CN219446184U

CN219446184U - Automatic nail burying device for computer rear shell

Info

Publication number: CN219446184U
Application number: CN202320646213.6U
Authority: CN
Inventors: 何国峰
Original assignee: Mofan Dingsheng Chongqing Technology Co ltd
Current assignee: Mofan Dingsheng Chongqing Technology Co ltd
Priority date: 2023-03-29
Filing date: 2023-03-29
Publication date: 2023-08-01
Anticipated expiration: 2033-03-29

Abstract

The utility model relates to the technical field of machining, in particular to a device for automatically burying nails in a computer rear shell. Including casing body and movable mechanism, movable mechanism includes the motor, the motor frame, the dwang, the gear, rack and work platform, the motor provides power for the casing body, the motor frame provides the installation condition for the motor is placed at casing body inside wall, the dwang provides the rotation condition for the motor drives gear rotation, the rack provides the slip condition for the gear drive work platform slip, when motor drive, when forward motion, the motor drives the dwang and rotates in situ, the dwang drives the gear equidirectional motion, the gear drives the rack equidirectional slip, the rack drives work platform equidirectional slip, when reverse motion, the gear is reverse to drive the rack equidirectional slip, the slip drives work platform and resets for work platform slides under motor drive, work platform gliding problem has been solved.

Description

Automatic nail burying device for computer rear shell

Technical Field

The utility model relates to the technical field of machining, in particular to a device for automatically burying nails in a computer rear shell.

Background

The automatic nail burying device is used for burying copper nails into plastic parts such as notebooks, and the nail burying process in the existing device is unstable, so that the burying speed is low, and the accuracy is not high.

Prior art CN210362179U discloses an automatic nail device of burying of double-end in notebook shell mould, including quick-witted case, board, frame, vibration dish, first nail aircraft nose, second nail aircraft nose, compressor and work piece tool of burying, the compressor is located quick-witted incasement, and is connected with the work piece tool, the board sets up the upper end at the machine case, the frame is located on the board, vibration dish, first nail aircraft nose and second are buried the nail aircraft nose and are located in the frame to first nail aircraft nose and second are buried the nail aircraft nose and are located work piece tool top. The double-head automatic nail burying device in the notebook shell mold has the advantages of simple and reasonable structure, convenient use, low application cost and good adaptability, and can greatly reduce labor force, screen copper nails with qualified sizes by the vibrating plate, stably bury the nails, high embedding speed, high accuracy, saving production cost and greatly improve production efficiency.

When the workpiece fixture is normally used, the workpiece fixture cannot slide, so that the embedding range of the embedding machine head is limited by the embedding area provided by the workpiece fixture, and the embedding range of the embedding machine head is small.

Disclosure of Invention

The utility model aims to provide a device for automatically embedding nails in a rear shell of a computer, which aims to better slide a working jig in the nailing process so as to enlarge the nailing range of a nailing machine head.

In order to achieve the above purpose, the utility model provides a device for automatically burying nails in a rear shell of a computer, which comprises a shell body and a movable mechanism, wherein the movable mechanism comprises a motor, a motor frame, a rotating rod, a gear, a rack and a working platform, the motor frame is fixedly connected with the shell body and is positioned on the inner side wall of the shell body, the motor is fixedly connected with the motor frame and is positioned on one side of the motor, the rotating rod is fixedly connected with the motor and is positioned at the output end of the motor, the gear is fixedly connected with the rotating rod and is positioned on one side of the rotating rod away from the motor, the rack is meshed with the gear and is positioned on one side of the gear, and the working platform is fixedly connected with the rack and is positioned on one side of the rack away from the gear.

The motor frame comprises a group of fixing rods and a group of supporting rods, the fixing rods are fixedly connected with the machine shell body and located on the inner side wall of the machine shell body, and the supporting rods are arranged on one side of the fixing rods.

The motor frame further comprises bolts, the fixing rods and the supporting rods are respectively provided with bolt hole sites, and the bolts penetrate through the bolt hole sites.

The machine shell comprises a machine shell body, a working platform and a machine shell body, wherein the machine shell body further comprises a sliding guide rail which is fixedly connected with the working platform and is positioned on one side of the working platform, close to the machine shell body.

The sliding guide comprises a sliding guide body, two groups of fixing blocks and second bolts, wherein the fixing blocks are in threaded connection with the casing body and located on the outer side wall of the casing body, the fixing blocks are provided with second bolt hole sites, the second bolts penetrate through the second bolt hole sites, and the sliding guide body is fixedly connected with the fixing blocks and located on one side of the fixing blocks.

According to the automatic nail burying device for the computer rear shell, the motor provides power for the shell body, the motor frame provides mounting conditions for the motor to be placed on the inner side wall of the shell body, the rotating rod provides rotating conditions for the motor to drive the gear to rotate, the rack provides sliding conditions for the gear to drive the working platform to slide, when the motor drives, the motor drives the rotating rod to rotate in situ during forward movement, the rotating rod drives the gear to move in the same direction, the gear drives the rack to slide in the same direction, the rack drives the working platform to slide in the same direction, and when the rack moves in the reverse direction, the gear reversely drives the rack to slide in the same direction, and the sliding drives the working platform to reset, so that the working platform slides under the driving of the motor, and the problem of sliding of the working platform is solved.

Drawings

In order to more clearly illustrate the embodiments of the present utility model or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below.

Fig. 1 is a block diagram of an automatic nailing device for a computer rear case according to a first embodiment of the present utility model.

Fig. 2 is a structural view of the non-mounted casing body of fig. 1.

Fig. 3 is a structural view of the mounting rail of fig. 1 according to a second embodiment of the present utility model.

Fig. 4 is an enlarged view at detail a of fig. 3.

101-casing body, 102-movable mechanism, 103-motor, 104-motor frame, 105-dwang, 106-gear, 107-rack, 108-work platform, 109-dead lever, 110-bracing piece, 111-bolt, 112-bolt hole site, 201-sliding guide, 202-sliding guide body, 203-fixed block, 204-second bolt, 205-second bolt hole site.

Detailed Description

Embodiments of the present utility model are described in detail below, examples of which are illustrated in the accompanying drawings, wherein like or similar reference numerals refer to like or similar elements or elements having like or similar functions throughout. The embodiments described below by referring to the drawings are illustrative and intended to explain the present utility model and should not be construed as limiting the utility model.

Referring to fig. 1 to 2, fig. 1 is a block diagram of an automatic nailing device for a computer rear case according to a first embodiment of the present utility model. Fig. 2 is a structural view of the non-mounted casing body of fig. 1. The utility model provides a device for automatically burying nails in a computer rear shell, which comprises: including casing body 101 and movable mechanism 102, movable mechanism 102 includes motor 103, motor frame 104, dwang 105, gear 106, rack 107 and work platform 108, motor frame 104 includes a set of dead lever 109 and a set of bracing piece 110, motor frame 104 still includes a set of bolt 111, solves the problem that current work piece tool can not slide through the aforesaid scheme, and aforesaid scheme can be used to the slip problem of work piece tool, can also be used to the slip range problem of work piece tool.

In this embodiment, the motor frame 104 is fixedly connected to the housing body 101 and is located on an inner side wall of the housing body 101, the motor 103 is fixedly connected to the motor frame 104 and is located on one side of the motor frame 104, the rotating rod 105 is fixedly connected to the motor 103 and is located at an output end of the motor 103, the gear 106 is fixedly connected to the rotating rod 105 and is located on one side of the rotating rod 105 away from the motor 103, the rack 107 is in meshed connection with the gear 106 and is located on one side of the gear 106, the working platform 108 is fixedly connected to the rack 107 and is located on one side of the rack 107 away from the gear 106. The motor 103 provides power for the casing body 101, the motor frame 104 is for the motor 103 places the casing body 101 inside wall provides the mounting condition, the dwang 105 is for the motor 103 drives the gear 106 rotates and provides the rotation condition, the rack 107 is for the gear 106 drives the work platform 108 slides and provides the slip condition, when the motor 103 drives, in forward motion, the motor 103 drives dwang 105 in situ rotation, the dwang 105 drives the gear 106 co-directional motion, the gear 106 drives rack 107 co-directional slip, rack 107 drives the work platform 108 co-directional slip, and in reverse motion, rack 107 drives the work platform 108 resets for the work platform 108 is in the motor 103 drives the gliding problem of work platform 108.

The fixing rod 109 is fixedly connected with the housing body 101 and is located on the inner side wall of the housing body 101, and the supporting rod 110 is disposed on one side of the fixing rod 109. The fixing rod 109 provides mounting conditions for the motor 103 to be mounted on the inner side wall of the casing body 101, the supporting rod 110 provides support for the motor 103 to be mounted on the inner side wall of the casing body 101, when the motor 103 is vertically placed on the casing body 101, the fixing rod 109 fixes the position of the motor 103 in the casing of the casing body 101, and the supporting rod 110 supports the motor 103 to be vertical to the inner side wall of the casing body 101, so that the motor 103 can be vertically placed in the casing of the casing body 101, and the fixing problem of the motor 103 is solved.

Finally, the fixing rod 109 and the supporting rod 110 are respectively provided with a bolt hole site 112, the bolt 111 penetrates through the bolt hole site 112, the bolt 111 provides a connection relationship for the fixing rod 109 and the supporting rod 110, when the motor frame 104 is installed in the shell of the casing body 101, the bolt 111 respectively fixes the fixing rod 109 and the supporting rod 110 on the inner side wall of the casing body 101, so that the motor frame 104 is fixedly installed on the inner side wall of the casing body 101, and the problem of installation of the motor frame 104 is solved.

When the automatic nail burying device of the computer rear shell is used, the motor 103 provides power for the machine shell body 101, the motor frame 104 is used for providing mounting conditions for the motor 103 to be placed on the inner side wall of the machine shell body 101, the rotating rod 105 is used for driving the gear 106 to rotate to provide rotating conditions, the rack 107 is used for driving the working platform 108 to slide to provide sliding conditions, firstly, when the motor 103 is vertically placed on the machine shell body 101, the fixing rod 109 is used for fixing the position of the motor 103 in the machine shell body 101, the supporting rod 110 is used for supporting the motor 103 to be vertical to the inner side wall of the machine shell body 101, so that the motor 103 can be vertically placed in the machine shell body 101, and the problem of fixing the motor 103 is solved. Secondly, when the motor frame 104 is mounted in the casing of the casing body 101, the bolts 111 fix the fixing rod 109 and the supporting rod 110 on the inner side wall of the casing body 101, so that the motor frame 104 is fixedly mounted on the inner side wall of the casing body 101, and the problem of mounting the motor frame 104 is solved. Finally, when the motor 103 is driven, during forward movement, the motor 103 drives the rotating rod 105 to rotate in situ, the rotating rod 105 drives the gear 106 to move in the same direction, the gear 106 drives the rack 107 to slide in the same direction, the rack 107 drives the working platform 108 to slide in the same direction, during reverse movement, the gear 106 reversely drives the rack 107 to slide in the same direction, and the sliding drives the working platform 108 to reset, so that the working platform 108 slides under the driving of the motor 103, and the problem that the working platform 108 slides is solved.

Second embodiment

Referring to fig. 3 to 4, fig. 3 is a block diagram of the installation slide rail of fig. 1 according to a second embodiment of the present utility model. Fig. 4 is an enlarged view at detail a of fig. 3. On the basis of the first embodiment, the automatic nailing device for the computer rear shell further comprises a sliding guide rail 201, wherein the sliding guide rail 201 comprises a sliding guide rail body 202, two groups of fixing blocks 203 and a second bolt 204.

The sliding guide 201 is fixedly connected with the working platform 108, and is located at one side of the working platform 108 close to the casing body 101. When the working platform 108 slides on the outer side wall of the casing body 101, the sliding guide rail 201 limits the sliding range of the working platform 108, so that the working platform 108 slides in the sliding guide rail 201, and the problem of the sliding range of the working platform 108 is solved.

The fixed block 203 is in threaded connection with the casing body 101 and is located on the outer side wall of the casing body 101, the fixed block 203 is provided with a second bolt hole 205, the second bolt 204 penetrates through the second bolt hole 205, and the sliding guide rail body 202 is fixedly connected with the fixed block 203 and is located on one side of the fixed block 203. When the working platform 108 slides on the sliding rail body 101, the second bolts 204 fix the fixing blocks 203 and the sliding rail body 202 on the outer side wall of the casing body 101, so that the sliding rail body 202 is fixed on the outer side wall of the casing body 101, and the fixing problem of the sliding rail body 202 is solved.

The above disclosure is only a preferred embodiment of the present utility model, and it should be understood that the scope of the utility model is not limited thereto, and those skilled in the art will appreciate that all or part of the procedures described above can be performed according to the equivalent changes of the claims, and still fall within the scope of the present utility model.

Claims

1. An automatic nail embedding device for a computer rear shell comprises a shell body and is characterized in that,

the movable mechanism comprises a motor, a motor frame, a rotating rod, a gear, a rack and a working platform, wherein the motor frame is fixedly connected with the casing body and is positioned on the inner side wall of the casing body, the motor is fixedly connected with the motor frame and is positioned on one side of the motor, the rotating rod is fixedly connected with the motor and is positioned at the output end of the motor, the gear is fixedly connected with the rotating rod and is positioned on one side of the rotating rod, which is far away from the motor, the rack is meshed with the gear and is positioned on one side of the gear, and the working platform is fixedly connected with the rack and is positioned on one side of the rack, which is far away from the gear.

2. The automatic nailing device for a computer backshell of claim 1, wherein,

the motor frame comprises a group of fixing rods and a group of supporting rods, wherein the fixing rods are fixedly connected with the machine shell body and are positioned on the inner side wall of the machine shell body, and the supporting rods are arranged on one side of the fixing rods.

3. A computer rear case automatic nail embedding device as claimed in claim 2, wherein,

the motor frame further comprises a set of bolts, the fixing rods and the supporting rods are respectively provided with bolt hole sites, and the bolts penetrate through the bolt hole sites.

4. The automatic nailing device for a computer backshell of claim 1, wherein,

the casing body further comprises a sliding guide rail which is fixedly connected with the working platform and is positioned on one side, close to the casing body, of the working platform.

5. The automatic nailing device for a computer backshell of claim 4, wherein,

the sliding guide comprises a sliding guide body, two groups of fixing blocks and a group of second bolts, wherein the fixing blocks are in threaded connection with the casing body and are positioned on the outer side wall of the casing body, the fixing blocks are provided with second bolt hole sites, the second bolts penetrate through the second bolt hole sites, and the sliding guide body is fixedly connected with the fixing blocks and positioned on one side of the fixing blocks.