CN211197517U - Rapid stability notebook computer built-in member production transfer device - Google Patents

Abstract

The utility model discloses a rapid stabilization notebook computer built-in components production transfer device relates to computer built-in components technical field, when transporting through the conveyer belt to current computer built-in components, is difficult for classifying synchronous transportation to different types of built-in components to reduced the problem to the transport efficiency of built-in components, the scheme is presented now, including the rack, the upper surface bilateral symmetry fixedly connected with suspension of rack, the surface distribution fixedly connected with baffle fastener under the top of suspension, the suspension is connected with the baffle through baffle fastener block, the top transmission of rack is connected with the conveyer belt. The utility model discloses a plurality of spaces can be cut apart into with the upper surface of conveyer belt to the built-in spare of computer to a plurality of differences carries out categorised synchronous transfer to carry, has improved the transportation efficiency of built-in spare, through the design of suspension, the installation and the dismantlement of the baffle of being convenient for on the rack.

Description

Rapid stability notebook computer built-in member production transfer device

Technical Field

The utility model relates to a computer built-in spare technical field especially relates to a rapid stabilization nature notebook computer built-in spare production transfer device.

Background

A notebook computer component generally refers to the hardware required for a combination computer. These components include computer built-in components such as a built-in memory, in addition to a computer case and the like mounted on the outside, and these components constitute a hardware system of a computer according to a certain rule. The built-in subassembly of computer also is that built-in size of piece respectively has the difference, and current built-in of computer is when transporting through the conveyer belt, is difficult for classifying the synchronous transportation to different types of built-in to the transportation efficiency to built-in has been reduced.

SUMMERY OF THE UTILITY MODEL

The utility model provides a pair of rapid stabilization nature notebook computer built-in member production transfer device has solved current computer built-in member and when transporting through the conveyer belt, is difficult for classifying the synchronous transportation to different types of built-in member to the problem of the transport efficiency to built-in member has been reduced.

In order to achieve the above purpose, the utility model adopts the following technical scheme:

the utility model provides a rapid stabilization notebook computer embeds a production transfer device, includes the rack, the upper surface bilateral symmetry fixedly connected with suspension of rack, the top lower surface distribution fixedly connected with baffle fastener of suspension, the suspension is connected with the baffle through baffle fastener block, the top transmission of rack is connected with the conveyer belt, the bottom surface of baffle laminates with the upper surface of conveyer belt mutually.

Preferably, the inside of suspension is located the top of baffle and has seted up spacing tip movable groove, the inside fixedly connected with guiding axle in spacing tip movable groove, spacing tip movable groove is connected with a pair of spacing tip through guiding axle slip block, the inside in spacing tip movable groove is located and is provided with spacing extension spring between two spacing tips, just the both ends of spacing extension spring are connected with the external fixed surface of two spacing tips respectively.

Preferably, the limiting pin is an L-shaped structure, a reserved strip hole matched with the top end of the limiting pin is formed in the upper surface of the suspension, limiting holes are formed in two sides of the outer surface of the partition plate, and the bottom end of the limiting pin penetrates through the surface of the partition plate clamping piece and then is connected with the limiting holes in a clamping mode.

Preferably, the bottom end of the suspension frame penetrates through the surface and is provided with a positioning hole, the outer surface of the rack is fixedly connected with a limiting screw matched with the positioning hole, and one end of the limiting screw is fixedly connected with a limiting nut.

Preferably, the both ends of rack all have a rotating gear dish through pivot swing joint, the conveyer belt is coiled with rotating gear dish's surface and is connected, rotating gear dish's dish axle and motor spindle fixed connection, motor and external power source electric connection, the front surface fixed connection of rack has motor operating panel, motor operating panel and motor electric connection.

Compared with the prior art, the beneficial effects of the utility model are that: the utility model discloses a design of baffle, can cut apart into a plurality of spaces with the upper surface of conveyer belt, thereby can classify the synchronous transportation to the computer built-in spare of a plurality of differences and carry, the transport efficiency of built-in spare has been improved, through the design of suspension, the baffle of being convenient for is installation and dismantlement on the rack, through the design of spacing tip and baffle fastener, be convenient for baffle and suspension between be connected fixedly, through the positioning hole, spacing screw and stop nut's design, be convenient for adjust the vertical height of suspension according to the different height of built-in spare.

Drawings

Fig. 1 is a schematic front view of a device for producing and transferring a built-in component of a fast and stable notebook computer provided by the present invention;

fig. 2 is a schematic side view of a device for producing and transferring a built-in component of a fast and stable notebook computer provided by the present invention;

fig. 3 is a sectional view of a partial structure in fig. 2 of a rapid stability notebook computer built-in part production transfer device.

In the figure: 1 rack, 2 positioning holes, 3 suspension, 4 partition plates, 5 limiting screws, 6 limiting nuts, 7 conveying belts, 8 partition plate clamping pieces, 9 limiting pins, 10 limiting pin movable grooves, 11 guide shafts, 12 limiting tension springs, 13 reserved strip holes and 14 limiting holes.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments.

Referring to fig. 1-3, a rapid stability notebook computer built-in part production transfer device, includes rack 1, rack 1's upper surface bilateral symmetry fixedly connected with suspension 3, suspension 3's top lower surface distribution fixedly connected with baffle fastener 8, suspension 3 is connected with baffle 4 through 8 blocks of baffle fastener, rack 1's top transmission is connected with conveyer belt 7, the bottom surface of baffle 4 and the upper surface of conveyer belt 7 laminate mutually.

In order to facilitate the elastic movable connection of the limit pins 9 on the suspension 3, in this embodiment, preferably, the inside of the suspension 3 is located at the top of the partition plate 4 and is provided with a limit pin movable groove 10, the inside fixedly connected with guide shaft 11 of the limit pin movable groove 10, the limit pin movable groove 10 is connected with a pair of limit pins 9 through the guide shaft 11 in a sliding clamping manner, the inside of the limit pin movable groove 10 is located between two limit pins 9 and is provided with a limit tension spring 12, and two ends of the limit tension spring 12 are respectively connected with the outer surface of the two limit pins 9.

In order to facilitate the block through spacing tip 9 between 4 and the baffle fastener 8 of baffle to carry on spacingly, in this embodiment, preferred, spacing tip 9 is L shape structure, the upper surface of suspension 3 offer with spacing tip 9's top assorted reserve a hole 13, spacing hole 14 has all been seted up to the surface both sides of baffle 4, spacing tip 9's bottom run through behind the surface of baffle fastener 8 with spacing hole 14 block connection.

In order to facilitate fastening the connection between suspension 3 and rack 1, be convenient for adjust the position height of suspension 3 simultaneously, in this embodiment, preferred, the bottom of suspension 3 runs through surface distribution and has seted up positioning hole 2, the outer fixed surface of rack 1 be connected with positioning hole 2 assorted stop screw 5, and stop screw 5's one end fixedly connected with stop nut 6.

In order to facilitate the production transportation to the computer built-in piece through conveyer belt 7, in this embodiment, it is preferred, rack 1's both ends all have a rotatory toothed disc through pivot swing joint, conveyer belt 7 is coiled with the surface of rotatory toothed disc and is connected, the dish axle and the motor spindle fixed connection of rotatory toothed disc, motor and external power source electric connection, rack 1's front surface fixed connection has motor operation panel, motor operation panel and motor electric connection.

In the embodiment, when different built-in parts are classified and synchronously transported, firstly, the vertical height of the suspension 3 is adjusted according to the volume of the built-in parts, then the partition plate 4 with the corresponding height is clamped and connected with the partition plate clamping piece 8, the partition plate clamping piece 8 with a proper position can be selected according to the size proportion of the two built-in parts to be clamped and connected with the partition plate 4, when the partition plate is clamped, the top ends of the limit pins 9 are firstly pulled towards two sides to separate the two limit pins 9, when the top end of the partition plate 4 is clamped with the partition plate clamping piece 8, the limit pins 9 are released, the bottom ends of the limit pins 9 penetrate through the surface of the partition plate clamping piece 8 and then are clamped with the limit holes 14 on the outer surface of the partition plate 4, then the different built-in parts are respectively placed on the upper surfaces of the conveying belts 7 on two sides of the partition plate 4, so that the different built-in parts, firstly, the limiting nut 6 is screwed down from the end part of the limiting screw 5, then the position of the suspension 3 is moved up and down, the limiting screw 5 is clamped with the corresponding positioning hole 2, and then the limiting nut 6 is screwed at the end part of the limiting screw 5 to compress and fix the suspension 3.

The above, only be the concrete implementation of the preferred embodiment of the present invention, but the protection scope of the present invention is not limited thereto, and any person skilled in the art is in the technical scope of the present invention, according to the technical solution of the present invention and the utility model, the concept of which is equivalent to replace or change, should be covered within the protection scope of the present invention.

Claims (5)

1. The utility model provides a rapid stabilization notebook computer embeds a production transfer device, includes rack (1), its characterized in that, the upper surface bilateral symmetry fixedly connected with suspension (3) of rack (1), the top lower surface distribution fixedly connected with baffle fastener (8) of suspension (3), suspension (3) are connected with baffle (4) through baffle fastener (8) block, the top transmission of rack (1) is connected with conveyer belt (7), the bottom surface of baffle (4) is laminated with the upper surface of conveyer belt (7) mutually.

2. The production and transfer device for the rapid-stability notebook computer built-in part is characterized in that a limiting pin moving groove (10) is formed in the suspension (3) and located at the top of the partition plate (4), a guide shaft (11) is fixedly connected to the inside of the limiting pin moving groove (10), the limiting pin moving groove (10) is connected with a pair of limiting pins (9) through the guide shaft (11) in a sliding clamping mode, a limiting tension spring (12) is arranged between the two limiting pins (9) in the limiting pin moving groove (10), and two ends of the limiting tension spring (12) are fixedly connected with the outer surfaces of the two limiting pins (9) respectively.

3. The rapid stability notebook computer built-in part production transfer device according to claim 2, characterized in that the limit pin (9) is an L-shaped structure, the upper surface of the suspension (3) is provided with a reserved hole (13) matched with the top end of the limit pin (9), both sides of the outer surface of the partition plate (4) are provided with limit holes (14), and the bottom end of the limit pin (9) penetrates through the surface of the partition plate fastener (8) and then is connected with the limit holes (14) in a clamping manner.

4. The device for producing and transferring the built-in part of the notebook computer with the rapid stability according to claim 1, wherein the bottom end of the suspension (3) is provided with positioning holes (2) through the surface, the outer surface of the rack (1) is fixedly connected with limiting screws (5) matched with the positioning holes (2), and one end of each limiting screw (5) is fixedly connected with a limiting nut (6).

5. The rapid stability production and transportation device for the built-in part of the notebook computer as claimed in claim 1, wherein the two ends of the rack (1) are movably connected with a rotary gear disc through a rotating shaft, the conveyor belt (7) is coiled and connected with the outer surface of the rotary gear disc, the disc shaft of the rotary gear disc is fixedly connected with the shaft of a motor, the motor is electrically connected with an external power supply, the front surface of the rack (1) is fixedly connected with a motor operation panel, and the motor operation panel is electrically connected with the motor.

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