Pair-twisted hyperbola adjustable split slot jack
Technical Field
The utility model relates to the technical field of electric connectors, in particular to a twisted pair hyperbola adjustable split groove jack.
Background
The split slot jack is mainly applied to an electric connector, is an important part in the electric connector, and directly affects the performance and the reliability of the electric connector. The slot-splitting jack contact body is generally made of metal materials with good conductivity and good elasticity, such as beryllium bronze, and the like, and is formed into slots after machining, then is subjected to closing-in shaping, and finally is subjected to gold plating treatment, and jack diameters of different models and sizes are required for different electric elements so as to reduce the heating value in the passing process.
At present, in the prior art, the utility model patent with the bulletin number of CN218569282U discloses a technical scheme of a split groove type jack terminal, when a jack and an adaptive male pin terminal are inserted, the adaptive male pin terminal pushes against the inner side surface of an elastic contact piece to enable the elastic contact piece to expand outwards along the radial direction, the elastic contact piece generates elastic deformation, the contact area with the male pin terminal can be increased, the stability of the elastic contact piece can be ensured after the elastic contact piece is inserted and pulled out for many times, the problem that the jack is enlarged due to fatigue deformation of the elastic contact piece is effectively avoided, but the elastic contact piece cannot be adjusted adaptively according to the diameters of different male pin terminals.
Disclosure of Invention
In order to overcome the defects in the prior art, the utility model provides the following technical scheme: the utility model provides an adjustable groove jack of splitting of twisted hyperbola, includes the bottom mount pad, fixed mounting has the bottom seal frame on the bottom mount pad, fixed mounting has the top seal frame on the bottom seal frame, and the junction fixed mounting of top seal frame and bottom seal frame has the mid-mounting seat, and fixed mounting has at least one conductive part on the mid-mounting seat, conductive part includes a section of thick bamboo post, and the equal fixed mounting in both ends of section of thick bamboo post inner wall has the tip backup ring, and fixed mounting has the support slide bar between two tip backup rings, and the equal slidable mounting slide support ring in both ends of support slide bar, and the middle part fixed mounting of support slide bar has the mid-support ring, and fixed mounting is provided with two conductive spiral fixed rings between mid-support ring and the two slide support rings, and fixed mounting has the elastic conductive spiral silk of at least 36 spiral arrangements between two conductive spiral fixed rings, and leaves the gap that can move about between two adjacent elastic conductive spiral silk, the spout has been seted up to the symmetry on the section of thick bamboo post, dodge the spout and slide is provided with the sliding pin piece, the fixed mounting has the fixed mounting of mid-support ring between two guide rings and two guide rings through two fixed rings and the fixed support rings of fixed support rings, and two guide pin sets up through the fixed support ring of fixed support ring, and two guide pin's fixed support rings.
Preferably, two symmetrically arranged top sliding grooves are formed in the top sealing frame, and two symmetrically arranged bottom sliding grooves are formed in the bottom sealing frame.
Preferably, the two sides of mid-mounting seat all are provided with extrusion adjusting part, extrusion adjusting part includes two symmetrical regulation slide rails that set up, and two regulation slide rail fixed mounting are on the mid-mounting seat to equal slidable mounting has the regulation slider on two regulation slide rails, equal slidable mounting has the regulation slip post on two regulation sliders.
Preferably, an adjusting frame is fixedly arranged between the two adjusting sliding columns, an extrusion spring steel plate and an arc extrusion plate are arranged on the adjusting frame and used for extruding the extrusion friction sleeves at different positions, and the arc extrusion plate is arranged on the adjusting frame through an elastic element.
Preferably, the outside of dodging the spout slides and is provided with the slip apron, and slip apron fixed mounting is on the guide slip ring, fixed mounting has top installation apron on the top sealing frame, has seted up the through-hole with the same quantity of conductive part on the top installation apron, and every through-hole sets up with the barrel column coaxial that corresponds.
Preferably, the limiting assembly comprises a limiting block, two ends of the limiting block are respectively fixed with the guide sliding ring and the reinforcing stabilizing frame, a trapezoid groove is formed in one side, close to the outer surface of the cylinder column, of the limiting block, and the trapezoid groove comprises two symmetrically arranged extrusion inclined planes.
Preferably, each extrusion inclined plane is provided with an inclined plane friction block in an overlapping manner with the surface of the cylinder column, the two inclined plane friction blocks are slidably mounted at two ends of the extrusion spring, the extrusion spring is fixedly mounted in the middle of the trapezoid groove through a guide rod support, a guide rod is fixedly connected between each inclined plane friction block and the guide rod support, and the guide rod is arranged on the surface of the extrusion spring in a surrounding manner.
Preferably, one surface fixed mounting that section of thick bamboo post was kept away from to the restriction piece has two stoppers, is provided with the poking rod and removes the frame between two stoppers, poking rod removes frame and restriction piece sliding connection, leaves the clearance between poking rod removes the both ends of frame and two stoppers, and the equal overlap joint in opposite sides of two inclined plane friction blocks is provided with poking rod, poking rod fixed mounting on poking rod removes the frame.
Preferably, the surface of every guide slip ring all slides and is provided with extrusion friction sleeve, the stirring rod movable frame among all restriction components that set up between guide slip ring and the strengthening steady frame all fixed mounting is sheathe in at the extrusion friction that corresponds, all is provided with the protruding line that is used for increasing frictional resistance between different extrusion friction sleeves and the extrusion spring steel sheet or the arc stripper plate that correspond.
Compared with the prior art, the utility model has the following beneficial effects: (1) The conductive parts are arranged in a modularized manner, so that the corresponding number of the conductive parts can be selected according to the pin number of the male pin terminal, and the conductive parts can be applied to the field of more complex conductive connection; (2) The utility model can be adjusted according to the male pin terminals with different diameters, ensures that the elastic conductive spiral wire is in good contact with the male pin terminals, and prevents the problem of overhigh contact resistance caused by poor contact; (3) According to the utility model, the limiting component replaces the traditional thread adjusting mode, so that the elastic conductive spiral wire can be directly and rapidly extruded in the axial direction, the inner side diameter of the elastic conductive spiral wire is changed, and meanwhile, the problem of low thread adjusting speed is solved.
Drawings
FIG. 1 is a schematic view of the overall external structure of the present utility model.
Fig. 2 is a schematic view of the internal structure of the top sealing frame of the present utility model.
Fig. 3 is a schematic view of the structure of the adjusting frame of the present utility model.
FIG. 4 is a diagram showing the position distribution of a moving frame of a tap lever according to the present utility model.
Fig. 5 is a schematic view of a sliding cover plate structure according to the present utility model.
FIG. 6 is a schematic diagram of the structure of FIG. 5A according to the present utility model.
FIG. 7 is a schematic view of the internal structure of the column according to the present utility model.
In the figure: 101-a cylinder; 1011-avoiding a chute; 102-sliding cover plate; 103-a middle support ring; 104-an end support ring; 105-a sliding support ring; 106-supporting the sliding rod; 107-elastic conductive spiral wire; 108-a conductive spiral wire fixing ring; 109-a guide slip ring; 1091-sliding pin block; 110-reinforcing a steady rest; 111-extruding the friction sleeve; 201-a limiting block; 2011-extrusion ramp; 202-limiting blocks; 203-a guide bar bracket; 204-pressing spring; 205—guiding a rod; 206-inclined plane friction block; 207-toggle lever; 208-a toggle lever moving frame; 301-a bottom mount; 302-a mid-mount; 303-top sealing frame; 3031-top sliding groove; 304-a bottom sealing frame; 3041-bottom slide groove; 305-top mounting cover plate; 401-an adjustment frame; 402-pressing a spring steel plate; 403-arc extrusion plate; 404-adjusting the slide rail; 405-adjusting the sliding column; 406-adjusting the slide block; 5-rubber sleeve.
Detailed Description
The following is a description of the technical solution of the present utility model with reference to fig. 1 to 7.
The utility model provides a twisted pair hyperbola adjustable slot splitting jack, which comprises a bottom mounting seat 301, wherein a bottom sealing frame 304 is fixedly arranged on the bottom mounting seat 301, a top sealing frame 303 is fixedly arranged on the bottom sealing frame 304, a middle mounting seat 302 is fixedly arranged at the joint of the top sealing frame 303 and the bottom sealing frame 304, two symmetrically arranged top sliding grooves 3031 are arranged on the top sealing frame 303, and two symmetrically arranged bottom sliding grooves 3041 are arranged on the bottom sealing frame 304.
The middle mounting seat 302 is fixedly provided with at least one conductive part, the conductive part comprises a barrel column 101, two ends of the inner wall of the barrel column 101 are fixedly provided with end support rings 104, a support sliding rod 106 is fixedly arranged between the two end support rings 104, two ends of the support sliding rod 106 are slidably provided with sliding support rings 105, the middle part of the support sliding rod 106 is fixedly provided with a middle support ring 103, two conductive spiral wire fixing rings 108 are arranged between the middle support ring 103 and the two sliding support rings 105, the two conductive spiral wire fixing rings 108 are in running fit with the sliding support rings 105 and the middle support ring 103, at least 36 elastic conductive spiral wires 107 which are in spiral arrangement are fixedly arranged between the two conductive spiral wire fixing rings 108, gaps capable of moving are reserved between the two adjacent elastic conductive spiral wires 107, two ends of the barrel column 101 are symmetrically provided with avoidance sliding grooves 1011, sliding pin blocks 1091 are slidably arranged in the avoidance sliding grooves 1011, the two ends of the outer surface of the barrel column 101 are slidably provided with guide sliding rings 109, the guide sliding rings 109 and the sliding support rings 105 are fixedly matched with the sliding pin blocks 1091, the outer surface of the barrel column 101 is also slidably provided with two reinforcing and fixedly connected with at least two reinforcing and fixedly-fixing reinforcing frames 110 which are correspondingly connected with at least three reinforcing and fixedly-limiting assemblies 110. The outside of dodging the spout 1011 is provided with the slip apron 102 that slides, and slip apron 102 fixed mounting is on guide slip ring 109, and fixed mounting has top installation apron 305 on the top sealing frame 303, has offered the through-hole the same quantity with the electrically conductive portion on the top installation apron 305, and every through-hole sets up with corresponding barrel column 101 is coaxial.
The limiting component comprises limiting blocks 201, two ends of each limiting block 201 are respectively fixed with a guide sliding ring 109 and a reinforcing stabilizing frame 110, a trapezoid groove is formed in one side, close to the outer surface of the cylinder column 101, of each limiting block 201, each trapezoid groove comprises two symmetrically arranged extrusion inclined planes 2011, inclined plane friction blocks 206 are arranged between each extrusion inclined plane 2011 and the surface of the cylinder column 101 in a lap joint mode, each two inclined plane friction blocks 206 are slidably mounted at two ends of each extrusion spring 204, each extrusion spring 204 is fixedly mounted in the middle of each trapezoid groove through a guide rod support 203, a guide rod 205 is fixedly connected between each inclined plane friction block 206 and each guide rod support 203, and each guide rod 205 is arranged on the surface of each extrusion spring 204 in a surrounding mode. Two limiting blocks 202 are fixedly arranged on one surface, far away from the barrel column 101, of the limiting block 201, a poking rod moving frame 208 is arranged between the two limiting blocks 202, the poking rod moving frame 208 is in sliding connection with the limiting block 201, a movable gap is reserved between two ends of the poking rod moving frame 208 and the two limiting blocks 202, poking rods 207 are respectively arranged on opposite sides of the two inclined surface friction blocks 206 in a lap joint mode, and the poking rods 207 are fixedly arranged on the poking rod moving frame 208. The surface of each guide sliding ring 109 is slidably provided with a pressing friction sleeve 111, and a toggle rod moving frame 208 in all the limiting assemblies provided between the guide sliding ring 109 and the reinforcing stabilizer 110 is fixedly mounted on the corresponding pressing friction sleeve 111.
Two sides of the middle mounting seat 302 are provided with extrusion adjusting components, each extrusion adjusting component comprises two symmetrically arranged adjusting slide rails 404, each adjusting slide rail 404 is fixedly arranged on the middle mounting seat 302, each adjusting slide rail 404 is provided with an adjusting slide block 406 in a sliding manner, and each adjusting slide block 406 is provided with an adjusting slide column 405 in a sliding manner. An adjusting frame 401 is fixedly installed between the two adjusting sliding columns 405, an extruding spring steel plate 402 and an arc extruding plate 403 are arranged on the adjusting frame 401 and used for extruding the extruding friction sleeves 111 at different positions, wherein the arc extruding plate 403 is installed on the adjusting frame 401 through an elastic element, and protruding lines used for increasing friction resistance are arranged between the extruding friction sleeves 111 and all the extruding spring steel plates 402 and the arc extruding plate 403.
The upper and lower surfaces of the middle mounting seat 302 are respectively and elastically provided with a rubber sleeve 5, and the rubber sleeve 5 is sleeved on the outer side of the cylindrical column 101 in the corresponding conductive part and is positioned between the opposite surfaces of the adjusting frame 401 and the middle mounting seat 302.
According to the requirement, a proper number of conductive parts are selected, the male pin terminals with different diameters are adjusted, specifically, the adjusting sliding column 405 is pressed by hands, the adjusting sliding column 405 can push the adjusting frame 401 to move, the adjusting frame 401 moves and can drive the extrusion spring steel plate 402 and the arc extrusion plate 403 to move, the extrusion spring steel plate 402 and the arc extrusion plate 403 can extrude the extrusion friction sleeve 111 in the corresponding conductive parts, meanwhile, the elastic element between the arc extrusion plate 403 and the adjusting frame 401 and the extrusion spring steel plate 402 can deform, then the adjusting sliding column 405 is slid along the axial direction of the barrel column 101 (the two coaxially arranged adjusting sliding columns 405 can be held by hands to move simultaneously in the top sliding groove 3031 or the bottom sliding groove 3041), at this time, the rubber sleeve 5 can elastically deform, and the function of the rubber sleeve 5 mainly plays the role of supporting the adjusting frame 401. The movement of the adjusting sliding column 405 drives the adjusting frame 401, the pressing spring steel plate 402 and the arc pressing plate 403 to move, at this time, the pressing friction sleeve 111 pressed will move, the pressing friction sleeve 111 moves to drive the toggle rod moving frame 208 to move, refer to fig. 6, for example, the toggle rod moving frame 208 moves downwards, the toggle rod moving frame 208 approaches to the bottom limiting block 202, meanwhile, the toggle rod 207 at the top presses the inclined surface friction block 206 downwards, the inclined surface friction block 206 presses the guiding rod 205, at this time, the inclined surface friction block 206 is separated from the pressing inclined surface 2011, the same, the inclined surface friction block 206 at the bottom moves upwards by the friction force of the barrel column 101 and also compresses the corresponding guiding rod 205, so that the inclined surface friction block 206 is separated from the corresponding pressing inclined surface 2011, then the toggle rod moving frame 208 drives the limiting block 201 to move downwards through the limiting block 202, the movement of the limiting block 201 drives the guiding sliding ring 109, the guiding sliding ring 109 to move, and the sliding supporting ring 105 slides on the supporting sliding rod 106, so that the distance between the sliding supporting ring 105 and the middle supporting ring 103 is changed, and then the elastic conductive spiral wire 107 is pressed towards the contact resistance of the elastic spiral wire, and all the elastic conductive wire is pressed towards the terminal, and the elastic wire is deformed, so that the elastic wire is pressed towards the contact resistance of the conductive wire is guaranteed.
The conductive spiral wire fixing ring 108 also rotates relative to the sliding support ring 105 while the elastic conductive spiral wire 107 is deformed, because the elastic conductive spiral wire 107 is inclined in a default state and rotates after being extruded. The sliding support ring 105 at the bottom of the column 101 moves in the same manner as the sliding support ring 105 at the top, but in a different direction. The elastic conductive spiral wire 107 is deformed and then reacts to the sliding support ring 105, so that the sliding support ring 105 moves towards the direction away from the middle support ring 103, in order to prevent the sliding support ring 105 from moving, the force on the sliding support ring 105 is transmitted to the limiting block 201 through the guiding sliding ring 109, the limiting block 201 moves upwards and drives the bottom inclined surface friction block 206 to move upwards, at the moment, the bottom inclined surface friction block 206 is subjected to downward friction force from the cylinder column 101, the bottom extrusion inclined surface 2011 and the cylinder column 101 outer surface extrude the inclined surface friction block 206, and the friction force between the three is further increased, so that the limiting block 201 and the cylinder column 101 are blocked through the inclined surface friction block 206, and the sliding support ring 105 cannot move directly. Therefore, all the elastic conductive spiral wires 107 can be adjusted to move towards the male pin terminals only by controlling the movement of the extrusion friction sleeve 111, so that the elastic conductive spiral wires are tightly attached, the male pin terminals with different diameters are pertinently adjusted, proper contact pressure is ensured, proper contact resistance can be ensured, and friction of the elastic conductive spiral wires 107 to the male pin terminals can be reduced.