Electromagnetic relay socket
Technical field
The utility model belongs to electromagnetic relay accessory-mount structure design field, is specifically related to a kind of electromagnetic relay socket.
Background technology
Electromagnetic relay socket is the external accessory of electromagnetic relay, the electric elements for wiring board is connected with electromagnetic relay, Motionless electromagnetic relay socket in the circuit board, and the slotting spring on electromagnetic relay socket is connected with circuit on-board circuitry, when electromagnetic relay is installed, only electromagnetic relay need be inserted on electromagnetic relay socket, and make its pin and electromagnetic relay insert spring to be connected the connection that can realize electromagnetic relay and wiring board.Generally for and guarantee circuit reliability of operation; usual meeting arranges buckle on electromagnetic relay socket; its effect is by fixed for the electromagnetic relay be contained on electromagnetic relay socket, and the reliability causing electromagnetic relay pin to be electrically connected with slotting spring to prevent electromagnetic relay from loosening is affected.In prior art buckle usually and jack body one-body molded, the buckle holded up then is unfavorable for packaging, electromagnetic relay clamps with electromagnetic relay under being buckled in the effect of its own resilient after installing in addition, when dismantling electromagnetic relay, needing firmly outwards to pull buckle makes its cooperation departing from electromagnetic relay electromagnetic relay can be pulled down, operation is inconvenience very, and therefore, the structure of existing electromagnetic relay socket also exists urgently improvements.
Utility model content
To this, the purpose of this utility model is to provide a kind of rational in infrastructure, the electromagnetic relay socket being beneficial to packaging and using.
The technical scheme realizing the utility model object is:
A kind of electromagnetic relay socket, comprises the jack body being provided with slotting spring, and described jack body upper end is provided with the buckle being suitable for the electromagnetic relay plugged thereon to fix, and bottom and the described jack body of described buckle are hinged, and can overturn to inside and outside both sides.
In technique scheme, described jack body forms the first cooperation button platform, described buckle forms to coordinate with described first when it is in service position and detain platform and offset and coordinate, surprisingly flip to the outside to prevent described buckle second coordinates button platform.
In technique scheme, described jack body forms semiaxis, described buckle bottom forms and to coordinate with described semiaxis thus to realize hinged axis hole.
In technique scheme, this socket is also included in when described buckle laterally rotates and it is spacingly being tilted upward the position limiting structure of position.
In technique scheme, described position limiting structure comprise the positive stop lug boss that takes shape on described buckle bottom face and take shape on described jack body when described buckle flips to the outside and the described positive stop lug boss limiting plate of conflicting.
In technique scheme, the contact-making surface that described positive stop lug boss contacts with described limiting plate is that arc is domatic.
The utility model has positive effect:
(1) in electromagnetic relay socket of the present utility model, buckle is hinged on jack body, and can overturn to inside and outside both sides, so, when packing electromagnetic relay socket, by inside for buckle overturning, thus be beneficial to the packing of product, buckle also can flip to the outside simultaneously, first flip to the outside buckle when plug-in mounting electromagnetic relay then plug-in mounting electromagnetic relay, again buckle is inwardly overturn after electromagnetic relay is in place and with the wedging position clamping on electromagnetic relay, when can avoid like this installing electromagnetic relay, buckle ruptures because the power of being squeezed is excessive, also coordinating of buckle and electromagnetic relay can be removed more efficiently when changing electromagnetic relay, it is more convenient to operate.(2) in electromagnetic relay socket of the present utility model, button platform is coordinated to be can not outwards overturn easily to make buckle be in the service position position of electromagnetic relay snap-fit (namely with) time by arranging the first cooperation button platform and with matching second, thus ensure the reliability that buckle coordinates with electromagnetic relay, guarantee the stability that circuit runs.(3), in electromagnetic relay socket of the present utility model, arranging position limiting structure object is the components and parts touched after the position (the outside deflection angle of general restriction buckle is 10 ~ 45 degree) be limited in when buckle outwards overturns obliquely prevents buckle sagging on wiring board.
Accompanying drawing explanation
Fig. 1 is the structural representation of electromagnetic relay socket (buckle is in service position) in the utility model;
Fig. 2 is electromagnetic relay socket in the utility model and electromagnetic relay structural representation when assembling;
Fig. 3 is the structural representation of the electromagnetic relay socket (buckle is in outside open position) in the utility model;
Fig. 4 is in electromagnetic relay socket of the present utility model, the structural representation of described jack body;
Fig. 5 is in electromagnetic relay socket of the present utility model, the structural representation of described buckle.
Reference numeral shown in figure is: 1-inserts spring; 2-jack body; 21-first coordinates button platform; 22-semiaxis; 23-limiting plate; 3-electromagnetic relay; 4-buckle; 41-second coordinates button platform; 42-axis hole; 43-positive stop lug boss.
Embodiment
Do to illustrate to the concrete structure of electromagnetic relay socket in the utility model below in conjunction with Figure of description:
A kind of electromagnetic relay socket, as depicted in figs. 1 and 2, it comprises the jack body 2 being provided with slotting spring 1, described jack body 2 upper end is provided with the buckle 4 being suitable for the electromagnetic relay 3 plugged thereon to fix, bottom and the described jack body 2 of described buckle 4 are hinged, and can overturn to inside and outside both sides.In the electromagnetic relay socket of the present embodiment, buckle 4 is hinged on jack body 2, and can overturn to inside and outside both sides, so, when packing electromagnetic relay socket, by buckle 2 inwardly overturning, thus be beneficial to the packing of product, buckle 2 also can flip to the outside simultaneously, first flip to the outside buckle 2 when plug-in mounting electromagnetic relay 3 then plug-in mounting electromagnetic relay 3, after electromagnetic relay 3 is in place again by buckle 2 inwardly upset and with the wedging position clamping on electromagnetic relay 3, when can avoid like this installing electromagnetic relay 3, buckle 2 ruptures because the power of being squeezed is excessive, also coordinating of buckle 2 and electromagnetic relay 3 can be removed more efficiently when changing electromagnetic relay 3, it is more convenient to operate.
Described jack body 2 forms the first cooperation button platform 21, described buckle 4 forms to coordinate with described first when it is in service position and detain platform 21 and offset and coordinate, with prevent described buckle 4 unexpected flip to the outside second coordinate button platform 41; In the electromagnetic relay socket of the present embodiment, button platform 41 is coordinated to be can not outwards overturn easily to make buckle 4 be in the service position position of electromagnetic relay 3 snap-fit (namely with) time by arranging the first cooperation button platform 21 and with matching second, thus ensure the reliability that buckle 2 coordinates with electromagnetic relay 3, guarantee the stability that circuit runs.
Described jack body 2 in the present embodiment forms semiaxis 22, described buckle 4 bottom forms and to coordinate with described semiaxis 22 thus to realize hinged axis hole 42, when assembling, both can be connected with the grafting of described axis hole 42 by semiaxis 22, described axis hole 42 is the large shape in the little inside of opening, the width of its opening part is slightly larger than semiaxis minimum diameter, so that both coordinate, referring specifically to Fig. 1 and Fig. 3 to Fig. 5.
This socket is also included in when described buckle 4 laterally rotates and it is spacingly being tilted upward the position limiting structure of position, arrange position limiting structure object be buckle 4 outwards upset time the position (general restriction buckle 4 outwards deflection angle is 10 ~ 45 degree) be limited in obliquely prevent buckle 4 sagging after touch components and parts on wiring board.
Further, referring to Fig. 3, described position limiting structure in the present embodiment comprise the positive stop lug boss 43 that takes shape on described buckle 4 bottom face and take shape on described jack body 2 when described buckle 4 flips to the outside and described positive stop lug boss 43 limiting plate 23 of conflicting, when described buckle 4 outwards overturns, positive stop lug boss bottom described buckle 4 is conflicted with limiting plate 23 gradually, and resistance is increasing, thus limiting the angle of the outside upset of described buckle 4, the contact-making surface that the described positive stop lug boss 43 in the present embodiment contacts with described limiting plate 23 is that arc is domatic.The designs simplification of above-mentioned position limiting structure, without the need to setting up parts in addition, production cost is low, has good result of use.
Obviously, above-described embodiment of the present utility model is only for the utility model example is clearly described, and is not the restriction to execution mode of the present utility model.For those of ordinary skill in the field, can also make other changes in different forms on the basis of the above description.Here exhaustive without the need to also giving all execution modes.And these belong to connotation of the present utility model the apparent change of extending out or variation still belong to protection range of the present utility model.