BR102014031771A2 - multifunctional hydraulic tool - Google Patents

Abstract

multifunctional hydraulic tool, the present invention is described as a multifunctional hydraulic tool which, according to its general characteristics, has as its basic principle the formation of a hydraulic tool (2) in its own specific structure and powered by the multifunctional type. battery powered and based on a hydraulic drive base tool that can be coupled to a wedge connector fitting (7) and to a cable gland and terminal fitting (8) to provide extremely practical, safe and It requires a complete optimization of all these procedures for the handling of cables by the electrical distribution networks by the technicians, combined with the complete ergonomics and elimination of the technicians exposure during these routine procedures and, based on a hydraulic tool (2). With great strength, safety and versatility easily and adaptable to a wide range of cables, conductors, power grids, local and technical.

Description

"MULTIFUNCTIONAL HYDRAULIC TOOL" 001 This invention relates to devices for power distribution networks in general, more specifically to a multifunctional hydraulic tool which, according to its general characteristics, has as its basic principle to provide training. a self-contained, multi-function battery-powered hydraulic tool based on a hydraulic drive base tool that can be coupled to a specific accessory for wedge-type connectors and a specific accessory for making cable cuts and application of terminal press terminals, in order to make it extremely practical, safe and accurate to fully optimize all these procedures for the handling of cables by the power grids by the technicians, together with the complete ergonomics and elimination of exposure of the technicians. during these routine procedures and based on a hydraulic tool with great strength, safety and versatility. Specifically designed and easily accessible for better user adaptability and safety, practicality of handling and functionality, very affordable and, due to their general characteristics and dimensions, easily adaptable to a wide range of cables, conductors, wedge type connectors, terminal press terminals, power distribution networks, local and general technicians, regardless of their characteristics. 002 Currently, maintenance in electricity distribution networks can be performed in medium or low voltage networks, having the power grid, live line maintenance, or the de-energized network, the most recommended procedure, since all activities involving maintenance in the sector. should prioritize the work with de-energized circuits, being considered de-energized the electrical installations released for this type of service through the appropriate protocols. Noting that, even with the network de-energized, appropriate safety procedures and measures should be followed and established by rules or recommendations, as well as for each of the situations described, specific procedures, methodologies and tools are required. Until a few years ago, maintenance with disconnected networks was considered safe work by electricians, but with the increase in the number of circuits and the greater complexity of the distribution networks, as well as incidents and fatal accidents, only their disconnection was no longer provide sufficient safety, mainly because of the risk of accidental energization. 004 According to the Regulating Standard 1 - NR-18, when it is not possible to disconnect the electrical circuit, work performed on live line, the service can only be performed after the complementary protective measures have been adopted, and the use of appropriate tools is mandatory. and personal protective equipment determined in Regulatory Standard NR-10 and suitable for each voltage range, in addition to the adoption of procedures and methodologies that ensure the safety of workers. 005 The electric power system is basically composed of three large systems: generation, transmission and distribution of electric power, and to make electrical connections or derivations in wires and cables of transmission and distribution of medium and low voltage the electric utilities. electric power use in grid part of the work wedge type connectors. However, one of the major problems with maintaining these power grids relates to these electrical connections between cables normally made through wedge-type connectors. According to data, about twenty percent of maintenance calls answer connection problems from this type of connector. Currently the market offers several types of wedge connectors that are properly approved in standardized tests and approved in receiving tests. Thus at a minimum it can be assumed that the connectors within the statistical error of production (something close to five percent) are in perfect condition for the intended use of the product. 007 Problems found in connections in the electricity distribution network, therefore, may be associated with the following factors: use of non-calibrated tools; misuse of gunpowder cartridges; incorrect application of the connector, which may involve the cable diameter factor; use of other forms of connector application without proper testing; overheating of electrical connections due to poor installation of these connectors in the line; sediment accumulation; fatigue; natural wear; severe operating conditions; and the increasing increase in electricity consumption that causes equipment overload. Of course, other problems with connector application may be associated with the large number of defects encountered by maintenance personnel. To reduce or prevent power outages, preventive maintenance is required to identify this type of failure. However, the degradation rate of field power connectors cannot be accurately determined, which makes scheduling maintenance time difficult. 009 Currently, thermal vision equipment is used to monitor the appearance of hot spots on physical contacts, since the vast majority of electrical system failures are accompanied or preceded by thermal phenomena, however, although the application of thermovision is not invasive, It has deficiencies related to the accuracy of temperature measurement - thermal imagers do not measure temperature directly but radiation. Such thermal effects occur with the evolution of corrosion or bad contact processes that increase the electrical resistance of the connection material, dissipating energy by Joule effect. However, besides this monitoring presenting uncertainties due to the different thermal emissivity characteristics of the materials used in the connections and environmental conditions, it has a high cost. For such an event to occur, the contact between the surfaces of the metals involved in the connection must be perfect. 010 Wedge connectors are used in electrical connections involving aluminum and copper wires and cables, and according to the connector material it is possible to make connections compatible with the following combinations: aluminum-aluminum, aluminum-copper and copper-copper. The selection of connector size depends primarily on the cable type and conductor diameters, as well as the purpose of the connection (branch or branch). 011 Commercially available wedge-type connector application tools use blast cartridges for wedge-to-connector application, or some newly developed commercially available tools use a battery screwdriver or ratchet wrench, but these applicators are limited. to their specific connectors. 012 More specifically, the installation of the wedge connectors is performed by tools suitable for the application, and for tinned copper wedge connectors, the application is made by means of water pump pliers, already in the aluminum connections. or copper, impact tools are used, the detonating force of which is obtained from explosive charge cartridges. Depending on the specific tool, these cartridges can be of internal or external fuse, plastic or metallic. 013 It is noteworthy that defects resulting from improper installation of electrical connections, either due to improper use of tools or incorrect choice of detonation cartridge, which is specific and appropriate for each type of connector, reflect the increase in losses in the electrical system. Since such conducts result in constant interruptions in the supply of electricity and, consequently, consumer dissatisfaction. 014 In this line of action, it has become indispensable for companies that handle cables near the electric power networks, primarily the application of wedge-type connectors and terminal-type terminals, as well as making cable cuts in general, the structuring of a versatile, practical, safe and precise tool capable of optimizing the execution of this set of handling procedures directly by the electric utility technicians and their service providers along the power network cables. 015 In a broad analysis of the literature in order to establish the state of the art in relation to tools for cable handling in general power networks, primarily tools for the application of wedge-type connectors and terminal-type terminals and the realization of cable cutting, object of the present patent, no prior art-relevant documents relating to the specific object claimed in this patent have been described, that is, a battery-powered multifunctional hydraulic tool coupled to a specific attachment for wedge-type connectors or a specific accessory for cable cutting and terminal clamping - three tools in one. 016 However, it is worth mentioning only as an alignment parameter that other types of tools are currently available on the market such as the hydraulic, electric or battery driven pump, as well as the cable cutting and terminal crimping tools that are adapted to trucks or hand or electric hydraulic pumps, ie without any similarity to the design of the present hydraulic tool. 017 Thus, the general design of the present multifunctional hydraulic tool, object of the present patent, is totally based on its simple and robust structure with a minimum necessary components and extremely simplified, safe and optimized operability, combined with the very manufacture and maintenance procedures. practical and efficient hydraulic tool of the multifunctional type in the sense that by means of the same drive system - hydraulically controlled by electric force, make application of wedge type connectors, cable cutting and termination type press by electric utility technicians at low and medium voltage or underground power distribution networks, with the accessories operating at the same pressure and the pump providing the required pressure. 018 The hydraulic tool through its hydraulic actuation by means of fluid flow driven by electrical system applies the wedge to the connector in constant and uniform movement, ensuring the correct application of the same until the observer verifies that the connection was well. performed, unlike commercial products available, which automatically terminate the application of the connector, even if not perfect. In addition to enabling the application of wedge connectors without the need for gunpowder cartridges widely used in other commercial tools, resulting in cost savings and greater safety of electricians. 019 The cutting accessory cuts cables and conductors without the use of manual and hydraulic cutting pliers, as well as making it possible to apply the compression terminal attachment, eliminating the use of the hand hydraulic tool. These equipments, besides being more efficient, may reduce the time of accomplishment of these tasks, as well as will require less physical effort by the electricians. 020 The patent in question is characterized by bringing together components and processes in a different design, which will meet the various requirements that the nature of the use demands, ie optimized application of wedge-type connectors and terminal press terminals, as well as realization of cable cuts. This design guarantees a high efficiency hydraulic tool, functionality, resistance, durability, safety, versatility, precision, stability and ergonomics due to the excellent aggregate technical qualities, which offers advantages and improvements in the conductor cable handling near the power grids. by the technicians in general and whose general characteristics differ from other forms and models known by the current state of the art. 021 The present patent consists of the use of a modern, efficient, safe and functional multifunctional hydraulic tool formed by a set of correctly incorporated mechanical and electrical solutions, composing a complete and differentiated hydraulic tool with unique design, fine finishing details, beautiful aesthetic appearance. and its own characteristics, which incorporate its own specific and specific battery-powered multifunctional structure, of high durability and strength and containing perfectly integrated and symmetrically arranged one tool as a hydraulic drive element of the accessories, a wedge connector accessory as a application of wedge-type connectors to the cables, and an accessory for cable cutting and terminal-type terminals as a cable cutting element and application of terminal-type terminals to the cable to enable the formation of a single complete setand secure, whose internal and external shapes and arrangements allow for perfect adaptation to a wide range of wedge-type connectors, cables and terminal-press terminals in general and are specially designed for these purposes. More specifically, the hydraulic tool consists basically of a hydraulic tool as a structuring, holding and driving element of the assembly as a whole, being the support for the technician's hand; a rechargeable battery as a power supply for the drive mechanism; a drive mechanism as actuating element of the hydraulic pump of the hydraulic mechanism; a hydraulic mechanism for driving the headstock; a head as a drive element for the accessories; and two accessories - wedge connector accessory and cable cutter accessory and terminal press type terminal as a direct acting element on the conductor cables, as well as the wedge connectors and the terminal press type terminals. 023 The present hydraulic tool is based on the application of components and processes in a different design, without, however, achieving a high degree of sophistication and complexity, making it possible to solve some of the main drawbacks of other shapes and models widely known by the current state. technique and employed in the manual execution of the application procedures of wedge-type connectors and terminal press-type terminals, as well as cable cuts along the power distribution networks, which are in a working range in which the difficulties of use and application, low efficiency and performance and accidents are very frequent and the shapes and / or models are either based on simple adaptations, thus being of high insecurity, great deterioration and fragility, low durability and resistance, low versatility, high inaccuracy, laborious application, high losses, low yield The performance is either negligible or very large in performance, being of very high cost, high overall volume and weight, little flexibility, complex handling, high maintenance, great waste of time, high losses and complex manufacturing. 024 The objectives, advantages and other important features of the patent may be more readily understood when read in conjunction with the accompanying figures, in which: 025 Figure 1A is a rear perspective view of the multifunctional power tool with the cutting attachment. cable and terminal type terminal press. 026 Figure 1B is a front perspective view of the multifunctional power tool with cable cutter and terminal press type attachment. 027 Figure 1C is a side view of the multifunctional power tool with cable cutter and terminal press type attachment. 028 Figure 1D is a top view of the multifunctional power tool with cable cutter and terminal press type attachment. 029 Figure 1E is a front view of the multifunctional power tool with cable cutter and terminal press type fitting. 030 Figure 2A is a rear perspective view of the multifunction hydraulic tool with the wedge connector attachment. 031 Figure 2B is a front perspective view of the multifunction hydraulic tool with the wedge connector attachment. 032 Figure 2C is a side view of the multifunction hydraulic tool with the wedge connector attachment. 033 Figure 2D is a top view of the multifunction hydraulic tool with the wedge connector attachment. 034 Figure 2E is a front view of the multifunction hydraulic tool with the wedge connector attachment. 035 Figure 3A is a perspective view of the multifunctional hydraulic tool with the tool and the drive and hydraulic mechanisms. 036 Figure 3B is a front perspective view of the drive and hydraulic mechanisms of the multifunction hydraulic tool. 037 Figure 3C is a rear perspective view of the drive and hydraulic mechanisms of the multifunction hydraulic tool. 038 Figure 3D is a side view of the drive and hydraulic mechanisms of the multifunction hydraulic tool. 039 Figure 3E is a bottom view of the drive and hydraulic mechanisms of the multifunction hydraulic tool. 040 Figure 3F is an exploded perspective view of the multi-function hydraulic tool drive mechanism. 041 Figure 3G is an exploded perspective view of the hydraulic mechanism of the multifunction hydraulic tool. 042 Figure 4A is an exploded side view of the multifunctional hydraulic tool as a cable cutter and terminal press type fitting. 043 Figure 4B is a perspective view of the cable cutter and terminal press fitting accessory of the multifunctional power tool with detail of the cable gland nut. 044 Figure 4C is a perspective view of the cable cutting attachment and terminal press terminal of the multifunctional power tool with detail of the cable cutting nut. 045 Figure 4D is an exploded perspective view of the multifunctional hydraulic tool with wedge connector attachment. 046 Figure 4E is a perspective view of the wedge connector attachment of the multifunction hydraulic tool. 047 Figure 4F is a perspective view of the wedge connector attachment of the multifunction hydraulic tool. 048 Figure 4G is an exploded perspective view of the multifunctional hydraulic tool with cable cutter attachment and end press terminal]. 049 Figure 4H is a perspective view of the cable cutting attachment and terminal press terminal of the multifunctional power tool. 050 Fig. 41 is a side view of the cable cutter and terminal press attachment of the multifunction hydraulic tool. 051 Figure 5A is a perspective view of the multifunctional hydraulic tool with cable cutting attachment and terminal press type demonstrating its application in cable cutting. 052 Figure 5B is a perspective view of the multifunctional hydraulic tool with cable cutting attachment and terminal press type demonstrating its application to the terminal press. 053 Figure 5C is a perspective view of the multifunctional hydraulic tool with wedge connector attachment demonstrating its application in the wedge connector attachment. 054 As shown in the accompanying figures illustrating and incorporating the present descriptive report of the "Multifunctional Hydraulic Tool" patent, Figure (1A) is presented therein generally comprised of a hydraulic tool (1). with its own characteristics, incorporating a battery-powered multifunctional structure, internal and external shapes and fittings that fit a wide range of wedge-type connectors, cables and terminal blocks in general, and containing integrated and symmetrically arranged an inverted "L" -like tool (2), vertically and symmetrically arranged along the bottom and rear of the power tool, and having a generally parallelepipedal and vertically symmetrically centered coupling (2A) the lower end of the tool (2), and a generally cylindrical shaped receptacle (2B) horizontally etrically along the entire length of the upper part of the tool (2); a rechargeable battery (3) of general parallelepipedal shape and arranged vertically, parallel and symmetrically fitted under the coupling (2A) and interconnected with the drive mechanism (4); a generally cylindrically shaped drive mechanism (4) disposed horizontally and symmetrically centered along the underside of the receptacle (2B) and having a generally cylindrically shaped geared motor (4A) disposed horizontally and symmetrically along the rear of the mechanism (4), a vertical-shaped, annularly-shaped, annular-shaped bearing (4B) perpendicularly and symmetrically around the front end of the geared motor (4A), a cylindrical-shaped eccentric (4C) CNJ arranged vertically and symmetrically on the inside of the bearing (4B), a vertical circularly shaped cap (4D) arranged vertically, parallel and symmetrically to the full length of the front face of the bearing (4B), and a ring (4E) of an upright general arrangement and symmetrically centered on the eccentric CNJ (4C); a cylindrical general-shaped hydraulic mechanism (5) arranged horizontally and symmetrically along the entire length of the top of the receptacle and parallel to the drive mechanism (4) and having a general-shaped oil cap (5A) reservoir cylindrical and horizontally and symmetrically disposed along the rear of the hydraulic mechanism (5), a generally cylindrical hollow tapered body (5B) tapped at the front end and horizontally and symmetrically aligned at the front end of the oil cap (5) A), pump shaft with piston (5C) of general cylindrical shape and arranged vertically and symmetrically through the super-posterior face of the body (5B), relief valve with piston (5D) of general shape and arranged horizontally and symmetrically through the lateral face of the body (5B), piston end stop (5E) of general cylindrical shape and arranged vertically and symmetrically centered inside the body (5B), set of annular general-shaped sealing rings (5F) arranged vertically, parallel and symmetrically to the front end of the piston stroke (5E) and inside the body (5B), and a piston piston (5G) of general cylindrical shape and arranged vertically, parallel and symmetrically on the front face of the sealing rings (5F) and fitted within the body (5B); a horizontally and symmetrically centered conical shaped head (6) aligned at the front end of the hydraulic mechanism (5) and having a set of ring shapes (6A) of annular general shape and arranged vertically, parallel and symmetrically on the face piston piston (5G), a general-shaped end-press piston (6B) similar to a "T" lying in circular cross-section and arranged horizontally and symmetrically at the front end of the piston piston (5G), piston rod of the horizontally disposed circular shaped general-purpose terminal press (6C) horizontally and symmetrically disposed in the end-press piston (6B), a generally helically shaped, horizontally and symmetrically arranged piston spring (6D) around the piston rod end press piston (6C), and a trunnion shaped headstock sleeve (6E) that is horizontally and symmetrically arranged around the piston spring (6D), whereby the head (6) through the formed hydraulic pump and its pistons drives the terminal press piston (6B) from the gearmotor (4A); a wedge connector (7) of general parallelepipedal shape, arranged horizontally and symmetrically centered and aligned at the front end of the head (6) and having a parallelepipedal shape and cutout (7A) arranged vertically and symmetrically centered on the top of the connector accessory wedge (7), a generally cylindrical shaped (7B) hollow (7B) arranged vertically and symmetrically centered and through the rear face of the cable cutter and terminal press-type fitting (8); a set of generally curvilinear and symmetrically disposed protrusions (7C) overlapping the front face of the cutout (7A), and a horizontally and symmetrically arranged rectangular plane (7D) over the full length of the face inferring from the cutout (7A); a horizontally and symmetrically centered, horizontally arranged, horizontally terminated, end-press terminal-type (8) cable cutter and end fitting having a parallelepipedal, vertically and symmetrically centered, general-purpose cutout (8A) on the upper part of the cable gland and end-fitting terminal (8), a cylindrical general-shaped, vertical and symmetrically centered hollow (8B) disposed through the rear face of the cable gland and end-fitting (8) , a horizontally symmetrically disposed cylindrical general-purpose collet holder (8C) piston running through the hollow (8B), a general-shaped head adaptation sleeve (8D) similar to a flat "T" and cross section! circular and horizontally arranged symmetrically seated in the hollow (8B), a general-shaped helical collet holder return spring (8E) horizontally and symmetrically arranged around the caliper holder piston (8C), and a caliper holder (8F) of parallelepipedal general shape and vertical arrangement, perpendicular and symmetrically centered at the anterior end of the clip holder (8C) and parallel to the rear face of the cutout (8A); pairs of semicircular cut-out chestnuts (9) of general semicircular shape and arranged vertically, parallel and symmetrically aligned with each other and the front and rear ends of the cut-out (8A) of the cable cutter and end-press termination (8); and pairs of semicircular general-shaped end-press nut-type nuts (10) arranged vertically, parallel and symmetrically aligned with each other and the front and rear ends of the cut-out (8A) of the cable-cutting accessory and end-nut (8). 055 The hydraulic tool has its operation based on the perfect fit through the conductor cable through the wedge connector accessory (7) or the cable cutting accessory and terminal press terminals (8), as shown in figures (5A), ( 5B) and (5C) attached. All procedures are performed manually by the technicians at low and medium voltage, as well as underground power grids. When using the accessory cable cutter and terminal press type terminals (8) the pairs of cut type nut (9) or terminal press type 10 (10) fit directly according to the type of procedure to be performed. 056 It should be noted that the mechanical and electrical tests performed showed the excellent performance of this hydraulic tool (1) with important advantages over commercial tools widely known by the current state of the art, primarily because it does not require a cartridge to perform the applications. of wedge-type connectors and terminal-fastened terminals and for bringing together in one tool three procedures - application of wedge connector and terminal press and cable cutting, along with the cables that are routinely performed by the technicians responsible for the maintenance of the electric power networks in general.

Specifically, the standard electrical tests performed on the wedge type connectors applied with the developed tool showed one hundred percent efficiency. 057 The wedge connector accessory (7) has the following specific advantages: high mechanical strength when applying the connectors to the conductor cables; Applicable to all types of wedge type connectors; meets the technical specifications for the conductor cables; uses low number of accessories; meets all the demands of the products currently available in the market; and covers all dimensions of pressure connections most commonly used by electric utilities and their service providers. 058 The cable cutting accessory and terminal press terminal (8) has the following specific advantages: it meets the mechanical characteristics of cable cutting; widest possible range of conductor cables to be cut; meets the specifications of the conductor cables and terminal press type terminals; application of hydraulic pressure connections; meets the mechanical characteristics related to the pressing of the connectors; and has large arrays for various terminal press type terminals. 059 The hydraulic pump of the hydraulic mechanism (5) has the following specific advantages: the oil used is of the insulating type as well as the hose materials so that no electrical potential is transferred to the hydraulic pump during live line activities; use of maximum required pressure; universality of connection with accessories; and electric and manual type drive. 060 The multifunctional hydraulic tool, having its components fully integrated with each other, assembles and disassembles quickly, nothing detaches and nothing to break or bend, achieves a high rate of performance and efficiency, combined with high durability and absolute safety. Once fully integrated with each other and the wedge-type connectors, terminal-press terminals, and cables, the components become clamped and cohesive, thus preventing them from coming loose when in use, making the assembly fully available for connector-type application procedures. wedge and terminals, as well as cable cutting. Thus, the hydraulic tool (1) can be used without any concern whatsoever, especially regarding the durability and safety of its components, as well as the safety of electric utility technicians in general. 061 For all of the above, it is a hydraulic tool that will be well received by electric utility technicians and the like in general, because the multifunctional hydraulic tool has many advantages, such as: great safety, reliability and agility in the application; great performance and performance in its application due to its general conception; high comfort, convenience and safety to users; very high strength and overall durability, coupled with low or no overall wear and tear; fully affordable costs for optimum value for money; practical and safe use by any utility technician; wide range; very low and practical general maintenance; perfect and direct adaptation to the most diverse types of wedge-type connectors, terminal press terminals and cables; high operational accuracy; great mobility and flexibility of the assembly; high operational ergonomics; based on the concept of multifunctionality; It has universal connections for the use of a single hydraulic pump for the accessories. has universal appearance - applied to all types of conductors, bare cables, connectors, connections and shielded cables; lower mass and volume; ease of exchange of accessories; single pressure for the operation of all accessories; insulated hydraulic hoses; and the certainty of having a hydraulic tool that fully complies with current laws and regulations and the basic conditions necessary for their application. 062 All these attributes make it possible to classify the multifunctional hydraulic tool as a totally versatile, efficient, practical and safe means for the manual execution of the application procedures of the most diverse types of wedge type connectors and terminal press terminals, as well as the realization of the most various types of cable cuts, together with the most diverse types of electricity distribution networks, in the most diverse types of places and by a wide range of electric utility technicians, regardless of the general characteristics that they may present, being also easy to apply and handle, combined with great performance and excellent general characteristics; however measurements, dimensions and quantities may vary according to the needs of each application.

CLAIM

Claims (1)

1.) "MULTIFUNCTIONAL HYDRAULIC TOOL", characterized in that it is comprised of a hydraulic tool (1) incorporating a multifunctional structure and containing integrated and symmetrically disposed together a tool (2) of a general shape similar to an inverted "L", arranged vertically. and symmetrically along the bottom and rear of the power tool and having a parallelepipedal general-shaped coupling (2A) arranged vertically and symmetrically centered at the bottom end of the tool (2), and a cylindrical general-shaped receptacle (2B) and arranged horizontally and symmetrically along the entire length of the upper part of the tool (2): a rechargeable battery (3) of general parallelepipedal shape and arranged vertically, parallel and symmetrically fitted under the coupling (2A) and interconnected with the drive mechanism (4) a generally cylindrical horizontally symmetrically centered drive mechanism (4) the lower part of the receptacle (2B) and having a cylindrical general-shaped geared motor (4A) horizontally and symmetrically disposed along the rear of the drive mechanism (4), a vertical annular shaped general-purpose bearing (4B), perpendicularly and symmetrically around the front end of the gearmotor (4A), a cylindrical general-shaped eccentric (4C) CNJ arranged vertically and symmetrically within the bearing (4B), a generally circularly arranged vertical-shaped cap (4D) , parallel and symmetrically the full length of the front face of the bearing (4B), and a ring (4E) of general annular shape and arranged vertically and symmetrically centered on the CNJ of the cam (4C); a cylindrical general-shaped hydraulic mechanism (5) arranged horizontally and symmetrically along the entire length of the top of the receptacle and parallel to the drive mechanism (4) and having a general-shaped oil cap (5A) reservoir cylindrical and symmetrically and horizontally disposed along the rear of the hydraulic mechanism (5), a generally cylindrical hollow tapped body (5B) with a threaded end and horizontally and symmetrically aligned at the front end of the oil cap (5A) ), pump shaft with plunger (5C) of general cylindrical shape and arranged vertically and symmetrically across the super-posterior face of the body (5B), relief valve with plunger (5D) of generally cylindrical shape and arranged horizontally and symmetrically across the lateral body face (5B), piston end-of-stroke (5E) of general cylindrical shape and arranged vertically and symmetrically centered inside the body (5B), set of annular general-shaped sealing rings (5F) arranged vertically, parallel and symmetrically to the front end of the piston stroke (5E) and inside the body (5B), and a piston piston (5G) of general cylindrical shape and arranged vertically, parallel and symmetrically on the front face of the sealing rings (5F) and fitted within the body (5B); a horizontally and symmetrically centered conical shaped head (6) aligned at the front end of the hydraulic mechanism (5) and having a set of ring shapes (6A) of annular general shape and arranged vertically, parallel and symmetrically on the face piston piston (5G), a general-shaped end-press piston (6B) similar to a "T" lying in circular cross-section and arranged horizontally and symmetrically at the front end of the piston piston (5G), piston rod of the horizontally disposed circular shaped general-purpose terminal press (6C) horizontally and symmetrically disposed in the end-press piston (6B), a generally helically shaped, horizontally and symmetrically arranged piston spring (6D) around the piston rod end press piston (6C), and a head-tapered sleeve (6E) of a generally frusto-conical shape arranged horizontally and symmetrically around the piston spring (6D); a wedge connector (7) of general parallelepipedal shape, arranged horizontally and symmetrically centered and aligned at the front end of the head (6) and having a parallelepipedal shape and cutout (7A) arranged vertically and symmetrically centered on the top of the connector accessory wedge (7), a generally cylindrically shaped, vertically and symmetrically centered hollow (7B) disposed through the rear face of the cable cutter and end-press terminal (8), a set of curvilinearly shaped overhangs (7C) and arranged vertically and symmetrically overlapped on the front face of the cutout (7A), and a plan (7D) of general rectangular shape and arranged horizontally and symmetrically over the full length of the inferred face of the cutout (7A); a horizontally and symmetrically centered, horizontally arranged, horizontally terminated, end-press terminal-type (8) cable cutter and end fitting having a parallelepipedal, vertically and symmetrically centered, general-purpose cutout (8A) on the upper part of the cable gland and end-fitting terminal (8), a cylindrical general-shaped, vertical and symmetrically centered hollow (8B) disposed through the rear face of the cable gland and end-fitting (8) , a horizontally symmetrically disposed cylindrical general-purpose collet holder piston (8C) running through the hollow (8B), a generally shaped head adaptation sleeve (8D) similar to a flat "T" and circular cross-section and arranged horizontally and symmetrically seated in the hollow (8B), a coil support spring (8E) of general helical shape and horizontally and symmetrically arranged around the caliper bracket piston (8C), and a generally parallelepipedal and vertical shaped caliper bracket (8F) perpendicular and symmetrically centered at the front end of the caliper bracket (8C) and parallel to the rear face of the cutout ( 8A); pairs of semicircular cut-out chestnuts (9) of general semicircular shape and arranged vertically, parallel and symmetrically aligned with each other and the front and rear ends of the cut-out (8A) of the cable-cutter and end-fitting terminal (8); and pairs of semicircular general-shaped end-press nut (10) of vertical shape, arranged parallel and symmetrically aligned with each other and the front and rear ends of the cut-out (8A) of the end-press cable-end fitting (8).