DE102005061827B4 - computer case - Google Patents

Abstract

Computer housing having a carrier sheet (1), which is designed for fastening a printed circuit board (10), with at least one stud bolt (5), which has a bolt foot (7) and a bolt head (6) and for fastening the printed circuit board (10) to the Carrier plate (1) is arranged,
characterized in that
an elastic element (9) of the carrier sheet (1), which is adapted to press the printed circuit board (10) against the bolt head (6), at least partially surrounds the bolt foot (7) and
the stud bolt (5) has an electrically conductive surface and an electrically conductive connection between the stud bolt (5) and the carrier sheet (1) is formed.

Description

The The invention relates to a computer housing with a carrier sheet, which is adapted for mounting a printed circuit board, with at least a stud for attaching the circuit board to the support plate is arranged, and has a Bolzenfuß and a bolt head, wherein the carrier sheet in a computer case is arranged.

Computer cases are Mass products that are subject to a high price war. Due to the high price wars and the high volumes produced are savings during the assembly of an entire computer system, also in seconds, from the utmost Importance. Savings are most effective when they are on the assembly times of computers or the installation times of computer cases or refer to their components. They are located within a whole Assembly process of computers also subprocesses, which deals with the mounting of computer motherboards, controllers or other circuit boards of the Computers deal. The mounting of a printed circuit board in a housing is such a sub-process.

to Mounting a printed circuit board in a housing are different approaches and arrangements known in the general state of the art. One of these known approaches is the mounting of a printed circuit board directly on a housing wall by means of screw connections. In this case, mounting sockets are provided, which have a central bore, which receives the screws are set up.

through the mounting base is the circuit board spaced from the housing walls by Fastened screws.

Furthermore, a screwless attachment from the document DE 101 06 555 A1 known. In this case, a hook-shaped projection is provided on a wall in a computer. The printed circuit board is inserted into the housing on the wall in such a way that the hook-shaped projection can be inserted through a corresponding opening in the printed circuit board. The fixation of the circuit board is effected by a further projection, which also protrudes from the wall of the computer housing. This cooperates with a further opening of the printed circuit board in such a way that after pushing the printed circuit board under an undercut of the hook-shaped projection in the further projection a screw or a clamping pin can be screwed or inserted.

In the publication US 6,385,051 B1 a computer housing is shown with a wall element of the housing, which is adapted for mounting a printed circuit board, wherein studs are provided for fixing the circuit board. The studs are arranged on the wall element and have a Bolzenfuß and a bolt head, which are each cylindrical and spaced by a cylindrically shaped taper. The circuit board has keyhole-shaped openings adapted to cooperate with the stud. The openings are dimensioned so that the bolt head can be passed through the opening and the opening has a taper to one end, so that the circuit board engages under the bolt head.

The publication US 6,259,032 B1 shows a printed circuit board mounting with a support plate, which is adapted to fasten the circuit board, with at least one stud for mounting the circuit board, which is arranged on the support plate. The stud bolt has at least one bolt foot and a bolt head, and is conically tapered on both sides between the bolt base and the bolt head such that a printed circuit board with a predetermined thickness can be received in a clamping manner therein. The stud has an electrically conductive surface and thus forms an electrical connection between the stud and the carrier plate. The circuit board includes openings whose dimensions are such that the bolt head is passable through the opening and the opening has a taper towards one end so that the circuit board engages under the bolt head and wherein the opening is at least partially surrounded by electrically conductive contact points.

The publication US Pat. No. 6,424,537 B1 shows a computer case with a printed circuit board attachment to a support plate, in which studs are provided, which are arranged on the support plate. The studs have a bolt foot and a bolt head, the bolt foot being spaced from the bolt head by a cylindrical taper. A printed circuit board to be fastened comprises openings whose dimensions are such that the bolt head can be passed through the opening and the opening has a taper towards one end, so that the printed circuit board engages under the bolt head. The circuit board to be fastened has at one point an electrically conductive contact point, the stud is made of electrically conductive material and has an electrically conductive surface. For electrical contacting of the printed circuit board with the stud, a clamp is provided which forms the electrical contact between the stud and the electrically conductive contact surface on the printed circuit board.

pamphlet DE 3531958 C2 discloses a spacer made of electrically non-conductive material, which is adapted to a printed circuit board of ei ner adjacent surface to keep at a predetermined distance. For vibration-damped configuration of this spacer bolts are provided which are inserted through openings in the circuit board and held there by means of radially acting spring detent element. Between a bolt head and the printed circuit board, an elastic element is provided, which produces a vibration-damping spacing of the printed circuit board to an adjacent element.

It is therefore the object of the invention, the prior art to further develop that printed circuit boards of different thickness screwless fastened and a secure electrical contact between Printed circuit board and computer case can be produced.

These The object is achieved by the features of the valid patent claim 1 or the features of the valid claim 14 solved.

there it is provided that the stud has an electrically conductive surface and an electrically conductive Connection between the stud and the support plate is formed. Next is provided that the bolt foot of the elastic element of the carrier sheet is at least partially surrounded, which is adapted to the Press circuit board against the bolt head. By the elastic Element becomes a play-free and reliable contact between the Contact points of the circuit board and the metallic stud independently reached from the total thickness of the circuit board. Self-varying Thickness of the circuit board, caused for example by a Lot order at the electrical contact points, have no disadvantageous Influence on the quality the electrical contact or the strength of the attachment.

Farther It is proposed to provide an arrangement with a carrier plate Following the principle described above, which with a circuit board interacts. In this case, the circuit board has an opening, which is adapted to interact with the stud, and whose dimensions are formed so that the bolt head through the opening be passed is, and the opening a rejuvenation towards one end, so that the board engages under the bolt head.

The Benefits of the above measures show The fact that the assembly is completely without screw or other time consuming to make connections. The circuit board engages under the bolt head and is held by the bolt head. The elastic element pushes the circuit board against the bolt head, so that by the spring force the elastic element a non-positive attachment of the circuit board on the carrier sheet is made.

In an advantageous embodiment is the bolt head on its side facing the carrier sheet equipped with an insertion bevel, allowing the insertion a printed circuit board over the bolt head and against the force of the elastic element lighter perform is and therefore additional Time in the assembly is saving. By means of the insertion bevel Also tilting of the circuit board with the bolt head during the Mounting preventable.

Around not to overstretch the elastic element and thus adversely affecting its spring force, it is beneficial with the bolt foot to equip a stop which has an end stop for the elastic Element forms. Thus, the elastic element is only up to this Stop in the direction of the carrier plate movable. This limits the deformation of the elastic element and overstretching prevents, so that the spring force of the elastic element by overstretching not changed adversely can be.

Of the Stop can be designed in many embodiments. As a preferred embodiment, the stop by two the bolt flow opposite each other arranged stop bolts formed. An advantage of this embodiment lies in the fact that thereby the stop exactly in the field of force is arranged on the elastic element. Overstretching of the elastic Element over the stop out are avoided.

to Production of an electrical ground connection between the circuit board and the stud, and in particular between the circuit board and the computer case it is advantageous, in particular the stud with an electric to design a conductive surface. Leave it an electrically conductive Connection and thus a ground connection between the stud and the carrier sheet and thus also between the circuit board and the computer housing.

When Alternative to this embodiment the stud bolt is formed of a metallic material. by virtue of the tensile strength and the electrically conductive properties a metallic material for making the stud especially prefers.

It is further preferred to carry bolt foot and bolt head, each with a circular base, since this circular base is easily produced by very simple manufacturing processes, such as turning, in large numbers. On the other hand, it is also possible, such a bolt head by a riveting similar Connect process with the circuit board and produce the bolt head by a hammering so mechanically cold-forming process. Furthermore, it is possible to connect the finished stud with a welding process with the support plate or to connect a stud bolt by means of the welding process with the support plate and to form the bolt head after the welding process with a mechanical cold deformation. Also, the stud is to be arranged on a specially designed holding element. The holding element is, for example, a rectangular or square metal plate, which is firmly connected by means of a screw, weld or rivet to the stud. The holding element is positively connected by means of sheet metal tabs with the support plate, so that there is a vertically directed arrangement of the stud bolt on the support plate for this embodiment. This is advantageous because this holding element with the stud as a small-sized component in large quantities is very cheap to produce, and thus the production process is further simplified. As an alternative embodiment and method of production, a stamping and bending process is also possible which integrally forms a stud bolt from the carrier sheet. The shape of the stud in this embodiment has no circular bases, but follow the bases of the stud in this embodiment, a rectangular basic shape, with an additional stability is achieved by curvatures of the rectangular basic shape.

The Here only briefly presented manufacturing methods and embodiments make cheap choices dar, the stud on the support plate to or to make the stud bolt with the carrier sheet. Alles These methods of production are favorable in a production line process integrable, and thus in a simple way in the production of a computer case with a carrier sheet and a stud bolt.

Prefers is a mushroom-shaped Forming the bolt head, which forms a surface of the bolt head, with the violation of the baffle during assembly or even avoidance of damage to adjacent components during assembly is.

The elastic element is preferably formed integrally from the carrier sheet, why stamping and bending processes during the molding and manufacturing process of the carrier sheet prove to be particularly advantageous. For the elastic element are linear shapes, spiral-like shapes or other geometries possible. Prefers is to form an elastic element by the punching process, which forked is formed and has two forks. The two forks are formed in one piece by punching and bending processes from the carrier sheet. In a preferred embodiment to lead the two forks, angled at an obtuse angle, from the support plate and thus form their resilient property. In an alternative embodiment are the forks from the carrier sheet punched out and angled by an over-acute angle and thus formed into the elastic element. Alternative embodiments are also, the forks over the entire length form the elastic element, or only the end tips of the elastic element as a fork form and the elastic element otherwise as one piece To shape the tongue. The spacing of the forks is greater than the diameter or width of the bolt foot, but smaller than the diameter of the bolt head. Thus is the spacing of the forks is set up in such a way that they coincide with the Contact contact points. The formation of the elastic element from the carrier sheet contains the advantage that due to the electrical conductivity the metallic material of the carrier sheet, the elastic element also electrically conductive is. By means of the elastic element are thus electrical contacts can be produced with the contact points of the printed circuit board.

Around a circuit board in a housing it is advantageous if the bolt foot on a to the inside of the housing pointing surface of the carrier plate is arranged. So that the circuit board engages under the bolt head and thus a form-fitting Attachment is formed, it is advantageous to the diameter of the circular Floor space of the bolt head greater than the diameter of the circular Floor space of the bolt foot to design.

The Invention is, as already mentioned above, also solved by an arrangement with a printed circuit board and the computer housing described above and Carrier plate. The circuit board has an opening, which is set up is that it interacts with the studs and their dimensions are formed so that the bolt head can be passed through the opening. The opening has a tapered towards one end, so that the circuit board engages under the bolt head.

It is advantageous, in particular in conjunction with the bolt head and the bolt foot, if the opening in the printed circuit board is a circular bore which has a minimum diameter which is at least equal to the diameter of the bolt head. In this case, the bore is further widened with a slot in one direction, so that a keyhole-shaped opening is formed. The slot has a diameter which is the Diameter of the bolt foot is the same. Thus, the circuit board is slidable along this elongated hole under the bolt head, wherein the bolt foot is moved in the slot.

The opening in the circuit board is surrounded by electrically conductive contact points. These contact points are optionally on both sides of the circuit board or arranged only on one side of the circuit board and are in Shape of contact solder points or also uninsulated conductor tracks of the printed circuit board. The elastic element forms by the elastic element in interaction with bolt head and the contact points an electrical connection with the housing.

For the above described invention is the type of printed circuit board of subordinate Importance. So the circuit board can be a graphics card, a controller, a computer mainboard or other component of a computer be.

different Strengthen or thicknesses of the printed circuit boards are due to the elastic Element of minor importance, since the elastic element treated these different thicknesses the same. Become with all PCB thicknesses thus made firm connections that secure fastening allow the PCB with safe electrical contact.

The Number of studs is for attaching the circuit boards of subordinate importance. An attachment with a stud alone is possible as well. As the number of studs increases, the difficulty increases and Thus, the time required for assembly, but also the strength of Mounting. Lateral displacements or rotations of the circuit board are by other components such as metal plates or support elements preventable. An optimum in the number of studs is likely is about three to four studs per board, but is depending on the geometric shape of the printed circuit board.

Consequently is advantageously a screwless attachment of the circuit board in the case considering the electrical contacting of the circuit board in the housing met.

in the The invention is based on two embodiments and two figures explained in more detail.

It show the:

1 a stud bolt attached to a support member having an elastic member, and

2 a stay bolt with an elastic element, both of which are formed out of the support plate.

1 shows the carrier sheet 1 in which a recess 2 is formed, which sheet metal tabs 3 has, the form-fitting a holding element 4 take up. The holding element 4 is rectangular, preferably square according to the embodiment. Center on the holding element 4 is a stud 5 arranged. The stud has a mushroom-shaped bolt head 6 and a cylindrical bolt foot 7 on. Opposite one another at the foot of the bolt foot 7 there are attacks 8th that is an elastic element 9 serve as an end stop. The elastic element 9 is integrally formed in a linear shape from the carrier sheet. To produce the elastic element is a punching and bending process. The elastic element is led out at an obtuse angle from the plane of the support plate and has at the level of the stud bolt downwardly directed angling.

A circuit board 10 is in the embodiment of the 1 with her hole 11 so reconciled with the studs that the bolt head 6 through the hole 11 passed through. For this purpose, the circuit board is against the spring force of the elastic element 9 pressed down and shifted so that the bolt foot 7 in the long hole 12 the circuit board 10 emotional. At the end of the long hole 12 finds the bolt foot 7 a stop. In this position of the circuit board presses the elastic element 9 the circuit board 10 against the underside of the bolt head 6 , With the conductive elements 13 , which are arranged around the opening of the circuit board, forms the bolt head 6 a conductive connection and thus an electrical ground contact of the circuit board 10 to the bolt head 6 and thus to the computer case. The at the bolt head 6 of the stud 5 arranged insertion bevel 14 allows easy insertion of the circuit board 10 and reliably avoids jamming during assembly.

The embodiment of 2 shows a similar support plate 1 as in 1 , wherein the configuration of the stud 5 and the elastic element 9 in comparison to the embodiment of the 1 varied. The stud bolt is integrally formed out of the carrier sheet by means of a punching and bending process. In this case, the bolt head is configured in this embodiment, not circular or mushroom-shaped, but only formed by a bend. In the exemplary embodiment, this angling is a right-angled bend from the carrier sheet 1 formed vertical angulation. It is therefore a stud 5 formed, whose bolt head 6 hook-shaped from the bolt foot 7 projects. Similar to the embodiment of 1 is also in the embodiment of 2 the bolt head 6 through the circular hole 11 through the circuit board 10 passed. Contrary to the spring force of the elastic element 9 During the assembly process, the printed circuit board is pressed downwards and shifted so that the bolt foot 7 in the oblong hole boring 12 retracts and the circuit board 10 the bolt head 6 engages below. At the end of the long hole 12 finds the bolt foot 7 a stop and reaches an end position, or a locking position. In this position, the circuit board 10 by means of the spring force of the elastic element 9 against the underside of the bolt head 6 pressed. The circuit board 10 , which now the bolt head 6 engages, forms with the conductive contact elements 13 a ground contact with the housing. This ground contact is via the contact elements 13 , the stud 5 and the carrier sheet 1 formed to the computer case. Also in this embodiment allows the at the bolt head 6 of the stud 5 arranged insertion bevel 14 a simple insertion of the circuit board and reliably avoids tilting during assembly.

1

support plate

2

recess

3

metal tabs

4

retaining element

5

studs

6

bolt head

7

Bolzenfuß

8th

attack

9

elastic element

10

circuit board

11

circular drilling

12

Long hole

13

conductive contact element

14

chamfer

Claims (16)

Computer housing with a carrier sheet ( 1 ), which for mounting a printed circuit board ( 10 ) is arranged, with at least one stud ( 5 ), which has a bolt foot ( 7 ) and a bolt head ( 6 ) and for fastening the printed circuit board ( 10 ) on the support plate ( 1 ), characterized in that an elastic element ( 9 ) of the carrier sheet ( 1 ), which is adapted to the printed circuit board ( 10 ) against the bolt head ( 6 ), press the bolt foot ( 7 ) at least partially surrounds and the stud ( 5 ) has an electrically conductive surface and an electrically conductive connection between the stud ( 5 ) and the carrier sheet ( 1 ) is formed. Computer housing according to claim 1, characterized in that the bolt head ( 6 ) on its to the support plate ( 1 ) directed side an insertion bevel ( 14 ) having. Computer housing according to one of the preceding claims, characterized in that the bolt foot ( 7 ) a stop ( 8th ), which is adapted to an end stop for the elastic element ( 9 ) to build. Computer housing according to one of the preceding claims, characterized in that the stop ( 8th ) by two at the bolt foot ( 7 ) arranged opposite each other stop pin is formed. Computer housing according to one of the preceding claims, characterized in that the stud bolt ( 5 ) is made of a metallic material and an electrically conductive connection between the stud ( 5 ) and the carrier sheet ( 1 ) is formed. Computer housing according to one of the preceding claims, characterized in that the bolt foot ( 7 ) is cylindrical, and the bolt head ( 6 ) is mushroom-shaped. Computer housing according to one of the preceding claims, characterized in that the bolt foot ( 7 ) and the bolt head ( 6 ) each have a circular base surface, wherein the diameters of the bases are different from each other. Computer housing according to claim 7, characterized in that the diameter of the base of the bolt head ( 6 ) is greater than the diameter of the base of the bolt foot ( 7 ). Computer housing according to one of the preceding claims, characterized in that the stud bolt ( 5 ) on a holding element ( 4 ) is arranged, which with the support plate ( 1 ) is positively connected. Computer housing according to one of the claims 1 to 4, characterized in that the stud bolt ( 5 ) in one piece from the carrier sheet ( 1 ) is formed by sheet bending and punching processes. Computer housing according to one of the preceding claims, characterized in that the stud bolt ( 5 ) vertical to the surface of the carrier sheet ( 1 ). Computer housing according to one of the preceding claims, characterized that the elastic element ( 9 ) is fork-shaped. Computer housing according to one of the preceding claims, characterized in that the elastic element ( 9 ) is formed from a sheet metal tongue, which from the support plate ( 1 ) is formed integrally. Arrangement with a computer housing according to one of the claims 1 to 13 and a printed circuit board ( 10 ), the printed circuit board ( 10 ) has an opening which is adapted with the stud ( 5 ) and whose dimensions are designed so that the bolt head ( 6 ) is passable through the opening, and the opening has a taper towards one end, so that the circuit board ( 10 ) engages under the bolt head and the opening of electrically conductive contact points ( 13 ) is at least partially surrounded. Arrangement according to claim 14, characterized in that the opening has a bore ( 11 ), which comprises a minimum diameter, at least the diameter of the bolt head ( 6 ) is equal, whereby the bore ( 11 ) with a slot ( 12 ) is widened in one direction, so that a keyhole-shaped opening is formed, and the slot ( 12 ) has a minimum width which is at least equal to the diameter of the bolt foot ( 7 ). Arrangement according to one of the claims 14 to 15, characterized in that the printed circuit board ( 10 ) is a motherboard of a computer.