阅读说明：本技术 一种计算机硬件开发用刻印装置及其使用方法 (Imprinting device for computer hardware development and use method thereof ) 是由 刘小娟 于 2021-09-24 设计创作，主要内容包括：本发明公开了一种计算机硬件开发用刻印装置及其使用方法,涉及刻印装置技术领域。该发明包括刻印平台和刻印组件；刻印组件与刻印平台插接配合；刻印平台表面固定连接有第一伸缩调节杆；第一伸缩调节杆顶端固定连接有驱动组件；刻印平台表面依次滑动配合有拨动组件和硬件固定组件；驱动组件与拨动组件转动配合；硬件固定组件滑动配合有挤压板。本发明通过挤压弹簧带动挤压板将计算机硬件夹持固定,启动驱动电机,带动拨动组件将硬件固定组件连同被夹持的硬件被移动至刻印组件处被刻印；刻印过程中产生的残渣通过漏孔进入收集箱中被收集,避免过多刻印残渣积聚在刻印装置中,影响刻印的正常进行,一定程度上保护了刻印刀具。(The invention discloses an imprinting device for computer hardware development and a using method thereof, and relates to the technical field of imprinting devices. The invention comprises an imprinting platform and an imprinting assembly; the engraving component is in inserted fit with the engraving platform; the surface of the engraving platform is fixedly connected with a first telescopic adjusting rod; the top end of the first telescopic adjusting rod is fixedly connected with a driving assembly; the surface of the imprinting platform is sequentially matched with a shifting component and a hardware fixing component in a sliding manner; the driving assembly is in rotating fit with the shifting assembly; the hardware fixing component is in sliding fit with the extrusion plate. The computer hardware is clamped and fixed by driving the extrusion plate through the extrusion spring, and the driving motor is started to drive the shifting assembly to move the hardware fixing assembly and the clamped hardware to the imprinting assembly to be imprinted; the residue that the seal in-process produced gets into the collection box through the small opening and is collected, avoids too much seal residue to gather in seal device, influences seal's normal clear, has protected seal cutter to a certain extent.)

1. An engraving device for developing computer hardware comprises an engraving platform (1) and an engraving component (2); the engraving component (2) is in plug-in fit with the engraving platform (1);

the method is characterized in that:

the surface of the engraving platform (1) is fixedly connected with a first telescopic adjusting rod (3); the top end of the first telescopic adjusting rod (3) is fixedly connected with a driving assembly (4);

the surface of the imprinting platform (1) is sequentially matched with a shifting component (5) and a hardware fixing component (6) in a sliding manner;

the driving component (4) is in running fit with the shifting component (5); the hardware fixing component (6) is in sliding fit with the extrusion plate (7).

2. The computer hardware development imprinting device according to claim 1, characterized in that a first sliding channel (8) is formed on the surface of the imprinting platform (1) near one side; two sides of the inner wall of the first sliding channel (8) are symmetrically provided with first sliding rails (9); the hardware fixing component (6) comprises a sliding connection plate (10); second sliding channels (11) are symmetrically formed in two side faces of the sliding connecting plate (10); the sliding connecting plate (10) is in sliding fit with the first sliding channel (8); the first sliding rail (9) is in sliding fit with the second sliding channel (11).

3. The computer hardware development imprinting device according to claim 2, characterized in that the surface of the sliding connection plate (10) is provided with a linear array of grooves (12); the toggle assembly (5) comprises a sliding block (13); the side surface of the sliding block (13) is sequentially matched with a connecting rod (14) and a shifting plate (15) in a rotating way; one end of the connecting rod (14) is provided with a connecting sleeve (16); the drive assembly (4) comprises a drive motor (17); the output end of the driving motor (17) is fixedly connected with an L-shaped connecting rod (18); the L-shaped connecting rod (18) is in running fit with the connecting sleeve (16).

4. The computer hardware development imprinting device according to claim 3, characterized in that a limiting slide rail (19) is arranged on the bottom surface of the sliding block (13); a third sliding channel (20) is formed in the side face of the engraving platform (1) close to the first sliding channel (8); a fourth sliding channel (21) is formed on the inner bottom surface of the third sliding channel (20); the sliding block (13) is in sliding fit with the third sliding channel (20); the limiting slide rail (19) is in sliding fit with the fourth slide channel (21); and a stop lever (22) is arranged on the side surface of the sliding block (13) below the shifting plate (15).

5. The computer hardware development imprinting device according to claim 2, characterized in that a fixing plate (23) is fixedly connected to the surface of the sliding connection plate (10) near one side; the surface of the fixing plate (23) is provided with leak holes (24) in a matrix array distribution; an inner side surface of the fixed plate (23) is provided with extrusion springs (25) in a linear distribution manner; slide bars (26) are symmetrically arranged on the inner side surface of the fixed plate (23) at two sides of the extrusion spring (25); a heat insulation rubber plate (27) is arranged on the side surface of the extrusion plate (7); first mounting holes (28) are symmetrically formed in the side face of the heat insulation rubber plate (27); the sliding rod (26) is in sliding fit with the first mounting hole (28).

6. The computer hardware development imprinting device according to claim 5, characterized in that the other side of the fixing plate (23) is symmetrically and fixedly connected with a clamping plate (29); first threaded holes (30) are symmetrically formed in the surface of the clamping plate (29); the clamping plate (29) is in inserted fit with a collecting box (31); a first connecting plate (32) is symmetrically and fixedly connected to one side surface of the collecting box (31); the first connecting plate (32) is hinged and matched with a second connecting plate (33); the second connecting plate (33) is hinged and matched with a third connecting plate (34); second threaded holes (35) are symmetrically formed in the surface of the third connecting plate (34); the first threaded hole (30) and the second threaded hole (35) are fixedly connected through a fastening bolt.

7. The imprinting device for computer hardware development according to claim 1, characterized in that a first mounting plate (36) is fixedly connected to one end of the imprinting platform (1); threaded rods (37) are symmetrically arranged on the side surface of the first mounting plate (36); the imprinting assembly (2) comprises a second mounting plate (38); the side surface of the second mounting plate (38) is symmetrically provided with second mounting holes (39); the second mounting hole (39) is in plug fit with the threaded rod (37); the threaded rod (37) is in threaded running fit with a fastening nut.

8. The computer hardware development imprinting apparatus of claim 7, wherein a support plate (40) is fixedly connected to one end of the second mounting plate (38); a fifth sliding channel (41) is formed on the surface of the supporting plate (40); the fifth sliding channel (41) is in sliding fit with a second telescopic adjusting rod (42); the bottom of the second telescopic adjusting rod (42) is provided with an engraving knife (43); a third mounting plate (44) is fixedly connected to the surface of the support plate (40); and a third telescopic adjusting rod (45) is arranged between the third mounting plate (44) and the second telescopic adjusting rod (42).

9. The use method of the imprinting apparatus for computer hardware development according to any one of claims 1 to 8, comprising the steps of:

SS01 drives the extrusion plate (7) to clamp and fix each group of computer hardware on the fixing plate (23) along the sliding rod (26) through each extrusion spring (25);

the SS02 starts the driving motor (17) to drive the shifting component (5) to do reciprocating motion along the third sliding channel (20), so that the shifting plate (15) sequentially shifts the shifting groove (12), and the hardware fixing component (6) and the clamped and fixed computer hardware move gradually and progressively along the first sliding channel (8);

the SS03 adjusts the third telescopic adjusting rod (45) to adjust the engraving position, and the second telescopic adjusting rod (42) is started to engrave the computer hardware;

the residues generated in the SS04 engraving process enter the collecting box (31) through the leakage hole (24) to be collected, after the engraving process is finished, the threaded rod (37) is taken out, the collecting box (31) is taken out, and the residues are uniformly treated.

Technical Field

The invention belongs to the technical field of engraving devices, and particularly relates to an engraving device for computer hardware development and a using method thereof.

Background

Computer hardware (Computer hardware) refers to a general name of various physical devices composed of electronic, mechanical and optoelectronic components in a Computer system, and the Computer hardware needs to be imprinted during processing.

However, the existing computer hardware imprinting device can not realize automatic feeding in the imprinting process, and needs to repeatedly clamp, fix and take out each computer hardware to be imprinted, so that the working difficulty is increased, and the working efficiency is reduced; meanwhile, the computer hardware generates residues in the engraving process, the conventional computer hardware engraving device is not provided with an engraving residue collecting device, too much engraving residues are accumulated in the engraving device, the normal operation of engraving is influenced, and an engraving cutter is easily damaged.

Disclosure of Invention

The invention aims to provide an imprinting device for computer hardware development, which is characterized in that extrusion springs drive an extrusion plate to clamp and fix computer hardware, a driving motor is started to drive a shifting assembly to gradually move a hardware fixing assembly and the clamped hardware to an imprinting assembly to be imprinted; the residue that the seal in-process produced gets into in the collection box through the small opening and is collected, has solved current problem.

In order to solve the technical problems, the invention is realized by the following technical scheme:

the invention relates to an imprinting device for computer hardware development, which comprises an imprinting platform and an imprinting assembly; the engraving component is in plug-in fit with the engraving platform; the surface of the engraving platform is fixedly connected with a first telescopic adjusting rod; the top end of the first telescopic adjusting rod is fixedly connected with a driving assembly;

the surface of the engraving platform is sequentially matched with a shifting component and a hardware fixing component in a sliding manner;

the driving assembly is in rotating fit with the shifting assembly; the hardware fixing component is in sliding fit with the extrusion plate.

Furthermore, a first sliding channel is formed on the surface of the engraving platform close to one side surface; first sliding rails are symmetrically arranged on two sides of the inner wall of the first sliding channel; the hardware fixing component comprises a sliding connection plate; two side surfaces of the sliding connecting plate are symmetrically provided with second sliding channels; the sliding connecting plate is in sliding fit with the first sliding channel; the first sliding rail is in sliding fit with the second sliding channel.

Furthermore, the surface of the sliding connecting plate is provided with shifting grooves in a linear array distribution; the toggle assembly comprises a sliding block; the side surface of the sliding block is sequentially matched with a connecting rod and a shifting plate in a rotating way; one end of the connecting rod is provided with a connecting sleeve; the driving assembly comprises a driving motor; the output end of the driving motor is fixedly connected with an L-shaped connecting rod; the L-shaped connecting rod is in running fit with the connecting sleeve.

Furthermore, a limiting slide rail is arranged on the bottom surface of the slide block; a third sliding channel is formed on the side surface of the engraving platform close to the first sliding channel; a fourth sliding channel is formed on the inner bottom surface of the third sliding channel; the sliding block is in sliding fit with the third sliding channel; the limiting slide rail is in sliding fit with the fourth slide channel; and a stop lever is arranged on the side surface of the sliding block below the shifting plate.

Furthermore, a fixed plate is fixedly connected to the surface of the sliding connection plate close to one side surface; the surface of the fixed plate is distributed with leak holes in a matrix array; the inner side surface of one fixed plate is provided with extrusion springs in a linear distribution manner; slide bars are symmetrically arranged on the inner side surface of the fixed plate at two sides of the extrusion spring; a heat insulation rubber plate is arranged on the side surface of the extrusion plate; first mounting holes are symmetrically formed in the side surface of the heat insulation rubber plate; the slide bar is in sliding fit with the first mounting hole.

Furthermore, the other side surface of the fixed plate is symmetrically and fixedly connected with clamping plates; the surface of the clamping plate is symmetrically provided with first threaded holes; the clamping plate is in inserted fit with the collecting box; a first connecting plate is symmetrically and fixedly connected to one side surface of the collecting box; the first connecting plate is hinged and matched with a second connecting plate; the second connecting plate is hinged and matched with a third connecting plate; second threaded holes are symmetrically formed in the surface of the third connecting plate; the first threaded hole and the second threaded hole are fixedly connected through a fastening bolt.

Furthermore, one end of the engraving platform is fixedly connected with a first mounting plate; threaded rods are symmetrically arranged on the side surface of the first mounting plate; the imprinting assembly comprises a second mounting plate; the side surface of the second mounting plate is symmetrically provided with second mounting holes; the second mounting hole is in inserting fit with the threaded rod; and the thread of the threaded rod is matched with a fastening nut in a rotating way.

Furthermore, one end of the second mounting plate is fixedly connected with a support plate; the surface of the support plate is provided with a fifth sliding channel; the fifth sliding channel is in sliding fit with a second telescopic adjusting rod; the bottom of the second telescopic adjusting rod is provided with an engraving knife; the surface of the supporting plate is fixedly connected with a third mounting plate; and a third telescopic adjusting rod is arranged between the third mounting plate and the second telescopic adjusting rod.

Further, the invention relates to a method for using the imprinting device for computer hardware development, which comprises the following steps:

SS01 drives the extrusion plate to clamp and fix each group of computer hardware on the fixing plate along the slide rod through each extrusion spring;

the SS02 starts the driving motor to drive the shifting assembly to reciprocate along the third sliding channel, so that the shifting plate sequentially shifts the shifting grooves, and the hardware fixing assembly and the clamped and fixed computer hardware move gradually and progressively along the first sliding channel;

the SS03 adjusts the third telescopic adjusting rod to adjust the engraving position, and the second telescopic adjusting rod is started to engrave the computer hardware;

and residues generated in the SS04 engraving process enter the collecting box through the leakage holes to be collected, after the engraving process is finished, the threaded rod is taken out, the collecting box is taken out, and the residues are uniformly treated.

The invention has the following beneficial effects:

1. the computer hardware fixing assembly and the clamped hardware are gradually moved to the engraving assembly to be engraved by adjusting the first telescopic adjusting rod, so that the hardware fixing assembly and the clamped hardware are gradually moved to the engraving assembly to be engraved, the working difficulty is reduced, and the working efficiency is improved.

2. The residue generated in the engraving process enters the collecting box through the leakage hole to be collected, the threaded column is taken down after the engraving is finished, the three groups of connecting plates are sequentially separated from the clamping plate, the collecting box is taken out, the residue in the collecting box is uniformly treated, the phenomenon that excessive engraving residue is accumulated in the engraving device to influence the normal operation of the engraving is avoided, the engraving cutter is protected to a certain extent, the mounting and dismounting process is simple, and the operation is convenient.

Of course, it is not necessary for any product in which the invention is practiced to achieve all of the above-described advantages at the same time.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings used in the description of the embodiments will be briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art that other drawings can be obtained according to the drawings without creative efforts.

FIG. 1 is a schematic structural diagram of an imprinting apparatus for computer hardware development according to the present invention;

FIG. 2 is a schematic structural diagram of an imprint platform according to the present invention;

FIG. 3 is a schematic diagram of a hardware mounting assembly according to the present invention;

FIG. 4 is a schematic structural view of a toggle assembly of the present invention;

FIG. 5 is a schematic view of the construction of the extrusion plate of the present invention;

FIG. 6 is a schematic view of the structure of the collection box of the present invention;

FIG. 7 is a schematic structural diagram of an imprint assembly of the present invention.

In the drawings, the components represented by the respective reference numerals are listed below:

1-an engraving platform, 2-an engraving component, 3-a first telescopic adjusting rod, 4-a driving component, 5-a toggle component, 6-a hardware fixing component, 7-an extrusion plate, 8-a first sliding channel, 9-a first sliding rail, 10-a sliding connecting plate, 11-a second sliding channel, 12-a shifting groove, 13-a sliding block, 14-a connecting rod, 15-a shifting plate, 16-a connecting sleeve, 17-a driving motor, 18-an L-shaped connecting rod, 19-a limiting sliding rail, 20-a third sliding channel, 21-a fourth sliding channel, 22-a stop lever, 23-a fixing plate, 24-a leakage hole, 25-an extrusion spring, 26-a sliding rod, 27-a heat insulation rubber plate, 28-a first mounting hole and 29-a clamping plate, 30-a first threaded hole, 31-a collection box, 32-a first connecting plate, 33-a second connecting plate, 34-a third connecting plate, 35-a second threaded hole, 36-a first mounting plate, 37-a threaded rod, 38-a second mounting plate, 39-a second mounting hole, 40-a support plate, 41-a fifth sliding channel, 42-a second telescopic adjusting rod, 43-an engraving knife, 44-a third mounting plate, and 45-a third telescopic adjusting rod.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1-7, the present invention is an imprinting apparatus for computer hardware development, comprising an imprinting platform 1 and an imprinting assembly 2; the engraving component 2 is in inserted fit with the engraving platform 1; the surface of the imprinting platform 1 is fixedly connected with a first telescopic adjusting rod 3; the top end of the first telescopic adjusting rod 3 is fixedly connected with a driving assembly 4; the surface of the engraving platform 1 is sequentially matched with a shifting component 5 and a hardware fixing component 6 in a sliding manner; the driving component 4 is in running fit with the toggle component 5; the hardware fixing component 6 is in sliding fit with an extrusion plate 7; the reciprocating distance of the sliding block 13 in the third sliding channel 20 is adjusted by adjusting the first telescopic adjusting rod 3, so that the function of controlling the shifting plate 15 to shift the sliding connecting plate 10 with the specified length is realized.

Wherein, a first sliding channel 8 is arranged on one side surface of the imprinting platform 1; two sides of the inner wall of the first sliding channel 8 are symmetrically provided with first sliding rails 9; the hardware fixing component 6 comprises a sliding connection plate 10; the two sides of the sliding connection plate 10 are symmetrically provided with second sliding channels 11; the sliding connection plate 10 is in sliding fit with the first sliding channel 8; the first slide rail 9 is in sliding fit with the second slide channel 11; the surface of the sliding connection plate 10 is provided with poking grooves 12 in linear array distribution; the toggle assembly 5 comprises a slider 13; the side surface of the sliding block 13 is sequentially matched with a connecting rod 14 and a shifting plate 15 in a rotating way; one end of the connecting rod 14 is provided with a connecting sleeve 16; the drive assembly 4 comprises a drive motor 17; the output end of the driving motor 17 is fixedly connected with an L-shaped connecting rod 18; the L-shaped connecting rod 18 is in running fit with the connecting sleeve 16; the bottom surface of the sliding block 13 is provided with a limiting sliding rail 19; a third sliding groove channel 20 is arranged on the side surface of the engraving platform 1 close to the first sliding groove channel 8; a fourth sliding channel 21 is arranged on the inner bottom surface of the third sliding channel 20; the slide block 13 is in sliding fit with the third sliding channel 20; the limit slide rail 19 is in sliding fit with the fourth slide channel 21; a stop lever 22 is arranged on the side surface of the sliding block 13 below the shifting plate 15; the driving motor 17 is started to drive the L-shaped connecting rod 18 to rotate, so that the connecting rod 14 drives the sliding block 13 to move back and forth along the third sliding channel 20, and when the sliding block 13 moves back to the imprinting assembly 2, the shifting plate 15 is in a loose state; when the slide block 13 moves towards the imprinting assembly 2, the front end of the shifting plate 15 abuts against the shifting groove 12, the stop lever 22 abuts against the shifting plate 15 to limit, and the shifting plate 15 pushes the sliding connection plate 10 to move.

Wherein, the surface of the sliding connection plate 10 close to one side surface is fixedly connected with a fixed plate 23; the surface of the fixed plate 23 is distributed with leak holes 24 in a matrix array; an inner side surface of the fixing plate 23 is provided with extrusion springs 25 in a linear distribution manner; slide bars 26 are symmetrically arranged on the inner side surface of the fixing plate 23 at two sides of the extrusion spring 25; the side surface of the extrusion plate 7 is provided with a heat insulation rubber plate 27; the side surface of the heat insulation rubber plate 27 is symmetrically provided with first mounting holes 28; slide bar 26 is in sliding engagement with first mounting hole 28; each group of extrusion springs 25 drives the extrusion plate 7 to move along the sliding rod 26, so that the heat-insulating rubber plate 27 clamps and fixes each group of computer hardware to be engraved on the fixing plate 23; the residue generated during the imprinting process enters the collection tank 31 through the weep hole 24 to be collected.

Wherein, the other side surface of the fixed plate 23 is symmetrically and fixedly connected with a clamping plate 29; the surface of the clamping plate 29 is symmetrically provided with first threaded holes 30; the clamping plate 29 is matched with a collecting box 31 in an inserting way; a first connecting plate 32 is symmetrically and fixedly connected to one side surface of the collecting box 31; the first connecting plate 32 is hinged and matched with a second connecting plate 33; the second connecting plate 33 is hinged with a third connecting plate 34; second threaded holes 35 are symmetrically formed in the surface of the third connecting plate 34; the first threaded hole 30 and the second threaded hole 35 are fixedly connected through a fastening bolt; after the marking is finished, the fastening bolts are taken down, the three groups of connecting plates are sequentially separated from the clamping plate 29, the collecting box 31 is taken out, and residues in the collecting box 31 are uniformly treated.

Wherein, one end of the imprinting platform 1 is fixedly connected with a first mounting plate 36; threaded rods 37 are symmetrically arranged on the side surface of the first mounting plate 36; imprinting assembly 2 includes a second mounting plate 38; the side surface of the second mounting plate 38 is symmetrically provided with second mounting holes 39; the second mounting hole 39 is in plug fit with the threaded rod 37; the threaded rod 37 is in threaded rotation fit with a fastening nut; through pegging graft second mounting panel 38 on first mounting panel 36, tighten fastening nut for engraving subassembly 2 fixed mounting is on engraving platform 1, and the installation is dismantled simple process, convenient operation.

Wherein, one end of the second mounting plate 38 is fixedly connected with a support plate 40; the surface of the support plate 40 is provided with a fifth sliding channel 41; the fifth sliding channel 41 is in sliding fit with a second telescopic adjusting rod 42; the bottom of the second telescopic adjusting rod 42 is provided with an engraving knife 43; the surface of the supporting plate 40 is fixedly connected with a third mounting plate 44; a third telescopic adjusting rod 45 is arranged between the third mounting plate 44 and the second telescopic adjusting rod 42; the third telescopic adjusting rod 45 is adjusted to adjust the engraving position, and the second telescopic adjusting rod 42 is started to engrave the computer hardware.

The invention discloses a using method of an imprinting device for computer hardware development, which comprises the following steps:

SS01 drives the extrusion plate 7 along the sliding rod 26 through each extrusion spring 25 to clamp and fix each group of computer hardware on the fixing plate 23;

the SS02 starts the driving motor 17 to drive the toggle assembly 5 to reciprocate along the third sliding channel 20, so that the toggle plate 15 sequentially toggles the toggle slots 12, and the hardware fixing assembly 6 and the clamped and fixed computer hardware move gradually and progressively along the first sliding channel 8;

the SS03 adjusts the third telescopic adjusting rod 45 to adjust the engraving position, and the second telescopic adjusting rod 42 is started to engrave the computer hardware;

and residues generated in the SS04 engraving process enter the collecting box 31 through the leakage holes 24 to be collected, and after the engraving process is finished, the threaded rod 37 is taken out, the collecting box 31 is taken out, and the residues are uniformly treated.

In the description herein, references to the description of "one embodiment," "an example," "a specific example" or the like are intended to mean that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the invention. In this specification, the schematic representations of the terms used above do not necessarily refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

The preferred embodiments of the invention disclosed above are intended to be illustrative only. The preferred embodiments are not intended to be exhaustive or to limit the invention to the precise embodiments disclosed. Obviously, many modifications and variations are possible in light of the above teaching. The embodiments were chosen and described in order to best explain the principles of the invention and the practical application, to thereby enable others skilled in the art to best utilize the invention. The invention is limited only by the claims and their full scope and equivalents.