer surface of the press-in section on the outer surface of the press-fit body can increase with the height of the press-fit body. The proportions of the outer surface of the clamping body and the press-in portion may be antiproportional to each other. At the upper end of the injection body, the entire outer surface can only be formed from the outer surfaces of the press-in.

It has also proven to be advantageous if the housing has a cylindrical cover body for covering the RFID transponder. The cover body may be arranged at the lower end of the housing on Einpresskörper. The cover body, when the housing is pressed into an opening, cover the entire opening and thus complete it. Through the cover body of the RFID transponder can be protected from external influences such as water and / or dirt. The base circle of the cover body and the clamping body base circle can have the same diameter, so that the corners of the clamping body can lie on the base circle of the cover body. Furthermore, the cover body and the press-fit body can be concentric with one another.

In an advantageous embodiment, it is proposed that the housing has a hollow-cylindrical plug-in body for inserting at least one RFID transponder. The male body may protect and communicate with the RFID transponder. The RFID transponder can be fastened in the plug-in body, for example it can be glued into the plug-in body, be frictionally connected thereto, or else be in contact with it in a different way. The male body can be flush with the injection body, so that the height of the male body and the press body can be the same.

In terms of design, it is advantageous if the male body is arranged coaxially to the press body. Due to the coaxial arrangement, the male body is located in the center of the injection body and thus in the middle of the housing. The RFID transponder can thus also be arranged centrally in the housing and experience the same protection from all sides.

It has also proven to be advantageous if the male body is arranged spaced by webs to Einpresskörper. By the Webs can absorb deformations of Einpresskörpers and not be transferred to the male body. As a result, the plug-in body and thus also the RFID transponder are as far as possible not deformed. The webs may extend radially between the press body and the male body and connect them. The webs may be connected to the cover body and thus increase the overall stability of the housing. Furthermore, the webs can flush with the press body and the male body, so that when the housing has been pressed into an opening, they do not come into contact with the possible bottom of the opening. The webs can be distributed over the circumference of the press-fit body or the plug-in body and in particular have the same distance from one another. The number of webs can correspond to the number of corners of the clamping body.

With regard to the protection of the RFID transponder, it has also proven to be advantageous if the webs are arranged such that Einpresskörper and male body are de-energized from each other. By the webs or their arrangement deformations of the clamping body and the male body, for example when pressing the housing into an opening, preferably not on the male body and thus also not possible to be transmitted to the RFID transponder. The RFID transponder is thus also decoupled from the holding forces of the clamp body on the opening.

Furthermore, it has proven to be advantageous if the outer surfaces of the press-fit body are designed as air guide surfaces for discharging air. When the housing is pressed into an opening, the space between the housing and the bottom of the opening is reduced, so that the pressure between the housing and the bottom of the opening increases. For a pressure equalization, the air must be able to escape from the opening. Due to the configuration of the outer surfaces of the press-fit body as air guide surfaces, the air between these surfaces and the opening can be pressed outside, so that the housing can be pressed into the opening without much back pressure. By discharging the air, the pressure on the RFID transponder is also reduced.

Further advantages and details of the housing according to the invention are explained below with the aid of the accompanying drawings with reference to two embodiments. In these shows:

1 a first housing for the RFID transponder in a perspective view;

2 the housing after 1 in a side view;

3 the housing after 1 in a plan view;

4 a further housing for an RFID transponder in perspective view;

5 the housing after 4 in a side view;

6 the housing after 4 in a top view.

This in 1 illustrated housing 1 serves to accommodate and protect an RFID transponder. The housing 1 can be pressed together with the RFID transponder in an opening, so that the RFID transponder is secured in the opening and is shielded against external influences as much as possible.

Based on the illustrations in 1 . 2 and 3 will first be a first embodiment and then with reference to the representations in the 4 . 5 and 6 A second embodiment of a housing according to the invention 1 described. Subsequently, the press-fitting operation, which is identical for both embodiments, will be described.

In 1 is a design variant of a housing 1 for an RFID transponder shown in a perspective view. The two essential elements of the housing 1 are the injection body 2 and the cover body 6 as well as in 2 can be seen. The cylindrical cover body 6 is at the bottom of the case 1 arranged and intended an opening after the housing 1 in this was pressed, cover. After pressing is thus of the housing only the cover body 6 or its outer surface visible.

On the cover body 6 is coaxial with the injection body 2 arranged, which serves to receive an RFID transponder, not shown. For receiving an RFID transponder is the inner region of the injection body 2 designed round or cylindrical. The shape of the outer surface of Einpresskörpers 2 is crucial to how well the case 1 can be pressed into an opening and how well the housing 1 is secured in the opening.

The outer surface of the injection body 2 is formed by two elements that the injection body 2 lend its favorable outer contour. The first part consists of a cylindrical press-in section 3 which also covers the inner area Recording an RFID transponder forms. Outside of this press-fit section 3 are clamping projections 4 arranged, which is a clamping body 5 form. The clamp body 5 has the geometric shape of a pyramid or a truncated pyramid with a seven-sided base.

How best to use the 3 it can be seen, is the clamp body 5 concentric with the press-in section 3 arranged. Due to the geometric shape of the two bodies, it comes to the press-fit 2 the clamp body 5 penetrates, as can be seen in the figures. Below this penetration becomes the outer surface of the injection body 2 only through the outer surface of the clamp body 5 formed, so that in this area the clamping projections 4 connected to each other. Above the penetration is the outer surface of the injection body 2 both through the outer surface of the clamp body 5 as well as through the outer surface of the press-in section 3 educated. The height of the press-in section 3 here is sized so that the press-fit 3 and the clamp body 5 complete each other such that the press-fit 3 the clamp body 5 completely penetrates.

In the 4 . 5 and 6 a second embodiment of the invention is shown. This differs from the first embodiment essentially in that the RFID transponder is not directly in the injection body 2 is arranged, but in the injection body 2 another plug-in body 8th is arranged for receiving the RFID transponder. Since both devices of the embodiments can accommodate the same RFID transponder, the press body is 2 of the second example is accordingly larger and therefore has nine clamping projections 4 on. In addition, the cover body 6 made thinner in the second example.

The plug-in body 8th is over nine radially between the male body 8th and the injection body 3 extending webs 7 with the injection body 3 connected. Due to the spaced arrangement of the RFID transponder is better against deformation of the injection body 2 protected. Because when pressed in can deformations of the clamp body 5 on the injection body 2 be transmitted and thus lead to damage to the RFID transponder.

Apart from the number of clamping projections 4 is the shape of the injection body 2 and the clamp body 5 the same as in the first embodiment, so that this will not be described again here.

In the following, now the processes during the pressing of the housing according to the invention 1 be described in an opening. As the outer surfaces of the injection body 2 is substantially identical in both embodiments, reference will be made below to both embodiments.

Due to the pyramidal shape of the clamp body 5 shows the case 1 an upwardly tapered shape. This facilitates the attachment of the housing 1 in or to an opening, since the opening must be larger than the housing 1 at this upper end. From a certain Einpressweg come the edges of the clamp body 5 or the clamping projections 4 in contact with the inner wall or with the upper edge of the opening. By further force on the cover plate 6 and the cooperation between the opening and the clamping projections 4 There is a deformation and a consequent fitting of the clamping projections 4 to the inside of the opening. This deformation causes the clamping projections 4 a radially outwardly directed force on the opening, so that between the housing 1 and the opening creates a frictional connection and the housing 1 is held or secured in the opening.

Due to the conical shape of the housing 1 It also allows air during the pressing process on the outer surface of the injection body 2 can be passed out of the bore to the outside. This creates between the housing 1 and the bottom of the opening no overpressure, so that the force to be applied for pressing is reduced.

LIST OF REFERENCE NUMBERS

1

casing

2

Press Fit

3

press-in

4

Clamping projections

5

clamping bodies

6

cover body

7

web

8th

male body

QUOTES INCLUDE IN THE DESCRIPTION

This list of the documents listed by the applicant has been generated automatically and is included solely for the better information of the reader. The list is not part of the German patent or utility model application. The DPMA assumes no liability for any errors or omissions.

Cited patent literature

• DE 102012104409 [0004]

Claims (11)

Housing for an RFID transponder for pressing into an opening with a press-fit body ( 2 ), which has a press-in section ( 3 ), on the circumferentially distributed clamping projections ( 4 ) are arranged, characterized in that the clamping projections ( 4 ) and part of a clamping body ( 5 ) are. Housing according to claim 1, characterized in that the clamping body ( 5 ) has a polygon cross-section. Housing according to one of claims 1 or 2, characterized in that the clamping body ( 5 ) is designed as a truncated pyramid. Housing according to one of the preceding claims, characterized in that the press-in section ( 3 ) is designed as a hollow cylinder or as a hollow truncated cone. Housing according to one of the preceding claims, characterized in that the press-in section ( 3 ) in one piece with the clamping body ( 5 ) connected is. Housing according to one of the preceding claims, characterized in that the outer surface of the injection body ( 2 ) in a first region through the outer surface of the clamping body ( 5 ) is formed. Housing according to claim 6, characterized in that the outer surface of the injection body ( 2 ) in a further area in sections through the outer surface of the clamping body ( 5 ) and sections through the outer surface of the press-in ( 3 ) is formed. Housing according to one of the preceding claims, characterized by a hollow cylindrical male body ( 8th ) for inserting at least one RFID transponder. Housing according to claim 8, characterized in that the male body ( 8th ) over bridges ( 7 ) spaced from the injection body ( 2 ) is arranged. Housing according to claim 9, characterized in that the webs ( 7 ) are arranged such that the injection body ( 2 ) and the male body ( 8th ) are decoupled from each other. Housing according to one of the preceding claims, characterized in that the outer surfaces of the injection body ( 2 ) are designed as air guide for discharging air.

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