RAM (random access memory) card automatic plug test structure
Technical field
The invention belongs to RAM (random access memory) card checkout gear field, be specifically related to a kind of structure that can realize automatic plug RAM (random access memory) card in the time that RAM (random access memory) card is tested.
Background technology
In prior art, RAM (random access memory) card test is general adopts artificial mode to plug RAM (random access memory) card, not only operation is inconvenient, efficiency is low, consume manpower, and easily because human factor produces some adverse consequencess, cause test result bad such as operating personnel are not inserted into RAM (random access memory) card position, or operating personnel are in plug exert oneself when RAM (random access memory) card excessive cause RAM (random access memory) card or slot damage etc.
Summary of the invention
In order to overcome above-mentioned defect, the invention provides a kind of RAM (random access memory) card automatic plug test structure, RAM (random access memory) card automatic plug test structure of the present invention has been realized the automatic plug of RAM (random access memory) card in the time that RAM (random access memory) card is tested, liberate manpower, also avoided the adverse consequences causing because of human factor, and efficiency is high, moreover, structural design advantages of simple of the present invention, easy to implement.
The present invention for the technical scheme that solves its technical problem and adopt is:
A kind of RAM (random access memory) card automatic plug test structure, comprise internal memory fixed lever, push rod and some elastomers, described internal memory fixed lever and described push rod can do rectilinear movement back and forth towards test socket, RAM (random access memory) card can be fixed on described internal memory fixed lever, described push rod one end connects external driver device and the other end can be supported described internal memory fixed lever, described elastomer one end fixed stop and the other end connect described internal memory fixed lever, and described elastomeric flexible direction is parallel with the direction of motion of described push rod.
The present invention is first fixed on RAM (random access memory) card on described internal memory fixed lever, then drive described push rod to do ahead running by external driver device, described push rod is supported described internal memory fixed lever and is moved together and cause internal memory fixed lever that RAM (random access memory) card is inserted in corresponding test socket, after having tested, drive described push rod to do pull-out motion by external driver device, now push rod and described internal memory fixed lever depart from, internal memory fixed lever recoils to initial position under elastomer effect, cause RAM (random access memory) card to be extracted from test socket, realize the automatic plug of RAM (random access memory) card with this.
The present invention for the further technical scheme that solves its technical problem and adopt is:
Say further, be also provided with shell.
Say further, be fixed with some the first guide pads in described shell, offer some the first line channels that are parallel to each other on described push rod, described the first guide pad is positioned at the first corresponding line channel; In described shell, be fixed with some the second guide pads, offer some the second line channels that are parallel to each other on described internal memory fixed lever, described the second guide pad is positioned at the second corresponding line channel; Described the first line channel is parallel with described the second line channel.Certainly,, as equivalent execution mode of the present invention, above-mentioned first, second guide pad can be arranged at respectively on push rod and internal memory fixed lever, and first, second line channel is arranged on shell.
Say further, be provided with two plectrums, described two plectrum symmetries are positioned at the both sides of described RAM (random access memory) card, one end of every described plectrum is rotationally connected with described shell, the other end of every described plectrum is spigot surface, on every described plectrum, offer the gathering sill paralleling with the first line channel and the second line channel, described gathering sill is made up of one continuous V-arrangement section and straightway, one end of the more close described plectrum of the more described straightway of described V-arrangement section, gathering sill symmetry on two plectrums, the other end of described push rod is fixed with two leads towards both sides plectrum respectively, described lead is positioned at the gathering sill of corresponding plectrum.In the time that external driver device drives described push rod to do ahead running, the lead that push rod connects matches with the V-arrangement section of plectrum gathering sill, ordering about two plectrums outwards moves, because the other end of plectrum is spigot surface, this spigot surface is to match with the earclip of test socket both sides, outwards the plectrum of motion is outwards opened earclip, then push rod continues to advance and orders about internal memory fixed lever RAM (random access memory) card is inserted in test socket, again the earclip of test socket both sides is buckled in the semicircle orifice of RAM (random access memory) card both sides, completes the grafting of RAM (random access memory) card; While needing RAM (random access memory) card to extract after test finishes, external driver device drives described push rod to do pull-out motion, push rod first departs from described internal memory fixed lever, in the time that push rod moves to its lead connecting and coordinates with the V-arrangement section of plectrum gathering sill, can order about two plectrums outwards moves, thereby test socket both sides are opened for the earclip of locking page in memory card, and RAM (random access memory) card returns to initial position under the effect of elastomer resilience force.
Preferably, described internal memory fixed lever is made up of a U-shaped fixed mount and at least one the first guide rod one, described U-shaped fixed mount is made up of cross bar and the two inserted link one that are positioned at cross bar two ends, the position of described two inserted links is corresponding to the both sides of described RAM (random access memory) card, on each inserted link, offer the slot parallel with RAM (random access memory) card, on each inserted link, the position corresponding with described slot position starts there be the screw vertical with RAM (random access memory) card, RAM (random access memory) card can insert in its dual-side place in described slot and by screw and lock in described screw place, described the first guide rod is connected with the orthogonal one of described cross bar, described the second line channel is opened on described the first guide rod.
Preferably, described push rod is U-shaped, formed by two the second guide rods that drive connecting rod and be positioned at described driving connecting rod two ends, described driving connecting rod connects external driver device, described second guide rod one end is connected in described driving connecting rod end, described push rod can be supported described internal memory fixed lever in the second guide rod other end place, described the first line channel is opened on described the second guide rod, the described second guide rod other end is extended with brace towards described plectrum direction one, and described lead is fixed on described brace.
Say further, be provided with some spring screws, described spring screw connects cross bar and the described elastomer of described internal memory fixed lever, and described spring screw is parallel with described the second line channel with described the first line channel.
Preferably, described shell is provided with screw slots, and described screw slots are parallel with described the second line channel with described the first line channel, and described spring screw is positioned at described screw slots.
Preferably, described lead is jump ring rotating shaft.
Preferably, described spigot surface is inclined-plane.
The invention has the beneficial effects as follows: RAM (random access memory) card automatic plug test structure of the present invention, comprise internal memory fixed lever, push rod and some elastomers, internal memory fixed lever and push rod can do rectilinear movement back and forth towards test socket, push rod one end connects external driver device and the other end can be supported internal memory fixed lever, elastomer one end fixed stop and the other end connect internal memory fixed lever, first RAM (random access memory) card is fixed on internal memory fixed lever, external driver device drives push rod to do ahead running, push rod is supported internal memory fixed lever and is moved together and cause internal memory fixed lever that RAM (random access memory) card is inserted in corresponding test socket, having tested rear external driver device drives push rod to do pull-out motion, push rod and internal memory fixed lever depart from, internal memory fixed lever recoils to initial position under elastomer effect, realize the automatic plug of RAM (random access memory) card with this, in addition, the structural design of plectrum of the present invention, makes the present invention have the function of automatically opening test socket both sides earclip, is more convenient to the automatic plug of RAM (random access memory) card.
Accompanying drawing explanation
Fig. 1 is internal structure schematic diagram of the present invention;
Fig. 2 is the structural representation of internal memory fixed lever of the present invention;
Fig. 3 is that the A of Fig. 2 is to view;
Fig. 4 is the structural representation of push rod of the present invention;
Fig. 5 is plectrum structural representation shown in the present;
Fig. 6 is the process schematic diagram that RAM (random access memory) card automatic plug test structure of the present invention inserts RAM (random access memory) card test socket automatically;
Fig. 7 is the process schematic diagram that RAM (random access memory) card automatic plug test structure of the present invention is automatically extracted RAM (random access memory) card from test socket.
Embodiment
Below, by specific instantiation explanation embodiments of the present invention, those of ordinary skills can understand advantage of the present invention and effect easily by content disclosed in the present specification.The present invention also can be implemented by other different modes, under not departing from disclosed category, can carry out different modifications and change.
Embodiment: a kind of RAM (random access memory) card automatic plug test structure, as shown in Figure 1, comprise internal memory fixed lever 1, push rod 2, some elastomers (for example extension spring) and shell 3, described internal memory fixed lever 1 and described push rod 2 can do rectilinear movement back and forth towards test socket B, RAM (random access memory) card A can be fixed on described internal memory fixed lever 1, described push rod 2 one end connect external driver device and the other end can be supported described internal memory fixed lever 1, described elastomer one end fixed stop and the other end connect described internal memory fixed lever 1, described elastomeric flexible direction is parallel with the direction of motion of described push rod 2.
Wherein, again as shown in Figure 1, be fixed with some the first guide pads 31 in described shell 3, offer some the first line channels 221 that are parallel to each other on described push rod 2, described the first guide pad 31 is positioned at the first corresponding line channel 221; In described shell 3, be fixed with some the second guide pads 32, offer some the second line channels 121 that are parallel to each other on described internal memory fixed lever 1, described the second guide pad 32 is positioned at the second corresponding line channel 121; Described the first line channel 221 is parallel with described the second line channel 121.Certainly, as equivalent execution mode of the present invention, above-mentioned first, second guide pad can be arranged at respectively on push rod and internal memory fixed lever, first, second line channel is arranged on shell.
Again as shown in Figures 1 and 5, also be provided with two plectrums 4, described two plectrum 4 symmetries are positioned at the both sides of described RAM (random access memory) card A, one end 41 of every described plectrum is rotationally connected with described shell 3, the other end of every described plectrum is spigot surface 42, described spigot surface is inclined-plane, on every described plectrum 4, offer the gathering sill 43 paralleling with the first line channel 221 and the second line channel 121, described gathering sill 43 is made up of the continuous V-arrangement section 431 of one and straightway 432, one end 41 of the more close described plectrum of the more described straightway 432 of described V-arrangement section 431, gathering sill 43 symmetries on two plectrums 4, the other end of described push rod 2 is fixed with two leads 24 towards both sides plectrum respectively, described lead 24 is positioned at the gathering sill 43 of corresponding plectrum.
Wherein, as shown in Figures 2 and 3, described internal memory fixed lever 1 is made up of a U-shaped fixed mount and two the first guide rod 12 one, described U-shaped fixed mount is made up of cross bar 11 and two inserted link 13 one that are positioned at cross bar two ends, the position of described two inserted links 13 is corresponding to the both sides of described RAM (random access memory) card A, on each inserted link 13, offer the inserting groove parallel with RAM (random access memory) card 131, on each inserted link 13, the position corresponding with described inserting groove 131 positions starts there be the screw vertical with RAM (random access memory) card 132, RAM (random access memory) card A can lock in described screw 132 places in its dual-side place inserts in described inserting groove 131 and by screw, described the first guide rod 12 is connected with the orthogonal one of described cross bar 11, described the second line channel 121 is opened on described the first guide rod 12.
Wherein, as shown in Figure 4, described push rod 2 is U-shaped, formed by two the second guide rods 22 that drive connecting rod 21 and be positioned at described driving connecting rod two ends, described driving connecting rod 21 connects external driver device, described second guide rod 22 one end are connected in described driving connecting rod 21 ends, described push rod 2 can be supported described internal memory fixed lever 1 in the second guide rod 22 other end places, described the first line channel 221 is opened on described the second guide rod 22, described second guide rod 22 other ends are extended with brace 23 towards described plectrum 4 direction one, described lead 24 is fixed on described brace 23, described lead 24 is jump ring rotating shafts.
As shown in Figure 1, be also provided with some spring screws 5, described spring screw 5 connects the cross bar 11 and described elastomer of described internal memory fixed lever 1, and described spring screw 11 is parallel with described the second line channel 121 with described the first line channel 221.
Again as shown in Figure 1, described shell 3 is provided with screw slots 33, and described screw slots 33 are parallel with described the second line channel 121 with described the first line channel 221, and described spring screw 5 is positioned at described screw slots 33.
Principle of the present invention and the course of work are as follows: as shown in Figure 6, in the time that external driver device drives described push rod to do ahead running, the lead that push rod connects matches with the V-arrangement section of plectrum gathering sill, ordering about two plectrums outwards moves, because the other end of plectrum is spigot surface, this spigot surface is to match with the earclip B1 of test socket B both sides, outwards the plectrum of motion is outwards opened earclip, then push rod continues to advance and orders about internal memory fixed lever RAM (random access memory) card is inserted in test socket, again the earclip of test socket both sides is buckled in the semicircle orifice of RAM (random access memory) card both sides, complete the grafting of RAM (random access memory) card, as shown in Figure 7, while needing RAM (random access memory) card to extract after test finishes, external driver device drives described push rod to do pull-out motion, push rod first departs from described internal memory fixed lever, in the time that push rod moves to its lead connecting and coordinates with the V-arrangement section of plectrum gathering sill, can order about two plectrums and outwards move, thereby test socket both sides are opened for the earclip of locking page in memory card, RAM (random access memory) card returns to initial position under the effect of elastomer resilience force.