DE102013112096B4 - Functional component housing with a seal, functional component housing assembly with a seal and seal - Google Patents

Abstract

Functional component housing (100), with two housing parts (102, 104, 300) and between the housing parts (102, 104, 300) arranged seal (106), wherein the seal (106) has a base body (118) made of a first material and a sealing element (120) made of a second material fastened to the base body (118), the second material being more elastic than the first material, the base body (118) having a centering dome (124) made of the first material.

Description

The invention relates to a functional component housing with a seal, a functional component housing kit with a seal and a seal for a functional component housing.

Seals are used between the housing parts of a functional component housing that are to be connected and generally consist of soft elastomers that are arranged in a form-fitting manner between the housing parts in order to prevent dirt, moisture, etc. from penetrating. In the case of highly effective seals, labyrinths are formed which lead to asymmetrical designs of the mechanical housing interfaces of the housing parts. This complicates the assembly of the functional component housing.

From the DE 199 05 952 A1 a junction box with a seal is known. The junction box comprises a lower housing part and a functional upper housing part. Fieldbus cables with fieldbus lines and supply voltage lines are routed through PG glands and openings in the housing wall into the interior of the lower part of the housing. Power cables are also routed through PG screw connections inside the lower part of the housing. The upper part of the functional housing is firmly connected to the lower part of the housing using detachable screws. A seal that can be lost is arranged on a separating surface between the upper part of the functional housing and the lower part of the housing.

The pamphlet DE 203 14 884 U1 discloses a lockable, lidded housing suitable for housing a transmission or electrical element and having an annular seal which is compressed between the lid and a housing base.

The publication WO 2011/114 800 A1 discloses a sealing element which is provided between a housing part and another housing part and seals a gap between the two housing parts.

The pamphlet US 5,794,947A discloses a gasket having an elastic element and a core part, wherein the core part is made of a rigid material.

The pamphlet JP 2002-372 152A discloses a gasket disposed between a cover member and a mating member.

It is therefore the object of the present invention to provide a functional component housing that is easier to assemble.

This object is solved by the objects with the features according to the independent claims. Advantageous embodiments are the subject matter of the dependent claims, the description and the drawings.

The present invention is based on the finding that the assembly of the functional component housing can be simplified by a seal that was made of two different elastic materials.

According to a first aspect, the object is achieved by a functional component housing with two housing parts and a seal arranged between the housing parts, the seal having a base body made of a first material and a sealing element fastened to the base body made of a second material, the second material being more elastic than is the first material, the base body having a centering dome which is made from the first material. This achieves the technical advantage that the base body of the seal stabilizes the seal during assembly, while the sealing element made of the more elastic material ensures a reliable sealing effect due to its elastic deformability.

The functional component housing can house, for example, functional elements of automation technology, such as a power pack, a frequency converter, a connection block for electrical lines. The functional component housing can be used for functional units of a component assembly system, which can be a fieldbus system.

In an advantageous embodiment, the sealing element is designed symmetrically in order to engage in two opposite housing grooves of the functional component housing. This achieves the technical advantage that the seal does not have a preferred orientation that specifies an assembly orientation. Thus, the assembly is further simplified.

In a further advantageous embodiment, the sealing element has a first partial element and a second partial element, the first partial element being arranged on an upper side of the base body and the second partial element being arranged on an underside of the base body. This achieves the technical advantage that the sealing element has a particularly simple and stable structure. This simplifies assembly.

According to the invention, the base body has a centering dome. This achieves the technical advantage that the seal with the centering dome can be inserted into corresponding holes in the functional component housing, with the seal being positioned during assembly as a result of the centering dome engaging in the hole. This simplifies the assembly of the functional component housing.

According to the invention, the centering dome is made from the first material. This achieves the technical advantage that the centering dome does not deform during assembly, which would make assembly more difficult. Thus, the assembly is simplified.

In a further advantageous embodiment, the centering dome is molded onto the base body. This achieves the technical advantage that the seal has a particularly simple structure and can be designed in one piece, for example.

In a further advantageous embodiment, the centering dome forms a code that specifies an orientation of the two housing parts during assembly of the functional component housing. This achieves the technical advantage that incorrect assembly due to incorrect orientation is ruled out. The coding also acts as a guide that specifies an assembly movement for connecting the two housing parts.

In a further advantageous embodiment, the seal is rectangular in shape and the centering dome is arranged in a corner area of the seal. This achieves the technical advantage that the seal has a particularly simple structure and is therefore particularly easy to manufacture.

In a further advantageous embodiment, the centering dome is designed symmetrically in order to engage in two opposite holes in the two housing parts. This achieves the technical advantage that the centering dome engages in a hole that is assigned to one housing part of a functional component housing, and thus facilitates the guided installation of the second housing half after the seal has been installed on one of the housing halves. Thus, manufacturing is simplified.

In a further advantageous embodiment, the centering dome contains a bore for the housing screws, which are inserted captively in a housing part, for example in a cover or in an upper housing shell or in a lower housing shell. This increases the stability of the centering dome during insertion during assembly. Furthermore, a length of the pre-guide can thereby be increased when joining the housing parts.

In a further advantageous embodiment, the seal has a hole for a screw. This achieves the technical advantage that the seal can be attached to a housing part of a functional component housing during assembly by passing the screw through the hole. This simplifies assembly, since the seal is then attached to the housing part.

In a further advantageous embodiment, the hole is arranged in the base body. This achieves the technical advantage that the seal is not deformed when the screw is inserted, since the base body is made of the harder, first material.

In a further advantageous embodiment, the seal has an identification tab which protrudes after the seal has been installed on the functional component housing. The identification tab can have an inscription. This achieves the technical advantage that there is a direct functional assignment to the functional component housing.

According to a second aspect, the object is achieved by a functional component housing kit with two housing parts and a seal that can be arranged between the housing parts, the seal having a base body made of a first material and a sealing element fastened to the base body made of a second material, the second material being more elastic than is the first material, the base body having a centering dome which is made from the first material. This achieves the technical advantage that the base body of the seal stabilizes the seal during assembly, while the sealing element made of the more elastic material ensures a reliable sealing effect due to its elastic deformability.

According to a third aspect, the object is achieved by a functional component housing with such a seal. This achieves the technical advantage that the base body of the seal is stabilized during assembly in the seal, while the sealing element made of the more elastic material ensures a reliable sealing effect due to its elastic deformability.

According to a fourth aspect, the invention relates to a functional component or a lower part of a functional component with a lower housing shell and a connecting device inserted therein for receiving electrical contacts of a functional component or upper part of a functional component that can be placed thereon. The bottom shell of the housing can be attached to a surface and is intended for wall mounting, for example.

• 1 eine Explosionsdarstellung eines Funktionskomponentengehäuses,
• 2 eine weitere Explosionsdarstellung des Funktionskomponentengehäuses,
• 3 eine weitere Explosionsdarstellung eines auf einer Trägerschiene montierten Funktionskomponentengehäuses,
• 4 eine perspektivische Darstellung einer Dichtung (Grundkörper),
• 5 ein Detail der Dichtung (Grundkörper),
• 6 ein weiteres Detail der Dichtung,
• 7 ein weiteres Detail der Dichtung,
• 8 die Montage der Dichtung,
• 9 einen vergrößerten Abschnitt der 8,
• 10 einen weiteren Schritt der Montage der Dichtung,
• 11 eine vergrößerte Darstellung der 10,
• 12 eine perspektivische Darstellung einer montierten Dichtung mit einer Kennzeichnungslasche,
• 13 eine vergrößerte Darstellung eines Abschnitts der 12,
• 14 eine perspektivische Darstellung einer montierten Dichtung mit einer weiteren Kennzeichnungslasche,
• 15 ein Funktionskomponentengehäuse (Oberschale),
• 16 die Funktionskomponentengehäuse-Unterschale zu 15, und
• 17 eine Funktionskomponente.

Further exemplary embodiments are explained with reference to the accompanying drawings. Show it:

• 1 an exploded view of a functional component housing,
• 2 another exploded view of the functional component housing,
• 3 another exploded view of a functional component housing mounted on a carrier rail,
• 4 a perspective view of a seal (base body),
• 5 a detail of the seal (base body),
• 6 another detail of the seal,
• 7 another detail of the seal,
• 8th the assembly of the seal,
• 9 an enlarged section of the 8th ,
• 10 another step of assembling the seal,
• 11 an enlarged view of the 10 ,
• 12 a perspective view of a mounted seal with an identification tab,
• 13 an enlarged view of a portion of the 12 ,
• 14 a perspective view of a mounted seal with a further identification tab,
• 15 a functional component housing (upper shell),
• 16 the functional component housing lower shell 15 , and
• 17 a functional component.

the 1 10 shows a functional component package 100 according to an embodiment.

The functional component housing 100 is designed for use in installation or housing construction technology. A component of an installation device can be accommodated in the functional component housing 100 . The functional component housing 100 can be designed to meet the requirements of IP20 to IP6x. According to one embodiment, the functional component housing 100 is formed by a functional component housing kit 134 .

According to one embodiment, the functional component housing 100 comprises a housing upper shell 102 and a housing lower shell 104 as housing parts 102, 104. To seal the connection point between the housing upper shell 102 and the housing lower shell 104, a seal 106 is provided between the housing upper shell 102 and the housing lower shell 104.

According to one embodiment, the seal 106 has a base body 118 made of a first material and a sealing element 120 made of a second material. The second material from which the sealing element 120 is made is more elastic than the first material. According to one embodiment, the first material and/or second material is a plastic material.

According to one embodiment, the sealing element 120 is of symmetrical design and extends in two directions from the seal 106. The sealing element 120 thus dips both into a housing groove 114 of the housing upper shell 102 and into a housing groove 116 of the housing lower shell 116, thus providing optimal sealing of the Functional component housing 100.

The base body 118 has an essentially rectangular basic shape, with a hole 126 being provided in each of the corner regions 120 through which a screw 128 can be inserted, the front end of which engages in a corresponding hole 110 in the lower housing shell 104 . The seal 106 can thus be fastened to the lower housing shell 104 by screwing in the screws 128 .

Furthermore, according to one embodiment, the base body 118 of the functional component housing 100 has a centering dome 124 in each of the corner regions 122 . The centering domes 124 are molded onto the base body 118 and are made from the same material as the base body 118 . According to one embodiment, the centering domes 124 are formed symmetrically and extend in two directions that are aligned opposite to one another. The centering domes 124 can thus be inserted into further holes 130 in the lower housing shell 104 which, according to one embodiment, are arranged adjacent to the holes 112 . Thus, the centering domes 124 inserted into the holes 130 a positioning of the seal 106. Furthermore, due to their symmetrical design, the centering domes 124 are also inserted into holes 110 of the upper housing shell 102 according to one embodiment and thus bring about a positioning of the upper housing shell 102 of the functional component housing 100.

According to one embodiment, each centering dome 124 has a passage 132 . A housing screw 108 can be guided through the passage 132, which is inserted into the holes 110 of the housing upper shell 102, then extends through the passage 132 and engages with the respective hole 130 of the housing lower shell 104 to the housing shell 102 with the housing lower shell 104 with the interposition of the seal 106 to connect.

The centering domes 124 form a coding 136. This coding 136 specifies an orientation of the two housing parts 102, 104 during the assembly of the housing 100. Furthermore, according to one embodiment, the coding 136 forms a guide that specifies an assembly movement for connecting the two housing parts 102, 104.

the 2 shows that the sealing element 120 has a symmetrically formed sealing contour 200 according to one embodiment. Orientation-independent installation of the seal 106 between the upper housing shell 102 and the lower housing shell 104 is thus possible, which simplifies the installation.

the 3 shows a functional component housing 100 which, in addition to the upper housing shell 102 and the lower housing shell 104 with the seal 106 connected in between, has a further housing part 300 which, according to one embodiment, is designed as a housing base part 300 .

According to one embodiment, the housing base part 300 is latched onto a carrier rail 302 . According to one embodiment, the carrier rail 302 is designed as two rails. It is thus designed in two parts. The carrier rail 302 can also be designed as a single rail and thus in one piece. A structurally identical seal 106 is arranged for sealing between the lower housing shell 104 and the housing base part 300 . The housing base part 300 also has holes 112 for receiving screws 128 for fastening the seal 106 to the housing base part 300 and holes 130 for receiving the centering domes 124 for positioning and fastening the seal 106 on the housing base part 300 .

the 4 12 shows that the base body 118 has a top side 400 and a bottom side 402 according to an embodiment. The sealing element 120 comprises a first partial element 404 and a second partial element 406. The first partial element 404 of the sealing element 120 is arranged on the upper side 400, while the second partial element 406 of the sealing element 120 is arranged on the underside 402 of the base body 118. Thus, according to one embodiment, the sealing element 120 is formed in two parts. The sealing element 120, for example with the first partial element 404 and the second partial element 406, can be produced in a two-component (2K) injection molding process, or the base body 118 is inserted into a tool as an insert and overmoulded with the second, more elastic material. while the base body 118 consists of the first, harder material.

According to one embodiment, two centering domes 124 are configured to have a cylindrical shape and two centering domes 124 have a hexagonal cross section.

the 5 shows a corner area 112 of the seal 106 with the hole 126 for the screw 128 and the centering dome 124 extending on both sides from the top 400 and the bottom 402 of the base body 118. In FIG 5 according to one exemplary embodiment, the centering dome 124 has a cylindrical shape.

Furthermore shows 5 that on the top 400 of the base body 118, the first partial element 404 of the element 120 and on the underside 402 of the base body 118, the second partial element 406 of the sealing element 120 are arranged.

the 6 and 7 show another corner region 112 of a seal 106, wherein the in the 6 Centering dome 124 shown has a hexagonal cross-section according to one embodiment. Furthermore, the seal 106 has the first partial element 404 of the sealing element 120 on the top side 400 of the base body 118 and has the second partial element 406 of the sealing element 120 on the underside 402 of the base body 118 .

the 8th and 9 show a first step in the assembly of the seal 106.

The centering dome 124 is inserted into the hole 110 in the upper housing shell 102 and into the hole 130 in the lower housing shell 104 . Due to the symmetrical sealing contour 200, there is no preferred orientation for the seal 106.

the 10 and 11 show a further step of the assembly, in which the seal 106 on the lower housing shell 104 is lowered, so that the first partial element 404 of the sealing element 120 engages in the housing groove 116 of the lower housing shell 104 . At the same time, the housing shell 102 is lowered onto the seal 106 so that the first partial element 404 of the sealing element 120 on the upper side 400 of the base body 118 engages in the housing groove 114 of the upper housing shell 102 . The coding 136 specifies an orientation of the two housing parts 102, 104 during the assembly of the functional component housing 100. Furthermore, coding 136 guides the assembly movement for connecting the two housing parts 102, 104.

After the upper housing shell 102 has been attached to the lower housing shell 104 by inserting housing screws 104 into the holes 110, which extend through the passages 132 of the centering domes 124 and engage with the holes 130 of the lower housing shell 103, the sealing element 120 with its first partial element 404 and pressed with its second partial element 406 in the housing grooves 114, 116, so that a dust and liquid-tight seal of the functional component housing 100 is provided.

A seal 106 is thus provided, the sealing contour 200 of which is formed identically on both sides in its base body 118 on the upper side 400 and the lower side 402 . Furthermore, the seal 106 offers tolerance compensation in the case of slightly collapsing housing flanks and in the event of deflection along the housing flanks of the functional component housing 100. Furthermore, the seal 106 can be positioned so that it cannot be mixed up. In addition, the centering dome 124 provides mechanical pre-guidance during the assembly process of the functional component housing 100 .

the 12 until 14 12 show that the seal 106 includes an identification tab 1200 according to one embodiment. According to one embodiment, the identification tab 1200 is formed on the base body 118 of the seal 106 . According to one embodiment, the base body 118 and the identification tab 110 are formed in one piece and/or of the same material, so that the identification tab 1200 does not need to be assembled.

According to one embodiment, the identification tab 1200 has an inscription 1202 that reproduces information on the function of the components accommodated in the functional component housing 100 .

According to one embodiment, the protrudes into the 12 and 13 identification tab 1200 shown from the functional component housing 100 out. the 12 shows that the identification tab 1200 extends away from the functional component housing 100 in the plane of the seal 106, while in FIG 14 identification tab 1200 shown rests flat against an outer wall of the functional component housing 100 .

Finally, by fastening the seal 106, for example with the screws 126, to the lower housing shell 104, the seal 106 is held securely when the functional component housing 100 is opened, e.g. in the context of repairs.

15 15 shows a functional component housing 1500 according to an embodiment, which is designed for use in installation or housing construction technology, for example. A component of an installation device can be accommodated in the functional component housing 1500 . The functional component housing 1500 can be designed to meet the requirements of IP20 to IP6x. According to one embodiment, the functional component housing 1500 is formed by a functional component housing kit.

According to one embodiment, the functional component housing 1500 comprises a housing upper shell 1502 as a housing part, which functionally corresponds to the housing lower shell 104 . A seal 1506 is provided for sealing. The seal has centering domes 1508, 1510.

The seals 1506 and 106 are of identical construction, according to one embodiment.

The structure of the functional component housing 1500 differs from the structure of the 100 by the reverse order of construction. As a result, the seal 1506 is inserted from below into the upper housing shell 1504 in the manner described above. For this reason, the screws 128 can be inserted from below.

16 shows a side view of the in 15 illustrated functional component housing 1500 with a cable guide 1601 and a base portion 1603, in which the seal 1506 can be inserted in the manner shown above.

17 shows a functional component which can be used as a functional component part of a component assembly system. The functional component includes a functional component housing 501, which is formed by a lower housing shell, and inserted therein set connection device 513 with contacts 517, such as plugs or sockets. The connecting device 513 is designed as a terminal block, for example. Furthermore, a separating plate 519 can be provided for electrical separation. The partition plate 519 is pushed into the opposite guide grooves 521. The separating plate 519 has a recess which laterally encloses the connecting device used, so that the connecting device 513 is held in the middle of the housing part 501 .

The functional component housing 501 is provided with a seal 405 of the aforementioned type.

The functional component housing 501 can also be provided with cable bushings on the side in order to accommodate electrical cables 515 .

The functional component housing 501 can be provided for wall mounting. For this purpose, the functional component housing 501 includes fastening tabs 523 with recesses 525 for accommodating screws.

The functional component can be extended vertically by a further functional component, which can be a functional component shell.

Reference List

100

functional component housing

102

housing upper shell

104

housing bottom shell

106

poetry

108

housing screw

110

hole

112

hole

114

housing groove

116

housing groove

118

body

120

sealing element

122

corner area

124

centering dome

126

hole

128

screw

130

hole

132

passage

134

Functional component housing kit

136

coding

200

sealing contour

300

case base

302

carrier rail

400

top

402

bottom

404

first sub-element

405

poetry

406

second sub-element

501

functional component housing

513

connection device

515

electrical line

517

contacts

519

partition plate

523

fastening tab

525

recess

1200

identification tab

1202

labeling

1500

functional component housing

1502

housing upper shell

1506

poetry

1508

centering dome

1510

centering dome

1601

cable routing

1603

base section

Claims (14)

Functional component housing (100), with two housing parts (102, 104, 300) and between the housing parts (102, 104, 300) arranged seal (106), wherein the seal (106) has a base body (118) made of a first material and a sealing element (120) made of a second material fastened to the base body (118), the second material being more elastic than the first material, the base body (118) having a centering dome (124) made from the first material. Functional component housing (100) according to claim 1 , The sealing element (120) being formed symmetrically in order to engage in two opposing housing grooves (114, 116) of the functional component housing (100). Functional component housing (100) according to one of the preceding claims, wherein the sealing element (120) has a first partial element (404) and a second partial element (406), the first partial element (404) being on a top side (400) of the base body (118) and the second partial element (406) is arranged on an underside (402) of the base body (118). Functional component housing (100) according to one of the preceding claims, wherein the centering dome (124) has a passage (132) for a housing screw (108). Functional component housing (100) according to one of the preceding claims, wherein the centering dome (124) is molded onto the base body (118). Functional component housing (100) according to one of the preceding claims, wherein the centering dome (124) forms a coding (136) which specifies an orientation of the two housing parts (102, 104, 300) during assembly of the functional component housing (100). Functional component housing (100) according to one of the preceding claims, wherein the seal (106) is rectangular and the centering dome (124) is arranged in a corner region (122) of the seal (106). Functional component housing (100) according to one of the preceding claims, wherein the centering dome (124) is symmetrical in order to engage in two opposite holes (110, 112, 130) of the two housing parts (102, 104, 300). Functional component housing (100) according to one of Claims 1 until 7 , wherein the centering dome (124) has a bore for at least one housing screw, and wherein the at least one housing screw is inserted captively in at least one of the housing parts (102, 104, 300). Functional component housing (100) according to any one of the preceding claims, wherein the seal (106) has a hole (126) for a screw (128). Functional component housing (100) according to claim 10 , wherein the hole (126) is arranged in the base body (118). Functional component housing (100) according to one of the preceding claims, wherein the seal (106) has an identification tab (1200) which protrudes after the seal (106) has been mounted on the functional component housing (100). Functional component housing kit (134), with two housing parts (102, 104, 300) and a seal (106) that can be introduced between the housing parts (102, 104, 300), the seal (106) having a base body (118) made of a first material and a sealing element (120) made of a second material fastened to the base body (118), the second material being more elastic than the first material, the base body (118) having a centering dome (124) made from the first material. Seal (106) for a functional component housing, with a base body (118) made of a first material and with a sealing element (120) made of a second material attached to the base body (118), the second material being more elastic than the first material, the Base body (118) has a centering dome (124) which is made of the first material.

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