Method for connecting an electronic component to a printed circuit board.
Inactive electronic components serve as guides and fasteners to securely connect connectors on electronic boards, addressing assembly challenges and preventing damage, with automated precision.
Patent Information
- Authority / Receiving Office
- FR · FR
- Patent Type
- Applications
- Current Assignee / Owner
- BANKS & ACQUIRERS INT HLDG SAS
- Filing Date
- 2024-12-24
- Publication Date
- 2026-06-26
AI Technical Summary
Securing connectors on electronic boards is difficult due to their small and delicate nature, often leading to damage during handling and improper assembly, which can harm the connectors and other components.
Utilizing inactive electronic components as guidance means, such as wedges and lateral guides, to precisely align and secure connectors, combined with fasteners like rivets, ensuring easy and damage-free assembly.
Enables precise, cost-effective, and secure connection of connectors without risking damage to components, facilitated by automated installation methods.
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Abstract
Description
Title of the invention: Method for connecting an electronic component to a printed circuit board.
[0001] The present invention relates to the field of electronic boards. It relates in particular to means and a method for connecting two components together, one of which is fixed to a board such as an electronic board.
[0002] Securing two connectors together is often difficult; the connectors are generally small and delicate to handle amidst the numerous components on the board. Furthermore, improper handling of the connectors can damage the connectors themselves, for example a pin, or even other components on the board.
[0003] It is known to use a plate, generally made of epoxy, to aid in connecting connectors together. However, the bulk of the components mounted on the electronic board makes the use of this plate difficult; it is hard to position correctly, and the complex handling required by an operator regularly causes damage to other components on the board.
[0004] One object of the invention is to provide means and a method of assembly which allow for an easier and more secure connection of the connectors to each other.
[0005] According to a first object, the invention relates to an electronic card comprising guidance means for introducing a first connector into a second connector, the second connector being fixed on a plate of this card.
[0006] Advantageously, the guiding means include electronic components.
[0007] Indeed, the methods used to mount electronic components on a circuit board usually allow for very precise control of the position of the electronic components on the board. Thus, these mounting methods, generally using robotic means, ensure very precise and rapid positioning of the electronic components. Consequently, the electronic components used as guide means ensure very precise guidance of the first connector. Various electronic components can be used as guide means, particularly inexpensive components.
[0008] Preferably, these electronic components include inactive components.
[0009] Since the electronic components are inactive, assembly costs are greatly reduced and there is no risk of electrical failure.
[0010] The guiding means may include at least one wedge serving as a support for the first connector, in front of the second connector.
[0011] The guiding means may include at least one lateral guide for the first connector, in front of the second connector.
[0012] According to the second object, the invention relates to a connector intended to constitute a first connector intended to engage with a second connector of a card according to the invention and which includes at least one lug intended to engage by snapping between the guiding means and the second connector.
[0013] According to third object, the invention relates to a method for forming, on a printed circuit board, means for guiding a first connector intended to engage with a second connector fixed to the board, a method which includes the placement on this board of at least one component, preferably inactive, serving as a lateral guide and / or shim for the first connector.
[0014] According to the fourth object of the invention, a method for connecting a first connector intended to engage with a second connector fixed to a card comprising guide means formed by a method according to the invention, comprises sliding the first connector towards the second connector by taking support, at least indirectly, against the guide means.
[0015] This method may include pre-forming a hole in the thickness of the first connector and a hole in the board such that, in a functional connection position between the connectors, the holes are arranged opposite each other, and then attaching the first connector to the board by means of fasteners passing through both holes. Preferably, rivet-type fasteners are used.
[0016] A method according to the invention may use a first connector provided with at least one lug intended to engage by snapping with the guiding means.
[0017] Another object of the invention relates to an electronic terminal, in particular a payment terminal, which includes a card according to the invention. Indeed, such a terminal, which is often handled, can be dropped, the consequences of which are reduced by the use of a card according to the invention.
[0018] Embodiments and variants will be described below by way of non-limiting examples, with reference to the accompanying drawings in which:
[0019] [Fig.1] is a schematic elevation and longitudinal section view, illustrating a device and a method according to the invention for guiding the introduction of a first connector into a second connector fixed on a printed circuit board plate of an electronic board, this device comprising an electronic component as a height wedge;
[0020] [Fig.2] is a schematic view similar to that of [Fig.1], in which the first connector is engaged with the second, the first being held fixed to the plate according to a first locking method, by riveting;
[0021] [Fig.3] is a schematic top view illustrating a lateral guidance of the first connector, using two electronic components, and also illustrates a detail D3 in elevation;
[0022] [Fig.4] is a photographic front view of a second connector fixed to a printed circuit board and three electronic components arranged in front of this connector to serve as shims;
[0023] [Fig.5] is a top photographic view of the plate of [Fig.4] as well as the second connector and the wedges attached to it;
[0024] [Fig.6] is a schematic elevation view of a second locking mode which differs from the fixing mode of [Fig.2];
[0025] [Fig.7] is a schematic elevation view of a third locking mode;
[0026] [Fig.8] is a schematic top view of a fourth locking mode, in unlocked position; and,
[0027] [Fig.9] is a view similar to that of [Fig.8], in which the fourth locking mode is shown in the locked position.
[0028] In this description, in particular the terms "top," "bottom," "upper," and "lower," "horizontal" and "vertical," "front," and other similar terms may be used arbitrarily and generally refer to the reader's positions without having a limiting meaning. Arbitrarily, except for [Fig. 7]:
[0029] Figures 1 to 3 illustrate a first connector 1, a second connector 2, a spacer 3, and a printed circuit board support plate 4 of an electronic board. The connectors and spacers are electronic components and are fixed to the plate 4.
[0030] In the illustrated example, the first connector 1 is a flexible printed circuit (FPC) connector. Connectors 1 and 2 allow the circuit board 4 to be functionally connected to the flexible printed circuit. Of the flexible printed circuit, only connector 1 is shown in Figures 1 to 3. The first connector 1 is a male plug and the second connector 2 is a female plug.
[0031] The second connector 2, as seen in longitudinal section, has a C-shape open at the front to allow the first connector 1 to be inserted horizontally from front to back. The opening 5 at the front provides access to a recess 6 inside the second connector to receive a free end 7 of the first connector. The C-shape has a lower lip 2A of height H2, near the opening 5, the height H2 being measured above the card 4.
[0032] The spacer 3 is located in front of the second connector; it includes a functionally inactive electronic component. That is to say, this component is not functionally connected to the printed circuit board on the plate 4. It is chosen and positioned so that its height H3, measured above the plate, is substantially equal to, or slightly less than, the height H2 of the lower lip of the connector 2.
[0033] Thus, as illustrated in figures 1 and 2, by taking support from the wedge 3, the first connector 1 can be guided simply and without risk of damage into the inside of the second connector 2.
[0034] As illustrated in the top view in [Fig. 3], other components can be used as lateral guides 13 to guide the first connector 1 laterally towards the inside of the second connector 2. In the illustrated example, the lateral guides 13 have a length L13 sufficient to ensure longitudinal guidance, and therefore proper orientation of the first connector. Their height H13, measured above the plate 4, is greater than the height H2 of the lower lip 2A of the second connector 2. It should be noted that, in the described example, the height H13 of the lateral guides 13 is greater than the height H3 of the shim 3. Their lateral positioning also allows for transverse centering of the first connector 1 with respect to the opening 5. Thus, the lateral guides 13 allow horizontal alignment of the end 7 of the first connector with the housing 6 of the second connector. As illustrated in [Fig.2], the lateral guides are preferably arranged opposite each other at a distance from each other substantially equal to or greater than a width of the free end 7 of the first connector 1. It should be noted that the electronic board may include only one lateral guide 13. .
[0035] As particularly illustrated in [Fig. 2], it is possible to provide a hole 8 in the thickness of the first connector 1 and a hole 9 in the plate 4. These holes are arranged such that, in the position illustrated in [Fig. 2], in which the connectors 1 and 2 are functionally connected, these holes are opposite each other. Thus, in this position, it is advantageous to provide means 10 for fastening the first connector 1 to the plate 4. In the illustrated example, the fastening means are of the rivet type 10.
[0036] Like the wedges 3, in the illustrated example, the side guides 13 are inexpensive inactive electronic components.
[0037] Of course, shims and lateral guides can advantageously be used in combination, so that the first connector is fully guided and aligned, in three dimensions with the housing 6 of the second connector.
[0038] In the example illustrated photographically in Figures 4 and 5, three shims 3 are used, substantially equidistant from the opening. The components 3 used as shims 3 are SMD resistors.
[0039] The lateral shims or guides can be installed using the automated and robotic means employed to secure all the electronic components on the board 4. Thus, the shims and guides are inexpensive and easy to install with good precision. No additional specific operation is required to install a guide to engage the first component 1 with the second component 2.
[0040] Figures 6 to 9 illustrate locking modes of the first connector to the plate 4, which differ from the first mode previously illustrated with reference to [Fig.2] in that they are non-click locking modes.
[0041] In the second embodiment, illustrated in [Fig. 6], the first connector 1 includes a lug 16 projecting from an underside 17 opposite the card 4. The lug has a parallelepiped shape. When the first connector 1 is inserted into the housing 6, the lug 16, aided by the elasticity of the first connector 1 or the lug itself, elastically passes through the spacer 13; pulled back by the elasticity of the first connector, the lug assumes the position illustrated in [Fig. 6] and comes to rest between the second component 2 and the spacer 13. Thus, it prevents the first connector 1 from being pushed too far into the housing 6 of the second component and prevents the first connector 1 from being removed from the second component by a simple translation.
[0042] The third embodiment, illustrated in [Fig. 7], differs from the second embodiment described above in that the lug 16 has a triangular longitudinal cross-section. Thus, it presents a first ramp PA with a slight slope, opposite the second connector, which facilitates the passage of the wedge 3 during the insertion of the first connector. The lug 16 has a second ramp PB with a very steep slope, on the opposite side from the first ramp PA; in the locking position illustrated, the second ramp is opposite the wedge 3. The steep slope of the second ramp PB, while not preventing the removal of the first connector 1, makes it more difficult than its insertion.
[0043] The fourth locking method, illustrated in Figures 8 and 9, differs from the previous ones, in that the first connector 1 includes two lateral lugs, intended to engage with lateral guides 13, as previously illustrated with reference to [Fig.3].
[0044] Each lateral lug 16 extends laterally from a respective longitudinal edge of the first connector 1. When the first connector 1 is inserted into the second connector 2, each lateral lug 16 elastically passes through a respective guide 13 and is then elastically returned to a position where it is engaged between the respective guide 13 and the second connector 2, as illustrated in [Fig. 9]. A lateral lug 16 may have a parallelepiped or triangular longitudinal cross-section, such as those previously illustrated in Figures 6 and 7. Other cross-sections may be used.
[0045] Of course, the invention is not limited to the examples just described. On the contrary, the invention is defined by the following claims.
[0046] It will indeed appear to the person skilled in the art that various modifications can be made to the embodiments described above, in the light of the teaching which has just been disclosed to him.
[0047] Thus, a functionally active component of the printed circuit board can be chosen as a shim.
[0048] Also, for the lateral guidance of the first connector, it may be sufficient to use only one lateral guide against which the first connector can slide during its movement to engage with the second connector.
[0049] Also, the first connector can be a female connector and the second connector can be a male connector, contrary to what has been described with reference to the figures. List of references#:
[0050] 1: first connector 2: second connector 2A: lower lip of the second connector 3: vertical wedge 4: Printed circuit board support plate 5: Opening the second connector 6: Housing for the second connector 7: Free end of the first connector 8: drilling into the first connector 9: hole in the map 10: rivet 13: Lateral guide 16: ergot H2: height of the lower lip of the second connector H3: height of the wedge H13: height of a PA lateral guide, PB: ramps of a lug.
Claims
Demands
1. Electronic card, characterized in that it includes guiding means (3, 13, 14) for introducing a first connector (1) into a second connector (2), said second connector (2) being fixed on a plate (4) of said card, the guiding means (3, 13, 14) comprising electronic components.
2. Card according to claim 1, characterized in that the electronic components include inactive components.
3. Card according to any one of claims 1 and 2, characterized in that the guiding means comprise at least one wedge (3) serving as a support for the first connector (1), in front of the second connector (2).
4. Card according to claim 3, characterized in that the wedge (3) has a height (H3) substantially equal to or less than the height (H2) of a lower lip (2A) of the second connector (2), said heights being measured above the plate (4).
5. Card according to any one of claims 1 to 4, characterized in that the guiding means comprise at least one lateral guide (13) for the first connector (1), in front of the second connector (2).
6. Card according to claim 5, characterized in that the lateral guide (13) has a height (H 13) greater than the height (H2) of a lower lip (2A) of the second connector (2), said heights being measured above the plate (4).
7. Connector intended to constitute a first connector (1) intended to engage with a second connector (2) of a card (4) according to any one of claims 1 to 4, characterized in that it comprises at least one lug (16) intended to engage by snapping between the guiding means (3, 13) and said second connector (2).
8. A method for forming on a printed circuit board means for guiding a first connector (1) intended to engage with a second connector (2) fixed to a plate (4) of said board, characterized in that it comprises the placement on said plate (4) of at least one component (3,13), preferably inactive, serving as a lateral guide (13) and / or shim (3) for said first connector (1).
9. Method for connecting a first connector (1) intended to engage with a second connector (2) fixed to a plate (4) of an electronic board comprising guiding means (3, 13, 14) formed according to claim 8, characterized in that the first connector is slid towards the second connector by taking support, at least indirectly, against said guiding means.
10. A method according to claim 9, characterized in that a hole (8) is first formed in a thickness of the first connector (1) and a hole (9) is first formed in the plate (4) so that in a functional connection position of said connectors (1,2) with each other said holes (8, 9) are arranged opposite each other, and then said first connector (1) is fixed to said plate by means of fixing (10) passing through said holes, preferably by means of rivet type (10).
11. Method according to claim 9, characterized in that a first connector (1) is used, provided with at least one lug (16) intended to engage by snapping with the guiding means (3, 13).
12. Electronic terminal, in particular a payment terminal, which includes a card according to any one of claims 1 to 6.