RU85758U1 - ELECTRICAL CONNECTION DEVICE - Google Patents

Abstract

The utility model relates to the field of electrical engineering, more specifically, to devices for providing electrical connection of conductive elements and may find application for electrical connectors operating in chemical current sources with aggressive electrolytes, including fuel cells. According to a utility model, a device for providing an electrical connection comprises a housing of insulating material and conductive elements configured to be connected to an external circuit, a conductive element configured to move along the axis of the housing and having the shape of a cylinder with a shank mounted inside the hollow sleeve of insulating material with the possibility of movement relative to the said housing and sleeve, the bottom of which in the combined position of the conductive elements is fixed by said fi xator, while the shank of the second conductive element penetrates the bottom of the sleeve, while the second conductive element is made in the form of a rod located inside the cylinder, and two springs are installed inside the cavity of the sleeve of insulating material, one for preloading the cylinder and the other for preloading the rod, while a sealing elastic gasket is placed between the cylinder and the first conductive element, and a sealing elastic gasket is placed in the region of the shaft in the annular cavity of the cylinder. Fig. 1

Description

The utility model relates to the field of electrical engineering, more specifically, to devices for providing electrical connection of conductive elements and may find application for electrical connectors operating in chemical current sources with aggressive electrolytes, including fuel cells.

A device for providing an electrical connection is known, containing conductive elements configured to be connected to an external circuit, the first contact part having a tapered shank, and the second contact part having a tapered hole, forming a detachable conical clamp connection, for locking which the first contact -the item is equipped with a threaded tip on which the nut is screwed (see patent RU No. 2196373, publ. 2003).

The disadvantages of the known device include the lack of protective equipment for the contact surfaces from possible exposure to aggressive media and the relatively long duration of operations to ensure a reliable electrical connection of conductive elements.

A device for providing an electrical connection, comprising a housing of insulating material and conductive elements made with the possibility of connection to an external circuit (see patent RU No. 2173922, publ. 2001).

A feature of the known device is that it contains a spring-loaded carriage and an electrical connector, one reciprocal part of which is fixed in the housing, and the other is connected to the carriage, a spring-loaded spring-loaded clamp and a drive connected to the carriage and the clamp through a means of moving them. The latch is mounted with the possibility of rotation by a predetermined angle and holding the carriage in the undocked state of the connector, and the moving means is made in the form of a cam mechanism.

The disadvantages of the known device are the complexity of the means for driving and fixing structural elements, as well as the inability to use it, in particular, in chemical current sources with aggressive electrolytes due to the insecurity of the electrical connection of the conductive elements.

The closest in combination of essential features and technical result achieved is a device for providing electrical connection, comprising a housing of insulating material and conductive elements configured to be connected to an external circuit, the housing is made in the form of a cup, at the bottom of which a first conductive element is fixed, over an open a part of the glass has a latch installed, the second conductive element is arranged to move along the axis of the housing and has the form of a cylinder a sleeve installed inside the hollow sleeve of insulating material with the possibility of movement relative to the said housing and the sleeve, the bottom of which in the combined position of the conductive elements is fixed by the said retainer, while the shank of the second conductive element penetrates the bottom of the sleeve in the annular cavity between the shank and the inner surface of the sleeve cavity from insulation material placed spiral compression spring, one end of which abuts against the bottom of the insulating sleeve, and the other abuts against the protrusion part of the said cylinder, and the outer cylindrical surfaces of the hollow sleeve and the said cylinder in the region of the sleeve and the contact surface have annular recesses with elastic sealing strips placed in them to protect the connection area of the conductive elements from the penetration of aggressive media (see RU patent No. 68789, publ. 06/06/2007).

The disadvantages of this known device is the low reliability of the electrical contact.

The technical result of the utility model is to increase the reliability of the electrical contact by improving its tightness, preventing the ingress of electrolyte into the contact zone.

The specified technical result is achieved by the fact that, according to a utility model, the device for providing electrical connection comprises a housing of insulating material and conductive elements configured to be connected to an external circuit, the housing is made in the form of a cup, at the bottom of which a first conductive element is fixed, over the open part of the cup a latch is installed, the second conductive element is arranged to move along the axis of the housing and has the shape of a cylinder with a shank installed inside a hollow sleeve of insulating material with the ability to move relative to the said housing and the sleeve, the bottom of which in the combined position of the conductive elements is fixed by the said retainer, while the shank of the second conductive element penetrates the bottom of the sleeve, in the annular cavity between the shank and the inner surface of the cavity of the sleeve of insulating material there is a spiral a compression spring, one end of which abuts against the bottom of the insulating sleeve, and the other abuts against the protruding part of the said tsil the core, in this case, a hollow cylinder is placed inside the housing, inside which a cylindrical part of the second conductive element is placed, the outer surface of the hollow cylinder is partially placed in the inner cavity of the insulating sleeve, touching its inner surface, a second compression spring is installed coaxially with the spiral compression spring , one end of which abuts against the bottom of the insulating sleeve, and the second end of the spring abuts against the upper end of the hollow cylinder, between the lower end of the hollow cylinder and the first m the conductive element is placed a sealing elastic gasket, on the outer surface of the hollow cylinder in the area of the inner cavity of the insulating sleeve there is a ring groove in which the sealing elastic gasket is placed, on the inner surface of the hollow cylinder adjacent to the cylindrical part of the second conductive element, the ring groove is also made, in which housed a sealing elastic pad.

This embodiment of the device, with a minimum number of turned parts, provides a reliable, tight and relatively quick electrical connection of the conductive elements and their fixation in the indicated position due to compression springs, and the presence of elastic sealing gaskets that prevent the penetration of aggressive media into the connection zone of the conductive elements allows you to use the proposed device in chemical current sources with aggressive electrolytes, including in fuel cells.

The analysis of the prior art showed that the claimed combination of essential features set forth in the formula of the utility model is unknown. This allows us to conclude that it meets the criterion of "novelty."

The essence of the utility model is illustrated in the drawing and description of the design.

Figure 1 shows a longitudinal section of a device for providing electrical connection of conductive elements.

The device comprises a housing 1 of insulating material and conductive elements 2, 3, made with the possibility of connecting to an external circuit (not shown). The housing 1 is made in the form of a glass, on the protrusions of the inner surface of which a first conductive element 2 is fixed. A clamp 4 is mounted on top of the open part of the glass 1, the second conductive element 3 is movable along the axis of the housing 1 and has the shape of a cylinder with a shank 5 installed inside the hollow bushings 6 made of insulating material with the possibility of movement relative to the said housing 1 and sleeve 6. the bottom of which in the combined position of the conductive elements 2 and 3 is fixed by said latch 4.

The shank 5 of the second conductive element 3 penetrates the bottom of the sleeve 6, while in the annular cavity of the sleeve 6 between the protruding part 7 of the conductive element 3 and said sleeve 6 is placed a spiral spring 8 of compression. The conductive element 3 is placed in the inner cavity of the sleeve 9, which, in turn, is placed in the annular cavity of the sleeve 6. The outer and inner cylindrical surfaces of the sleeve 9 have annular grooves with elastic sealing strips 10 and 11 placed therein, to protect the connection area of said conductive elements from the penetration of an aggressive environment, and to protect the contact point between the sleeve 9 and the conductive element 2, an elastic gasket 12 is placed, fixed in annular grooves on the conductive lemente 3 or 9 and the sleeve between the sleeve 6 and the cylinder 9 is located a spring 13. Pos. 14, the contact element of the external circuit for electrical connection with the shank 5 of the second conductive element 3 is indicated, and pos. 15 is the spring for pressing the contact element 14 to the shank 5, pos. 16 is a gasket for sealing the connection of the housing 1 and sleeve 6

The design of the proposed device for providing an electrical connection of conductive elements was tested under operating conditions when switching current circuits associated with electrodes of air - aluminum fuel cells with an alkaline electrolyte having a typical voltage of 1.2 V and a current strength of 60 A. The surface area of the electrical contact between them amounted to 46 mm ² , and the clamping force of parts 2, 3 to each other reached 20 N.

The housing 1 and the sleeve 6 of the device are made of any solid, durable plastic, resistant to aggressive environments. The latch 4 and the contact element 14 of the external circuit for electrical connection with the shank 5 are made of chemically resistant metal. The material of the part of the second conductive element 3 is also a chemically resistant material, and the material of the first conductive element 2 is an aluminum alloy of the anode of the fuel element. The sealing gaskets 10, 11 are made of standard round rubber, and the elastic sealing gasket 12 is made of elastic acid and alkali-resistant rubber. The thickness of the strip 12 before compression was 1 mm, and after connecting parts 2, 3-0.8 mm.

A device for providing electrical connection of conductive elements for switching current circuits of fuel cells works as follows.

The conductive element 2, electrically connected to the anode of the fuel element (not shown), is fixedly mounted on the protrusions of the inner surface of the bottom of the housing 1. The assembly of the conductive element 3 is as follows. A spring 8 is put on the shank 5 of the conductive element 3, rubber gaskets 10 and 11 are inserted into the annular grooves of the cylinder 9, then a spring 13 and the sleeve 9 are inserted into the recess of the sleeve 6 and then a gasket 12 is put on part 3 and inserted into the bottom of the sleeve 6 to provide electrical connection to the contact element 14, which is electrically connected to an external wire of an electrical circuit (not shown). After that, a rubber gasket 16 is installed on the outer surface of the sleeve 6 and the assembly of the conductive element 3 is inserted into the cavity of the housing 1 until the sleeve 6 is installed in the protrusions of the retainer 4. When assembling and setting up the device, the free movement of the conductive element 3 and cylinder 9 in the cavity is checked bushings 6 under the action of springs 8 and 13 and the tightness of the flat surfaces of parts 2, 3. In the state of electrical connection of these parts, the retainer 4 must securely hold the sleeve 6 in the housing 1 Tightness of the internal cavity and the housing 1 is ensured by the sealing gaskets 10 and 11. The indicated state of the device corresponds to the electrical connection of the conductive elements 2, 3, while the spring 8 is in a compressed position and creates a pressing force of the contact surface of the part 3 on the contact surface of the part 2 and the spring 13 creates a pressing force on the gasket 12 ensuring the tightness of the electrical contact between the conductive elements. In the process of convergence of parts 2, 3, the elastic sealing strip 12 is deformed by the cylinder 9 along the perimeter of the surface of the electrical contact between them, blocking access to the surrounding aggressive environment in the area of the electrical connection. The force of the spring 8 provides the necessary pressing force for contacting the contacting surfaces of the parts 2, 3, and the spring 13 - the deformation of the elastic strip 12. Thus, the proposed technical solution provides a reliable electrical connection of the contacting surfaces of the conductive elements while there are no electrochemical and erosion surfaces -oxidative processes.

Prototypes of the proposed device for providing electrical connections were manufactured and successfully tested under operating conditions when switching operating currents in chains of aluminum - air fuel cells with alkaline electrolyte.

Claims (1)

A device for providing an electrical connection comprising a housing of insulating material and conductive elements configured to be connected to an external circuit, the housing is made in the form of a cup, at the bottom of which a first conductive element is fixed, a latch is mounted on top of the open part of the cup, the second conductive element is configured to displacement along the axis of the body and has the shape of a cylinder with a shank installed inside a hollow sleeve of insulating material with the possibility of relocation but the said housing and sleeve, the bottom of which in the combined position of the conductive elements is fixed by the said retainer, while the shank of the second conductive element penetrates the bottom of the sleeve, a spiral compression spring is placed in the annular cavity between the shaft and the inner surface of the sleeve cavity of the insulating material, one end of which abuts against the bottom of the insulating sleeve, and the other abuts against the protruding part of the said cylinder, characterized in that a hollow cylinder is placed inside the housing, inside the cat The cylindrical part of the second conductive element is placed, the outer surface of the hollow cylinder is partially placed in the inner cavity of the insulating sleeve, touching its inner surface, a second compression spring is installed coaxially with the spiral compression spring in the specified cavity of the sleeve, one end of which abuts against the bottom of the insulating sleeve, and the second the end of the spring abuts against the upper end of the hollow cylinder, between the lower end of the hollow cylinder and the first conductive element a sealing elastic I am a gasket, an annular undercut is made on the outer surface of the hollow cylinder in the zone of the inner cavity of the insulating sleeve, in which a sealing elastic gasket is placed, on the inner surface of the hollow cylinder adjacent to the cylindrical part of the second conductive element, an annular groove is also made in which the sealing elastic gasket .