System for connecting housing elements of a device for heat transfer

Abstract

A system for connecting housing elements of a device for heat transfer having a housing with a first housing element and a second housing element which are connectable with one another with face sides oriented toward one another and via a connection under form closure. Housing elements are herein in contact on another with side margins developed in proximity of front faces. The first latching elements are implemented as recesses each with a flat surface oriented in parallel to front face. On an outer side of side margin of first housing element between each first latching element and front face, a shaping is developed protruding from side margin, which comprises on a side facing first latching element a flat surface disposed in the plane spanned by flat surface of first latching element. Flat surfaces of first latching element and the shaping form a contiguous bearing area for second latching element.

Claims

1. A system for connecting housing elements of a device for heat transfer comprising: a housing with a first housing element having a front face and a second housing element having a front face, wherein the first housing element and the second housing element are connectable with one another with their front faces oriented toward one another as well as being connectable via a form-closure connection with one another; wherein the first housing element has a side margin and the second housing element has a side margin, wherein the first housing element and the second housing element are in contact with one another with their respective side margins developed in the proximity of the front faces, and wherein the connection is implemented as an engagement mechanism with first latching elements disposed on the side margin of the first housing element and second latching elements disposed on the side margin of the second housing; wherein the first latching elements are developed as recesses, each of said recesses having a flat surface oriented parallel to the front face; wherein on an outer side of the side margin of the first housing element in each instance between a first latching element and the front face a shaping is implemented protruding from the side margin, which, on a side facing the first latching element comprises a flat surface disposed in the plane spanned by the flat surface of the first latching element such that the flat surface of the first latching element and of the shaping form a contiguous bearing area for a second latching element; wherein the second housing element comprises openings for receiving the shapings of the first housing element.

2. A system according to claim 1, wherein a side margin is disposed oriented in a perpendicular direction to the front face and is developed about the front face over its entire periphery.

3. A system according to claim 1, wherein a shaping is developed such that it extends over the entire extent, oriented in parallel to the front face, of a first latching element.

4. A system according to claim 1, wherein the shaping protruding from the side margin is developed on the side, facing the first latching element such that it continuously transitions into a plane spanned by the side margin.

5. A system according to claim 1, wherein the first latching elements are developed such that, starting from the side margin they extend into the volume enclosed by the housing.

6. A system according to claim 5, wherein between adjacently disposed first latching elements a web is implemented.

7. A system according to claim 6, wherein the side margin of the first housing element is developed with the first latching elements and the webs as a closed, contiguous surface.

8. A system according to claim 1, wherein the first latching elements are each developed with a concavely formed area starting from the side margin for receiving the second latching elements of the engagement mechanism.

9. A system according to claim 8, wherein the first latching elements at an angular point of the concavely formed area have a depth (T) as the greatest dimension to the outer side of the side margin.

10. A system according to claim 1, wherein the second latching elements are developed as detent lugs with a form such that they are receivable integrated within the first latching elements.

11. A system according to claim 1, wherein the second latching elements comprise in each instance a flat surface oriented in the direction of the bearing areas of the first latching elements, wherein the bearing areas of the first latching elements and the flat surfaces of the second latching elements are disposed such that they are in contact on one another.

12. A system according to claim 1, wherein the housing elements are implemented of an aluminum or a synthetic material.

13. A system according to claim 2, wherein the first latching elements are developed such that, starting from the side margin they extend into the volume enclosed by the housing.

14. A system according to claim 3, wherein the first latching elements are developed such that, starting from the side margin they extend into the volume enclosed by the housing.

15. A system according to claim 4, wherein the first latching elements are developed such that, starting from the side margin they extend into the volume enclosed by the housing.

16. A system according to claim 2, wherein the housing elements have a rectangular cross section with two long sides and two narrow sides and the latching elements are developed at least on the long sides of the housing elements.

17. A system according to claim 3, wherein the housing elements have a rectangular cross section with two long sides and two narrow sides and the latching elements are developed at least on the long sides of the housing elements.

18. A system according to claim 4, wherein the housing elements have a rectangular cross section with two long sides and two narrow sides and the latching elements are developed at least on the long sides of the housing elements.

19. A system for connecting housing elements of a device for heat transfer comprising: a housing with a first housing element having a front face and a second housing element having a front face, wherein the first housing element and the second housing element are connectable with one another with their front faces oriented toward one another as well as being connectable via a form-closure connection with one another; wherein the first housing element has a side margin and the second housing element has a side margin, wherein the first housing element and the second housing element are in contact with one another with their respective side margins developed in the proximity of the front faces, and wherein the connection is implemented as an engagement mechanism with first latching elements disposed on the side margin of the first housing element and second latching elements disposed on the side margin of the second housing; wherein the first latching elements are developed as recesses, each of said recesses having a flat surface oriented parallel to the front face; wherein on an outer side of the side margin of the first housing element in each instance between a first latching element and the front face a shaping is implemented protruding from the side margin, which, on a side facing the first latching element comprises a flat surface disposed in the plane spanned by the flat surface of the first latching element such that the flat surface of the first latching element and of the shaping form a contiguous bearing area for a second latching element.

20. A system according to claim 1, wherein the housing elements have a rectangular cross section with two long sides and two narrow sides and the latching elements are developed at least on the long sides of the housing elements.

Description

BRIEF DESCRIPTION OF THE FIGURES

(1) FIGS. 1A and 1B: a first housing element of a device of prior art for heat transfer with a wall and a connection region in perspective view,

(2) FIGS. 1C and 1D: a system of prior art for connecting the first housing element of FIGS. 1A and 1B in combination with a second housing element of the device in closed disposition of the system, each in a lateral sectional representation,

(3) FIGS. 2A and 2B: a first housing element of a device according to the invention for heat transfer with a wall and a connection region in perspective view,

(4) FIGS. 2C and 2D: a system according to the invention for connecting the first housing element of FIGS. 2A and 2B in combination with a second housing element of the device in closed disposition of the system each in a lateral sectional representation,

(5) FIG. 2E: the first housing element of the device according to the invention for heat transfer with the connection region in a detail-cut perspective view, as well as

(6) FIG. 3: a detail of the second housing element of the device according to the invention for heat transfer in a perspective view.

DETAILED DESCRIPTION

(7) In FIGS. 1A and 1B is shown a first housing element 1 of a device of prior art for heat transfer with a wall 2 and a connection region 3 in perspective view. FIG. 1B depicts a section of the first housing element 1 at an enlarged scale.

(8) The first housing element 1 is developed to enclose, together with a second, not shown, housing element, a volume. Within the volume a heat transfer arrangement, not shown, can be integrated through which flows a first fluid and around which flows a second fluid. Heat can hereby be exchanged between the fluids. One of the fluids flows herein through a passage inlet 4 developed in the wall 2 into the volume enclosed by the first housing element 1 and by the second housing element, is routed specifically by the particular wall 2 of the housing element 1 around the heat transfer arrangement and subsequently flows through a passage, not shown, out of the volume again.

(9) The first housing element 1 comprises a connection region 3 in which the first housing element 1 and the second housing element are disposed in contact on one another such that they close off the arrangement. The connection region 3 of the first housing element 1 and a connection region of the second housing element are each implemented as components, corresponding to one another, of an engagement mechanism for the connection under form closure of the first housing element 1 and the second housing element.

(10) The connection region 3 is implemented in the proximity of a front face 5 of housing element 1. The front faces 5 of housing elements 1 are oriented in a plane spanned by the directions x, y and with respect to each other such that side margins 6 of walls 2 of housing elements 1 are in their entirety in contact with one another. The side margins 6 of the housing elements 1 extending in the direction y starting from the front face 5 and implemented over the entire periphery about the front faces 5 overlap. In the region of overlaps of the side margins 6 of housing elements 1 the connection region 3 is implemented in each instance.

(11) The engagement mechanism developed in the connection region 3 of the first housing element 1 comprise first latching elements 7 which are disposed along the side margin 6 around the entire periphery about the open front face 5. The first latching elements 7 are implemented as recesses or latching recesses each of which, starting from the side margin 6, extends toward the inside, which means into the volume enclosed by the housing element 1. Between adjacently disposed latching elements 7 a web 8 is provided in each instance. The side margin 6 is developed as a closed contiguous surface without throughpass openings and also developed on the outer side as a planar surface except for the regions of the recess-shaped latching elements 7.

(12) The first latching elements 7 are distributed uniformly on the side margin 6 and in each instance disposed are at the same spacings from one another. The webs 8 developed between the adjacent first latching elements 7 have in the peripheral direction of the side margin 6, which means accordingly in the directions x, y, the identical width in each case. The first latching elements 7 are disposed such that they are oriented in alignment with one another in the direction z.

(13) The latching recesses 7 comprise an area which, starting from the side margin 6, is formed concavely for receiving second latching elements of the engagement mechanism, which are developed on a, not shown, second housing element. At the angular point of the concavely formed area the latching recesses 7 have in each instance their greatest dimension toward the outer side of side margin 6 wherein by greatest dimension is to be understood the distance in the perpendicular orientation to the plane of side margin 6. At the sides oriented perpendicularly to the direction z, the latching recesses 7 are delimited by flat surfaces describing the cross section of the latching recess 7 and disposed in each instance in a plane spanned by directions x, y. The flat surfaces oriented toward the front face 5 serve herein as bearing areas for the second latching elements of the engagement mechanism.

(14) The maximal extent of the bearing areas of the first latching elements 7 for the second latching elements corresponds to the dimension between the angular point of the concavely formed area and the outside of the side margin 6.

(15) FIGS. 2A and 2B depict a first housing element 1 of a device for heat transfer with a wall 2 and a connection region 3 in perspective view. FIG. 2B shows a detail of the first housing element 1 at an enlarged scale.

(16) The first housing element 1 according to FIGS. 2A and 2B differs from the first housing element 1 according to FIGS. 1A and 1B primarily in the form of the connection region 3 developed as engagement mechanism. In the case of identical developments of the components of the first housing elements 1, 1, reference is made to the descriptions in connection with FIGS. 1A and 1B. Identical components and features are provided with identical reference numbers.

(17) The essential difference between connection regions 3, 3 of the first housing elements 1, 1 can be found in the formation of the first latching elements 7, 7. The first latching elements 7 of the first housing element 1 according to FIGS. 2A and 2B are developed in the direction z, in particular in the direction of the open front face 5, with shapings 9. The shapings 9 provided between the latching recess 7 and the open front face 5 are disposed on the side margin 6 and protruding outwardly and extent in each instance over the entire extend, oriented in the direction y, of the first latching elements 7.

(18) Each shaping 9 is herein developed as a projection protruding from side margin 6, which projection transitions on three sides continuously into the plane spanned by the side margin 6. The continuous rounded-off transitions between shapings 9 and the side margin 6 represent low-stress regions of wall 2.

(19) On a fourth side, facing the latching recess 7, of shaping 9, the shaping 9 is developed with a flat surface disposed in a plane spanned by directions x, y and has the greatest extent toward the plane of side margin 6. The maximal extent of the bearing areas of the first latching elements 7 for the second latching elements of the engagement mechanism corresponds therewith to the dimension between the angular point of the concavely formed area of latching recess 7 and the outside of side margin 6 plus the extent of the shaping 9 in the perpendicular direction toward the plane of the outside of side margin 6. And therewith, for example, a bearing area of a first latching element 7 disposed on a long side of housing element 1 consequently corresponds to the areas disposed in direction z, describing the cross section of latching recess 7 and, in each instance, disposed in a plane spanned by directions x, y, plus the flat surface developed in each instance on the fourth side, facing the latching recess 7, of shaping 9.

(20) Shapings 9 serve essentially to enlarge the bearing areas of the first latching elements 7 for the second latching elements of the engagement mechanism developed in connection region 3.

(21) The enlargement of the bearing areas 12 of the first latching elements 7 of the engagement mechanism compared to the bearing areas 12 of the housing element 1 of the engagement mechanism of prior art will become apparent in a comparison of the systems depicted in FIGS. 1C and 1D as well as FIGS. 2C and 2D.

(22) In each of FIGS. 1C and 1D a prior art system is shown for connecting the first housing element 1 of FIGS. 1A and 1B in combination with a second housing element 10 of the device of prior art, while in FIGS. 2C and 2D is shown a system according to the invention for connecting the first housing element 1 of FIGS. 2A and 2B in combination with the second housing element 10 of the device in closed arrangement of the system in a lateral sectional representation. In FIG. 2E is depicted the first housing element 1 of the device for heat transfer with the connection region 3 in a sectional perspective view.

(23) The second housing element 10 comprises in the connection region 3, 3 second latching elements 11 developed as detent lugs which correspond with the first latching elements 7, 7 and, in connection with the first latching elements 7, 7, represent the engagement mechanism. The second latching elements 11 are developed in a form such that they can be received completely within the first latching elements 7, 7 and comprise in a side, oriented in a plane spanned by directions x, y, a flat bearing area.

(24) In the closed state of the device the bearing areas 12, 12 of the first latching elements 7, 7 and the bearing areas of the second latching elements 11 are in contact on one another. The first latching elements 7, 7 and the second latching elements 11 pressed against one another are connected with one another under form closure.

(25) The size of the bearing areas 12 of the first latching elements 7 of the first housing element 1 according to FIG. 2A to 2D differs in size from the bearing areas 12 of the first latching elements 7 of the prior art first housing element 1 according to FIG. 1A to 1D in the depth T, T oriented in the direction x. The depth T of the first latching elements 7 is again codetermined by the shaping 9 of the first housing element 1 developed on the side margin 6.

(26) The depth T of the bearing areas 12 of the first latching element 7 of the first housing element 1 of the device of prior art corresponds herein to the maximal extent of bearing areas 12 as dimension between the angular point of the concavely formed area and the outside of side margin 6.

(27) In comparison, the depth T of the bearing areas 12 of the first latching element 7 of the first housing element 1 of the device according to FIG. 2A to 2D corresponds to the maximal extent of the bearing areas 12 as dimension between the angular point of the concavely formed area and the outside of the side margin 6 plus the extent of the shaping 9 in the perpendicular direction to the plane of the outside of side margin 6.

(28) The difference between the depths T, T of bearing areas 12, 12 of the first latching elements 7, 7 is also made clear by the base area 13 depicted in dashed lines. The base area 13 herein corresponds to the outside of side margin 6 of the first housing element 1 of the device of prior art.

(29) Furthermore, in the connection region 3, 3 the second housing element 10 comprises openings 14 which extend, starting from a surface oriented in the direction of the outer side of side margin 6, 6 of the first housing element 1, 1, in the direction x. In a preferred embodiment of the openings 14 as throughpass openings the apertures 14 extend through the wall of the second housing element 10.

(30) The openings 14 are developed such that they correspond with the shapings 9 of the first housing element 1. The shapings 9 developed on the first latching elements 7 are disposed within the openings 14 of the second housing element 10. The region, developed with the openings 14, of the second housing element 10 is also termed the receiving region 14 for the shapings 9.

(31) With the formation of the shapings 9 of the first housing element 1, and therewith the enlargement of bearing areas 12 of the engagement mechanism, the connection properties of the housing elements 1, 10 are optimized and in this way an undesirable releasing of the connection, especially during operation under high stress, for example under high pressure application and high pressure pulse load of the device, is prevented. Herein the interior volume enclosed by the housing, as well as also the overall installation space requirement of the device for heat transfer remain unchanged.

(32) FIG. 3 shows a detail of the second housing element 10, developed as a cover element, of the device for heat transfer in a perspective view. The front face 5 and the top surface of the second housing element 10 are oriented in a plane spanned by the directions x, y. A side margin is developed perpendicularly to the top surface and extends about the entire periphery of the top surface.

(33) The side margin comprises the second latching elements 11 of the engagement mechanism as well as the openings 14 for receiving the shapings 9 of the first housing element 1. The openings 14 developed as throughpass openings through the side margin are in the direction z disposed adjacently to the second latching elements 11 such that one opening 14 is assigned to each second latching element 11.

(34) The adjacently disposed second latching elements 11 are along the front face of the second housing element 10 connected with one another in order to ensure great stability of the engagement mechanism.

LIST OF REFERENCE SYMBOLS

(35) 1, 1 First housing element 2 Wall 3, 3 Connection region 4 Passage 5 Front face 6, 6 Side margin 7, 7 First latching element, latching recess 8 Web 9 Shaping 10 Second housing element 11 Second latching element 12, 12 Bearing area engagement mechanism 13 Base area 14 Opening, receiving region shaping 9 x, y, z Direction T, T Depth bearing areas