Description

Electrical signal connector

I . Technical field

The present invention relates to an electrical signal connec ^¬ tor and, more particularly, it relates to an electrical sig ^¬ nal connector which effects turn-on of an electrical signal device and is connected to at least one external-connection electrical signal cable.

II . Prior art

In existing technology, an electrical signal connector is commonly used to input electrical signals into an electronic device or to output them from the electronic device to the exterior .

One type of electrical signal connector in existing technol ^¬ ogy has a cuboid box structure provided with a plastic cas ^¬ ing, and, when this cuboid electrical signal connector is set on a horizontal surface, it has one top surface, one bottom surface and four side surfaces. Sets of cut-in ports are re- spectively provided in two adjacent sides. One of these sets of cut-in ports is connected to an electronic device and serves to lead signals into this electronic device or to out ^¬ put signals from the electronic device to the exterior. The various ports of this set of ports are connected to the other set of ports via a flexible circuit board. This other set of ports is connected to at least one electrical signal cable which is used to transfer output signals. This electrical signal connector can broadly be divided into two portions, which are a top portion and a bottom portion going from a ho- rizontal plane between the top surface and the bottom sur ^¬ face, and, along with this, there is a pivot shaft in the centre of one side surface, and the top portion and bottom portion of the electrical signal connector can be rotated

turning about this pivot shaft. When the electrical signal connector is set in an open state, the above-noted electrical signal cable can be extended into the electrical signal con ^¬ nector. In the electrical signal connector, there are many molded materials and corresponding connectors which are used to fix respective leads of the electrical signal cable. These various leads are connected to electrical conductors, and these electrical conductors are further connected to at least one or to several ports within a set of cut-in ports in the electrical signal connector which correspond to the elec ^¬ tronic device. After respective leads in the electrical sig ^¬ nal cable and electrical conductors in the electrical signal connector have been properly connected, the top portion and bottom portion of the electrical signal connector are rotated on the above-noted pivot shaft, and the two portions of the other side surface opposite the electrical signal connector side surface where the pivot shaft is present are fixed by a screw, so bringing the electrical signal connector to a use state .

When, for whatever reason, it is required to detach the electrical signal cable, it is first necessary to detach the screw and open the top portion and bottom portion of the e- lectrical signal connector by rotating them about the pivot shaft, and then to detach the leads of the electrical signal cable from the internal conductors and so effect separation thereof from these conductors. What is described applies to each lead which is contained in the electrical signal cable, and this also has an outer shield wire layer. When the vari- ous leads are fitted and detached, it is also necessary to fit and detach this shield wire layer at the same time. The ^¬ refore, a set amount of time is needed for the detachment and fitting processes.

Another problem in existing technology is that a compara ^¬ tively expensive flexible circuit board has to be used for this type of connector, and, in addition, the connector's in ^¬ ternal structure is quite complex, die sinking is needed at

the time of manufacture of the outer casing that is used and many internal nonmetallic elements, and so the molding equip ^¬ ment is quite expensive. Because of this, the cost of the connector is quite high.

III. Scheme of the invention

It is therefore the object of the present invention to pro ^¬ vide an electrical signal connector whose structure is com- paratively simple and the cost of whose manufacture is com ^¬ paratively low.

According to one aspect of the present invention, the inven ^¬ tion provides an electrical signal connector which is inter- posed between at least one electrical signal cable and an electronic device, each electrical signal cable containing at least one lead, and which is characterized in that it com ^¬ prises :

• an electrical signal cut-in terminal and a first set of cut-in ports and a second set of cut-in ports which are provided on this cut-in terminal, each of the first set of cut-in ports and second set of cut-in ports comprising at least two ports, and each within the at least two ports of the first set of cut-in ports being in correspondence to and maintaining mutual conduction with a port in the second set of cut-in ports; and in which the first set of cut-in ports is connected to input ports or output ports of the above-noted electronic device; and the second set of cut-in ports is conductively connected to leads in the electrical signal cable and to an electrically conductive plate; and

• the above-noted electrically conductive plate is conductively connected to at least one port in a second set of cut-in terminals and to an outer shield layer of the electrical signal cable.

The above-noted electronic device refers to an electrical signal input device or electrical signal output device.

The above-noted electrical signal cable refers to an electri- cal signal input or output cable.

Input or output ports connected to the electronic device and the first set of cut-in ports can be the complete set of the input ports or output ports of the electronic device or can be part of the set of the input ports or output ports of the electronic device.

The ports in the electrical signal terminal are electrically conductive ports, and their shape can be round, square or an- other shape.

The input or output ports of the electronic device can be standard multi-core (or multi-pin) ports, and, therefore, at the time of specific use in electronic equipment, sometimes the electronic device only needs to use some within the vari ^¬ ous ports, and it is not necessary to use all the ports. Therefore, it is by no means necessary for all these ports to be in communication with the exterior. Similarly, when ports within the first set of cut-in ports in the electrical signal connector which are connected to the electronic device are used in various electronic equipments, there is no need for all these ports to be in a conducting state. What needs to be ensured is that conduction be maintained by that port or those ports in the second set of cut-in ports which is or are connected to at least one projection terminal of the above- noted conductive plate and by ports connected to the electri ^¬ cal signal cable and, likewise, corresponding ports of the first set of cut-in ports.

When the electronic device constitutes an electrical signal input device, a transmitted electrical signal is transferred from the exterior to the electrical signal connector via the electrical signal input cable, goes via a cable clamp, the

electrically conductive plate and the electrical signal cut- in terminal and enters the electrical signal input device. When the electronic device constitutes an electrical signal output device, the transmitted electrical signal is output from the electronic device to the electrical signal connec ^¬ tor, goes via the electrical signal cut-in terminal, the electrically conductive plate and a cable clamp, and is sent out through the electrical signal output cable.

According to a further aspect of the electrical signal con ^¬ nector of the invention, there is also inclusion of:

• at least one cable clamp which is used to restrain the electrical signal cable, this cable clamp being conduc- tively connected to the electrical signal cable's outer shield layer and the electrically conductive plate; and, after being passed through this cable clamp, each lead of the electrical signal cable is inserted in a respective port of the second set of cut-in ports. This cable clamp can be a metal cable clamp.

According to a still further aspect of the electrical signal connector of the invention, the ports in the second set of cut-in ports, which are connected to leads in the electrical signal cable constitute ports which accommodate leads of the electrical signal cable, and ports which are conductively connected in the electrically conductive plate constitute ports which accommodate projection terminals of the electri ^¬ cally conductive plate.

According to another aspect of the electrical signal connec ^¬ tor of the invention, the conductive plate has two projection terminals which are respectively matched to the two outermost ports on one side of the electrical signal cut-in terminal. These projections refer to at least one outwardly extending local projection on the conductive plate. This local projec ^¬ tion may be a projection made of the same material as the conductive plate, or it may be a projection which is formed with different material on the conductive plate main body by

using an inlay, soldering or similar means normally employed in the field.

According to a further aspect of the electrical signal con- nector of the invention the first set of cut-in ports and the second set of cut-in ports are respectively provided at two side surfaces of the electrical signal cut-in terminal. They can preferably be provided on two opposite side surfaces thereof .

According to a further aspect of the electrical signal con ^¬ nector of the invention, a cable clamp can be used to effect local bundling of at least one electrical signal cable and the conductive plate together; alternatively, a cable clamp and at least one electrical signal cable can be used to ef ^¬ fect bonding together with the conductive plate.

According to a further aspect of the electrical signal con ^¬ nector of the invention, a sleeve of insulating material is used to cover, in a slidable manner, the end of the electri ^¬ cal signal cable, the conductive plate and that set of ports, in the electrical signal cut-in terminal, which is connected to the conductive plate and leads of the electrical signal cable .

According to another aspect of the invention, the conductive plate has, at one side, two projecting ports which match cor ^¬ responding ports on one side of facing electronic equipment at the back of the electrical signal cut-in terminal. Another arrangement which can be adopted is one in which the two pro ^¬ jecting ports respectively match the two outermost ports on one side of facing electronic equipment at the back of the electrical signal cut-in terminal. This arrangement can ef ^¬ fect more stable connection between the cut-in terminal and the electronic equipment.

The conductive plate can be prepared by procedure which is normally employed in the field, and, for example, it is pro-

duced by pressing a metal plate or metal piece or by casting and trimming electrically conductive metal. The projections carried by the conductive plate may be the same material as the other part of the conductive plate and be formed by a one-time forming procedure at the time of production of the conductive plate, or they may be material which is different from that of the other part of the conductive plate and be formed on this other part by means of riveting or soldering, etc .

When the electrical signal connector is connected to elec ^¬ tronic equipment, the procedure can be that, first, an exter ^¬ nal electrical signal cable is passed through the cable clamp, and then this cable is firmly bonded to one side sur- face of the conductive plate, so bringing the cable's connec ^¬ tors and the conductive plate's terminals together, and in ^¬ sertion into corresponding ports on the other side of the e- lectrical signal cut-in terminal is effected.

According to another aspect of the invention, one or two or more cable clamps can be used. A cable clamp can be used to fix an electrical signal cable and a conductive plate to ^¬ gether (eg, by locally bundling the electrical signal cable and conductive plate together by means of a ring clamp) , and it is also possible to bond the electrical signal cable and conductive plate together locally by means of screws or riv ^¬ ets .

According to a further aspect of the invention, a sleeve for which insulating material is used can be provided in a slidable manner on the cable and be used to cover the elec ^¬ trical signal cable's terminals, the conductive plate and electrical signal terminal ports which are connected to the conductive plate. For example, a sleeve which is made using an insulating manner can retractably cover the end of the e- lectrical signal cable, the conductive plate and the set of input/output ports of the electrical signal cut-in terminal which are connected to the conductive plate and leads of the

electrical signal cable, in order to reinforce the device's insulation performance and improve the stability of the de ^¬ vice operation.

The electrical signal connector of the invention uses two sets of internal electrically conductive cut-in ports, and therefore offers the advantages that there is no need to use a flexible circuit board as a conducting element, nor is there any need to provide a molded outer casing, the connec- tions are fast and reliable, and the cost is comparatively low.

IV. Description of attached drawings

Fig. 1 schematically shows an electrical signal connector of the invention fitted to a related electrical signal output device;

Fig. 2 is an overall side perspective view of the electri ^¬ cal signal connector shown in Fig. 1; Fig. 3 is an overall side perspective view from another direction of the electrical signal connector shown in Fig. 1; Fig. 4 is a disassembly drawing of the structure of the electrical signal connector shown in Fig. 1; Fig. 5 through Fig. 7 are drawings showing another example of the electrical signal connector of the invention in which

Fig. 5 schematically shows a state in which this electri ^¬ cal signal connector is set in an assembly; Fig. 6 is a disassembly drawing of the structure of this electrical signal connector; and

Fig. 7 shows the state after installation of this electrical signal connector.

V. Specific implementation scheme

Fig. 1 through Fig. 4 show one specific example of implementation of the electrical signal connector of the invention

which serves to output the signals of an electronic device to an electrical signal output cable and send them out via this cable. In these drawings, Fig. 1 schematically shows an elec ^¬ trical signal connector of the invention fitted to a related electrical signal output device, Fig. 2 is an overall side perspective view of this electrical signal connector, Fig. 3 is an overall side perspective view from another direction, and Fig. 4 is a disassembly drawing of the electrical signal connector .

In Figs. 1 through 4, reference number 1 indicates an elec ^¬ trical signal cut-in terminal, 2 indicates an electrically conductive plate, 3 indicates a cable clamp, 4 indicates an electrical signal output cable, and 6 indicates an electronic device. The electrical signal cut-in terminal 1 comprises a first cut-in terminal set Ia and a second cut-in terminal set Ib. In this example of implementation, the first cut-in terminal set Ia and the second cut-in terminal set Ib each have 6 ports. Within these, the six ports of the first cut-in ter- minal set Ia are connected to six output ports of the elec ^¬ tronic device. Within the six ports of the second cut-in ter ^¬ minal set Ib, the two outermost ports serve to accommodate two projecting terminals of the conductive plate, and the middle 4 ports serve to accommodate 4 leads of an electrical signal output cable which communicates with the exterior.

There are respective fixture heads above the 6 ports of the second cut-in terminal set Ib, and, after the projecting ter ^¬ minals of the conductive plate 2 and lead connectors have been extended into these terminals, they are fixed together with the ports by means such as screws, etc. When the screws are loosened, the projecting terminals of the conductive plate 2 and the lead connectors can be separated from the terminals . The conductive plate 2 is matched to the output ports of the above-noted electrical signal output device. In this example of implementation, the electrical signal connec ^¬ tor 1 has two cable clamps 3 (it being of course possible for the number of cable clamps to be one or three or more in other examples of implementation) . In the use state, each of

the cable clamps 3 has one surface conductively connected to a local portion of the conductive plate 2 and the other sur ^¬ face conductively connected to the outer shield layer of one electrical signal output cable 4. Each cable in a pair of electrical signal output cables 4 has two leads inside. Elec ^¬ trical signals are ultimately fed out to the exterior from these electrical signal output cables 4.

Fig. 1 shows the electrical signal connector and electronic device connection state. When it is required to replace the electrical signal connector, the procedure can be that first the electrical signal connector together with the entirety of the cables is pulled out from the electrical signal output device, the 6 upper fixture screws in the electrical signal cut-in terminal 1 are unscrewed, the conductive plate 2, ca ^¬ ble clamps 3 and electrical signal output cables 4 are disas ^¬ sembled from the electrical signal cut-in terminal 1, and the damaged electrical signal cut-in terminal 1 or conductive plate 2 or a damaged cable clamp 3 or electrical signal out- put cable 4 is removed and replaced by a corresponding new element. The procedure at the time of connector installation can be that first the electrical signal output cables 4 and conductive plate 2 are arranged in order, so bringing the 4 connectors of the electrical signal output cables 4 into po- sitional correspondence with the two connectors of the con ^¬ ductive plate and the 6 ports of the electrical signal cut-in terminal 1, and then they are securely fixed to the electri ^¬ cal signal cut-in terminal 1 by screws. After that, the con ^¬ ductive plate 2 and the electrical signal output cables 4 are fixed together by means of the cable clamps 3. Finally, going from the port on the right-hand side, the electrical signal cut-in terminal 1 is inserted in the output ports of an elec ^¬ trical signal output device, and electrical signal input or output is effected.

Fig. 5 through Fig. 7 show another example of the electrical signal connector of the invention. As shown in Fig. 5, the difference from the example shown in Figs . 1 through 4 is

that, whereas the former example of implementation used two cable clamps, each of which fixes one cable within two elec ^¬ trical signal output cables 4, this example of implementation uses only one cable clamp to fix two electrical signal output cables 4 to a conductive plate 2. As can be seen from Fig. 6, through-holes are provided in the central portion of the ca ^¬ ble clamp 3, and two electrical signal cables 4 gripped in the cable clamp 3 are fixed on the conductive plate 2 by means of a set of screws and nuts. The conductive plate it- self carries nuts in this example.

Apart from that, in this example of implementation, a sleeve 5 constituted by a layer of insulating material is used to cover the ends of the electrical signal output cables 4, the conductive plate 2 and all the ports of the electrical signal cut-in terminal 1. This layer 5 of non-conducting material can, for example, be a layer of insulating plastic. Fig. 7 schematically shows the state when the electrical signal con ^¬ nector of this example of implementation is connected to- gether with an electrical signal output device. As can be seen from Figs. 5 through 7, the layer 5 of non-conducting material goes from the direction of the electrical signal output cables 4 towards the electrical signal output device direction, and is ultimately fitted on the electrical signal connector of the invention and faces the ports of one termi ^¬ nal of the conductive plate 2. By the same logic, the layer 5 of non-conducting material can go in the opposite direction, from the installed device towards the electrical signal out ^¬ put cables 4, and be removed. As well as imparting a better reference potential and antistatic performance to the equip ^¬ ment, the sleeve 5 of insulating material also improves the appearance of the overall equipment .

What is presented by the described content of Fig. 1 through Fig. 7 is one electrical signal output connection device of the invention. In practice, it is also possible to input electrical signals by means of the same connection device, and this depends on the use to which the connection device of

the invention is put. Therefore, the electrical signal con ^¬ nection device of the invention can be widely employed in electrical signal input and output equipment.

Since the device of the invention does not use a large number of molded elements possessing a complex structure, the cost of its manufacture is comparatively low. In addition, since the device's structure is simple, it is easy to connect it rapidly to electrical signal output equipment.