CN114274107A - Automatic detection production line for server cases - Google Patents

Abstract

The application relates to an automatic detection production line of a server chassis, which relates to the technical field of chassis detection lines and comprises a plurality of groups of test frames, wherein each group of test frames comprises a bearing frame plate and a plurality of support legs, all the support legs are arranged on the bottom wall of the bearing frame plate, and the automatic detection production line also comprises a connecting assembly, and the connecting assembly is used for connecting adjacent test frames; coupling assembling is including directional strip, directional strip sets up on the supporting leg of each test jig length direction one end, run through on the supporting leg of the test jig length direction other end and be provided with the guiding hole that supplies directional strip to pass and still be provided with and be used for being fixed in the mounting in the guiding hole with directional strip. This application has the multiunit test jig of being convenient for and assembles fast, effectively ensures the detection efficiency's of server machine case on the production line effect.

Description

Automatic detection production line for server cases

Technical Field

The application relates to the technical field of case detection lines, in particular to an automatic detection production line for server cases.

Background

The server is a high-performance computer customized for a specific network, having excellent data processing capability, and used for providing data analysis and support for the terminal device. The server chassis is a shell which is arranged on the server body and used for playing a role in supporting and protecting.

In the production and detection of the server case, an operator firstly assembles the case on the server, then scans the codes through the warehousing rotating platform and flows into the stacker crane. The stacker crane conveys the case to the test rack for multiple tests, and the case is conveyed to a rear section packaging line by the stacker crane after the tests are finished so as to be packaged and encapsulated.

With respect to the related art among the above, the inventors consider that the following drawbacks exist: ordinary test jig is mostly the support body that the size is fixed, when the whole length of production line needs the length of stretching, and the test jig is difficult to assemble fast, and then has greatly influenced the detection efficiency of server machine case on the production line.

Disclosure of Invention

In order to improve the problem that a plurality of ordinary test jig are inconvenient to assemble fast, this application provides a server machine case automated inspection production line.

The application provides an automatic production line that detects of server machine case adopts following technical scheme:

the automatic detection production line for the server chassis comprises a plurality of groups of test frames, wherein each group of test frames comprises a receiving frame plate and a plurality of support legs, all the support legs are arranged on the bottom wall of the receiving frame plate, and the automatic detection production line also comprises a connecting assembly used for connecting adjacent test frames; coupling assembling is including directional strip, directional strip sets up on the supporting leg of each test jig length direction one end, run through on the supporting leg of the test jig length direction other end and be provided with the guiding hole that supplies directional strip to pass and still be provided with and be used for being fixed in the mounting in the guiding hole with directional strip.

By adopting the technical scheme, when a plurality of groups of test frames are assembled for use, the orientation strips penetrate through the guide holes to limit the positions of adjacent support legs, so that the connection stability of the test frames is guaranteed; the mounting is used for being fixed in the guiding hole with directional strip, has reduced the phenomenon that directional strip relative guiding hole appears free displacement, and then when improving the test jig and being convenient for assemble, has greatly improved the joint strength of adjacent test jig to application stability after the test jig is assembled has been ensured.

Preferably, the fixing piece comprises an abutting block and a locking bolt; the abutting block is arranged on the supporting leg and abuts against the directional strip penetrating through the guide hole; the locking bolt is in threaded fit with the abutting block, and a locking hole for screwing the locking bolt is formed in the orientation strip.

By adopting the technical scheme, the directional strip penetrating through the guide hole is abutted against the mutually-oriented side wall of the abutting block, so that the phenomenon of free displacement after the directional strip penetrates through the guide hole is reduced; locking bolt fixed connection butt piece and directional strip have ensured the joint strength of directional strip on the supporting leg.

Preferably, the connecting assembly further comprises a positioning bar; the location strip sets up in the one end of accepting the framed panel length direction of each test jig, each the other end of accepting the framed panel length direction of test jig is provided with the joint groove that supplies the location strip to go into and still is provided with the setting element that is used for being fixed in the joint inslot with the location strip.

Through adopting above-mentioned technical scheme, the location strip supports into joint inslot chamber for adjacent position of accepting the deckle board is injectd relatively and is difficult for appearing the phenomenon that the pine shakes, moves partially, and the setting element is used for being fixed in the joint inslot with the location strip, has ensured adjacent joint strength who accepts the deckle board.

Preferably, the positioning member comprises a compression member and a movable block; the bearing frame plate is provided with an inner embedded groove on the inner top wall of the clamping groove, the compression piece is arranged in the inner embedded groove, and the movable block is arranged at one end of the compression piece facing the clamping groove; and the positioning strip is provided with an insertion groove for the movable block to abut into.

By adopting the technical scheme, an operator can press the movable block upwards through the tool to enable the compression piece to be stressed and compressed, and the movable block is abutted into the inner cavity of the embedded groove; after the positioning strip supported the joint inslot cavity, the compression piece freely extended and supported the movable block into the inserting groove cavity, and then was fixed in the joint inslot with the positioning strip.

Preferably, the receiving frame plate is provided with a through hole at the position of the embedded groove, the movable block is provided with an operation plate, and one end of the operation plate, which is far away from the movable block, penetrates through the through hole.

By adopting the technical scheme, when the operating rod is lifted upwards along the vertical direction of the through hole, the compression piece is stressed and compressed, the movable block abuts against the inner cavity of the inner caulking groove, and the positioning strip can be conveniently and quickly abutted; when an operator releases the operating plate, the compression piece freely extends, and the movable block abuts against the inner cavity of the insertion groove; the operation convenience of operators is improved in the process.

Preferably, each supporting leg is provided with a displacement assembly, and the displacement assembly comprises an installation plate, a driving piece and a guide wheel; the mounting panel sets up on the lateral wall of supporting leg, the driving piece sets up on the roof of mounting panel, the mounting panel is worn to locate by the output of driving piece, the leading wheel sets up in the output length direction's of driving piece one end.

Through adopting above-mentioned technical scheme, the driving piece is fixed in supporting leg one side through the mounting panel, and after the overhanging output of driving piece, the leading wheel contacts to earth in order to make progress the whole test jig, and at this moment, the supporting leg is liftoff, and operating personnel is through promoting the quick displacement of test jig to improve the efficiency of assembling of adjacent test jig.

Preferably, a groove-shaped hole for the driving part to pass through is arranged on the mounting plate in a penetrating mode, a clamping and fixing assembly is arranged between the driving part and the mounting plate, and a bearing enclosing plate for bearing the driving part is arranged in the groove-shaped hole of the mounting plate.

By adopting the technical scheme, after the driving piece is abutted to the groove-shaped hole, the driving piece is abutted to the bearing coaming plate so as to be quickly positioned on the mounting plate; the clamping and fixing component is fixedly connected with the driving piece and the mounting plate, so that the driving piece is stably fixed on the mounting plate, and the application stability of the driving piece is guaranteed.

Preferably, the clamping and fixing assembly comprises an external enclosing plate, a connecting screw rod and a locking nut; the external coaming is arranged on the driving piece, the connecting screw rod is arranged on the top wall of the mounting plate, the connecting screw rod penetrates through the external coaming, and the locking nut is in threaded fit on the connecting screw rod.

By adopting the technical scheme, the external enclosing plate increases the contact area of the driving part and the mounting plate, and improves the position stability of the driving part on the mounting plate; after the connecting screw rod penetrates through the external coaming, the locking nut is screwed up on the connecting screw rod through threads, and the connecting strength of the driving piece on the mounting plate is guaranteed.

Preferably, the roof of mounting panel is provided with the mounting groove around the cell type hole periphery, external bounding wall is located the mounting groove.

Through adopting above-mentioned technical scheme, the mounting groove is convenient for external bounding wall to support into, has injectd the position of external bounding wall on the mounting panel, has reduced the phenomenon that external bounding wall appears the pine and shakes, moves partially on the installation bounding wall, and then has improved the application stability of driving piece on the mounting panel.

Preferably, a fixing assembly is arranged between the guide wheel and the driving piece, and the fixing assembly comprises a first support plate, a second support plate and a fixing bolt; the guide wheel is arranged on the first support plate, the second support plate is arranged at one end of the driving part in the length direction of the output end of the driving part, a through groove for the first support plate to abut into is formed in the side wall, far away from the driving part, of the second support plate, and the fixing bolt is used for fixing the second support plate in the through groove.

Through adopting above-mentioned technical scheme, behind the second extension board supported the logical groove inner chamber, fixing bolt fixed connection first extension board and second extension board have ensured the joint strength of leading wheel and driving piece on the output of driving piece.

In summary, the present application has the following beneficial technical effects:

1. when a plurality of groups of test racks are assembled for use, the orientation strips penetrate through the guide holes to limit the positions of adjacent support legs, so that the connection stability of the test racks is guaranteed; the fixing piece is used for fixing the orientation strip in the guide hole, so that the phenomenon that the orientation strip is free to displace relative to the guide hole is reduced, the connection strength of adjacent test frames is greatly improved while the convenience in assembling of the test frames is improved, and the application stability of the assembled test frames is guaranteed;

2. the driving piece is fixed in supporting leg one side through the mounting panel, and after the overhanging output of driving piece, the leading wheel contacts to earth in order to make progress the whole test jig of lifting, and at this moment, the supporting leg is liftoff, and operating personnel is through promoting the quick displacement of test jig to improve the efficiency of assembling of adjacent test jig.

Drawings

Fig. 1 is a schematic structural diagram of an automated inspection production line for server chassis in an embodiment of the present application;

FIG. 2 is a schematic view showing the positional relationship between the test rack and the driving member in the embodiment of the present application;

FIG. 3 is an exploded view of the driving member and mounting plate in the attached relationship in an embodiment of the present application;

FIG. 4 is an exploded view of the guide wheel and driving member in the connection relationship in the embodiment of the present application;

FIG. 5 is a schematic view of the connection of adjacent test racks in an embodiment of the present application;

FIG. 6 is a schematic longitudinal sectional view of the connection between the orientation bar and the receiving frame plate according to the embodiment of the present application.

Description of reference numerals:

1. a test jig; 11. receiving the frame plate; 111. a clamping groove; 112. an embedded groove is formed; 113. a through hole; 12. supporting legs; 121. a guide hole; 2. a displacement assembly; 21. mounting a plate; 211. a slot-shaped hole; 212. carrying enclosing plates; 213. mounting grooves; 22. a drive member; 23. a guide wheel; 3. a clamping component; 31. connecting a coaming externally; 32. connecting a screw rod; 33. a lock nut; 4. a fixing assembly; 41. a first support plate; 42. a second support plate; 421. a through groove; 43. fixing the bolt; 5. a connecting assembly; 51. an orientation bar; 511. a locking hole; 52. a positioning bar; 521. inserting grooves; 6. a fixing member; 61. a butting block; 62. locking the bolt; 7. a positioning member; 71. a compression member; 72. a movable block; 721. an operation panel.

Detailed Description

The embodiment of the application discloses an automatic detection production line for a server case.

The present application is described in further detail below with reference to figures 1-6.

Referring to fig. 1 and 2, the production line includes a plurality of sets of test racks 1. Every group test jig 1 is including accepting framed panel 11 and many supporting legs 12, and in this embodiment, the quantity of supporting leg 12 can be four, and four supporting legs 12 are followed vertical direction integrated into one piece respectively in the diapire four corners department of accepting framed panel 11.

Referring to fig. 1 and 2, a displacement assembly 2 is provided on a side wall of each support leg 12, the displacement assembly 2 including a mounting plate 21 and a driving member 22.

Referring to fig. 3, the mounting plate 21 is welded to the side wall of the support leg 12 in the horizontal direction, a slot-shaped hole 211 is penetratingly provided in the mounting plate 21 in the vertical direction, and the inner diameter of the slot-shaped hole 211 is matched with the outer circumference of the driving member 22. The side wall of the groove-shaped hole 211 is welded with a receiving enclosing plate 212 along the horizontal direction, after the driving part 22 is abutted to the inner cavity of the groove-shaped hole 211, the side wall of the driving part 22 with an output end is abutted to the receiving enclosing plate 212, and the driving part 22 is quickly positioned on the mounting plate 21.

Referring to fig. 2 and 3, a clamping component 3 is arranged between the driving component 22 and the mounting plate 21, and the clamping component 3 includes an external enclosing plate 31. The external enclosing plate 31 is arranged along the periphery of the driving part 22, the top wall of the mounting plate 21 is provided with a mounting groove 213 around the periphery of the groove-shaped hole 211, and the inner diameter size of the mounting groove 213 is matched with the outer periphery size of the groove-shaped hole 211. When the driving member 22 abuts on the receiving surrounding plate 212, the surrounding plate 31 abuts in the mounting groove 213.

Referring to fig. 2 and 3, the chucking assembly 3 further includes a connecting screw 32 and a lock nut 33. The connecting screw rod 32 is vertically welded at four corners of the inner bottom wall of the mounting groove 213, and the connecting screw rod 32 penetrates through the external coaming 31. The locking nut 33 is screwed onto the connecting screw 32 to fix the circumscribing panel 31 in the mounting groove 213, thereby improving the positional stability of the driving member 22 on the mounting plate 21.

Referring to fig. 4, the displacement assembly 2 further includes a guide wheel 23, and the guide wheel 23 is disposed at one end of the driving member 22 in the length direction through the fixing assembly 4. The fixed assembly 4 comprises a first support plate 41, a second support plate 42 and a fixing bolt 43, wherein the guide wheel 23 is fixed on the first support plate 41 through a bolt, and the second support plate 42 is detachably fixed on the output end of the driving piece 22 through a bolt. In the present embodiment, the outer peripheral dimension of the second support plate 42 is greater than the outer peripheral dimension of the first support plate 41, the side wall of the second support plate 42 facing the first support plate 41 is provided with a through groove 421, and the inner diameter dimension of the through groove 421 is matched with the outer peripheral dimension of the first support plate 41.

Referring to fig. 4, the first support plate 41 is inserted into the through slot 421, and the fixing bolt 43 fixedly connects the first support plate 41 and the second support plate 42, so that the first support plate 41 is fixed in the through slot 421, and the guide wheel 23 is quickly mounted on the output end of the driving member 22. When the driving member 22 is in the standby state, the guide wheel 23 is in a suspended state. When a plurality of groups of test frames 1 need to be spliced for use, an operator can control the outward extending output end of the driving piece 22 to enable the guide wheel 23 to contact the ground, so that the supporting legs 12 are lifted off the ground, and the test frames 1 are lifted upwards by a certain height. At this moment, operating personnel can promote test jig 1 with quick displacement, realizes the quick concatenation of multiunit test jig 1.

Referring to fig. 5, the production line further includes a connecting assembly 5, the connecting assembly 5 being used to connect two adjacent sets of test racks 1. The connecting assembly 5 includes the directional bars 51, in this embodiment, the number of the directional bars 51 on each group of the test frame 1 may be four, and four directional bars 51 are two by two and are in one group, and are respectively perpendicular to the side wall of the support leg 12 at one end of the length direction of the test frame 1. The supporting leg 12 at the other end of each group of test frames 1 in the length direction is provided with a guide hole 121 in a penetrating manner, and the inner diameter of the guide hole 121 is matched with the outer periphery of the orientation strip 51. When two test jig 1 are assembled for use, the two adjacent receiving frame plates 11 are abutted against the side walls facing each other, and the orientation strip 51 passes through the guide hole 121, so that the connection stability of the adjacent test jig 1 is ensured.

Referring to fig. 5, the support leg 12 provided with the guide hole 121 is further provided with a fixing member 6, and the fixing member 6 is located at the guide hole 121. The fixing piece 6 comprises a butting block 61, the butting block 61 is vertically welded on the side wall of the supporting leg 12, and the bottom wall of the butting block 61 is on the same horizontal plane with the side wall of the guide hole 121 close to the butting block 61. After the orientation bar 51 passes through the guide hole 121, the orientation bar 51 passes through the side wall of the guide hole 121 to abut against the abutment block 61.

Referring to fig. 5, the fixing member 6 further includes a locking bolt 62, and the locking bolt 62 is screw-fitted to the abutment block 61. The orientation bar 51 is provided with a locking hole 511, and the locking hole 511 is a threaded groove which is in threaded fit with the locking bolt 62. The locking bolt 62 can be screwed in the locking hole 511 to limit the position of the orientation strip 51 relative to the abutment block 61, thereby ensuring the connection strength of the two groups of test pieces.

Referring to fig. 5, the connection assembly 5 further includes two positioning bars 52, in this embodiment, the number of the positioning bars 52 on each set of test rack 1 may be two, and the two positioning bars 52 are welded to one end of the receiving frame plate 11 along the horizontal direction. The end of each receiving frame plate 11 away from the positioning strip 52 is provided with a clamping groove 111, and the inner diameter of the clamping groove 111 is matched with the outer circumference of the positioning strip 52.

Referring to fig. 5, when the two sets of test racks 1 are assembled, the positioning bars 52 are abutted into the inner cavities of the clamping grooves 111 to improve the connection strength of the adjacent bearing frame plates 11. Still be provided with setting element 7 on the accepting framed panel 11 that is provided with joint groove 111, accept framed panel 11 and be provided with the embedded groove 112 that is used for installing setting element 7 in joint groove 111 inner roof.

Referring to fig. 5 and 6, the positioning member 7 includes a compression member 71 and a movable block 72, and in this embodiment, the compression member 71 is a compression spring made of steel. The compression piece 71 is welded on the inner top wall of the inner embedded groove 112 along the vertical direction, the movable block 72 is welded on one end of the compression piece 71 facing the clamping groove 111, and the outer peripheral dimension of the movable block 72 is matched with the inner diameter dimension of the inner embedded groove 112.

Referring to fig. 6, the receiving frame plate 11 is provided with a through hole 113 at the position of the embedded groove 112, and an inner cavity of the through hole 113 is communicated with an inner cavity of the embedded groove 112. An operating plate 721 is welded on the outer side wall of the movable block 72 along the horizontal direction, and one end of the operating plate 721 far away from the movable block 72 passes through the through hole 113. An operator can lift the operating plate 721 in the vertical direction to displace the movable block 72 toward the inner recessed slot 112, so that the compression member 71 is compressed by force, and the movable block 72 is completely located in the inner cavity of the inner recessed slot 112.

Referring to fig. 6, the positioning bar 52 is provided with an insertion groove 521, and the inner diameter of the insertion groove 521 is matched with the outer circumference of the movable block 72. After the positioning bar 52 abuts against the inner cavity of the clamping groove 111, the operator can release the operating plate 721, at this time, the compression piece 71 extends freely, and one end of the movable block 72, which faces the positioning bar 52, abuts against the insertion groove 521, so that the positioning bar 52 is fixed in the clamping groove 111, and the connection strength of the adjacent bearing frame plate 11 is further improved.

The implementation principle of the server case automatic detection production line in the embodiment of the application is as follows: when a plurality of groups of test racks 1 need to be assembled for use, an operator controls the outward extending output end of the driving part 22 to enable the guide wheel 23 to touch the ground, and then the test racks 1 are lifted upwards to be in a suspended state. At this moment, operating personnel can promote the test jig 1 quick displacement, has improved the efficiency of assembling of multiunit test jig 1.

When the adjacent test rack 1 is assembled, an operator first pulls the operating plate 721 upward along the vertical direction, so that the compression piece 71 is compressed under stress, and the movable block 72 abuts against the inner cavity of the inner insertion groove 112. Then, the positioning bar 52 abuts against the inner cavity of the clamping groove 111, and the positioning bar 51 passes through the guide hole 121. At this time, the operator releases the operating plate 721, the compression member 71 extends freely, the movable block 72 abuts against the inner cavity of the inserting groove 521, and the positioning bar 52 is fixed in the engaging groove 111. The operator then screws the locking bolt 62 to fixedly connect the abutment block 61 and the orientation bar 51, further improving the connection strength of the adjacent test racks 1.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (10)

1. The utility model provides an automatic production line that detects of server machine case, includes multiunit test jig (1), every group test jig (1) is including accepting framed panel (11) and many supporting legs (12), all supporting leg (12) set up in accepting framed panel (11) diapire, its characterized in that: the test rack further comprises a connecting assembly (5), wherein the connecting assembly (5) is used for connecting adjacent test racks (1); coupling assembling (5) are including orientation strip (51), orientation strip (51) set up on supporting leg (12) of each test jig (1) length direction one end, run through on supporting leg (12) of the test jig (1) length direction other end and be provided with guide hole (121) that supply orientation strip (51) to pass and still be provided with and be used for being fixed in mounting (6) in guide hole (121) with orientation strip (51).

2. The automated server chassis inspection line of claim 1, wherein: the fixing piece (6) comprises an abutting block (61) and a locking bolt (62); the abutting block (61) is arranged on the supporting leg (12), and the abutting block (61) abuts against the orientation strip (51) penetrating through the guide hole (121); the locking bolt (62) is in threaded fit with the abutting block (61), and a locking hole (511) for screwing the locking bolt (62) is formed in the orientation strip (51).

3. The automated server chassis inspection line of claim 1, wherein: the connection assembly (5) further comprises a positioning bar (52); location strip (52) set up in the one end of accepting framed lamella (11) length direction of each test jig (1), each the other end of accepting framed lamella (11) length direction of test jig (1) is provided with joint groove (111) that supply location strip (52) to go into and still is provided with and is used for being fixed in setting element (7) in joint groove (111) with location strip (52).

4. The automated server chassis inspection line of claim 3, wherein: the positioning piece (7) comprises a compression piece (71) and a movable block (72); an inner embedding groove (112) is formed in the inner top wall of the clamping groove (111) of the bearing frame plate (11), the compression piece (71) is arranged in the inner embedding groove (112), and the movable block (72) is arranged at one end, facing the clamping groove (111), of the compression piece (71); the positioning strip (52) is provided with an insertion groove (521) for the movable block (72) to abut into.

5. The automated server chassis inspection line of claim 4, wherein: the bearing frame plate (11) is provided with a through hole (113) at the position of the embedded groove (112), the movable block (72) is provided with an operation plate (721), and one end, far away from the movable block (72), of the operation plate (721) penetrates through the through hole (113).

6. The automated server chassis inspection line of claim 1, wherein: each supporting leg (12) is provided with a displacement assembly (2), and each displacement assembly (2) comprises an installation plate (21), a driving piece (22) and a guide wheel (23); mounting panel (21) set up on the lateral wall of supporting leg (12), driving piece (22) set up on the roof of mounting panel (21), mounting panel (21) are worn to locate by the output of driving piece (22), leading wheel (23) set up in the one end of the output length direction of driving piece (22).

7. The automated server chassis inspection line of claim 6, wherein: the mounting plate (21) is provided with a groove-shaped hole (211) for the driving part (22) to pass through in a penetrating mode, a clamping and fixing component (3) is arranged between the driving part (22) and the mounting plate (21), and the mounting plate (21) is provided with a bearing enclosing plate (212) used for bearing the driving part (22) in the groove-shaped hole (211).

8. The automated server chassis inspection line of claim 7, wherein: the clamping and fixing component (3) comprises an external enclosing plate (31), a connecting screw rod (32) and a locking nut (33); the external enclosing plate (31) is arranged on the driving piece (22), the connecting screw rod (32) is arranged on the top wall of the mounting plate (21), the connecting screw rod (32) penetrates through the external enclosing plate (31), and the locking nut (33) is in threaded fit with the connecting screw rod (32).

9. The automated server chassis inspection line of claim 8, wherein: the roof of mounting panel (21) is provided with mounting groove (213) around slot type hole (211) periphery, external bounding wall (31) are located mounting groove (213).

10. The automated server chassis inspection line of claim 6, wherein: a fixing assembly (4) is arranged between the guide wheel (23) and the driving part (22), and the fixing assembly (4) comprises a first support plate (41), a second support plate (42) and a fixing bolt (43); the guide wheel (23) is arranged on the first support plate (41), the second support plate (42) is arranged at one end of the driving part (22) in the length direction of the output end, a through groove (421) for the first support plate (41) to abut into is formed in the side wall, far away from the driving part (22), of the second support plate (42), and the fixing bolt (43) is used for fixing the second support plate (42) in the through groove (421).

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