NL1012668C2 - Vacuum pick-up cap for use in transporting surface mount technology component, such as electrical plug or counter-plug, which has housing in which is contact component - Google Patents

Abstract

The vacuum pick-up cap (1) is for use in transporting a surface mount technology component (2), such as an electrical plug or counter-plug, which has a housing in which is a contact component placecd on a substrate, such as a personal computer board or similar. The cap has a smooth outer surface (13) and at least two opposing side walls (6,7) extending from the base (5). The two side wallsaer separated spacewise and at least one of them is sprung, so that the cap can be clamped in or over the housing of the surface mount technology component. A groove (3) is provided in a transition area from the inside of an inner wall and the inside of the base. The cap has a U-shaped cross-section.

Description

Vacuum pick-up hood and SMT component that includes the same.

The invention relates to a vacuum pick-up cap for use in transporting an SMT (Surface Mount Technology) component, such as an electrical plug or socket, comprising a housing in which a contact element is placed, and placing it on a substrate, such as a PC board or the like, the hood comprising a base with a smooth outer surface and at least two opposed side walls extending away from the base.

Vacuum pick-up caps are known from, for example, US

5,810,611. This document explains that electronic components are often handled and transported by means of vacuum nozzles to place them on a substrate, such as a printed wiring board.

In the case of electrical plugs, vacuum pick-up is usually facilitated by means of caps or lids which have a flat top surface and a bottom surface from which protrusions extend downwardly to engage electrical contact pins extending from the housing of the plug.

US 5,810,611 describes the problem that electrical plugs generally use a variety of pin arrays which differ in the number of rows and columns and in the pitch between the contact pins, among other things, and that a specific vacuum pick-up cover is often only suitable for to grab one or a small number of the variety of arrays used. Therefore, the manufacturer often needs to stock a variety of vacuum pick-up covers to ensure a suitable type of vacuum pick-up cover for each plug he is working with.

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The cover according to US 5,810,611 is furthermore clamped between the pins of the pin array. It can be rotated about its vertical axis to a second axial position to allow it to engage a second other pin array 5.

A disadvantage of this technology lies in the fact that clamping the cover between the pins can cause damage. In addition, in applications where the SMT components are larger and heavier, a better grip of the lid on the SMT component is necessary, while the positioning of the vacuum pick-up cap relative to the SMT component must be as precise as possible.

The object of the invention is to provide a vacuum pick-up hood of the type described above which exhibits the desired improvements.

For this purpose, the vacuum pick-up hood according to the invention has the feature that the two side walls are spatially separated and that at least one of the side walls is resilient so that the hood can be clamped in or over the housing of the SMT component.

By clamping the vacuum pick-up cap in or over the housing of the SMT component, damage to the contact pins can be easily avoided, because the housing of the SMT component can be made of a rigid or rigid material, the clamping force can be considerable and thus the handle can be matched to the requirements of larger and heavier components. Furthermore, the housing and / or the hood can be provided with means for obtaining and maintaining an accurately defined position of the vacuum pick-up hood with respect to the SMT component.

The resilience of the side wall (s) can be obtained in various ways, for example by choosing a resilient plastic material such as polyamide (PA6) 35 or a liquid crystalline polymer (LCP). The resilience is preferably improved by providing a groove in the transition region of the inside of a side wall and the inside of the base.

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The invention will be further explained with reference to the drawings in which two embodiments of the vacuum pick-up hood according to the invention are schematically shown.

FIG. 1, 2 and 3 show a perspective view of a vacuum pick-up cap intended for use in combination with a plug.

Fig. 4, 5 and 6 show a perspective view of a vacuum pick-up cap intended for use in combination with a mating connector.

Figures 1 to 3 show a vacuum pick-up cap 1 / for use with an electrical connector 2 which has a U cross section and is made of PA6 by injection molding. Although PA6 itself is resilient, a groove 3 is provided in the transition region of the inside of a first side wall 4 and the inside of the base 5. As a result of this groove 3, the resilience of the first side wall 4 with respect to the base 5 is improved to such an extent that projections 6 adapted to fit recesses in plug 2 can be provided on the outside of the first side wall 4, which recesses are intended to allow coupling of plug 2 with a mating plug.

Elongated raised edges or brass 8 (shown in Figure 2) are provided on the second side wall 7, which are also adapted to the shape of the plug 2. These edges 8 guide the vacuum pick-up cap 1 during insertion into the plug 2 and enable very precise positioning of the vacuum pick-up cap 1. The edges 9 of the side walls 4, 7 are chamfered to further facilitate the installation of the vacuum pick-up cap in the plug 2.

Figure 3 shows the vacuum pick-up cap 1 after fitting in the receiving part 10 of the housing of the plug 2.

Contact pins or terminals 11, which are arranged in an array, and a power contact 12 are perfectly bridged by the vacuum pick-up cap 1 without any risk of damage.

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The base 5 of the vacuum pick-up cap 1 has a smooth top surface 13 of 10 x 10 mm, ie an area of 100 mm2, which is more than sufficient to lift an SMT component with a vacuum nozzle, even if the SMT 5 component weighs a few tens of grams.

Figures 4 to 6 show a vacuum pick-up cap 20, which also has a U-section and which can be placed on a mating connector 21. The vacuum pick-up cap 20 also includes a groove 22 in the transition region between the interior 10 of the first wall 23 and the base 24 to improve the resilience of the first side wall 23 with respect to the base 24.

The vacuum pick-up cap 20 further includes a projection 25 and grooves 26 to facilitate positioning and locking of the vacuum pick-up cap on the mating connector.

A ridge 27 extending the length of the inner surface of the base 24 forms an effective spacer which ensures that the smooth surface 28 of the cap 20 is always at exactly the right height. The vacuum-20 pick-up cap further comprises a rectangular opening 29 to prevent it from being hindered by provisions on mating plug 21, which are intended inter alia for coupling with a plug.

The invention further relates to an SMT 25 component and individual plugs and sockets provided with the vacuum pick-up cap described above.

The invention is not limited to the above described embodiments which can be varied in a number of ways within the scope of the claims. Thus, the housing of the plug and / or the mating plug can form a single unit, which is obtained by, for example, injection molding, but it can also be an assembly of two or more parts.

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Claims (10)

Vacuum pick-up cap (1, 20) for use in transporting an SMT component (2, 21), such as an electrical plug (2) or mating plug (21), which includes a housing in which a contact element is placed and 5 placing it on a substrate, such as a PC board or the like, said cap having a base (5, 24) with a smooth outer surface (13, 28) and at least two opposed side walls (6, 7; 23 ), which extend away from the base (5, 24), characterized in that the two 10 side walls (6, 7; 23) are spatially separated and that at least one of the side walls (6, 7; 23 ) is resilient so that the cover (1, 20) can be clamped in or over the housing of the SMT component (2, 21). A vacuum pick-up cap (1, 20) according to claim 1, 15 wherein a groove (3, 22) is provided in the transition region of the inside of a side wall (4, 23) and the inside of the base (5, 24). A vacuum pick-up cap (1, 20) according to claim 1 or 2, which cap (1, 20) has a diameter. Vacuum pick-up cap (1, 20) according to any of the preceding claims, wherein the edge (9) furthest from the base (5, 24) is chamfered. Vacuum pick-up cap (1, 20) according to any one of the preceding claims, wherein the smooth outer surface 25 (13, 28) of the base (5, 24) has an area larger than 25 mm 2 and preferably larger than 50 mm2. Vacuum pick-up cap (1, 20) according to any one of the preceding claims, wherein the vacuum pick-up cap (1, 20) is made of plastic. SMT component (2, 21) such as a plug (2) or an electrical connector socket (21) of an electrical connector, provided with a vacuum pick-up cap (1, 20) according to any one of the preceding claims. The SMT component (20, 21) according to claim 7, 35 wherein the vacuum pick-up cap (1, 20) at least over a portion of the contact surface between the vacuum pick-up cap (1 , 20) and the SMT component (2, 21) is adapted to improve the grip of the vacuum pick-up cap (1, 20) on the SMT component (2, 21). The SMT component (2, 21) of claim 8, wherein the vacuum pick-up cap (1, 20) includes a projection (6, 25) that snaps a connection of the vacuum pick-up cap (1, 20) onto the SMT component (2, 21). 10. Plug (2) or socket (21) for use in an electrical connector, comprising a vacuum pick-up cap (1, 20) according to any one of claims 1 to 6, wherein the vacuum pick-up cap ( 1, 20) at least over a portion of the contact surface between the vacuum pick-up cap (1, 20) and the SMT component (20, 21) is adapted to the shape of those features of the plug (2) or Socket (21) intended for coupling to a socket or a plug, respectively. ^ π 4 9 ^ 8