CN114619229A

CN114619229A - Assembly device of production line of computer

Info

Publication number: CN114619229A
Application number: CN202210342071.4A
Authority: CN
Inventors: 王亚云
Original assignee: Shenzhen Kukuli Technology Co ltd
Current assignee: Shenzhen Kukuli Technology Co ltd
Priority date: 2022-04-02
Filing date: 2022-04-02
Publication date: 2022-06-14
Anticipated expiration: 2042-04-02
Also published as: CN114619229B

Abstract

The invention relates to the technical field of computer computers, in particular to an assembling device of a production line of a computer. The reminding auxiliary components are symmetrically positioned at two sides of the upper end of the computer assembly component, wherein the computer assembly component comprises an assembly line shell, a production conveyer belt, an anti-sinking supporting rod, an upper movable sliding rail, two wing electric control blocks, an extension supporting rod, a distance adjusting and controlling rod, an acting platform, an intelligent moving rod, a rotatable column and an upper tightening rod, and can be not completely embedded through screws and extend to different heights, the installation degree of the screw is detected, because the machine body shell is connected by the screw in the process of using the screw, for aesthetic reasons, the screws do not protrude outside the body casing, so that the assembly according to the invention can detect protruding screws, thereby distinguishing whether the screw is normally installed or not, and further when the screw which is not completely installed is encountered, the upper tightening rod can directly tighten the screw, so that the lower assembly of the computer is prevented from being delayed.

Description

Assembly device of production line of computer

Technical Field

The invention relates to the technical field of computer computers, in particular to an assembling device of a production line of a computer.

Background

A computer is composed of a hardware system and a software system, and a computer without any software installed is called a bare computer. The computer can be divided into a super computer, an industrial control computer, a network computer, a personal computer and an embedded computer, and more advanced computers comprise a biological computer, a photon computer, a quantum computer and the like. The computer is widely used in life, wherein the computer is also a common kind of computer, at present, the computer needs to be assembled and produced in the computer production process, and in the computer assembly process, the machine body shell is fixedly connected by screws.

At present, for the attractiveness of a computer, the color of a screw for fixing a machine body shell is often close to that of a shell, so that in the process of checking the collective shell device, machinery can quickly prompt some parts which are forgotten to be embedded into the screw, and for the positions where the screws are not fully embedded, the machinery and naked eyes are difficult to distinguish, so that the machine body shell is not strictly fixed after being installed, and the normal use of the computer is influenced.

Disclosure of Invention

The present invention is directed to an assembly apparatus for a computer production line, which solves the above-mentioned problems.

In order to achieve the purpose, the invention provides the following technical scheme: an assembly device of a production line of a computer and a computer, wherein reminding auxiliary components are symmetrically positioned at two sides of the upper end of a computer assembly component, the computer assembly component comprises an assembly line shell, a production conveyer belt, an anti-sinking supporting rod, an upper movable sliding rail, two wing electric control blocks, an extension supporting rod, a distance adjusting and controlling rod, a working platform, an intelligent moving rod, a rotatable column and a tightening rod, the production conveyer belt is transversely arranged at the middle end of the assembly line shell, the anti-sinking supporting rod is uniformly connected on the assembly line, the upper movable sliding rail is connected at the middle side of the upper end of the assembly line through screws, the two wing electric control blocks are symmetrically and movably connected at two ends of the upper movable sliding rail, the extension supporting rod is connected with the lower ends of the two wing electric control blocks through screws, the distance adjusting and controlling rod is movably connected at one end of the extension supporting rod, the working platform is welded at the lower end of the distance adjusting and controlling rod, wherein the intelligence moves pole swing joint in the one end medial side of doing work platform, rotatable post is located the lower extreme medial side of intelligence bull stick, and wherein the lower extreme medial side at rotatable post is connected by the buckle to the upper tie rod.

Preferably, the anti-sinking support rod is positioned at the inner middle side of the production conveying belt, the anti-sinking support rod is connected with the assembly line shell through screws, the working platform is symmetrically positioned at two sides above the production conveying belt, the rotatable column is connected with the intelligent moving rod through a rotating shaft, and a vacuum groove is formed in one side of the inner end of the working platform.

Preferably, one end of the working platform is movably provided with a real-time reaction rod in a penetrating manner, the real-time reaction rod is arranged in a penetrating manner through the vacuum tank, the lower end of the real-time reaction rod is provided with a contact bottom cap in a buckling connection manner, the contact bottom cap is arranged in a hemispherical shape, the upper end of the real-time reaction rod is provided with a sleeved cylinder in a screw connection manner, the middle side of the inner end of the sleeved cylinder is provided with a feedback sponge block in a gluing connection manner, the outer end of the feedback sponge block is sleeved with a pressing spring, a signal receiving block is arranged above the feedback sponge block and connected onto the working platform through a screw, and one end of the sleeved cylinder is provided with a side abutting contact rod in a screw connection manner.

Preferably, one end of the acting platform penetrates through an angle rotating column which is connected in an electric control mode, a connecting frame which is connected through a buckle is sleeved at the middle end of the angle rotating column, a lower plate which is integrally formed is arranged at one end of the connecting frame, the lower plate is located at the lower end of the side contact rod, an opening is formed in the other end of the connecting frame, a staggered thread is arranged in the middle of the angle rotating column, and the staggered thread is located inside the opening.

Preferably, remind auxiliary assembly including supporting outer tube, tiltable branch pipe, outstanding even piece, disappointing mouth, flexible pipe, embedding inner tube, universal joint feed cylinder, can follow the pipe, clearance connection dish and nylon bale of cloth, wherein the tiltable branch pipe is located the below that supports the outer tube, outstanding even piece symmetry is fixed in the upper end both sides of tiltable branch pipe, and wherein the mouth symmetry of disappointing is seted up in the upper end both sides that support the outer tube, flexible pipe is located the inner well side that supports the outer tube, wherein imbeds the lower extreme of inner tube welded connection at flexible pipe, universal joint feed cylinder cover is on the embedding inner tube, wherein can follow the lower extreme at the universal joint feed cylinder of pipe welded connection, clearance connection dish cover is on can follow the pipe, and wherein the nylon bale of cloth is fixed at the lower extreme of following the pipe by the clamp.

Preferably, the support outer sleeve penetrates through the lower end of the work applying platform to be arranged, the support outer sleeve is connected with the work applying platform through screws, the two protruding connecting blocks are movably connected with the support outer sleeve, the upper end of the telescopic pipe penetrates through the upper end of the work applying platform to be arranged, the telescopic pipe is connected with the work applying platform through screws, the universal material receiving cylinder is movably connected with the embedded inner cylinder, and the gap connecting disc is connected with the follow-up pipe through a buckle.

Preferably, support the inner upside of outer tube and placed last limiting plate, wherein go up limiting plate lower extreme and placed reset spring, the limiting plate has been placed to the reset spring lower extreme, wherein adopt the screw connection between lower limiting plate and the support outer tube, support outer tube upper end one side and run through the pneumatic tube of arranging the screw connection, wherein pneumatic control valve has been arranged to the one end of pneumatic tube, the slurcam has been placed to lower extreme one side of pneumatic tube, wherein the one end of slurcam sets up integrated into one piece's anteextension board, the lower extreme of slurcam runs through the activity and arranges the guide pin.

Preferably, go up spacing board, reset spring and all overlap on flexible pipe with lower spacing board, wherein go up spacing board and flexible between the pipe adopt the screw connection, go up the spacing board and be located the top of disappointing the mouth, wherein the pneumatic tube runs through the upper end of doing work platform and arranges, adopt screw connection between pneumatic tube and the doing work platform, wherein the one end of protracting the board is located between the screw thread of dislocation screw thread, directional guide rod buckle is fixed on the doing work platform.

Compared with the prior art, the invention has the beneficial effects that:

1. by arranging the screw mounting device, the mounting degree of the screw can be detected through different extending heights of the screw without being completely embedded, and because the screw does not protrude outside the machine body shell for the sake of attractiveness in the process of connecting the machine body shell by the screw, the protruding screw can be detected by the component arranged in the screw mounting device, whether the screw is normally mounted or not can be distinguished, and further when the screw which is not completely mounted is not mounted, the screw can be directly screwed by the upper fastening rod, so that the lower part assembly of a computer is prevented from being delayed;

2. by the arrangement of the screw installing device, when the installation integrity of the screw is detected, the position where the screw is absent can be detected, and when the screw is absent, a mark is marked on the position where the screw is absent, so that a worker is reminded to timely repair the screw, and the phenomenon that the screw is missed is prevented.

Drawings

FIG. 1 is a schematic perspective view of the present invention;

FIG. 2 is a right side view of the present invention;

FIG. 3 is a schematic front view in half section of the housing of the assembly line of the present invention;

FIG. 4 is a perspective view of a distance control lever according to the present invention;

FIG. 5 is a schematic semi-sectional perspective view of the work-applying platform of the present invention;

FIG. 6 is a schematic perspective view of the smart rod of the present invention;

FIG. 7 is a schematic semi-sectional perspective view of a support sleeve according to the present invention;

FIG. 8 is a schematic semi-sectional perspective view of the tiltable branch pipe of the present invention;

FIG. 9 is a perspective view of the pneumatic tube of the present invention;

fig. 10 is an enlarged view of the point a in fig. 4 according to the present invention.

In the figure: an assembly line shell 1, a production conveyer belt 11, an anti-sinking stay bar 12, an upper movable slide rail 13, two wing electric control blocks 14, an extension stay bar 15, a distance adjusting and controlling bar 16, a work doing platform 17, a real-time reaction bar 1701, a contact bottom cap 1702, a nestable cylinder 1703, a feedback sponge block 1704, a down-pressing spring 1705, a signal receiving block 1706, a side edge collision bar 1707, an angle rotating column 1708, a bearing connecting frame 1709, a lower plate 1710, a gap 1711, a staggered thread 1712 and an intelligent moving bar 18, the device comprises a rotatable column 19, an upper tightening rod 110, a support outer sleeve 2, an upper limiting plate 201, a return spring 202, a lower limiting plate 203, a pneumatic tube 204, a pneumatic control valve 205, a pushing plate 206, a forward extending plate 207, a leading fixed rod 208, an inclinable branch tube 21, a protruding connecting block 22, a gas release opening 23, a telescopic tube 24, an embedded inner tube 25, a universal connecting tube 26, a follow-up tube 27, a gap connecting disc 28 and a nylon cloth bag 29.

Detailed Description

Features and exemplary embodiments of various aspects of the present invention will be described in detail below. In the following detailed description, numerous specific details are set forth in order to provide a thorough understanding of the present invention. It will be apparent, however, to one skilled in the art that the present invention may be practiced without some of these specific details. The following description of the embodiments is merely intended to provide a better understanding of the present invention by illustrating examples of the present invention. The present invention is in no way limited to any specific configuration and algorithm set forth below, but rather covers any modification, replacement or improvement of elements, components or algorithms without departing from the spirit of the invention. In the drawings and the following description, well-known structures and techniques are not shown in order to avoid unnecessarily obscuring the present invention.

Referring to fig. 1 to 10, the present invention provides a technical solution: the computer assembly component comprises an assembly line shell 1, a production conveyer belt 11, an anti-sinking support rod 12, an upper movable sliding rail 13, two wing electric control blocks 14, an extension support rod 15, a distance adjusting and controlling rod 16, a work platform 17, an intelligent moving rod 18, a rotatable column 19 and an upper tightening rod 110, wherein the production conveyer belt 11 is transversely arranged at the middle end of the assembly line shell 1, the anti-sinking support rod 12 is uniformly connected on the assembly line 1, the upper movable sliding rail 13 is connected to the middle side of the upper end of the assembly line 1 through screws, the two wing electric control blocks 14 are symmetrically and movably connected to two ends of the upper movable sliding rail 13, the extension support rod 15 is connected to the lower ends of the two wing electric control blocks 14 through screws, wherein apart from the one end of adjusting and control pole 16 swing joint at extension branch 15, do work platform 17 welded connection is at the lower extreme of apart from adjusting and control pole 16, and wherein intelligent pole 18 swing joint is moved in the one end medial side of doing work platform 17, and rotatable post 19 is located the lower extreme medial side of intelligent bull stick 18, and wherein last tight pole 110 is connected in the lower extreme medial side of rotatable post 19 by the buckle.

The anti-sinking support rod 12 can support a computer on the assembly line shell 1, so that the computer is prevented from sinking below the acting platform 17, and normal detection of screws is further prevented from being influenced.

By means of the electric connection between the two-wing electric control block 14 and the upper movable sliding rail 13, the two-wing electric control block 14 can slide on the upper movable sliding rail 13, the interval between the two work applying platforms 17 can be effectively adjusted, and meanwhile, the distance adjusting and controlling rod 16 can slide up and down on the extending supporting rod 15, so that the up-and-down adjustment of the work applying platforms 17 is facilitated.

The anti-sinking support rod 12 is located at the inner middle side of the production conveyer belt 11, wherein the anti-sinking support rod 12 is connected with the assembly line shell 1 through screws, the acting platform 17 is symmetrically located at two sides above the production conveyer belt 11, the rotatable column 19 is connected with the intelligent moving rod 18 through a rotating shaft, and a vacuum groove is formed in one side of the inner end of the acting platform 17.

The intelligent moving rod 18 can slide up and down on the doing work platform 17, meanwhile, the rotatable column 19 is driven by the motor, the motor is in signal connection with the signal receiving block 1706, and then the tightening rod 110 can tighten screws which are not tightened by means of rotation of the rotatable column 19, so that the defect in assembling of a computer is avoided.

The real-time reaction rod 1701 is movably arranged at one end of the working platform 17 in a penetrating mode, wherein the real-time reaction rod 1701 is arranged in a penetrating mode through a vacuum groove, a contact bottom cap 1702 connected through a buckle is arranged at the lower end of the real-time reaction rod 1701, the contact bottom cap 1702 is arranged in a hemispherical shape, a cylinder 1703 capable of being sleeved into the real-time reaction rod 1701 in a screw connection mode is arranged at the upper end of the real-time reaction rod 1701, a feedback sponge block 1704 connected through glue is arranged on the middle side of the inner end capable of being sleeved into the cylinder 1703, a pressing spring 1705 is sleeved at the outer end of the feedback sponge block 1704, a signal receiving block 1706 is arranged above the feedback sponge block 1704 and is connected onto the working platform 17 through a screw, and a side abutting rod 1707 connected through the screw is arranged at one end capable of being sleeved into the cylinder 1703.

The real-time reaction rod 1701 is aligned to the position of a mounting screw on the computer, meanwhile, the contact bottom cap 1702 slides over the position of the mounting screw on the computer, and because the screw is always flush with the outer surface of the computer after being fixed for the attractiveness of the computer, if the screw is not fixed in place, the screw protrudes from the computer, at the moment, the protruding screw pushes the real-time reaction rod 1701 by virtue of the semicircular contact bottom cap 1702, the pressing spring 1705 deforms, meanwhile, the feedback sponge 1704 is used for the signal receiving block 1706, and the signal receiving block 1706 is used for recording the position of the computer where the screw is not mounted in place.

The feedback sponge block 1704 is adopted to feed back the screws protruding to different heights, namely the feedback sponge block 1704 has soft protection, so that the signal receiving block 1706 is not damaged.

Acting platform 17 one end runs through the angle rotation post 1708 of arranging automatically controlled connection, wherein the pot head has the bearing of buckle connection even frame 1709 in the angle rotation post 1708, bear the one end of even frame 1709 and arrange integrated into one piece's lower plate 1710, wherein lower plate 1710 is located the lower extreme of side conflict pole 1707, bear the other end of even frame 1709 and set up opening 1711, dislocation screw thread 1712 is arranged at the middle part of angle rotation post 1708, wherein dislocation screw thread 1712 is located opening 1711's inside.

The angle rotation column 1708 is controlled by electric power, and when the device works, the angle rotation column 1708 can rotate, and the lower plate 1710 at this time can be jacked by the side abutting rod 1707.

The reminding auxiliary assembly comprises a supporting outer sleeve 2, a tiltable branch pipe 21, a protruding connecting block 22, an air release opening 23, an extension pipe 24, an embedded inner cylinder 25, a universal material receiving cylinder 26, a follow-up pipe 27, a gap connecting disc 28 and a nylon cloth bag 29, wherein the tiltable branch pipe 21 is positioned below the supporting outer sleeve 2, the protruding connecting block 22 is symmetrically fixed at two sides of the upper end of the tiltable branch pipe 21, the air release opening 23 is symmetrically arranged at two sides of the upper end of the supporting outer sleeve 2, the extension pipe 24 is positioned at the middle side of the inner end of the supporting outer sleeve 2, the embedded inner cylinder 25 is welded at the lower end of the extension pipe 24, the universal material receiving cylinder 26 is sleeved on the embedded inner cylinder 25, the follow-up pipe 27 is welded at the lower end of the universal material receiving cylinder 26, the gap connecting disc 28 is sleeved on the follow-up pipe 27, and the nylon cloth bag 29 is fixed at the lower end of the follow-up pipe 27 through a hoop.

The protruding connecting block 22 is connected with the supporting outer sleeve 2 by a torsion spring, the embedded inner sleeve 25 is connected with the universal material connecting tube 26 by a torsion spring, the lowest end of the tiltable branch tube 21 is tangent to the contact bottom cap 1702, the lowest end of the tiltable branch tube 21 is also arc-shaped, a gap exists between the tiltable branch tube 21 and the supporting outer sleeve 2, when the tiltable branch tube 21 touches the protruding screw, the tiltable branch tube 21 can tilt, under the action of the gap connecting disc 28, the universal material connecting tube 26 can also rotate on the embedded inner sleeve 25, simultaneously the following tube 27 and the nylon cloth bag 29 can tilt, and under the action of the gap connecting disc 28, the nylon cloth bag 29 can not touch the inner wall of the tiltable branch tube 21 in the tilting process, the embedded inner sleeve 25 and the universal material connecting tube 26 adopt a spherical frame, and further, when the universal material connecting tube 26 rotates on the embedded inner sleeve 25, the inner insert 25 can still feed through the universal barrel 26 into the interior of the nylon cloth bag 29, wherein the interior of the nylon cloth bag 29 can be filled with lime which marks the computer during the dropping of the nylon cloth bag 29.

Once the contact bottom cap 1702 contacts the computer and lacks the screw fixing part, the real-time reaction rod 1701 will move downwards under the action of the pressing spring 1705, the side abutting rod 1707 will press the lower plate 1710 downwards, and the angle rotation column 1708 will rotate by means of the receiving connecting frame 1709, the offset thread 1712 will also rotate, the offset thread 1712 will push the pushing plate 206 by means of the forward extending plate 207, the pushing plate 206 will push one end of the air pressure control valve 205, the upper limiting plate 201 will be pushed instantly, the lower end of the extension tube 24 will move downwards, and the return spring 202 will be deformed by force accumulation by means of the lower limiting plate 203, and the nylon cloth bag 29 will contact the surface of the computer and leave the trace of lime convenient for wiping, and the trace of lime will be located near the screw lacking part on the computer, so that the worker can recognize at a glance the actual location of the missing screw on the computer.

The mark can be marked at the position where the screw is lacked so as to remind a worker, the screw can be timely supplemented, and the phenomenon that the screw is missed is prevented.

The support outer sleeve 2 penetrates through the lower end of the work applying platform 17 to be arranged, the support outer sleeve 2 is connected with the work applying platform 17 through screws, the two protruding connecting blocks 22 are movably connected with the support outer sleeve 2, the upper end of the telescopic pipe 24 penetrates through the upper end of the work applying platform 17 to be arranged, the telescopic pipe 24 is connected with the work applying platform 17 through screws, the universal material receiving cylinder 26 is movably connected with the embedded inner cylinder 25, and the gap connecting disc 28 is connected with the follow-up pipe 27 through a buckle.

Support the inner upside of outer tube 2 and placed upper limiting plate 201, wherein reset spring 202 has been placed to upper limiting plate 201 lower extreme, reset spring 202 lower extreme has been placed and has been down limiting plate 203, wherein adopt the screw connection between lower limiting plate 203 and the support outer tube 2, support outer tube 2 upper end one side and run through the pneumatic tube 204 of arranging the screw connection, wherein pneumatic control valve 205 has been arranged to the one end of pneumatic tube 204, push plate 206 has been placed to the lower extreme one side of pneumatic tube 204, wherein the one end of push plate 206 sets up integrated into one piece's preceding board 207 that stretches out, the lower extreme of push plate 206 runs through movable arrangement has guide pin 208.

The outer end of the pneumatic tube 204 can be connected with a pressurizing device, the extending plate 207 can slide on the guiding fixed rod 208 in a reciprocating way, and the pneumatic control valve 205 has the function of automatic resetting.

The upper limiting plate 201, the return spring 202 and the lower limiting plate 203 are all sleeved on the telescopic tube 24, wherein the upper limiting plate 201 is connected with the telescopic tube 24 through screws, the upper limiting plate 201 is located above the air leakage opening 23, the air pressure tube 204 penetrates through the upper end of the working platform 17 and is connected with the working platform 17 through screws, one end of the forward extending plate 207 is located between screw teeth of the staggered threads 1702, and the directional guide rod 208 is fixed on the working platform 17 in a buckling mode.

Different features which are present in different embodiments may be combined to advantage. Other variations to the disclosed embodiments can be understood and effected by those skilled in the art upon studying the drawings, the specification, and the claims. In the claims, the term "comprising" does not exclude other means or steps; the indefinite article "a" does not exclude a plurality; the terms "first" and "second" are used to denote a name and not to denote any particular order. Any reference signs in the claims shall not be construed as limiting the scope. The functions of the various parts appearing in the claims may be implemented by a single hardware or software module. The mere fact that certain measures are recited in mutually different dependent claims does not indicate that a combination of these measures cannot be used to advantage.

Claims

1. The utility model provides an assembly quality of computer's production line, includes that the computer assembly subassembly that has shell screw installation monitor function and the warning auxiliary assembly who has the mark function of marking, its characterized in that: the reminding auxiliary assemblies are symmetrically positioned on two sides of the upper end of the computer assembly, wherein the computer assembly comprises an assembly line shell (1), a production conveying belt (11), an anti-sinking support rod (12), an upper movable sliding rail (13), two-wing electric control blocks (14), an extension support rod (15), a distance adjusting and controlling rod (16), a work applying platform (17), an intelligent moving rod (18), a rotatable column (19) and an upper tightening rod (110), the production conveying belt (11) transversely penetrates through the middle end of the assembly line shell (1) to be arranged, the anti-sinking support rods (12) are uniformly connected to the assembly line (1), the upper movable sliding rail (13) is connected to the middle side of the upper end of the assembly line (1) through screws, the two-wing electric control blocks (14) are symmetrically and movably connected to two ends of the upper movable sliding rail (13), the extension support rod (15) is connected to the lower ends of the two-wing electric control blocks (14) through screws, wherein apart from regulation and control pole (16) swing joint in the one end of extending branch (15), do work platform (17) welded connection is at the lower extreme of apart from regulation and control pole (16), and wherein intelligence is moved pole (18) swing joint in the one end medial side of doing work platform (17), rotatable post (19) are located the lower extreme medial side of intelligence bull stick (18), and wherein last tightrod (110) are connected in the lower extreme medial side of rotatable post (19) by the buckle.

2. The assembling apparatus of a computer production line according to claim 1, wherein: prevent that vaulting pole (12) are located the inner medial side of production conveyer belt (11), wherein adopt the screw connection between anti-sinking vaulting pole (12) and assembly line shell (1), work platform (17) symmetry is located the top both sides of production conveyer belt (11), wherein rotatable post (19) and intelligent move and adopt the pivot to be connected between pole (18), the vacuum groove has been seted up to the inner one side of work platform (17).

3. The assembling apparatus of a computer production line according to claim 2, wherein: the working platform is characterized in that a real-time reaction rod (1701) is movably arranged at one end of the working platform (17) in a penetrating mode, the real-time reaction rod (1701) is arranged in a penetrating mode through a vacuum groove, a contact bottom cap (1702) connected in a buckling mode is arranged at the lower end of the real-time reaction rod (1701), the contact bottom cap (1702) is arranged in a hemispherical mode, a sleeved cylinder (1703) connected with a screw is arranged at the upper end of the real-time reaction rod (1701) in a penetrating mode, a feedback sponge block (1704) connected with glue is arranged on the middle side of the inner end of the sleeved cylinder (1703), a pressing spring (1705) is sleeved at the outer end of the feedback sponge block (1704), a signal receiving block (1706) is arranged above the feedback sponge block (1704), the signal receiving block (1706) is connected to the working platform (17) through a screw, and the side edge of the sleeved cylinder (1703) abuts against the contact rod (1707).

4. The assembling apparatus of a computer production line according to claim 3, wherein: acting platform (17) one end is run through the angle rotation post (1708) of arranging automatically controlled connection, and wherein the pot head has the bearing of buckle connection even frame (1709) in angle rotation post (1708), the lower level board (1710) of integrated into one piece is arranged to the one end of bearing even frame (1709), and wherein lower level board (1710) are located the lower extreme that the side supported feeler lever (1707), bear even frame (1709) other end and set up opening (1711), dislocation screw thread (1712) are arranged at angle rotation post (1708) middle part, wherein dislocation screw thread (1712) are located the inside of opening (1711).

5. The assembling apparatus of a computer production line according to claim 1, wherein: the reminding auxiliary assembly comprises a supporting outer sleeve (2), a tiltable branch pipe (21), a protruding connecting block (22), an air leakage opening (23), a telescopic pipe (24), an embedded inner cylinder (25), a universal material receiving cylinder (26), a follow-up pipe (27), a gap connecting disc (28) and a nylon cloth bag (29), wherein the tiltable branch pipe (21) is positioned below the supporting outer sleeve (2), the protruding connecting block (22) is symmetrically fixed at two sides of the upper end of the tiltable branch pipe (21), the air leakage opening (23) is symmetrically arranged at two sides of the upper end of the supporting outer sleeve (2), the telescopic pipe (24) is positioned at the middle side of the inner end of the supporting outer sleeve (2), the embedded inner cylinder (25) is welded at the lower end of the telescopic pipe (24), the universal material receiving cylinder (26) is sleeved on the embedded inner cylinder (25), and the follow-up pipe (27) is welded at the lower end of the universal material receiving cylinder (26), the gap connecting disc (28) is sleeved on the follow-up pipe (27), wherein the nylon cloth bag (29) is fixed at the lower end of the follow-up pipe (27) through a hoop.

6. The assembly line of computer computers as claimed in claim 5, wherein: the support outer sleeve (2) runs through the lower end of the work application platform (17) and is arranged, wherein the support outer sleeve (2) is connected with the work application platform (17) through screws, the two protruding connecting blocks (22) are movably connected with the support outer sleeve (2), the upper end of the telescopic pipe (24) runs through the upper end of the work application platform (17) and is arranged, the telescopic pipe (24) is connected with the work application platform (17) through screws, the universal material receiving cylinder (26) is movably connected with the embedded inner cylinder (25), and the gap connecting disc (28) is connected with the follow-up pipe (27) through a buckle.

7. The assembling apparatus of a computer production line according to claim 6, wherein: support outer tube (2) inner upside and placed last limiting plate (201), wherein go up limiting plate (201) lower extreme and placed reset spring (202), limiting plate (203) down has been placed to reset spring (202) lower extreme, wherein adopt screw connection between limiting plate (203) down and the support outer tube (2), support outer tube (2) upper end one side and run through pneumatic tube (204) of arranging screw connection, wherein pneumatic control valve (205) have been arranged to the one end of pneumatic tube (204), catch plate (206) have been placed to lower extreme one side of pneumatic tube (204), wherein the one end of catch plate (206) sets up integrated into one piece's anteextension board (207), the lower extreme of catch plate (206) runs through the activity and has arranged guide fixed pole (208).

8. The assembling apparatus of a computer production line according to claim 7, wherein: go up spacing board (201), reset spring (202) and all overlap on flexible pipe (24) with spacing board (203) down, wherein go up and adopt the screw connection between spacing board (201) and flexible pipe (24), go up spacing board (201) and be located the top of disappointing mouthful (23), wherein pneumatic tube (204) run through the upper end of doing work platform (17) and arrange, adopt the screw connection between pneumatic tube (204) and the doing work platform (17), wherein the one end of protraction board (207) is located between the silk tooth of dislocation screw thread (1702), directional guide rod (208) buckle is fixed on doing work platform (17).