FI130101B - Electric installation connector, method for manufacturing an electric installation connector, and use of an electric installation connector - Google Patents

Abstract

The invention relates to an electrical installation connector for electrical installation, which electrical installation connector has a contact body (1), which contact body (1) is provided with openings (10) and means for receiving a corresponding male contact and for making electrical connections between the contact body (1) and the contact strip of the male contact , which said means include at least one pair consisting of a U-shaped contact strip (3) and of a spring (4), whereby the contact strip of the male contact is placed in a space that said parts form, the contact body (1) having a substantially square sleeve (20) around each electrical connection between the male connector and the electrical installation connector formed by the first end (3.1) of the U-shaped contact strip (3), the spring (4) and the contact strip of the male connector that stands in the space between said parts (3.1, 4). The invention also relates to a corresponding method for producing an electrical installation connector and use of the electrical installation connector

Description

ELECTRICAL CONNECTOR, METHOD OF PREPARING ELECTRICAL CONNECTOR

USE OF TAMISEX AND ELECTRICAL INSTALLATION CONNECTOR

The invention relates to the structure of the electrical connector and its assembly and manufacture.

The subject of the invention is an electrical installation connector according to claim 1, a method for manufacturing an electrical installation connector according to claim 8 and the use of an electrical installation connector according to claim 9.

The aim of the invention is to provide a multi-pole electrical installation connector that can — also be used with large currents and high voltages, for example as part of the charging system for electric vehicles. The functional quality of the electrical installation connector according to the invention has improved in terms of safety compared to state-of-the-art connectors.

Known technology is represented at least by DE 4231244 A1, EP 3029776, and DE102011050212, and FI20175848.

The closest state of the art is the aforementioned publication FI 20175848, where the patent application in question is based on the presented connector. The publication presents an electrical connector to which, in accordance with the present invention, a part that improves electrical safety has been added, whereby — the properties of the electrical connector are substantially improved.

The electrical installation connector according to publication FI 20175848 is used in parking areas

In the electrification of N, the wiring of the parking area is first connected using the connector

N in a chain so that the incoming cable is connected to the connector and the outgoing cable to the next connector

S 25 — cable. Because a lot of connectors are installed in one installation and there can be several in a chain

S connectors, it is important that the installation work is as easy and quick as possible. In addition, there is

E: advantageous if one or more cables of different thicknesses can be easily connected.

S

O The connector is easy to assemble, because the connector body itself requires two per connector contact

S 30 — parts that are easy to push into place, and the parts then stay in place by friction. When the connector body with contacts is assembled, it can be slid to the bottom of the device case along the rails, or the connector body can be attached to the device case in another way.

The connector body can then be locked in place either with a separate element, such as a pin, screw or flexible latch. The connector body can also stay in place if only the cover of the housing holds it, if the cover has been designed with suitable holes into which the corresponding parts of the connector body fit. The live parts of the installed connector body are sufficiently protected.

The connector body can be installed in the housing of the quick connector, for example on the end of the heating pole of the parking lot, on the wall of the parking garage or on the installation rail, and later on the connector can be installed, for example, in a garden box with clock switches.

The connector body itself most often remains inside the device case. In this case, the device case can be — for example, a case attached to the end of a pole in a parking space, which can be opened from one or two sides. When the cable conductors are installed in the connector body, the connector body must be attached to the device housing. This can be done, for example, by sliding horizontally, whereby the device case opens from the front wall, through which the cable ends are also installed. The device housing can also be slid or fixed from the bottom, whereby the housing mounted on the pole is slid — along the pole from the bottom. In this case, one part of the housing is threaded onto the post before the wiring is installed, and it is lifted into place after installation.

The device housing may have a cover that can be removed to connect the male connector. The cover protects the contact surfaces of the connector from all kinds of contact with conductive objects, shocks, — contact and weather before connecting the male connector. The device case can have a solid metal side equipped with connection means for receiving, for example, the male connector of a heating device or an electric vehicle charger. This allows for easy equipment changes in the parking area.

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N 25 — The cables themselves can be connected in such a way that the stripped ends of the cable are first pushed into the space between the insulating walls 7, and the screw-clamping connector is then pushed around the end of the cable and the end of the contact strip 7, and the screw is tightened, whereby the ends of the cable or cables are roughly pressed against the contact strip. The screw crimp connector itself resembles a socket connector in that

The difference is that in this solution the screw connector can be made from a square tube, and the a 30 — cable and contact strip to be installed in it are parallel in the finished connection. In addition, the screw crimp connector can have a pressure-distributing and spring-functioning element between the screw and the cable or between the cable and the background of the contact strip and the bottom of the crimp connector. A spring is known to be necessary at least when aluminum cable is used in outdoor conditions, when the thermal expansion coefficient of aluminum is greater than that of copper alloy rings or steel, causing the cable to deform and eventually loosen the joint, unless a flexible element is used.

The connector can also be built using socket connectors, in which case, however, the space requirement of the wiring may increase in the height direction, in order to make the insulation requirements and the installation space — sufficient. Naturally, the cables can also be connected in other known ways, for example with sleeve connectors and screws.

The purpose of the invention is to improve the electrical safety of an electrical installation connector like the one presented above — by keeping — the electrical connection — functional also — in extreme conditions — when the connector body of the electrical installation connector is destroyed.

The above is achieved by adding sleeves of essentially square cross-section to the connector body of the electrical installation connector. —According to the invention, during its casting phase, bushings with a substantially square cross-section are installed as inserts in the connector body, which improve the electrical safety of the electrical installation connector. The aforementioned sleeves keep the contact strips of the male connectors in contact with the female connectors and the connections electrically safe, even if the connector body melts around the connections. — The invention is characterized by what is described in the distinguishing parts of the independent patent claims 1, 8 and 9, and the independent claims describe different application forms of the invention.

N In the following, the invention is described in more detail with reference to the drawings, in which

No. 25

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7, figure 1 shows a cross-section of a prior art electrical installation connector before © assembly, i

S figure 2 shows the parts of the cross section of figure 1 assembled, 3 30

Figure 3 shows a state-of-the-art solution of an assembled electrical installation connector body with screw connectors,

Fig. 4 shows a cross-sectional square sleeve according to the invention, and Fig. 5 shows a cross-section of one square sleeve according to the invention inserted into the connector body of the electrical installation connector.

Figure 1 depicts the connector body 1 and parts of the electrical installation connector according to the state of the art before assembly. The screw clamp 6 in Figure 1 can be loose before the cables are installed, in which case it is easier to install the cables, and the connector is threaded only when the cables are in place.

The contact strip 3 is a flat plate-like part bent into a U shape. It is preferably bent so that the corners deviate slightly from the straight angle, so that the part sticks to the connector body with a small compressive force. This is also easy to implement from a manufacturing point of view, because a strip bent to 90 degrees usually returns to a slightly more obtuse angle after bending — on its own. The end 3.2 is connected to the cable with, for example, a screw-press connector 6. The spring 4 presses the strip of the male connector tightly to the contact of the female connector 3.1. The spring also functions to some extent as a current-carrying organ.

The contact strip 3 and the spring 4 are installed in the connector body 1 through the opening 2. Please note that — in figure 2, the spring 4 is drawn in a non-tensioned state, unlike reality, so it appears to go inside the connector body. In reality, of course, the spring is compressed against the contact strip, and does not go inside the connector body.

N Connector body 1 is a suitable insulating material that can withstand the required mechanical and other

N 25 — stress. Between each joint there is a wall 5 made of insulating material, which 7 walls separate the connectors from each other. The contact strips can be, for example, nickel-plated and 7 silver-plated copper, and the spring can be, for example, bronze or steel. The strips must be sufficiently precise and flat so that the contact surface is large enough. In practice, it is enough

S that the strip is made sufficiently flat at least in its contact area before the strip a 30 — is bent into a U-shape, or the strips are pressed, ground or machined to be sufficiently flat after or before bending Bending slightly changes the shape of the cross section of the contact strip at least near the bending point, but if the corner to be bent is relatively far from itself from the contact area, it is usually not harmful.

Drawing 2 shows a state-of-the-art connector body assembled. Contrary to the picture, the screw terminal 6 is usually loose before installing the cable. In addition, the picture shows the screw connector with the screw screwed in. Naturally, during installation, the screw is 5 — unscrewed so that the screw connector can be threaded into place around the end of the cable and contact strip 3.2. A loose or removable screw-in connector makes it easier to install cables.

The cable pair is pre-cut and pre-bent to the connector, after which the cable pairs are marked to the correct stripping length. The cable pair is stripped and the screw crimp connector 6 is threaded onto the cable pair and the contact strip 3.2. The screw press is pre-tightened after the final positioning —-. The cable pair is cut to the right size with an end cutter as close as possible to the connector, after which the vise is tightened to torque. This avoids threading a rigid cable into the connector. According to the tests, the saving in working time is significant; in addition, it is easy to install two cables in the same connector for cable chaining. The insulating walls 5 of the connector body hold the cables to be installed in place during installation. Insulation walls — facilitate installation and create a sufficient insulation gap for the conductors. The screw press 6 can have a flexible part so that, for example, the forces produced by the thermal expansion of the cables and the connector remain so small that no permanent deformation or loosening of the cable connection occurs. The spring 4 and the first end 3.1 of the U-shaped contact strip form the receiving contact area of the male connector.

Figure 3 shows an example of a 5-pole state-of-the-art connector body 1 assembled without cables. The contact strips of the male connector protrude from the openings to 10 contacts.

The openings 10 are surrounded by a housing that remains inside the protective housing of the male connector

N being connected to each other. The openings 10 can emerge from the cover of the device case so that

N 25 — the cover of the housing has a sufficient gap for the housing of the male connector. In this context, the terms 7 male connector and female connector more describe that the female connector is fixed, and the electric current 7 is supplied from the female connector described here to the male connector. In the structure of the connectors themselves, there is no clear difference between male and female connectors. co 2

N 30 — It is easiest to press the cables into the space between the insulating plates 5 with a suitable tool or even by pressing with your finger and then thread the screw connector into place in the position shown in the picture.

Since the installation cables are quite stiff and thick, it is much easier to cut and strip the cables to the right size and push them laterally into place and only then thread the screw-on connector. In this case, as shown in the picture, the cable is pushed laterally to the ends of the contact strips 3.2 and the screw crimp connector is threaded around the end of the cable and the contact strip from the top of the picture and the screws are tightened so that the cables are pressed into the contact strips. This way, the cable does not have to be bent sharply for threading, —it is enough to push it into place and thread the screw terminal around the cable.

After installing the contact strips, the connector body itself can be pushed to the body of the device housing with the help of rails 9.

Fig. 4 shows a sleeve 20 according to the invention, which is essentially square in cross-section. The sleeve 20 is used as an additional structure, for example, in the state-of-the-art solution, which is shown in Figs. 1-3. Such sleeves 20 are placed around all joints to be formed in the joint body of the connector. For example, there are 5 of them in the 5-pole connector body 1 according to Figure 3. The shape of the sleeve 20 does not have to be — an absolute rectangular piece, but the corners of the sleeve can be slightly rounded.

Figure 5 shows the connector body 1 of the electrical installation connector shown in Figure 2 and to it according to the invention = connected as an insert during casting = an essentially square sleeve 20. The sleeve 20 is placed around the electrical contact that is formed, and its task is to keep the electrical connection together, even if, for example, the connector body 1 is otherwise destroyed, for example by melting or mechanically. The electrical connection is formed with the help of the first end 3.1 of the U-shaped contact strip 3, the spring 4 and the contact strip of the male connector (not shown in the picture). The contact strip of the male connector protrudes when making a U-shaped connection

N between the first end 3.1 of the contact strip 3 and the gap 30 formed by the spring 4. When tightly

N 25 — the sleeve 20 around the joint keeps the joint together, the electrical safety of the device 7 improves substantially compared to state-of-the-art solutions. Sleeves 20 7 are installed on the connector body 1 around each electrical connection, whereby the entire connector body 1 becomes electrically safe. The sleeves 20 are placed in the connector body 1 at different distances from the connector body

10 of the holes to correspond to the location of the — electrical connections — to be formed in the connector body. a 30 — The location of the electrical connection is defined by the length of spring 4, whereby the electrical connection of the longer spring is connected first and the electrical connection of the shortest spring is connected last. In the same way, the length of the first end 3.1 of the contact strip 3 is also dimensioned so that the length of the first end 3.1 corresponds to the length of the spring 4 and the place of the electrical connection in the connector body 1. The connector body is designed so that, for example, the different phases of a 5-pole electrical connector like the one shown in Figure 3 connect and open in a certain electrically safe order when connecting or opening the connector. This has been implemented in such a way that the formed electrical connections are in the connector body 1 at different distances from the openings 10 of the connector body, into which the contact strips of the male connectors are inserted, so that when the male connector is pressed against the female connector, the correct connection and opening sequence is automatically obtained. In the electrical connection shown in Figure 5, the sleeve 20 is installed at its highest point closest to the opening 10 and the spring 4 is the longest in dimensions, extending closest to the opening 10. In this case, the electrical connection is formed first when the male connector is connected to the connector body 1. The connection order of the other connector body — electrical connections is selected by changing the position of the sleeve farther from the opening 10 and changing the length of the spring 4 respectively. The length of the first end 3.1 of the contact strip 3 is measured so that the length of the first end 3.1 corresponds to the length of the spring 4 and the place of the electrical connection in the connector body 1, so that the connection sequence can be implemented. — In other respects, the connector body 1 according to the invention corresponds to the state-of-the-art connector body shown in Figures 1-3.

The method according to the invention for manufacturing an electrical connector includes the following steps: - — a casting mold is prepared for the connector body 1 of the electrical connector, - substantially square bushings 20 are placed in the casting mold, the number of which corresponds to the number of electrical connections of the connector body 1, - — the distance of the bushings 20 from the openings 10 of the connector body 1 to be formed is determined in such a way,

N that the spaces 30 surrounding the sleeves 20 form U-shaped contact strips 3

N 25 pairs formed by the first ends 3.1 and springs 4, with parts 3 and 4 7 mounted on the connector body 1, 7 - — casting is performed, i - U-shaped contact strips 3 and springs 4 of different sizes are installed on the connector body, which

The length of the first ends 3.1 of the S contact strips 3 corresponds to the length of the separate springs 4 a 30 and the means for connecting the cables to the connector body 1,

N - with the first ends 3.1 of the U-shaped contact strips 3 and the springs 4, a gap 30 is formed, which receives the contact strip of the male connector.

The subject of the invention is also the use of the electrical connector according to the invention for installing electric vehicle chargers or block heater sockets.

It is clear to a person skilled in the art that the invention is not limited exclusively to the examples presented above, but may vary within the framework of the patent claims presented below.

So, for example, some method steps may be in a different order than is presented above, and in addition some method steps may be missing and some method steps that have not been presented may be included. In addition, some method steps may contain more or fewer functions than shown above.

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Claims (9)

PATENT CLAIMS 1. An electrical installation connector for electrical installation, which electrical installation connector has a contact body (1), which contact body (1) is provided with openings (10) and means for receiving a corresponding male contact and for making electrical connections between the contact body (1) and the contact strip of the male contact , which said means include at least a pair consisting of a U-shaped contact strip (3) and of a spring (4), whereby the contact strip of the male contact is placed in a gap (30) which said parts delimit, characterized in that the contact body (1) includes a sleeve (20) substantially square in cross-section, which sleeve (20) extends at least around each electrical connection between the male connector and the electrical installation connector formed by the first end (3.1) of the U-shaped contact strip (3), the spring (4) and the contact strip of the male connector which stands in the gap (30) between said parts (3.1, 4). 2. Electrical installation connector according to patent claim 1, characterized in that the electrical connections between the electrical installation connector and the male connector are several in number in the connector body (1). 3. Electrical installation connector according to patent claim 2, characterized in that the electrical connections between the electrical installation connector and the male connector when connecting said connectors are created in a specific order by placing the electrical connectors at different distances from the openings (10) in the electrical installation connector's contact body (1) with springs (4) of different length and with corresponding lengths on the first end of the contact strip (3) (3.1). 4. Electrical installation contact according to patent claim 2 or 3, characterized in that the sockets (20) of the contact body (1) are located at different distances from the openings (10) in the contact body (1) corresponding to the different lengths of the springs (4) and of the contact strip ( 3) first N end (3.1). No. 25 5 Electrical installation connector according to one of the preceding patent claims, characterized in that the other end (3.2) of the U-7-shaped contact strip (3) projects from the contact body (1) for © a cable connector (6), which cable connector (6) is arranged to be mounted to E connect the other end (3.2) of the contact strip (3) and eat at least one stripped cable end which is S pressed against the contact strip by threading the cable connector (6) to the other end (3.2) of the U-shaped contact strip (3) from above and by pressing attach the cable N to the other end of the contact strip (3) (3.2). 6. Electrical installation contact according to any of the previous patent claims 2 - 5, characterized in that the contact body (1) includes several U-shaped contact strips (3) parallel to each other in their own openings (2), and on the sides of each U-shaped contact strip ( 3) at the other end (3.2) there is an insulating material wall (5) which isolates the adjacent electrical connectors from each other and between which insulating material walls (5) stripped cable ends can be pushed in to be attached to the other end of the U-shaped contact strip (3) (32 ) by € guidance from = the insulating material walls (5) before the cable connector (6) is mounted around the cable end and the other end of the U-shaped contact strip (3) (3.2). 7. Electrical installation connector = according to patent claim 5 or 6, characterized in that the cable connection device (6) is a screw pressing device with a square profile. 8 A method for producing an electrical installation contact, wherein the method includes the following steps: - a mold is made ready for the contact body (1) of the electrical installation contact, - a casting is performed, - U-shaped contact strips (3) and springs (4) are assembled from different length, whereby the length of the first ends (3.1) of the contact strips (3) corresponds to the length of the springs (4) of different lengths, and means for connecting cables to the contact frame (1), in the contact frame, and - a gap (30) is created with the first ends (3.1) of the U-shaped contact strips (3) and the springs (4) to receive a male contact contact strip, characterized in that, prior to casting, substantially square sleeves (20) are mounted in the mold, the amount of which corresponds to the amount of electrical connections in the contact body (1), and - it is determined at what distance the sleeves (20) are from the openings (10) in the contact body (1) which are about to be created so that their position corresponds to the position of the N electrical connections that will be created so that the sleeves (20) surround the pairs of the first ends (3.1) of the U-shaped N 25 contact strips (3) and of the springs (4), which form the spaces (30), the parts (3, 4) are mounted in the contact body (1) . © 9. Use of an electrical installation connector according to any of the preceding patent claims for installing electric vehicle chargers or electrical outlets for engine heaters. S & 30 S