阅读说明：本技术 一种基于调节组件的计算机硬件开发用刻印机 (Imprinter for computer hardware development based on adjusting part ) 是由 刘江军 于 2021-08-25 设计创作，主要内容包括：本发明公开了一种基于调节组件的计算机硬件开发用刻印机,涉及计算机技术领域。本发明包括驱动机构；驱动机构顶部沿环向均匀固定安装有刻印机构；安装箱内底部中心位置转动连接有驱动柱；驱动柱顶端沿驱动柱周侧方向固定连接有弧形推板；第一限位槽道内部通过第一滑块对称滑动连接有两支撑组件；两支撑组件之间安装有导向环；导向环内部滑动配合有推杆；推杆一端面固定有刻印头,推杆另一端面固定有助推球。本发明通过驱动柱驱使多个弧形推板进行转动,利用弧形推板转动过程中对推杆一端的助推球施加推力,使推杆另一端刻印头往硬件限位板方向移动,从而实现对两硬件限位板之间的硬件进行刻印,大大提高了刻印效率。(The invention discloses a marking machine for computer hardware development based on an adjusting component, and relates to the technical field of computers. The invention comprises a driving mechanism; the top of the driving mechanism is uniformly and fixedly provided with an imprinting mechanism along the circumferential direction; the center of the bottom in the installation box is rotationally connected with a driving column; the top end of the driving column is fixedly connected with an arc-shaped push plate along the circumferential direction of the driving column; the inner part of the first limiting channel is symmetrically and slidably connected with two supporting components through a first sliding block; a guide ring is arranged between the two supporting components; a push rod is matched in the guide ring in a sliding way; the print head is fixed on one end face of the push rod, and the push-assisting ball is fixed on the other end face of the push rod. According to the invention, the plurality of arc-shaped push plates are driven to rotate by the driving columns, and the thrust is applied to the boosting ball at one end of the push rod in the rotation process of the arc-shaped push plates, so that the imprinting head at the other end of the push rod moves towards the hardware limiting plates, thus the hardware between the two hardware limiting plates is imprinted, and the imprinting efficiency is greatly improved.)

1. An imprinter for computer hardware development based on regulating components, comprising a driving mechanism (1); the method is characterized in that:

a plurality of imprinting mechanisms (2) are uniformly and fixedly arranged on the top of the driving mechanism (1) along the annular direction;

wherein the driving mechanism (1) comprises an installation box (101); the center of the bottom in the installation box (101) is rotatably connected with a driving column (102); the top end of the driving column (102) is fixedly connected with a plurality of arc-shaped push plates (103) along the circumferential direction of the driving column (102);

the imprinting mechanism (2) comprises a fixing plate (201); the bottom of the fixing plate (201) is fixedly connected with the top of the installation box (101);

a first limiting channel (202) is formed in the upper surface of the fixing plate (201); the interior of the first limiting channel (202) is symmetrically and slidably connected with two supporting components (3) through a first sliding block; a guide ring (4) is arranged between the two supporting components (3); a push rod (203) is in sliding fit with the interior of the guide ring (4); an imprinting head (204) is fixed on one end face of the push rod (203), and a push-assisting ball (205) is fixed on the other end face of the push rod (203);

the arc push plate (103) is matched with the boosting ball (205) in position, and the outer wall of the arc push plate (103) is attached to the boosting ball (205).

2. The engraving machine for computer hardware development based on adjusting assembly according to claim 1, characterized in that a support plate (104) and a positioning plate (105) are respectively fixed on the inner wall of the installation box (101);

a bearing is arranged on the upper surface of the supporting plate (104), and the inner wall of the bearing is fixedly connected with the peripheral side surface of the driving column (102);

a first gear (106) is fixed on the peripheral side surface of the driving column (102).

3. The engraving machine for computer hardware development based on the adjusting assembly according to claim 2, characterized in that a guide slide bar (107) is fixed on the inner wall of the mounting box (101); the surface of the guide slide bar (107) is connected with a movable frame (108) in a sliding manner; a first rack (109) is fixed on the surface of the moving frame (108); the first rack (109) is meshed with the first gear (106);

a second limiting channel (110) is formed in the lower surface of the positioning plate (105); the interior of the second limiting channel (110) is fixedly connected with the top of the movable frame (108) through a second sliding block.

4. The engraving machine for computer hardware development based on the adjusting component as claimed in claim 3, characterized in that a driving motor (111) is fixedly installed at the bottom in the installation box (101); a first connecting rod (112) is fixed on an output shaft of the driving motor (111); one end of the first connecting rod (112) is hinged with a second connecting rod (113);

a support rod (114) is fixed on one side surface of the moving frame (108); the supporting rod (114) is rotatably connected with the second connecting rod (113).

5. An adjustment assembly based imprinter for computer hardware development according to claim 2, characterized in that the support assembly (3) comprises a mobile landing (301); a third limiting channel (302) is formed in the inclined surface of the movable ladder platform (301);

an annular channel (401) is formed in the outer wall of the guide ring (4); a matching piece (5) is connected between the annular channel (401) and the third limiting channel (302);

a first return spring (206) is fixed between the guide ring (4) and the imprinting head (204); the first return spring (206) is sleeved outside the push rod (203).

6. The adjusting assembly-based computer hardware development imprinter according to claim 5, characterized in that an ear plate (115) is fixed on the upper surface of the positioning plate (105); one side surface of the ear plate (115) is rotatably connected with a first threaded rod (116);

an internal thread plate (303) is fixed on one side surface of the movable ladder platform (301); the internally threaded plate (303) is in threaded engagement with the first threaded rod (116).

7. The engraving machine for developing computer hardware based on adjusting assembly of claim 2, wherein the positioning plate (105) has a sliding groove (117) on its upper surface; the sliding groove (117) is symmetrically connected with two hardware limiting plates (118) in a sliding manner; limiting grooves are formed in the surfaces of the two hardware limiting plates (118), and U-shaped plates (119) are in clearance fit in the limiting grooves;

a matching groove (120) is formed in one surface of the U-shaped plate (119), and a matching plate (121) is fixed to the other surface of the U-shaped plate (119); the matching groove (120) between the two opposite U-shaped plates (119) is in clearance fit with the matching plate (121).

8. The engraving machine for computer hardware development based on adjusting component according to claim 7, characterized in that a second rack (122) is fixed on the inner side of each of the two opposite matching plates (121);

the upper surface of the positioning plate (105) is rotatably connected with a second threaded rod (123) through a bearing; a second gear is fixed on the peripheral side surface of the second threaded rod (123), and the second gear is meshed with a second rack (122);

two mounting columns (124) are fixed on the upper surface of the positioning plate (105) in the U-shaped plate (119); and a second return spring (125) is fixed between the mounting column (124) and the inner wall of the U-shaped plate (119).

Technical Field

The invention belongs to the technical field of computers, and particularly relates to an imprinter for computer hardware development based on an adjusting component.

Background

The computer is a modern electronic computing machine for high-speed computing, can perform numerical computation and logic computation, has a memory function, and is a modern intelligent electronic device capable of automatically and high-speed processing mass data according to program operation. Computer hardware refers to the general term for various physical devices in a computer system, including electronic, mechanical, and opto-electronic components. The development of computer hardware is generally divided into the steps of schematic diagram design, circuit diagram design, PCB design, test board production, functional test, stability test, small-batch production, formal market release or formal use and the like.

In small-batch production of computer hardware development, engraving work is often required to be performed on computer hardware development workpieces, but the existing engraving machine for computer hardware development is single in function, cannot meet the engraving requirements of hardware with different sizes on one hand, and cannot realize engraving at different positions on the computer hardware on the other hand, so that the application range of the engraving machine is greatly reduced. Therefore, we have designed a computer hardware development imprinter based on an adjusting component to solve the above technical problems.

Disclosure of Invention

The invention aims to provide an engraving machine for computer hardware development based on an adjusting component, which solves the problems that the existing engraving machine for computer hardware development has single function, cannot meet the engraving of hardware with different sizes on one hand, cannot realize the engraving of different positions on the computer hardware on the other hand and further greatly reduces the application range of the engraving machine due to the design of a driving mechanism, an arc-shaped push plate, a hardware limiting plate, a U-shaped plate, a second rack, a second threaded rod, a second return spring, a boosting ball, a first return spring, a guide ring and a movable ladder platform, and the existing engraving machine for computer hardware development can only generally perform the engraving operation of single hardware, cannot simultaneously realize the engraving of a plurality of hardware and further cannot meet the requirement of batch production.

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

the invention relates to a marking machine for computer hardware development based on an adjusting component, which comprises a driving mechanism; a plurality of imprinting mechanisms are uniformly and fixedly arranged at the top of the driving mechanism along the annular direction; wherein, the driving mechanism comprises an installation box; the center of the bottom in the installation box is rotatably connected with a driving column; the top end of the driving column is fixedly connected with a plurality of arc-shaped push plates along the circumferential direction of the driving column; the marking mechanism comprises a fixed plate; the bottom of the fixed plate is fixedly connected with the top of the mounting box; the upper surface of the fixed plate is provided with a first limiting channel; the inner part of the first limiting channel is symmetrically and slidably connected with two supporting components through a first sliding block; a guide ring is arranged between the two supporting components; a push rod is matched with the inner part of the guide ring in a sliding way; an engraving head is fixed on one end face of the push rod, and a pushing assisting ball is fixed on the other end face of the push rod; the arc push pedal is matched with the boosting ball in position, and the outer wall of the arc push pedal is attached to the boosting ball.

Furthermore, a supporting plate and a positioning plate are respectively fixed on the inner wall of the installation box;

the upper surface of the supporting plate is provided with a bearing, and the inner wall of the bearing is fixedly connected with the peripheral side surface of the driving column;

and a first gear is fixed on the peripheral side surface of the driving column.

Furthermore, a guide sliding rod is fixed on the inner wall of the installation box; the surface of the guide sliding rod is connected with a moving frame in a sliding manner; a first rack is fixed on the surface of the movable frame; the first rack is meshed with the first gear;

the lower surface of the positioning plate is provided with a second limiting channel; and the inside of the second limiting channel is fixedly connected with the top of the movable frame through a second sliding block.

Further, a driving motor is fixedly installed at the bottom in the installation box; a first connecting rod is fixed on an output shaft of the driving motor; one end of the first connecting rod is hinged with a second connecting rod;

a support rod is fixed on one side surface of the movable frame; the support rod is rotatably connected with the second connecting rod.

Further, the support assembly comprises a movable landing; the inclined surface of the movable ladder platform is provided with a third limiting channel;

the outer wall of the guide ring is provided with an annular channel; a matching piece is connected between the annular channel and the third limiting channel;

a first return spring is fixed between the guide ring and the engraving head; the first return spring is sleeved outside the push rod.

Furthermore, an ear plate is fixed on the upper surface of the positioning plate; a first threaded rod is rotatably connected to one side surface of the ear plate;

an internal thread plate is fixed on one side surface of the movable ladder platform; the internal thread plate is in threaded fit with the first threaded rod.

Furthermore, the upper surface of the positioning plate is provided with a sliding groove; the sliding grooves are symmetrically and slidably connected with two hardware limiting plates; limiting grooves are formed in the surfaces of the two hardware limiting plates, and U-shaped plates are in clearance fit in the limiting grooves;

a matching groove is formed in one surface of the U-shaped plate, and a matching plate is fixed on the other surface of the U-shaped plate; and the matching groove between the two opposite U-shaped plates is in clearance fit with the matching plate.

Furthermore, a second rack is fixed on the inner side surfaces of the two opposite matching plates;

the upper surface of the positioning plate is rotatably connected with a second threaded rod through a bearing; a second gear is fixed on the peripheral side surface of the second threaded rod and meshed with a second rack;

two mounting columns are fixed on the upper surface of the positioning plate in the U-shaped plate; and a second reset spring is fixed between the mounting column and the inner wall of the U-shaped plate.

The invention has the following beneficial effects:

1. according to the invention, the plurality of arc-shaped push plates are driven to rotate by the driving columns, thrust is applied to the boosting ball at one end of the push rod in the rotation process of the arc-shaped push plates, and the imprinting head at the other end of the push rod moves towards the hardware limiting plates, so that the imprinting of hardware placed between the two hardware limiting plates is realized, the driving columns are reversely rotated, the thrust applied to the boosting ball is relieved by the arc-shaped push plates, and the imprinting head is separated from the hardware under the reset action of the first reset spring.

2. According to the invention, the first threaded rod is rotated, and the two movable terraces are driven to synchronously move reversely by utilizing the thread matching effect between the first threaded rod and the movable terraces, so that the flexible adjustment of the upper and lower positions of the guide ring between the two movable terraces is realized, and the engraving head is driven to adjust the height, thereby realizing the engraving at different positions of hardware, and greatly improving the application range of the invention.

3. According to the invention, through the design of the sliding groove, the hardware limiting plate, the U-shaped plate, the matching groove, the matching plate, the second rack, the second threaded rod, the mounting column and the second return spring, the second threaded rod is used for driving the two opposite second racks to move in the opposite direction at the same time, so that the adjustment of the distance between the two U-shaped plates is realized, the U-shaped plate is used for pushing the hardware limiting plate to move, the adjustment of the distance between the two hardware limiting plates is realized, the clamping and fixing of computer hardware with different sizes are met, and the engraving of the hardware with different sizes is facilitated.

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 diagram of a computer hardware development imprinter based on a regulating assembly;

FIG. 2 is a top view of the structure of FIG. 1;

FIG. 3 is a cross-sectional view of a longitudinal structure of FIG. 1;

FIG. 4 is a schematic view of the structure of FIG. 3 from another angle;

FIG. 5 is a left side view of the structure of FIG. 4;

FIG. 6 is a schematic structural diagram of an imprinting mechanism;

FIG. 7 is a schematic view of the structure of FIG. 6 from another angle;

FIG. 8 is a front view of the structure of FIG. 6;

FIG. 9 is a right side view of the structure of FIG. 6;

FIG. 10 is a left side view of the structure of FIG. 6;

FIG. 11 is a top view of the structure of FIG. 6;

fig. 12 is an enlarged view of a portion of a structure in fig. 11.

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

1-a driving mechanism, 101-an installation box, 102-a driving column, 103-an arc push plate, 104-a supporting plate, 105-a positioning plate, 106-a first gear, 107-a guide slide bar, 108-a moving frame, 109-a first rack, 110-a second limit channel, 111-a driving motor, 112-a first connecting rod, 113-a second connecting rod, 114-a supporting rod, 115-an ear plate, 116-a first threaded rod, 117-a sliding groove, 118-a hardware limiting plate, 119-a U-shaped plate, 120-a matching groove, 121-a matching plate, 122-a second rack, 123-a second threaded rod, 124-an installation column, 125-a second return spring, 2-an engraving mechanism, 201-a fixing plate, 202-a first limit channel and 203-a push rod, 204-an imprint head, 205-a boosting ball, 206-a first return spring, 3-a support assembly, 301-a moving step, 302-a third limit groove channel, 303-an internal thread plate, 4-a guide ring, 401-an annular groove channel, and 5-a matching piece.

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. 1-12, the present invention is a computer hardware development imprinter based on adjusting component, which comprises a driving mechanism 1;

a plurality of imprinting mechanisms 2 are uniformly and fixedly arranged at the top of the driving mechanism 1 along the annular direction;

wherein, the driving mechanism 1 comprises a mounting box 101; the center of the bottom in the installation box 101 is rotatably connected with a driving column 102; the top end of the driving column 102 is fixedly connected with a plurality of arc-shaped push plates 103 along the circumferential direction of the driving column 102;

the imprinting mechanism 2 comprises a fixing plate 201; the bottom of the fixing plate 201 is fixedly connected with the top of the installation box 101;

the upper surface of the fixing plate 201 is provided with a first limit channel 202; the interior of the first limiting channel 202 is symmetrically and slidably connected with two supporting components 3 through first sliding blocks; a guide ring 4 is arranged between the two supporting components 3; a push rod 203 is matched in the guide ring 4 in a sliding way; an engraving head 204 is fixed on one end face of the push rod 203, and a boosting ball 205 is fixed on the other end face of the push rod 203; through the arrangement of the guide ring 4, the push rod 203 can be ensured to move in the horizontal direction all the time, so that the stability of the engraving head 204 during engraving work is improved;

the arc push plate 103 is matched with the position of the boosting ball 205, the outer wall of the arc push plate 103 is attached to the boosting ball 205, when the arc push plate 103 rotates to gradually extrude the boosting ball 205, the push rod 203 can be driven to horizontally slide along the guide ring 4, and the imprinting head 204 is driven to approach the direction of the computer hardware, so that the imprinting operation of the computer hardware is realized.

Wherein, the inner wall of the installation box 101 is respectively fixed with a support plate 104 and a positioning plate 105;

the upper surface of the supporting plate 104 is provided with a bearing, and the inner wall of the bearing is fixedly connected with the peripheral side surface of the driving column 102; a first gear 106 is fixed on the peripheral side surface of the driving column 102;

a guide slide rod 107 is fixed on the inner wall of the mounting box 101; the surface of the guide slide bar 107 is connected with a movable frame 108 in a sliding way; a first rack 109 is fixed on the surface of the movable frame 108; the first rack 109 is engaged with the first gear 106;

the lower surface of the positioning plate 105 is provided with a second limit slot way 110; the interior of the second limiting channel 110 is fixedly connected with the top of the movable frame 108 through a second sliding block; through the sliding of the movable frame 108 along the guide slide rod 107, under the meshing action of the first rack 109 and the first gear 106, the driving column 102 is driven to rotate, so that the rotation of the arc-shaped push plate 103 is realized, in the process, the movable frame 108 can be limited through the arrangement of the second limiting channel 110, so that the movable frame 108 can only horizontally move and cannot deviate at other positions, and the stability of the movable frame 108 during moving is improved.

Wherein, a driving motor 111 is fixedly arranged at the bottom in the installation box 101; a first connecting rod 112 is fixed on an output shaft of the driving motor 111; one end of the first connecting rod 112 is hinged with a second connecting rod 113;

a support rod 114 is fixed on one side surface of the movable frame 108; the support rod 114 is rotatably connected with the second connecting rod 113; when the driving motor 111 is activated, the output shaft of the driving motor 111 drives the first connecting rod 112 to rotate, and further drives the first connecting rod 112 to rotate around the supporting rod 114, so as to drive the moving frame 108 to reciprocate along the guiding sliding rod 107.

Wherein, the supporting component 3 comprises a moving landing 301; a third limit channel 302 is arranged on the inclined surface of the movable ladder platform 301;

the outer wall of the guide ring 4 is provided with an annular channel 401; a matching piece 5 is connected between the annular groove channel 401 and the third limit groove channel 302; when the two moving terraces 301 are close to each other, the positioning piece 5 is used for pushing the guide ring 4 to move upwards, and when the two moving terraces 301 are far away from each other, the positioning piece 5 and the guide ring 4 are used for enabling the guide ring 4 to move downwards under the self gravity of the guide ring 4, so that the flexible adjustment of the height of the guide ring 4 is realized;

a first return spring 206 is fixed between the guide ring 4 and the imprinting head 204; the first return spring 206 is sleeved outside the push rod 203; when the plurality of arc-shaped push plates 103 are driven to rotate by the driving columns 102, thrust is applied to the boosting balls 205 at one end of the push rods 203 in the rotating process of the arc-shaped push plates 103, and the imprinting heads 204 at the other ends of the push rods 203 move towards the direction of computer hardware, so that computer hardware is imprinted, the driving columns 102 are rotated reversely, the thrust applied to the boosting balls 205 is relieved by the arc-shaped push plates 103, and the imprinting heads 204 are separated from the hardware under the reset action of the first reset springs 206, so that the computer hardware is convenient to take out.

Wherein, the upper surface of the positioning plate 105 is fixed with an ear plate 115; a first threaded rod 116 is rotatably connected to one side surface of the ear plate 115;

an internal thread plate 303 is fixed on one side surface of the movable ladder platform 301; the inner thread plate 303 is in threaded fit with the first threaded rod 116, and the two movable landings 301 can be driven to synchronously move in opposite directions along the first limiting channel 202 by rotating the first threaded rod 116, so that the distance between the two movable landings 301 can be adjusted.

Wherein, the upper surface of the positioning plate 105 is provided with a chute 117; the chute 117 is symmetrically connected with two hardware limit plates 118 in a sliding manner; limiting grooves are formed in the surfaces of the two hardware limiting plates 118, and U-shaped plates 119 are in clearance fit in the limiting grooves;

a matching groove 120 is formed in one surface of the U-shaped plate 119, and a matching plate 121 is fixed to the other surface of the U-shaped plate 119; the matching groove 120 between the two opposite U-shaped plates 119 is in clearance fit with the matching plate 121;

the inner sides of the two opposite matching plates 121 are fixed with second racks 122;

the upper surface of the positioning plate 105 is rotatably connected with a second threaded rod 123 through a bearing; a second gear is fixed on the peripheral side surface of the second threaded rod 123 and meshed with the second rack 122; two mounting posts 124 are fixed on the upper surface of the positioning plate 105 inside the U-shaped plate 119; a second return spring 125 is fixed between the mounting column 124 and the inner wall of the U-shaped plate 119; through rotating second threaded rod 123, order about relative two second rack 122 and carry out the antiport, realize the regulation of two U-shaped plate 119 intervals, it promotes hardware limiting plate 118 and removes to recycle U-shaped plate 119, place computer hardware between two hardware limiting plate 118 after, loosen second threaded rod 123, under the elastic restoring force of second reset spring 125, utilize two hardware limiting plate 118 to grasp the computer hardware of placing between it, it imprints the head 204 to the hardware to be convenient for, satisfy the centre gripping of not unidimensional computer hardware and fix, after the completion of the seal, only need rotate second threaded rod 123 once more, alright remove hardware limiting plate 118 fast, be convenient for take out of the hardware after the seal is accomplished.

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.