CN101989709A - One-touch clamp for testing internal memory module - Google Patents

Abstract

The invention relates to a one-touch clamp for testing an internal memory module, which prevents an internal memory module contact position from being damaged in the process of guiding the connection action between a slot on a mainboard and a memory module under the actual installation environment of a computer. The one-touch clamp for testing the internal memory module provided by the invention has a simple structure and is provided with a one-touch push-off piece for flexibly completing the insertion and pull-out actions of the internal memory module. After structural improvement, a position contacted with the internal memory module is prevented from being damaged, so that the insertion and pull-out operation of the memory module provided with the internal memory module is enhanced and test yield can be increased; and the insertion or extraction actions of the internal memory module on a clamp body is completed by physical force, so that constant force can be applied every time and damage to the memory module is avoided.

Description

Memory module testing one touch type anchor clamps

Technical field

The present invention relates to memory module testing one touch type anchor clamps, be specifically related to a kind of in the test of memory modules, finish insert and pull action flexibly, and its structural improvement becomes to prevent to contact the memory module testing one touch type anchor clamps of memory modules position wearing and tearing to the motherboard slot.

Background technology

The general memory module is to be fixed on the substrate by a plurality of IC chips and other elements and to constitute independently loop.This memory modules plays important effect in real each product that are contained on the motherboard, therefore its manufacturing process finish the back, real be contained on the motherboard before, the process of the test abnormality that the meeting approach is undertaken by processor (handler).

The dictionary of mainboard (Mother board) looks like, and the substrate of computer (Computer) basic element of character has been installed, and the hardware of basic physical the most of fundamental circuit and parts is housed in computer, is called mainboard (mainboard) or motherboard again.

In addition, adorn (real dress: shirtsleeve operation is the used state of energy just) on the above-mentioned main substrate in fact and the memory modules (Memory-module) that improves the computer serviceability with increase program calculation speed.The internal memory (SRAM) etc. that the kind commonly used that above-mentioned memory modules manufacturing is produced has Synchronous Dynamic Random Access Memory (SDRAM), high frequency dynamic random access memory (RAMBUSDRAM) and has static access facility.

Described various memory modules is fixed on same main substrate (substrate, substrate) form independently loop on, and these memory modules play important effect in the middle of the real various assemblies that are contained on the motherboard, therefore its manufacturing process finish the back, real be contained on the motherboard before, check the characteristic or the reliability of home loop.

Therefore used computer to carry out the test of memory modules with Special Equipments such as the automatic installing test equipment of memory.But because of high price is bought the financial burden of Special Equipment, the drawbacks such as configuration space of preparation machine separately, cost is more taller than producing memory modules, is difficult to reach the purpose that obtains the essence profit.

And the condition of described memory module testing is not on the motherboard of reality, but relies on other Special Equipment, therefore can not get the experimental result under optimum condition, can't allow quality problem be improved fully yet.

But do not use the testing equipment of high price, also can carry out the test of memory modules with the mode that is directly connected on the motherboard, when having these advantages, the operation of inserting contact or forcing to extract memory modules of exerting pressure in each the groove interpolation entering plate of described mounting receptacle and the groove that continues in test jack all is artificially manually to finish, and has therefore caused and apply load and impact (Damage) can only for described each plate and memory modules; And comprise that their active device and passive device all are subjected to interfering the proportion of goods damageds that make goods to increase; Directly contact and foreign matter takes place adhere to problems such as the opering characteristic of electric apparatus that causes is bad with hand.

And also have some other drawbacks:, need a plurality of sockets and connector and the insertion plates etc. prepared for the test memory module more; These are mutual superposition package assemblies together, and the connection status between each component part is bad and check result that cause is imprecise; The manufacturing cost of most parts that such stack combinations body structure is required and the enforcement of appending assembling procedure.

Summary of the invention

The invention provides a kind of utilized needn't force artificially to insert or extract also can finish indirectly insert or a plurality of pushing pieces pull action, that link with the operation of sleeve, easily finish the real dress of memory modules or the memory module testing one touch type anchor clamps of detached job.

In order to reach such technical task, clamp structure of the present invention is as follows:

Clamp body in order to keep the stationary state that is installed on the motherboard, is inserted in the memory modules of slot, forms the patchhole that at least one can laterally enter memory modules, connect with vertical slotted hole shape; Guide plate, balanced configuration be in described clamp body both sides, and both sides have the long mobile space that forms on the length direction forwardly; Sleeve is combined in connecting pin in the mobile space of described guide plate, and the lower end has and is used on slot inserting or extracts memory modules and a plurality of push mechanism of the vertical application of force up and down, rotates within the specific limits; Pushing piece closely contacts with the lower surface of the push mechanism of described sleeve, for the direct insertion and the separation of memory modules, rotatably is connected combination with the two sides of memory modules; Gangbar closely contacts with described pushing piece, for the sleeve that makes the clamp body both sides moves simultaneously, is combined in both sides sleeve one end and can links.

Here, the structure of described sleeve comprises:

Handle portion is positioned at the upper end, is used for the rotation driving; Promote ring, be combined in described handle portion front side, push the upper end of memory modules to fix by rotation by connecting pin; Rotating part links to each other with described handle portion, and is connected with gangbar and is used for rotation; Push mechanism is connected with described rotating part, and L-shaped shape is connected with the guide plate hinge, carries out the vertical up and down application of force by moving.

And the structure of described pushing piece is as follows:

Rotating hole is the pin shape of certain-length, by the hinge combination, with can be in the driving spatial portion inside lower end rotation of slot; The handle contact site is that the center moves up and down with the rotating hole, thereby contacts with the push mechanism of sleeve; The module contact site is that the handle contact site opposite side at center contacts combination with memory modules with described rotating hole, realizes the direct insertion and the separation of memory modules by rotation.

According to above-mentioned the present invention, pressure under being applied with towards two sides of memory modules comes the bootstarp memory module to insert and extract, compare known memory modules breakage or wearing and tearing and the high mode of fraction defective, having exerts pressure from the top of memory module inserts the sleeve of memory module, thereby it is damaged or that wearing and tearing cause is bad to reduce memory modules.

Simultaneously, utilize sleeve and a plurality of pushing piece, needn't manually insert artificially or forcibly extract, also can finish indirectly and insert or extract memory modules, therefore can eliminate when memory modules inserts or extracts, contingent load and shock effect make the worry of goods breakage to motherboard and peripheral modules.

And, because of inserting or extract memory modules indirectly, can take precautions against in possible trouble for memory modules foreign matter attachment issue the contact zones of hand by described sleeve and most pushing pieces.Therefore the testing engineering that can implement more to maximize is very useful invention.

Description of drawings

Fig. 1 is the oblique view of memory module testing of the present invention with the one touch type anchor clamps;

Fig. 2 is the drawing that memory module testing of the present invention combines with memory modules with the one touch type anchor clamps;

Fig. 3 is the exploded perspective view of memory module testing of the present invention with the one touch type anchor clamps;

Fig. 4 is the structure chart of memory module testing of the present invention with the one touch type anchor clamps;

Fig. 5 is the structure chart of memory module testing of the present invention with the pushing piece of one touch type anchor clamps;

Fig. 6 is the structure chart of expression memory module testing of the present invention with the realization example of one touch type anchor clamps;

Fig. 7 describes the drawing of memory module testing of the present invention with the operational motion of one touch type anchor clamps.

The symbol description of accompanying drawing major part

10: memory modules 102: connecting pin

110: clamp body 112: slot

114: patchhole 116: drive spatial portion

118: pan 120: guide plate

122: mobile space 130: sleeve

132: handle portion 134: promote ring

136: rotating part 138: push mechanism

140: pushing piece 142: rotating hole

144: handle contact site 146: the assembly contact site

150: gangbar 152: connect piece

154: link member 200: the one touch type anchor clamps

Embodiment

The present invention who achieves the above object has following formation:

Clamp body in order to keep the stationary state that is installed on the motherboard, is inserted in the memory modules of slot, forms the patchhole that at least one can laterally enter memory modules, connect with vertical slotted hole shape;

Guide plate, balanced configuration be in described clamp body both sides, and both sides have the long mobile space that forms on the length direction forwardly;

Sleeve is combined in connecting pin in the mobile space of described guide plate, and the lower end has and is used on slot inserting or extracts memory modules and a plurality of push mechanism of the vertical application of force up and down, rotates within the specific limits;

Pushing piece closely contacts with the lower surface of the push mechanism of described sleeve, for the direct insertion and the separation of memory modules, rotatably is connected combination with the two sides of memory modules;

Gangbar closely contacts with described pushing piece, for the sleeve that makes the clamp body both sides moves simultaneously, is combined in both sides sleeve one end and can links.

The present invention relates to have the memory module testing one touch type anchor clamps of above feature.

Below be elaborated according to adding the drawing of having paid the preferred embodiment of the invention.

Before this, that employed term of this specification and claims book and word can not be interpreted as with limiting is common, the meaning on the dictionary, the inventor is in order to illustrate this invention with best method, the notion of term can be suitably defined, therefore technological thought consciousness according to the invention or notion should be interpreted as based on this principle.

Being appreciated that illustrated structure on embodiment that this specification is put down in writing and the drawing simultaneously, only is the most preferred embodiment of the present invention, does not represent all technological thoughts of the present invention, can have replaceable, multiple equipollent and variation when therefore applying for.

Fig. 1 is the oblique view of memory module testing of the present invention with the one touch type anchor clamps, and Fig. 2 is the figure that memory module testing of the present invention combines with memory modules with the one touch type anchor clamps.

As shown in the figure, the present invention relates to prevent the memory modules 10 test one touch type anchor clamps of memory modules 10 contact site breakages in the process of connecting moves channeling conduct of the slot 112 on a kind of memory modules 10 under real dress environment and the mainboard to computer.The present invention is simple in structure, possesses the insertion of finishing memory modules 10 flexibly and the one touch type pushing piece of pull action; Structure of modification becomes to prevent the structure of memory modules 10 contact site breakages, therefore improves insertion and extracts operation, thereby can improve test yield (yield); Insertion or the discharging operation of memory modules 10 on clamp body 110 is that power by physical property goes to finish, and guaranteeing can both to apply constant power at every turn, thereby avoids bringing impact to memory modules 10.

One touch type anchor clamps 200 of the present invention are to be made of following, and clamp body 110 is used for keeping the stationary state of the memory modules 10 that is inserted in slot 112, and this slot 112 is installed on the motherboard; Sleeve 130, one sides can be in the both side ends rotation of above-mentioned clamp body 110 by the hinge combination; Pushing piece 140 connects airtight with the push mechanism 138 of above-mentioned sleeve 130 lower end side, can insert and extract the rotatably combination of memory modules 10 ground.

Because of described one touch type anchor clamps 200 in use, utilized and to have forced to insert or extract memory modules 10 artificially and also can indirectly memory modules 10 be inserted or extract slot 112, the a plurality of pushing pieces 140 that link with the operation of sleeve 130 are so the real dress or the detached job of memory modules 10 are implemented easily.

At this moment, in order to insert memory modules 10 to test, described slot 112 comprises respectively a plurality of contact pins (not shown) that are connected with the contact site of the contact site of memory modules 10 and testing apparatus (not shown), and has the slot that is used to insert memory modules 10.

The contact pin of this slot 112 or the structure of slot are well-known, so detailed.

Described slot 112 like this is the slots 112 that form " U " type in central authorities, form rotatably driving spatial portion 116 in conjunction with pushing piece 140 in the both sides, lower end, in order to allow pushing piece 140 in driving spatial portion 116 prescribed limits, rotate, constitute hinge and connect with pan 118.

And memory modules 10 is to claim general memory modules 10, but also might be the general PCB module of memory modules 10.

Simultaneously, described one touch type anchor clamps 200, be used for keeping the clamp body 110 that is installed in motherboard, is inserted in memory modules 10 stationary states of slot 112, the patchhole 114 that connects with slotted hole shape longitudinally that forms that at least one can laterally inserted memory modules 10.

And balanced configuration has the long mobile space 122 that forms towards length direction at the guide plate 120 of upper end, described clamp body 110 both sides in its both sides, the place ahead.

Then, at 122 li of the mobile spaces of described guide plate 120, sleeve 130 by connecting pin 102 rotatable combinations, have in the lower end for memory modules 10 on slot 112 insertion or extract and carry out a plurality of push mechanism 138 of the vertical application of force up and down, and rotate within the specific limits.

Described sleeve 130 is arranged on the two sides of clamp body 110, in order to insert on the jack of slot 112 or to extract memory modules 10 and move.

Simultaneously, connect airtight the lower end in the push mechanism 138 of described sleeve 130, the direct insertion that is used for memory modules 10 and separation and rotatable pushing piece 140 contacts combination with the two sides of memory modules 10.

And the gangbar 150 that closely contacts with described pushing piece 140 is that for the sleeve 130 of making way for clamp body 110 both sides moves simultaneously, johning knot is combined in an end of both sides sleeve 130, thereby can make it to link.

Below the memory module testing with above-mentioned structure is elaborated with the one touch type anchor clamps.

At first, Fig. 3 is the exploded perspective view of memory module testing of the present invention with the one touch type anchor clamps, and Fig. 4 is the structure chart of expression memory module testing of the present invention with the one touch type anchor clamps.

Shown in the accompanying drawing, the clamp body 110 that is installed on the motherboard of one touch type anchor clamps of the present invention is in order to keep the stationary state of the memory modules 10 that is inserted in the slot 112 as described.

Described clamp body 110 forms one at least can allow the laterally inserted slotted hole of memory modules 10.

In described clamp body 110, with the patchhole 114 that the mode of the slotted hole that can insert memory modules 10 forms, its lower end is by opening, thereby can accommodate slot 112 in inside, constitutes last upper surface, connects with the long hole shape of length direction.

Simultaneously, described clamp body 110 is used to keep memory modules 10 connection status that are inserted in slot 112 on the motherboard, therefore the lower end also can be accommodated described slot 112 in inside by open, the patchhole 114 that provides the slotted hole shape that constitutes final upper surface to connect with length direction, and provide sleeve 130 and the required certain space of pushing piece 140 rotations from both sides.

So, be formed on the driving spatial portion 116 of both sides, described slot 112 lower end rotatably in conjunction with pushing piece 140.

At this moment, the driving spatial portion 116 in both sides, described slot 112 lower end forms pan 118, hinged pushing piece 140, thus enable to rotate within the specific limits.

And balanced configuration is at the guide plate 120 of clamp body 110 both sides, attached to upper end, clamp body 110 both sides, provides prolongation as patchhole 114, towards the open mobile space 122 of length direction.And it carries out combination with connecting pin 102, make sleeve 130 do rotation in the certain limit in mobile space 122, and the push mechanism 138 of sleeve 130 just is housed in the mobile space 122.

Simultaneously, in the mobile space 122 of described guide plate 120, with the sleeve 130 of the rotatable combination of connecting pin, on the lower end has possessed for slot 112, insert or extract memory modules 10 several push mechanism 138 of the vertical application of force up and down, thereby rotate in certain scope.

Promptly, described sleeve 130 is after memory modules 10 connects the patchhole 114 of clamp body 110, the mechanism that inserts or separate by force that is provided with as being connected (real dress) of slot 112 link slots that are used for and are housed in its lower inner part, at first, described sleeve 130 by the people be stir handle portion 132 that its rotation is driven, with the rotary middle point of described handle 130 as the rotating part 136 of benchmark, and the push mechanism 138 that presses down 140 1 upper ends of pushing piece along with the rotation of described rotating part 136 constitute.

And, in the upper end of described sleeve 130, be used to rotate the handle portion 132 of sleeve 130, constitute the rotatable promotion ring 134 that connects with connecting pin 102 in its front side.

When described promotion ring 134 inwards rotates from the outside at sleeve 130, the upper end of pushing the memory modules 10 that is installed on the anchor clamps 200.

Promptly, described promotion ring 134 disposes a plurality of promotion rings 134 on a sleeve 130, be placed to the patchhole of slot 112 at memory modules 10 after, when exerting pressure on the top of memory modules 10, prevent to apply excessive power, and it stably is inserted in the slot 112 to memory modules 10.

And described promotion ring 134 is in the preceding sideway swivel of sleeve 130, when memory modules 10 inserts and extracts, in the upside rotational slide.

Here, described promotion ring 134 is configured in the position that the memory modules 10 of sleeve 130 front sides is contacted.Described memory modules 10 put (loading) to the slot 112 after, by rotatablely moving of sleeve 130 exerted pressure in the upper end of memory modules 10.At this moment in order to allow described memory modules 10 stably be inserted in the slot 112, the pressure that the rotation of sleeve 130 is brought is communicated to memory modules 10 and has constituted a plurality of promotion rings 134.

Simultaneously, with the rotating part 136 that described sleeve 130 handle portion 132 link together, the one side is connected with gangbar 150, makes gangbar 150 along with the rotation of sleeve 130 is moved.

At this moment, the push mechanism 138 that is connected lower end, " L " type of described rotating part 136 links together with guide plate 120 hinges, gives pushing piece 140 vertical afterburning when moving.

A plurality of push mechanism 138 that a plurality of mobile spaces 122 that constitute on guide plate 120 are accommodated have been carried out combination with connecting pin 102, thereby sleeve 130 serves as the axle rotation with connecting pin 102.

Connect airtight the pushing piece 140 in described sleeve 130 push mechanism 138 lower surfaces, directly insert and extract memory modules 10 in order to be allowed to condition at two ends, rotatably the two sides with memory modules 10 contact combination.

This described pushing piece 140 as shown in Figure 5, for can be in the rotation of driving spatial portion 116 inside lower end of slot 112, the rotating hole 142 of the central authorities of the pin shape by being certain-length carries out hinged

This described pushing piece 140, in order easily to insert and to separate memory modules 10 and the support lower end, in order when sleeve 130 rotates, to rotate simultaneously, as shown in Figure 6, closely contact with the push mechanism 138 of sleeve 130 lower end side, two lower end corner angle of described memory modules 10 are supported to finish to guide insert and separate, in driving spatial portion 116 inboards of slot 112, rotatably rotating hole 142 hinges with the pin shape that is certain-length connect.

Also have described pushing piece 140 to constitute handle contact site 144, this handle contact site 144 is that the center moves up and down in a side with rotating hole 142, and contacts with the push mechanism 138 of sleeve 130.

And, constituting module contact site 146 at the opposite side that is the handle contact site 144 at center with described rotating hole 142, it contacts combination with memory modules 10, finishes the direct insertion and the separation of memory modules 10 by rotation.

Wherein, described module contact site 146 constitutes, and two lower end corner angle of memory modules 10 is supported to finish to insert guide and separate and remove, and be housed in inside, slot 112 lower end.

In addition, closely contact with described pushing piece 140 and for the sleeve 130 of clamp body 110 both sides is moved simultaneously in a side, be connected with sleeve 130 1 ends of both sides in conjunction with and the gangbar 150 that can link.

Described gangbar 150 combines respectively on the rotating part 136 of the sleeve 130 that is positioned at both sides and connects piece 152 as the link gear that the sleeve 130 that makes clamp body 110 both sides moves simultaneously.

And, have and can allow the link member 154 of chain combination of the described both ends rotation that connects piece 152.

Described gangbar 150 like this links together two sleeves 130 for the sleeve 130 that is positioned at clamp body 110 both sides is moved simultaneously.

Here, utilize processor (handler) with memory modules 10 in the process that the test trough of memory modules 10 is installed or unloaded, in order not hinder its action, gangbar 150 constitutes " L " fonts.When therefore using automation equipment to test, the interference of mechanism is minimized.

Below the operation with the one touch type anchor clamps is elaborated to memory module testing with described structure.

At first, Fig. 7 is the figure of expression memory module testing of the present invention with the operation of one touch type anchor clamps.

As described shown in the figure, on the one touch type anchor clamps 200 of the present invention, memory modules 10 two sides contacted combination with the module contact site 146 of pushing piece 140 when memory modules 10 was inserted into slot 112, and drive pushing piece 140 rotations, meanwhile, raise the push mechanism 138 of the sleeve 130 that closely contacts with the handle contact site 144 of pushing piece 140, at this moment, the sleeve 130 that is positioned at clamp body 110 both sides that combines with guide plate 120 with rotating shaft direction to the inside rotates automatically, the promotion ring 134 of sleeve 130 exerts pressure for the top of memory modules 10, thereby stably is inserted in the slot 122.

At this moment, the module contact site 146 of described pushing piece 140 makes two lower ends of memory modules 10 be securely inserted in the connecting hole of slot 112 with supported state.

Opposite, the memory modules 10 of EOT need be extracted from the slot 112 of motherboard, at this moment, sleeve 130 direction rotation laterally, make relative gangbar 150 actions, the sleeve 130 of opposition side is also ensued rotation simultaneously, simultaneously, handle contact site 144 on the pushing piece 140 that extruding and sleeve 130 downside push mechanism 138 are being connected airtight makes it rotation, therefore the module contact site 146 that supports 10 liang of bottoms of memory modules is mentioned upward, and memory modules 10 also easily separates from the connecting hole of slot 112.

Promptly, after the user checks out the abnormality of memory modules 10, in order to remove combining of memory modules 10 and slot 112, the sleeve 130 of both sides is pulled laterally, will make the position, both sides of the module contact site 146 promotion memory modules 10 of pushing piece 140, thereby remove the connection state of memory modules 10.

As mentioned above, one touch type anchor clamps 200 of the present invention have utilized needn't force artificially to insert or extract also can finish indirectly and have inserted or a plurality of pushing pieces 140 pull action, that link with the operation of sleeve 130, finish the insertion of memory modules 10 easily or extract operation.

More than describe embodiments of the invention in detail, but interest field of the present invention is not limited thereto, and utilizes those of ordinary skills' that defined, the of the present invention basic conception of request scope of claims carries out various distortion and improve form all to belong to interest field of the present invention.

Claims (10)

1. memory module testing one touch type anchor clamps are made of following:

Clamp body (110) in order to keep the stationary state of the memory modules (10) that is installed on the motherboard, is inserted in slot (112), forms the patchhole (114) that at least one can laterally enter memory modules (10), connect with vertical slotted hole shape;

Guide plate (120), balanced configuration be in described clamp body (110) both sides, and both sides have the long mobile space (122) that forms on the length direction forwardly;

Sleeve (130), be combined in connecting pin (102) in the mobile space (122) of described guide plate (120), the lower end has and is used for inserting or extract memory modules (10) on slot (112) and a plurality of push mechanism (138) of the vertical up and down application of force, rotates within the specific limits;

Pushing piece (140) closely contacts with the lower surface of the push mechanism (138) of described sleeve (130), and for the direct insertion and the separation of memory modules (10), rotatably the two sides with memory modules (10) are connected combination;

Gangbar (150) closely contacts with described pushing piece (140), for the sleeve (130) that makes clamp body (110) both sides moves simultaneously, is combined in both sides sleeve (130) one ends and can links.

2. memory module testing one touch type anchor clamps as claimed in claim 1 is characterized in that, described slot (112) comprising:

Drive spatial portion (116), at the slot (112) of central authorities' formation " U " shape, the both sides, lower end are rotatably in conjunction with pushing piece (140); Pan (118) is used for combining with the hinge of pushing piece (140), so that pushing piece (140) rotation in the certain limit that drives spatial portion (116).

3. memory module testing one touch type anchor clamps as claimed in claim 1 is characterized in that, described guide plate (120),

Attached to upper end, clamp body (110) both sides, have as the prolongation of patchhole (114) and the mobile space (122) of the length direction of opening, carry out combination with connecting pin (102), so that the rotation of sleeve (130) in the certain limit of mobile space (122), and the push mechanism (138) of sleeve (130) is housed in the mobile space (122) of guide plate (120).

4. memory module testing one touch type anchor clamps as claimed in claim 1 is characterized in that, described sleeve (130) is made of following:

Handle portion (132) is positioned at the upper end, is used for the rotation driving;

Promote ring (134), be combined in described handle portion (132) front side, push the upper end of the memory modules (10) that is installed on the clamp body (110) to fix by rotation by connecting pin (102);

Rotating part (136) links to each other with described handle portion (132), and is connected with gangbar (150) and is used for rotation;

Push mechanism (138) is connected with described rotating part (136), and L-shaped shape is connected with guide plate (120) hinge, carries out the vertical up and down application of force by moving.

5. memory module testing one touch type anchor clamps as claimed in claim 4 is characterized in that, described sleeve (130),

To be formed on the guide plate (120), the push mechanism (138) that a plurality of mobile spaces (122) are accommodated is carried out combination by connecting pin (102), and is that footstalk cover (130) is rotated with the connecting pin.

6. memory module testing one touch type anchor clamps as claimed in claim 4 is characterized in that, described promotion ring (134),

Be configured in the position that contacts with memory modules (10) of sleeve (130) front side, put after (loading) go up to slot (112) at described memory modules (10), when being exerted pressure in the upper end of memory modules (10) by the rotation of sleeve (130), in order to allow described memory modules (10) stably be inserted in the slot (112), the pressure that the rotation of sleeve (130) is brought is sent to memory modules (10), constitutes with a plurality of promotion rings (134).

7. memory module testing one touch type anchor clamps as claimed in claim 1 is characterized in that, described pushing piece (140) comprising:

Rotating hole (142) is the pin shape of certain-length, by the hinge combination, with can be in driving spatial portion (116) the inside lower end rotation of slot (112);

Handle contact site (144) is that the center moves up and down with rotating hole (142), thereby contacts with the push mechanism (138) of sleeve (130);

Module contact site (146) is that handle contact site (144) opposite side at center contacts combination with memory modules (10) with described rotating hole (142), realizes the direct insertion and the separation of memory modules (10) by rotation.

8. memory module testing one touch type anchor clamps as claimed in claim 7, it is characterized in that, described assembly contact site (146) constitutes, and the support of two lower ends of memory modules (10) is guided insert or separate and remove, and be housed in the lower end of slot (112).

9. memory module testing one touch type anchor clamps as claimed in claim 1 is characterized in that, described gangbar (150) has:

Connect piece (152), the link gear as the sleeve (130) that makes clamp body (110) both sides moves simultaneously can combine with the rotating part (136) of sleeve (130) respectively rotatably;

Link member (154) makes the described both ends that connect piece (152) carry out hinged formation rotatably.

10. memory module testing one touch type anchor clamps as claimed in claim 9 is characterized in that, described gangbar (150) connects the sleeve (130) of both sides, makes it to move simultaneously.

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