CN113333240A

CN113333240A - Embedded camera microphone frame assembly quality of computer

Info

Publication number: CN113333240A
Application number: CN202110729629.XA
Authority: CN
Inventors: 李卓文; 宋金朋; 童辛迪
Original assignee: Xinxiang Vocational and Technical College
Current assignee: Xinxiang Vocational and Technical College
Priority date: 2021-06-29
Filing date: 2021-06-29
Publication date: 2021-09-03

Abstract

The invention relates to the field of electronic assembly, in particular to an assembly device for a microphone frame of an embedded camera of a computer. The technical problems of the invention are as follows: provided is a computer embedded camera microphone frame assembling device. The technical implementation scheme of the invention is as follows: the utility model provides an embedded camera microphone frame assembly quality of computer, is including rubber coating subassembly, conveying component, microphone assembly component, camera assembly component, pallet, control panel, lower slide rail and first loading dish etc.. The invention realizes the assembly work of a group of cameras and two groups of microphones, the assembly work of the cameras and the two groups of microphones can improve the assembly efficiency of the frame, in addition, when the glue coating treatment is carried out on the installation bottom plate of the cameras, the glue material can extend to four corners of the bottom plate to improve the fitting degree, and meanwhile, the glue material can not overflow from four side edges of the bottom plate.

Description

Embedded camera microphone frame assembly quality of computer

Technical Field

The invention relates to the field of electronic assembly, in particular to an assembly device for a microphone frame of an embedded camera of a computer.

Background

The existing computer is usually integrated with an independent camera and an independent microphone and assembled on a frame of a computer display screen, the camera and the microphone are fixed in a fixed mode through a buckle, the camera and the microphone can be conveniently detached, replaced and processed, and the playability of part modification of the computer integrated frame is greatly improved.

In the assembly work of the integrated frame, the camera is adhered to the mounting base plate through the glue, the base plate and the camera are pushed into the clamping grooves at the rear part of the frame, the base plate is buckled into the clamping plates at the two sides of the frame, then the two groups of microphones are respectively arranged in the clamping grooves at the front side of the frame, because the microphones consist of the sound receiving cylinder and the circuit board, the pull buttons at the two sides of the clamping grooves are required to be extruded towards the two sides before the microphones are pushed into the clamping grooves of the frame, so that the circuit board can enter the frame through the pull buttons, then the pull buttons are loosened to clamp the sound receiving cylinder, therefore, the mounting work of one group of frames needs to be carried out through the complicated assembly steps to influence the assembly efficiency of the frame, in addition, before the camera is adhered to the base plate, the glue spraying treatment needs to be carried out on the surface of the base plate, after the glue is sprayed on the middle part of the base plate, for improving the laminating degree of bottom plate and camera, need to paint the sizing material from the middle part of bottom plate toward extending all around, because the bottom plate is square structure, if use to spread to paint the mode all around with the sizing material to four corners extension of bottom plate, make the sizing material spill over downwards from four sides of bottom plate easily, lead to the serious ash phenomenon of inhaling to appear in the periphery of bottom plate.

Therefore, there is a high necessity for an automated apparatus that can improve the efficiency of the assembly process of the integrated frame to solve the above problems.

Disclosure of Invention

In order to overcome the defects that the assembly efficiency of the whole frame is affected by complex assembly steps of coating glue, fastening accessories, overturning the frame and the like which are needed for completing the installation work of a group of frames, and in addition, if the glue extends from the middle part to four corners of the bottom plate, the glue is easy to overflow downwards from four side surfaces of the bottom plate, so that the serious dust absorption phenomenon occurs at the periphery of the bottom plate, the invention has the technical problems that: provided is a computer embedded camera microphone frame assembling device.

The technical implementation scheme of the invention is as follows: a computer embedded camera microphone frame assembling device comprises a gluing component, a conveying component, a microphone assembling component, a camera assembling component, a support table, a control screen, a lower sliding rail, a first loading disc, a second loading disc and a microphone blanking machine part; a control screen is arranged in the left front of the upper surface of the support table; the left side and the right side in front of the upper surface of the support table are connected with two groups of lower sliding rails; a microphone blanking part is arranged in the middle of the upper surface of the support table; the first loading disc is placed behind the upper surface of the support table; the second loading disc is placed at the right front of the upper surface of the bracket platform; a gluing component is connected in front of the upper surface of the support platform; the glue coating component can carry out glue coating work on the mounting bottom plate of the microphone; the upper surface of the bracket table is connected with a conveying component in front of the second loading disc; the two groups of microphone assembling components are respectively connected to the two sides of the rear part of the conveying component; the group of camera assembling components are connected in front of the conveying component; the conveying assembly can drive the camera assembly and the microphone assembly to respectively rotate and move to the front side and the rear side of the frame to be assembled; the two groups of microphone assembling components can respectively assemble one group of microphones in front of the frame; the camera assembly subassembly can be with the camera assembly in the rear of frame.

Further, the glue spreading assembly comprises a first electric rotating shaft, a first fixing frame, a glue storage box, an electric glue spraying pen, a second fixing frame, a fixing rod, a rubber ring, a third fixing frame, a first electric push rod, a fourth fixing frame, a transmission push rod, a fixing block and a small support; a small bracket is connected in front of the middle part of the upper surface of the bracket platform; a first electric rotating shaft is connected above the small bracket; the right side of the first electric rotating shaft is connected with a first fixing frame; the right side of the first fixing frame is connected with a glue storage box; the bottom end of the glue storage box is connected with an electric glue spraying pen; a second fixing frame is connected below the glue storage box; four groups of fixed rods are connected around the bottom end of the second fixed frame at equal intervals; the bottom end of each group of fixed rods is connected to the inner side of the rubber ring; the middle part of each group of fixed rods is inserted outside the third fixed frame, and the fixed rods are connected to the third fixed frame; two sides of the bottom end of the third fixing frame are respectively connected with a group of first electric push rods; the bottom end of each group of first electric push rods is connected to the top end of the fourth fixing frame; four groups of transmission push rods are connected around the bottom end of the fourth fixing frame at equal intervals through rotating shafts respectively; four groups of fixed blocks are connected with the top end of the surrounding rubber ring at equal intervals; the lower end of each group of transmission push rods is connected with a corresponding group of fixed blocks through a rotating shaft.

Further, the transmission assembly comprises a first rotating shaft, a first straight gear, a second rotating shaft, a second straight gear, a lower sliding block, a first spring wedge-shaped block, a lower rack bar, a third rotating shaft, a third straight gear, a worm wheel and a middle bracket; the upper surface of the bracket platform is connected with a middle bracket in front of the second loading disc; the front part of the middle bracket is connected with a first rotating shaft; the left side of the first rotating shaft is connected with a first straight gear; the rear part of the middle bracket is connected with a second rotating shaft; the left side of the second rotating shaft is connected with a second straight gear; the upper surface of the middle bracket is connected with a lower sliding block above the left side of the first rotating shaft; the top end of the lower sliding block is connected with a first spring wedge-shaped block; the bottom end of the lower sliding block is connected with a lower rack bar; a third rotating shaft is connected to the surface of the middle support below the lower rack bar; the front side and the rear side of the third rotating shaft are respectively connected with a worm and a third straight gear; the third straight gear is connected with the lower rack bar; a worm wheel is connected to the left end of the first rotating shaft below the worm; the worm is connected with the worm wheel; the left side and the right side of the first rotating shaft are symmetrically connected with two groups of lower sliding blocks, a first spring wedge-shaped block, a lower toothed bar, a third rotating shaft, a third straight gear, a worm and a worm wheel; the left side and the right side of the surface of the second rotating shaft are symmetrically connected with two groups of microphone assembling components; the middle part of the surface of the first rotating shaft is connected with a group of camera assembling components.

Further, the microphone assembling component comprises a fifth fixing frame, a sixth fixing frame, a second electric rotating shaft, a first shaft sleeve, a lower push rod, a wedge-shaped sliding block, a second shaft sleeve, a telescopic push rod, a fourth rotating shaft, a second spring sliding block, an arc-shaped clamping plate, a convex strip, a sliding support, a wedge-shaped push block, a push plate and a torsion spring; the surface of the second rotating shaft is connected with a fifth fixing frame; the rear end of the fifth fixing frame is connected with a sixth fixing frame; the bottom end of the sixth fixing frame is connected with a second electric rotating shaft; the middle part of the second electric rotating shaft is connected with a first shaft sleeve; a lower push rod is connected below the first shaft sleeve; the middle part of the rear side of the sixth fixing frame is connected with a wedge-shaped sliding block; the lower push rod is contacted with the bottom end surface of the wedge-shaped slide block; the left side of the second electric rotating shaft is connected with a second shaft sleeve; a telescopic push rod is connected below the second shaft sleeve; the bottom end of the telescopic push rod is connected with a fourth rotating shaft; the sixth fixed frame is connected with a second spring sliding block on the left side of the wedge-shaped sliding block; the rear end of the second spring sliding block is connected with an arc-shaped clamping plate; a plurality of groups of convex strips are connected around the inner arc surface of the arc-shaped clamping plate; the outer side of the encircling arc-shaped clamping plate is connected with a sliding bracket; the outer side of the sliding support is connected with a wedge-shaped push block; the lower part of the wedge-shaped push block is connected with a fourth rotating shaft; the rear end of the wedge-shaped push block is connected with a push plate through a rotating shaft; two groups of torsion springs are symmetrically connected to both sides of the push plate; each group of torsion springs is connected to the wedge-shaped push block; two groups of second shaft sleeves, telescopic push rods, a fourth rotating shaft, second spring slide blocks, arc-shaped clamping plates, convex strips, sliding supports, wedge-shaped push blocks, push plates and torsion springs are symmetrically connected to the left side and the right side of the second electric rotating shaft.

Furthermore, the camera assembly component comprises a seventh fixed frame, an underframe, a second electric push rod and a sliding bracket; the middle part of the first rotating shaft is connected with a seventh fixing frame; the front end of the seventh fixing frame is connected with a bottom frame; the inner surface of the underframe is connected with a second electric push rod; the top end of the underframe is connected with a sliding bracket.

The movable assembly comprises a left electric slide block, a right electric slide block, a third electric push rod, an eighth fixing frame, a downward pressing wedge-shaped block, an electric clamping plate and an adapter plate; the inner surfaces of the two groups of lower sliding rails are respectively connected with a left electric sliding block and a right electric sliding block; the left electric slide block is positioned on the left side of the right electric slide block; the top ends of the left electric sliding block and the right electric sliding block are respectively connected with a group of third electric push rods; the top end of the third electric push rod is connected with an eighth fixed frame; the outer side of the eighth fixed frame is connected with a downward pressing wedge-shaped block; the rear side of the bottom end of the eighth fixing frame is connected with an electric clamping plate; two groups of eighth fixing frames, downward pressing wedge blocks and electric clamping plates are symmetrically arranged on the two groups of third electric push rods; a group of adapter plates is arranged between the two groups of eighth fixing frames, and two ends of each adapter plate are respectively connected with the corresponding group of eighth fixing frames.

Further, the arc-shaped clamping plates are designed to be semi-cylindrical.

Further, the middle part of the sliding support is provided with a round hollow part.

Furthermore, four corners of the top end of the sliding support are provided with four groups of sliding grooves.

The invention has the following advantages: 1. in addition, if the glue extends from the middle part of the bottom plate to four corners, the glue is easy to overflow downwards from four side surfaces of the bottom plate, so that the serious dust absorption phenomenon occurs at the periphery of the bottom plate;

2. the device of the invention comprises: when in use, the device is placed and the support stand is kept stable, the power supply is connected externally, the screen adjusting device is regulated and controlled, then frames to be assembled are sequentially arranged and inserted into the clamping grooves on the two sides of the second loading disc, the camera and the base plate to be installed are placed in the first loading disc, the microphone to be installed is filled into the microphone blanking part, then an operator places a group of base plates on the camera assembly component, the gluing component is used for gluing the top end of the base plate, the glue material is ensured to extend towards the four corner directions of the base plate, the glue material can not overflow downwards from the four side edges of the base plate, then the operator places a group of cameras on the base plate in a lens-up state for bonding, and meanwhile, the microphone blanking part respectively fills the two groups of microphones into the two groups of microphone assembly components in a radio receiver-down state and a circuit board-up state, then the moving component picks up a group of frames on the second loading disc and moves the frames to the upper part of the conveying component, then the moving component places the frames downwards on the conveying component, the conveying component drives two groups of microphone assembling components to respectively upwards turn two groups of microphones by ninety degrees and convey the microphones to the two sides in front of the frames, the conveying component drives the camera assembling component to upwards turn one group of cameras by ninety degrees and convey the cameras to the rear of the frames, then the two groups of microphones are respectively assembled into the front end clamping grooves of the frames by the two groups of microphone assembling components, and simultaneously the camera assembling component assembles the cameras into the rear end clamping grooves of the frames;

3. the invention realizes the assembly work of a group of cameras and two groups of microphones, the assembly work of the cameras and the two groups of microphones can improve the assembly efficiency of the frame, in addition, when the glue coating treatment is carried out on the installation bottom plate of the cameras, the glue material can extend to four corners of the bottom plate to improve the fitting degree, and meanwhile, the glue material can not overflow from four side edges of the bottom plate.

Drawings

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

FIG. 2 is a schematic perspective view of a second embodiment of the present invention;

FIG. 3 is a top view of the present invention;

FIG. 4 is a perspective view of the glue dispensing assembly of the present invention;

FIG. 5 is a schematic partial perspective view of the glue dispensing assembly of the present invention;

FIG. 6 is a perspective view of the transfer assembly of the present invention;

FIG. 7 is a partial perspective view of the transfer assembly of the present invention;

FIG. 8 is a perspective view of a microphone assembly of the present invention;

FIG. 9 is a schematic view of a first partial perspective view of a microphone mounting assembly of the present invention;

FIG. 10 is a schematic view of a second partial perspective view of the microphone mounting assembly of the present invention;

FIG. 11 is a left side view of the push plate of the present invention;

FIG. 12 is a perspective view of the camera mounting assembly of the present invention;

fig. 13 is a schematic perspective view of the moving assembly of the present invention.

The meaning of the reference symbols in the figures: rubber coating subassembly, transmission assembly, microphone assembly spare, camera assembly spare, removal subassembly, 6: a support table, 7: control screen, 8: lower slide rail, 9: first loading tray, 10: second loading tray, 11: microphone blanking part, 101: first electric rotating shaft, 102: first mount, 103: glue storage box, 104: electric glue-spraying pen, 105: second mount, 106: fixing rod, 107: rubber ring, 108: third mount, 109: first electric putter, 110: fourth mount, 111: drive ram, 112: fixed block, 113: small stent, 201: first rotating shaft, 202: first straight gear, 203: second rotating shaft, 204: second spur gear, 205: lower slider, 206: first spring wedge, 207: lower rack, 208: third rotating shaft, 209: third spur gear, 210: worm, 211: worm gear, 212: middle support, 301: fifth mount, 302: sixth fixing frame, 303: second electric rotating shaft, 304: first bushing, 305: push-down rod, 306: wedge shoe, 307: second shaft sleeve, 308: telescopic push rod, 309: fourth rotation shaft, 310: second spring slider, 311: arc splint, 312: convex strip, 313: sliding bracket, 314: wedge-shaped push block, 315: push plate, 316: torsion spring, 401: seventh mount, 402: chassis, 403: second electric putter, 404: sliding support, 501: left electric slider, 502: right electric slider, 503: third electric putter, 504: eighth mount, 505: press wedge, 506: electric splint, 507: an adapter plate.

Detailed Description

Reference herein to an embodiment means that a particular feature, structure, or characteristic described in connection with the embodiment can be included in at least one embodiment of the invention. The appearances of the phrase in various places in the specification are not necessarily all referring to the same embodiment, nor are separate or alternative embodiments mutually exclusive of other embodiments. It is explicitly and implicitly understood by one skilled in the art that the embodiments described herein can be combined with other embodiments.

Examples

An assembly device for a computer embedded camera microphone frame is shown in figures 1-3 and comprises a gluing component, a conveying component, a microphone assembly component, a camera assembly component, a support table 6, a control screen 7, a lower slide rail 8, a first loading disc 9, a second loading disc 10 and a microphone blanking machine part 11; a control screen 7 is arranged at the left front part of the support stand 6; two groups of lower sliding rails 8 are fixed on the left side and the right side of the front part of the upper surface of the support table 6; a microphone blanking part 11 is arranged in the middle of the upper surface of the support stand 6; the first loading tray 9 is placed behind the upper surface of the support table 6; the second loading tray 10 is placed right in front of the upper surface of the rack table 6; a gluing component is fixedly connected in front of the upper surface of the support table 6; the glue coating component can carry out glue coating work on the mounting bottom plate of the microphone; a conveying component is fixedly connected to the upper surface of the bracket table 6 in front of the second loading tray 10; the two groups of microphone assembling components are respectively fixed at the two sides of the rear part of the transmission component; the group of camera assembling components are fixed in front of the conveying component; the conveying assembly can drive the camera assembly and the microphone assembly to respectively rotate and move to the front side and the rear side of the frame to be assembled; the two groups of microphone assembling components can respectively assemble one group of microphones in front of the frame; the camera assembly subassembly can be with the camera assembly in the rear of frame.

When in use, the device is placed and the support stand 6 is kept stable, the power supply is connected externally, the device is regulated and controlled by the control screen 7, then frames to be assembled are sequentially arranged and inserted into the clamping grooves on two sides of the second loading disc 10, the camera and the base plate to be assembled are placed in the first loading disc 9, the microphone to be assembled is filled into the microphone blanking part 11, then a group of base plates are placed on the camera assembly component by an operator, the top end of the base plates are glued by the gluing component, the glue does not overflow from four side edges of the base plates when the glue extends to four corner directions of the base plates, then the operator places a group of cameras on the base plates in a lens-up state for bonding, meanwhile, the microphone blanking part 11 respectively fills the two groups of microphones into the two groups of microphone assembly components in a radio receiver-down state and a circuit board-up state, then the moving component picks up a group of frames on the second loading disc 10 and moves the frames to the upper part of the conveying component, then the moving component places the frames downwards on the conveying component, meanwhile, the conveying component drives two groups of microphone assembling components to respectively upwards turn two groups of microphones by ninety degrees and convey the microphones to the two sides of the front part of the frames, meanwhile, the conveying component drives the camera assembling component to upwards turn one group of cameras by ninety degrees and convey the cameras to the rear part of the frames, then the two groups of microphones are respectively assembled into the front end clamping grooves of the frames by the two groups of microphone assembling components, and simultaneously, the camera assembling component assembles the cameras into the rear end clamping grooves of the frames; the invention realizes the assembly work of a group of cameras and two groups of microphones, the assembly work of the cameras and the two groups of microphones can improve the assembly efficiency of the frame, in addition, when the glue coating treatment is carried out on the installation bottom plate of the cameras, the glue material can extend to four corners of the bottom plate to improve the fitting degree, and meanwhile, the glue material can not overflow from four side edges of the bottom plate.

As shown in fig. 4-5, the glue spreading assembly includes a first electric rotating shaft 101, a first fixing frame 102, a glue storage box 103, an electric glue spraying pen 104, a second fixing frame 105, a fixing rod 106, a rubber ring 107, a third fixing frame 108, a first electric push rod 109, a fourth fixing frame 110, a transmission push rod 111, a fixing block 112, and a small support 113; a small bracket 113 is fixedly connected in front of the middle part of the upper surface of the bracket table 6; a first electric rotating shaft 101 is rotatably connected above the small bracket 113; a first fixing frame 102 is fixedly connected to the right side of the first electric rotating shaft 101; a glue storage box 103 is fixedly connected to the right side of the first fixing frame 102; the bottom end of the glue storage box 103 is fixedly connected with an electric glue-spraying pen 104; a second fixing frame 105 is fixedly connected below the glue storage box 103; four groups of fixed rods 106 are fixedly connected around the bottom end of the second fixed frame 105 at equal intervals; the bottom end of each group of fixed rods 106 is fixedly connected to the inner side of the rubber ring 107; the middle part of each group of fixing rods 106 is inserted outside the third fixing frame 108, and the fixing rods 106 are fixedly connected to the third fixing frame 108; two sides of the bottom end of the third fixing frame 108 are respectively fixedly connected with a group of first electric push rods 109; the bottom end of each group of the first electric push rods 109 is fixed at the top end of the fourth fixing frame 110; four groups of transmission push rods 111 are respectively connected around the bottom end of the fourth fixed frame 110 in an equidistance rotation manner through a rotating shaft; four groups of fixed blocks 112 are fixedly connected around the top end of the rubber ring 107 at equal intervals; the lower end of each group of transmission push rods 111 is rotatably connected with a corresponding group of fixed blocks 112 through a rotating shaft.

After the base plate is placed on the camera assembly component, the first electric rotating shaft 101 drives the first fixing frame 102 and the components connected with the first fixing frame to turn eighty degrees downwards, so that the electric glue spraying pen 104 is suspended above the base plate, then the electric glue spraying pen 104 sprays glue in the glue storage box 103 to the middle of the base plate, then the first electric rotating shaft 101 continues to drive the first fixing frame 102 and the components connected with the first fixing frame to turn ten degrees downwards, so that the rubber ring 107 is pressed on the glue on the base plate, then the first electric push rod 109 pushes the fourth fixing frame 110 downwards, meanwhile, the fourth fixing frame 110 drives the four groups of transmission push rods 111 and simultaneously drives the four groups of fixing blocks 112 to stretch the rubber ring 107 outwards, meanwhile, the four groups of fixing rods 106 respectively limit four parts of the rubber ring 107, so that the rubber ring 107 is pulled by the four groups of fixing blocks 112 to extend towards four corners of the base plate, and simultaneously the rubber ring 107 extends towards the four corners of the glue sprayed on the middle of the base plate, then, the first electric rotating shaft 101 drives the first fixing frame 102 and the components connected with the first fixing frame to turn right angle upwards for resetting, and meanwhile, an operator places a group of cameras on the bottom plate in a state that the lenses face upwards for bonding; the assembly completes the gluing of the base plate.

As shown in fig. 6-7, the transmission assembly includes a first rotating shaft 201, a first spur gear 202, a second rotating shaft 203, a second spur gear 204, a lower slider 205, a first spring wedge 206, a lower rack 207, a third rotating shaft 208, a third spur gear 209, a worm 210, a worm wheel 211 and a middle bracket 212; a middle bracket 212 is fixedly connected to the upper surface of the bracket table 6 in front of the second loading tray 10; a first rotating shaft 201 is rotatably connected to the front of the middle part of the middle bracket 212; a first straight gear 202 is fixedly connected to the left side of the first rotating shaft 201; the rear part of the middle bracket 212 is rotatably connected with a second rotating shaft 203; a second spur gear 204 is fixedly connected to the left side of the second rotating shaft 203; a lower sliding block 205 is connected to the upper surface of the middle bracket 212 in a sliding manner above the left side of the first rotating shaft 201; the top end of the lower sliding block 205 is fixedly connected with a first spring wedge-shaped block 206; the spring members of the first spring wedge 206 are secured to the middle bracket 212; the bottom end of the lower sliding block 205 is fixedly connected with a lower toothed bar 207; a third rotating shaft 208 is rotatably connected to the surface of the middle bracket 212 below the lower rack 207; a worm 210 and a third straight gear 209 are fixedly connected to the front side and the rear side of the third rotating shaft 208 respectively; the third spur gear 209 is meshed with the lower rack bar 207; a worm wheel 211 is fixedly connected to the left end of the first rotating shaft 201 below the worm 210; the worm 210 is meshed with the worm wheel 211; two groups of lower sliding blocks 205, first spring wedge blocks 206, lower toothed bars 207, third rotating shafts 208, third spur gears 209, worms 210 and worm gears 211 are symmetrically arranged on the left side and the right side of the first rotating shaft 201; two groups of microphone assembling components are symmetrically arranged on the left side and the right side of the surface of the second rotating shaft 203; a group of camera assembling components are installed in the middle of the surface of the first rotating shaft 201.

Firstly, the moving component moves the picked frame to the upper part of the two groups of lower sliding blocks 205, then the moving component drives the frame to move downwards, meanwhile, two groups of pressing wedge blocks 505 positioned at two sides of the moving assembly respectively push two groups of first spring wedge blocks 206 to drive two groups of lower sliding blocks 205 to move towards two sides in a compression way, meanwhile, the lower sliding block 205 drives the lower rack 207 to engage with the third spur gear 209 to drive the third rotating shaft 208 to rotate, the third rotating shaft 208 drives the worm 210 to rotate, the worm 210 engages with the worm gear 211 to drive the first rotating shaft 201 to rotate, the first rotating shaft 201 drives the camera head assembly to turn up a group of camera heads by ninety degrees and transmit the group of camera heads to the rear part of the frame, meanwhile, the first rotating shaft 201 drives the first straight gear 202 to rotate, the first straight gear 202 is meshed with the second straight gear 204 to drive the second rotating shaft 203 to rotate, and the second rotating shaft 203 respectively drives the two groups of microphones to upwards turn by ninety degrees and transmit the microphones to the two sides in front of the frame; this assembly has accomplished moving a set of camera and two sets of microphones to the frame front and back both sides of waiting to assemble respectively.

As shown in fig. 8-11, the microphone assembling component includes a fifth fixing frame 301, a sixth fixing frame 302, a second electric rotating shaft 303, a first shaft sleeve 304, a lower push rod 305, a wedge-shaped sliding block 306, a second shaft sleeve 307, a telescopic push rod 308, a fourth rotating shaft 309, a second spring sliding block 310, an arc-shaped clamping plate 311, a convex strip 312, a sliding support 313, a wedge-shaped push block 314, a push plate 315 and a torsion spring 316; a fifth fixing frame 301 is fixedly connected to the surface of the second rotating shaft 203; the rear end of the fifth fixing frame 301 is fixedly connected with a sixth fixing frame 302; the bottom end of the sixth fixing frame 302 is rotatably connected with a second electric rotating shaft 303; a first shaft sleeve 304 is fixedly connected to the middle part of the second electric rotating shaft 303; a lower push rod 305 is fixedly connected below the first shaft sleeve 304; the middle part of the rear side of the sixth fixing frame 302 is connected with a wedge-shaped sliding block 306 in a sliding manner; the lower push rod 305 is in contact with the bottom end surface of the wedge slider 306; a second shaft sleeve 307 is fixedly connected to the left side of the second electric rotating shaft 303; a telescopic push rod 308 is fixedly connected below the second shaft sleeve 307; the bottom end of the telescopic push rod 308 is fixedly connected with a fourth rotating shaft 309; on the left side of the wedge-shaped sliding block 306, a second spring sliding block 310 is connected to the sixth fixing frame 302 in a sliding manner; the spring part of the second spring sliding block 310 is fixedly connected to the sixth fixing frame 302; the rear end of the second spring sliding block 310 is fixedly connected with an arc-shaped clamping plate 311; a plurality of sets of convex strips 312 are fixed around the inner arc surface of the arc splint 311; a sliding bracket 313 is connected around the outer side of the arc-shaped clamping plate 311 in a sliding way; a wedge-shaped push block 314 is fixedly connected to the outer side of the sliding support 313; the lower part of the wedge-shaped push block 314 is rotatably connected with a fourth rotating shaft 309; the rear end of the wedge-shaped push block 314 is rotatably connected with a push plate 315 through a rotating shaft; two groups of torsion springs 316 are symmetrically and fixedly connected to two sides of the push plate 315; each group of torsion springs 316 is fixedly connected to the wedge-shaped push block 314; two groups of second shaft sleeves 307, telescopic push rods 308, fourth rotating shafts 309, second spring sliding blocks 310, arc-shaped clamping plates 311, convex strips 312, sliding supports 313, wedge-shaped push blocks 314, push plates 315 and torsion springs 316 are symmetrically arranged on the left side and the right side of the second electric rotating shaft 303.

Firstly, the push plate 315 is pressed inside the arc-shaped clamp plate 311, the torsion spring 316 is in a state of generating torsional moment, the second electric rotating shaft 303 drives the first shaft sleeve 304 to rotate, the first shaft sleeve 304 drives the wedge-shaped slide block 306 to slide upwards along the sixth fixing frame 302 through the lower push rod 305, simultaneously the wedge-shaped slide block 306 drives the two groups of second spring slide blocks 310 to respectively compress towards two sides along the sixth fixing frame 302, so that the two groups of arc-shaped clamp plates 311 are opened towards two sides, then the microphone blanking part 11 loads the microphone between the two groups of arc-shaped clamp plates 311 in a state that the sound-receiving tube faces downwards and the circuit board faces upwards, then the second electric rotating shaft 303 drives the first shaft sleeve 304 to rotate reversely, so that the two groups of arc-shaped clamp plates 311 clamp the sound-receiving tube of the microphone through the convex strips 312, then the second rotating shaft 203 drives the fifth fixing frame 301 and the parts connected with the fifth fixing frame 301 to turn upwards by ninety degrees and transmit the microphone to one side of the clamping groove at the front end of the frame, then the second electric rotating shaft 303 drives the first shaft sleeve 304 to rotate, so that the two sets of arc-shaped clamping plates 311 are opened towards two sides, meanwhile, the second electric rotating shaft 303 drives the second shaft sleeve 307 to rotate, the second shaft sleeve 307 drives the fourth rotating shaft 309 to drive the wedge-shaped push block 314 and the connected components to move towards the frame direction along the arc-shaped clamping plates 311 through the telescopic push rod 308, when the push plate 315 leaves the arc-shaped clamping plates 311, the torsion spring 316 drives the arc-shaped clamping plates 311 to turn right upwards, so that the arc-shaped clamping plates 311 are erected between the radio receiver of the microphone and the circuit board, then the wedge-shaped push block 314 which moves continuously drives the arc-shaped clamping plates 311 to push the circuit board to move towards the clamping grooves of the frame, meanwhile, when the wedge-shaped push block 314 enters the clamping grooves of the frame, the pull buttons at two sides of the clamping grooves are extruded, so that the microphone can be smoothly pushed into the clamping grooves of the frame from the arc-shaped clamping plates 311, and then the second electric rotating shaft 303 reversely rotates, after the wedge-shaped push block 314 moves away from the clamping groove of the frame in the reverse direction, the two sides of the clamping groove are reset by the extruded pull buckle to clamp the microphone; the assembly completes the assembly of the microphone.

As shown in fig. 12, the camera head assembly includes a seventh fixing frame 401, a chassis 402, a second electric push rod 403 and a sliding bracket 404; a seventh fixing frame 401 is fixedly connected to the middle part of the first rotating shaft 201; a chassis 402 is fixedly connected to the front end of the seventh fixing frame 401; a second electric push rod 403 is fixedly connected to the inner surface of the bottom frame 402; a sliding bracket 404 is fixed to the top end of the chassis 402.

Firstly, the first rotating shaft 201 drives the seventh fixing frame 401 and the components connected with the seventh fixing frame to upwards turn a group of cameras and the adhered bottom plate by ninety degrees and convey the cameras and the adhered bottom plate to the rear of the frame, and then the second electric push rod 403 pushes the bottom plate to move along the sliding grooves of the four corners of the sliding support 404 through the hollow part in the middle of the sliding support 404, so that the cameras are pushed into the clamping grooves in the rear of the frame by the bottom plate and the bottom plate is buckled into the clamping plates on the two sides of the frame; this subassembly has accomplished and has carried out assembly work to the camera.

As shown in fig. 13, the device further comprises a moving assembly, wherein the moving assembly comprises a left electric slider 501, a right electric slider 502, a third electric push rod 503, an eighth fixing frame 504, a downward pressing wedge block 505, an electric clamping plate 506 and an adapter plate 507; the inner surfaces of the two groups of lower slide rails 8 are respectively connected with a left electric slide block 501 and a right electric slide block 502 in a sliding way; the left electric slide 501 is positioned at the left side of the right electric slide 502; the top ends of the left electric sliding block 501 and the right electric sliding block 502 are respectively fixedly connected with a group of third electric push rods 503; an eighth fixing frame 504 is fixedly connected to the top end of the third electric push rod 503; a pressing wedge block 505 is fixedly connected to the outer side of the eighth fixing frame 504; an electric clamping plate 506 is arranged at the rear side of the bottom end of the eighth fixing frame 504; two groups of eighth fixing frames 504, a downward pressing wedge block 505 and an electric clamping plate 506 are symmetrically arranged on the two groups of third electric push rods 503; a set of adapter plate 507 is disposed between the two sets of eighth fixing frames 504, and two ends of the adapter plate 507 are respectively fixedly connected to the corresponding set of eighth fixing frames 504.

Firstly, the left electric slide block 501 and the right electric slide block 502 respectively move along the two groups of lower slide rails 8, so that the electric clamping plate 506 is positioned above the second loading disc 10, then the third electric push rod 503 drives the eighth fixing frame 504 and the components connected thereto to move downwards, so that the two sets of electric clamping plates 506 clamp the two sides of the frame in the second loading tray 10, then the left electric slide 501 and the right electric slide 502 respectively move along the two groups of lower slide rails 8 in opposite directions, meanwhile, the third electric push rod 503 drives the eighth fixing frame 504 and the components connected thereto to move upward above the two sets of lower sliding blocks 205, then the third electric push rod 503 drives the eighth fixing frame 504 and the connected components to move the frame downward, meanwhile, the two groups of downward pressing wedge blocks 505 push the two groups of first spring wedge blocks 206 to drive the lower sliding block 205 to move towards two sides in a compression mode, so that the frame moves downwards to a position aligned with the height of the first spring wedge blocks 206; the assembly completes the transfer work to the frame.

The arc clamp plate 311 is a semi-cylindrical design.

When the arc clamp plate 311 is pushed flat, the arc clamp plate 311 can be hidden inside the wedge-shaped push block 314, and when the arc clamp plate 311 is erected, the arc clamp plate 311 can push the microphone.

The middle part of the sliding bracket 404 is provided with a round hollow.

The second electric push rod 403 can push the bottom plate through the hollow part in the middle of the sliding bracket 404.

Four corners of the top end of the sliding bracket 404 are provided with four groups of sliding grooves.

The bottom plate can be moved along the sliding grooves at the four corners of the sliding support 404.

Finally, it should be noted that the above embodiments are only used for illustrating the technical solutions of the present invention and not for limiting the protection scope of the present invention, and although the present invention is described in detail with reference to the preferred embodiments, it should be understood by those skilled in the art that modifications or equivalent substitutions can be made on the technical solutions of the present invention without departing from the spirit and scope of the technical solutions of the present invention.

Claims

1. A computer embedded camera microphone frame assembly device comprises a support stand and a lower slide rail; the left side and the right side in front of the upper surface of the support table are connected with two groups of lower sliding rails; the method is characterized in that: the device also comprises a gluing component, a conveying component, a microphone assembling component and a camera assembling component; a gluing component is connected in front of the upper surface of the support platform; the glue coating component can carry out glue coating work on the mounting bottom plate of the microphone; the upper surface of the bracket table is connected with a conveying component in front of the second loading disc; the two groups of microphone assembling components are respectively connected to the two sides of the rear part of the conveying component; the group of camera assembling components are connected in front of the conveying component; the conveying assembly can drive the camera assembly and the microphone assembly to respectively rotate and move to the front side and the rear side of the frame to be assembled; the two groups of microphone assembling components can respectively assemble one group of microphones in front of the frame; the camera assembly subassembly can be with the camera assembly in the rear of frame.

2. The computer-embedded camera microphone frame assembly device of claim 1, wherein: the gluing component comprises a first electric rotating shaft, a first fixing frame, a glue storage box, an electric glue spraying pen, a second fixing frame, a fixing rod, a rubber ring, a third fixing frame, a first electric push rod, a fourth fixing frame, a transmission push rod, a fixing block and a small support; a small bracket is connected in front of the middle part of the upper surface of the bracket platform; a first electric rotating shaft is connected above the small bracket; the right side of the first electric rotating shaft is connected with a first fixing frame; the right side of the first fixing frame is connected with a glue storage box; the bottom end of the glue storage box is connected with an electric glue spraying pen; a second fixing frame is connected below the glue storage box; four groups of fixed rods are connected around the bottom end of the second fixed frame at equal intervals; the bottom end of each group of fixed rods is connected to the inner side of the rubber ring; the middle part of each group of fixed rods is inserted outside the third fixed frame, and the fixed rods are connected to the third fixed frame; two sides of the bottom end of the third fixing frame are respectively connected with a group of first electric push rods; the bottom end of each group of first electric push rods is connected to the top end of the fourth fixing frame; four groups of transmission push rods are connected around the bottom end of the fourth fixing frame at equal intervals through rotating shafts respectively; four groups of fixed blocks are connected with the top end of the surrounding rubber ring at equal intervals; the lower end of each group of transmission push rods is connected with a corresponding group of fixed blocks through a rotating shaft.

3. A computer-embedded camera microphone frame mounting apparatus according to claim 2, wherein: the transmission assembly comprises a first rotating shaft, a first straight gear, a second rotating shaft, a second straight gear, a lower sliding block, a first spring wedge block, a lower toothed bar, a third rotating shaft, a third straight gear, a worm wheel and a middle bracket; the upper surface of the bracket platform is connected with a middle bracket in front of the second loading disc; the front part of the middle bracket is connected with a first rotating shaft; the left side of the first rotating shaft is connected with a first straight gear; the rear part of the middle bracket is connected with a second rotating shaft; the left side of the second rotating shaft is connected with a second straight gear; the upper surface of the middle bracket is connected with a lower sliding block above the left side of the first rotating shaft; the top end of the lower sliding block is connected with a first spring wedge-shaped block; the bottom end of the lower sliding block is connected with a lower rack bar; a third rotating shaft is connected to the surface of the middle support below the lower rack bar; the front side and the rear side of the third rotating shaft are respectively connected with a worm and a third straight gear; the third straight gear is connected with the lower rack bar; a worm wheel is connected to the left end of the first rotating shaft below the worm; the worm is connected with the worm wheel; the left side and the right side of the first rotating shaft are symmetrically connected with two groups of lower sliding blocks, a first spring wedge-shaped block, a lower toothed bar, a third rotating shaft, a third straight gear, a worm and a worm wheel; the left side and the right side of the surface of the second rotating shaft are symmetrically connected with two groups of microphone assembling components; the middle part of the surface of the first rotating shaft is connected with a group of camera assembling components.

4. A computer-embedded camera microphone frame mounting apparatus according to claim 3, wherein: the microphone assembling component comprises a fifth fixing frame, a sixth fixing frame, a second electric rotating shaft, a first shaft sleeve, a lower push rod, a wedge-shaped slide block, a second shaft sleeve, a telescopic push rod, a fourth rotating shaft, a second spring slide block, an arc-shaped clamping plate, a convex strip, a sliding support, a wedge-shaped push block, a push plate and a torsion spring; the surface of the second rotating shaft is connected with a fifth fixing frame; the rear end of the fifth fixing frame is connected with a sixth fixing frame; the bottom end of the sixth fixing frame is connected with a second electric rotating shaft; the middle part of the second electric rotating shaft is connected with a first shaft sleeve; a lower push rod is connected below the first shaft sleeve; the middle part of the rear side of the sixth fixing frame is connected with a wedge-shaped sliding block; the lower push rod is contacted with the bottom end surface of the wedge-shaped slide block; the left side of the second electric rotating shaft is connected with a second shaft sleeve; a telescopic push rod is connected below the second shaft sleeve; the bottom end of the telescopic push rod is connected with a fourth rotating shaft; the sixth fixed frame is connected with a second spring sliding block on the left side of the wedge-shaped sliding block; the rear end of the second spring sliding block is connected with an arc-shaped clamping plate; a plurality of groups of convex strips are connected around the inner arc surface of the arc-shaped clamping plate; the outer side of the encircling arc-shaped clamping plate is connected with a sliding bracket; the outer side of the sliding support is connected with a wedge-shaped push block; the lower part of the wedge-shaped push block is connected with a fourth rotating shaft; the rear end of the wedge-shaped push block is connected with a push plate through a rotating shaft; two groups of torsion springs are symmetrically connected to both sides of the push plate; each group of torsion springs is connected to the wedge-shaped push block; two groups of second shaft sleeves, telescopic push rods, a fourth rotating shaft, second spring slide blocks, arc-shaped clamping plates, convex strips, sliding supports, wedge-shaped push blocks, push plates and torsion springs are symmetrically connected to the left side and the right side of the second electric rotating shaft.

5. The camera-microphone frame mounting apparatus for a computer according to claim 4, wherein: the camera assembly component comprises a seventh fixed frame, a bottom frame, a second electric push rod and a sliding support; the middle part of the first rotating shaft is connected with a seventh fixing frame; the front end of the seventh fixing frame is connected with a bottom frame; the inner surface of the underframe is connected with a second electric push rod; the top end of the underframe is connected with a sliding bracket.

6. The camera-microphone frame mounting apparatus for a computer according to claim 5, wherein: the movable assembly comprises a left electric slide block, a right electric slide block, a third electric push rod, an eighth fixing frame, a downward pressing wedge-shaped block, an electric clamping plate and an adapter plate; the inner surfaces of the two groups of lower sliding rails are respectively connected with a left electric sliding block and a right electric sliding block; the left electric slide block is positioned on the left side of the right electric slide block; the top ends of the left electric sliding block and the right electric sliding block are respectively connected with a group of third electric push rods; the top end of the third electric push rod is connected with an eighth fixed frame; the outer side of the eighth fixed frame is connected with a downward pressing wedge-shaped block; the rear side of the bottom end of the eighth fixing frame is connected with an electric clamping plate; two groups of eighth fixing frames, downward pressing wedge blocks and electric clamping plates are symmetrically arranged on the two groups of third electric push rods; a group of adapter plates is arranged between the two groups of eighth fixing frames, and two ends of each adapter plate are respectively connected with the corresponding group of eighth fixing frames.

7. The computer-embedded camera microphone frame assembling apparatus according to any one of claims 4 or 5, wherein: the arc splint is designed as a semi-cylinder.

8. The camera-microphone frame mounting apparatus for a computer according to claim 5, wherein: the middle part of the sliding support is provided with a round hollow.

9. The camera-microphone frame mounting apparatus for a computer according to claim 5, wherein: four corners at the top end of the sliding support are provided with four groups of sliding grooves.