阅读说明：本技术 一种稳定性高的拼装式计算机理线装置 (Pin-connected panel calculation mechanism traditional thread binding putting that stability is high ) 是由 刘陆民 吕翔 张兰兰 陈帅名 董园飞 于 2021-07-12 设计创作，主要内容包括：本发明公开了一种稳定性高的拼装式计算机理线装置,属于计算机领域,包括机箱和设置在机箱顶部的多个拼接板,相邻的所述拼接板之间通过拼接机构可拆卸安装,位于外侧的所述拼接板通过夹紧机构与机箱的顶部外侧可拆卸安装,所述拼接板的顶面均安装有滑轨,所述滑轨上滑动安装有两个滑套,所述滑套的上侧均安装有理线管机构；所述理线管机构均包括固定在滑套上侧的缺口管,所述缺口管的上侧设有缺口,所述缺口管的缺口内通过扭簧轴铰接安装有弧形挡片。本发明可对不同长度的数据线实现方便快速的梳理,理线后数据线不会意外与理线装置分离,数据线梳理定位更加精确,稳定性更高,数据线的梳理操作简单快速,省时省力,效率更高。(The invention discloses a high-stability spliced computer wiring device, which belongs to the field of computers and comprises a case and a plurality of splice plates arranged at the top of the case, wherein the adjacent splice plates are detachably mounted through a splicing mechanism, the splice plates positioned on the outer side are detachably mounted with the outer side of the top of the case through a clamping mechanism, slide rails are mounted on the top surfaces of the splice plates, two slide sleeves are slidably mounted on the slide rails, and a wire management pipe mechanism is mounted on the upper sides of the slide sleeves; the wire management mechanism comprises a notch pipe fixed on the upper side of the sliding sleeve, a notch is arranged on the upper side of the notch pipe, and an arc-shaped separation blade is hinged to the notch of the notch pipe through a torsion spring shaft. The invention can conveniently and rapidly comb the data lines with different lengths, the data lines can not be separated from the line arranging device accidentally after the line arrangement, the data line combing and positioning are more accurate, the stability is higher, the data line combing operation is simple and rapid, the time and the labor are saved, and the efficiency is higher.)

1. A high-stability spliced computer wiring device comprises a case (1) and a plurality of splicing plates (2) arranged at the top of the case (1), and is characterized in that the adjacent splicing plates (2) are detachably mounted through a splicing mechanism (3), the splicing plates (2) positioned on the outer side are detachably mounted with the outer side of the top of the case (1) through clamping mechanisms (13), slide rails (4) are mounted on the top surfaces of the splicing plates (2), two slide sleeves (5) are slidably mounted on the slide rails (4), and a wire management pipe mechanism (6) is mounted on the upper sides of the slide sleeves (5);

reason spool mechanism (6) are all including fixing breach pipe (7) at sliding sleeve (5) upside, the upside of breach pipe (7) is equipped with the breach, articulate through torsional spring axle (9) in the breach of breach pipe (7) and install arc separation blade (8), the wherein one end of arc separation blade (8) is passed through torsional spring axle (9) and is articulated the installation with breach pipe (7), the other end of arc separation blade (8) is the free end.

2. The high-stability assembly type computer wiring device according to claim 1, wherein the assembly mechanism (3) comprises a double-hole plate (11) and two connecting bolts (12), mounting holes are formed in both ends of the double-hole plate (11) in a penetrating manner, the connecting bolts (12) penetrate through the mounting holes and are in threaded mounting with the top surface of the splicing plate (2), and threaded holes matched with the connecting bolts (12) are formed in the top surface of the splicing plate (2).

3. The high-stability assembly type computer wire device according to claim 1, wherein the clamping mechanism (13) comprises a single-thread hole plate (14), a shaft pin (15) and a clamping bolt (16), one end of the single-thread hole plate (14) is rotatably mounted on the shaft pin (15), the other end of the single-thread hole plate is rotatably mounted on the clamping bolt (16), rectangular notches are formed in four corners of the splice plate (2), one end, far away from the single-thread hole plate (14), of the shaft pin (15) is fixed in the rectangular notch of the splice plate (2), and one end, far away from the single-thread hole plate (14), of the clamping bolt (16) is threadedly mounted in the rectangular notch of the splice plate (2).

4. The high-stability assembly type computer wiring device according to claim 1, wherein the vertical section of the slide rail (4) is of a T-shaped structure, the sliding sleeve (5) and the slide rail (4) are matched in a sliding manner, and the positions of the upper side of the splice plate (2) at the two ends of the slide rail (4) are provided with limiting plates (21).

5. The high-stability assembly type computer wire device according to claim 1, wherein each torsion spring shaft (9) is composed of a rotating shaft and two torsion springs wound on the rotating shaft, the rotating shaft is fixed to one end of the arc-shaped blocking piece (8), and two ends of each torsion spring are respectively fixed to the notch tube (7) and the arc-shaped blocking piece (8).

6. The high-stability assembled computer wiring device according to claim 1, wherein an auxiliary plate (10) is installed outside the notch of the notch tube (7) and at a position far away from the torsion spring shaft (9).

7. The high-stability assembly type computer wire device according to any one of claims 1-6, wherein a slide block (18) with a hole is fixed on the lower side of each sliding sleeve (5), a sliding groove (17) is formed in the top surface of each sliding rail (4) in a downward direction, the slide block (18) with the hole extends into the sliding groove (17), a bidirectional threaded rod (19) is rotatably mounted in the sliding groove (17), and the bidirectional threaded rod (19) and the slide block (18) with the hole are in threaded mounting.

8. The high-stability assembled computing mechanism line device according to claim 7, wherein both ends of the bidirectional threaded rod (19) extend to the outer side of the sliding rail (4), and both ends of the bidirectional threaded rod (19) are provided with knobs (20).

Technical Field

The invention relates to the technical field of computers, in particular to an assembled computing mechanism wiring device with high stability.

Background

The desktop computer is an independent and separated computer, and compared with a notebook computer, the desktop computer is large in size, and mainly comprises a host case, a display, a mouse, a keyboard and the like.

Through retrieval, the chinese patent No. CN 211655670U discloses a wire management device for a computer, comprising an adjustment component and a case, wherein the adjustment component is arranged on the top of the front of the case, and an installation component connected with the case is arranged on the inner side of the bottom of the adjustment component; the adjusting component comprises a fixing frame, and a plurality of accommodating grooves are transversely and uniformly arranged at the top of the fixing frame.

The computer-based line device disclosed in the prior art still has the following disadvantages in practical use: in the prior art, the data lines are compressed and limited by the restraint blocks and the springs, and the actual line arranging requirements cannot be met due to the fact that different types of data lines are different in length, the restraint blocks are fixed in length and limited in fixing range; in addition, the fixing effect on the data line is unstable, and the data line is easy to be separated from the lower side of the constraint block during use, so the invention provides the assembled computing mechanism line device with high stability.

Disclosure of Invention

The invention aims to solve the defects in the prior art and provides a high-stability assembled computing mechanism line device.

In order to achieve the purpose, the invention adopts the following technical scheme:

a high-stability spliced computer wiring device comprises a case and a plurality of splicing plates arranged at the top of the case, wherein the adjacent splicing plates are detachably mounted through a splicing mechanism, the splicing plates positioned on the outer sides are detachably mounted with the outer side of the top of the case through a clamping mechanism, slide rails are mounted on the top surfaces of the splicing plates, two slide sleeves are slidably mounted on the slide rails, and a wire management mechanism is mounted on the upper sides of the slide sleeves;

reason spool mechanism is all including fixing the breach pipe at the sliding sleeve upside, the upside of breach pipe is equipped with the breach, install arc separation blade through the articulated torsional spring axle in the breach of breach pipe, the articulated installation of torsional spring axle and breach pipe is passed through to arc separation blade's wherein one end, arc separation blade's the other end is the free end.

Further, the splicing mechanism comprises a double-hole plate and two connecting bolts, mounting holes are formed in the two ends of the double-hole plate in a penetrating mode, the connecting bolts penetrate through the mounting holes and are installed with the top surface of the splicing plate in a threaded mode, and threaded holes matched with the connecting bolts are formed in the top surface of the splicing plate.

Further, clamping mechanism includes single thread orifice plate, pivot and clamping bolt, the one end and the pivot of single thread orifice plate rotate the installation, and the other end and clamping bolt screw thread installation, rectangular breach has all been seted up at four corners of splice plate, the one end that single thread orifice plate was kept away from to the pivot is fixed in the rectangular breach of splice plate, clamping bolt keeps away from one end screw thread of single thread orifice plate and installs in the rectangular breach of splice plate.

Further, the vertical cross-section of slide rail is T font structure, the sliding sleeve matches with the slide rail is mutual to slide, the limiting plate is all installed to the upside of splice plate position department that is located the slide rail both ends.

Further, every the torsional spring axle comprises a pivot and around establishing two torsional springs in the pivot, the pivot is fixed with the one end of arc separation blade, the both ends of torsional spring are fixed with breach pipe and arc separation blade respectively.

Furthermore, an auxiliary plate is arranged on the outer side of the notch pipe and on one side far away from the torsion spring shaft.

Another object of the invention is: the data line is accurately combed and positioned, and the stability of the line management is further improved, so that the invention provides the following technical scheme on the basis of the technical scheme:

furthermore, each lower side of the sliding sleeve is fixed with a sliding block with a hole, the top surface of the sliding rail is provided with a downward sliding groove, the sliding block with the hole extends into the sliding groove, a bidirectional threaded rod is rotatably installed in the sliding groove, and the bidirectional threaded rod and the sliding block with the hole are installed in a threaded mode.

Further, the both ends of two-way threaded rod all extend to the outside of slide rail, and the knob is all installed at the both ends of two-way threaded rod.

Compared with the prior art, the invention has the beneficial effects that:

1. the wire arranging device comprises a plurality of splicing plates which are spliced with each other, a sliding sleeve and a wire arranging mechanism can slide on the splicing plates, and the distance between the wire arranging mechanism and the sliding sleeve is adjustable, so that data wires with different lengths can be combed.

2. According to the wire arranging mechanism, the data wire can be conveniently and quickly installed and positioned in the wire arranging mechanism, the operation process is time-saving and labor-saving, and the wire arranging efficiency is higher.

3. According to the invention, the data line can be accurately combed and positioned by accurately controlling the movement of the line management mechanism, and the stability of positioning the data line is further improved.

In conclusion, the invention can realize convenient and rapid carding of data lines with different lengths, the data lines can not be separated from the line arranging device accidentally after the lines are arranged, the data line carding positioning is more accurate, the stability is higher, the data line carding operation is simple and rapid, the time and the labor are saved, and the efficiency is higher.

Drawings

The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention and together with the description serve to explain the principles of the invention and not to limit the invention.

FIG. 1 is a schematic structural diagram of an embodiment of a high-stability wire device for a pin-connected computing system according to the present invention;

FIG. 2 is a schematic view of the installation of each structure on a single splice bar of FIG. 1;

FIG. 3 is a schematic view of the assembled splice plates installed on the top of the chassis according to the first embodiment;

FIG. 4 is a schematic structural diagram of a wire management mechanism according to an embodiment;

FIG. 5 is a schematic view of the arcuate flap of FIG. 4 being rotated inwardly of the notched tube;

FIG. 6 is a schematic view of the arcuate flap of FIG. 4 being rotated outwardly of the notched tube;

FIG. 7 is a schematic view of the upper side of the notched pipe of FIG. 4 with an auxiliary plate installed;

FIG. 8 is a schematic structural diagram of a splicing mechanism according to the present invention;

FIG. 9 is a schematic view of the structure of the clamping mechanism of the present invention;

FIG. 10 is a schematic structural diagram of a second embodiment of a high-stability assembly-type computer wiring device according to the present invention;

FIG. 11 is a schematic view of the installation of the structures on the single splice bar of FIG. 10;

FIG. 12 is a schematic view of the assembled splice plates installed on the top of the chassis according to the second embodiment;

FIG. 13 is a schematic view of the installation of the slider with holes and the bidirectional threaded rod and the slide rail according to the second embodiment;

fig. 14 is a schematic view illustrating the installation of the sliding block and the sliding sleeve in the second embodiment.

In the figure: the device comprises a case 1, splicing plates 2, a splicing mechanism 3, a sliding rail 4, a sliding sleeve 5, a line management mechanism 6, a notch pipe 7, an arc-shaped blocking piece 8, a torsion spring shaft 9, an auxiliary plate 10, a double-hole plate 11, a connecting bolt 12, a clamping mechanism 13, a single-thread hole plate 14, a shaft pin 15, a clamping bolt 16, a sliding groove 17, a sliding block with holes 18, a bidirectional threaded rod 19, a knob 20 and a limiting plate 21.

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.

In the description of the present invention, it is to be understood that the terms "upper", "lower", "front", "rear", "left", "right", "top", "bottom", "inner", "outer", and the like, indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, are merely for convenience in describing the present invention and simplifying the description, and do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be construed as limiting the present invention.

Example one

Referring to fig. 1-9, a high-stability assembled computing line device includes a chassis 1 and a plurality of splice plates 2 disposed on the top of the chassis 1, the specific number of splice plates 2 can be determined according to the actual size of the top of the chassis 1, and three splice plates 2 are illustrated in the drawings of the present invention. The adjacent splice plates 2 are detachably mounted through the splice mechanism 3, and the splice plate 2 positioned on the outer side is detachably mounted on the top outer side of the case 1 through the clamping mechanism 13.

As shown in fig. 8: splicing mechanism 3 includes diplopore board 11 and two connecting bolt 12, and the mounting hole has all been run through to diplopore board 11 both ends, and connecting bolt 12 pass the mounting hole and with splice plate 2's top surface threaded mounting, splice plate 2's top surface seted up with connecting bolt 12 assorted screw hole.

As shown in fig. 1, the adjacent splice plates 2 are fixed to each other by two splice mechanisms 3, and the adjacent splice plates 2 can be fixed by using the double-hole plate 11 and the connecting bolt 12.

As shown in fig. 9, the clamping mechanism 13 includes a single-thread hole plate 14, a shaft pin 15, and a clamping bolt 16, wherein one end of the single-thread hole plate 14 is rotatably mounted on the shaft pin 15, and the other end is threadedly mounted on the clamping bolt 16.

As shown in fig. 2, rectangular notches are formed in four corners of the splice plate 2, one end of the shaft pin 15, which is far away from the single-thread hole plate 14, is fixed in the rectangular notch of the splice plate 2, and one end of the clamping bolt 16, which is far away from the single-thread hole plate 14, is installed in the rectangular notch of the splice plate 2 in a threaded manner.

As shown in FIG. 1, the splice plates 2 are assembled with each other and placed on the top surface of the chassis 1, the two splice plates 2 located at the outermost side are clamped and mounted with the top side surface of the chassis 1 through the clamping mechanism 13, and the single-thread hole plate 14 in the clamping mechanism 13 is rotated 90 degrees downwards by using the shaft pin 15

And then, rotating the clamping bolt 16 to apply pressure to the side surface of the top of the case 1, thereby realizing the stable installation of the assembled splice plate 2 on the top of the case 1.

Slide rail 4 is all installed to splice plate 2's top surface, and slidable mounting has two sliding sleeves 5 on slide rail 4, and slide rail 4's vertical cross-section is T font structure, and sliding sleeve 5 matches with slide rail 4 mutual slip, and limiting plate 21 is all installed to the position department that splice plate 2's upside is located slide rail 4 both ends. The upper sides of the sliding sleeves 5 are provided with a wire management mechanism 6;

the wire management mechanism 6 comprises a notch pipe 7 fixed on the upper side of the sliding sleeve 5, a notch is arranged on the upper side of the notch pipe 7, an arc-shaped separation blade 8 is installed in the notch of the notch pipe 7 in a hinged mode through a torsion spring shaft 9, one end of the arc-shaped separation blade 8 is installed in a hinged mode through the torsion spring shaft 9 and the notch pipe 7, and the other end of the arc-shaped separation blade 8 is a free end.

Each torsion spring shaft 9 is composed of a rotating shaft and two torsion springs wound on the rotating shaft, the rotating shaft is fixed with one end of the arc-shaped catch 8, and two ends of each torsion spring are fixed with the notch pipe 7 and the arc-shaped catch 8 respectively.

The data line and the wire arranging pipe mechanism 6 are installed in two ways:

the first method comprises the following steps: for a data line with a smaller line diameter, the data line can be straightened and pressed downwards, the data line can extrude the arc-shaped baffle 8, as shown in fig. 5, the pressure can drive the arc-shaped baffle 8 to rotate downwards, namely the inner side of the notch pipe 7, and after the arc-shaped baffle 8 is reset by a torsion spring in a torsion spring shaft 9, the data line can enter a line arranging pipe mechanism 6 formed by the notch pipe 7 and the arc-shaped baffle 8 together; the arcuate flaps 8 are shown in figure 4 after repositioning.

As shown in fig. 7, an auxiliary plate 10 is attached to a position outside the notch of the notch tube 7 and on a side away from the torsion spring shaft 9. The auxiliary plate 10 is arranged to facilitate the pressing of the data line, so that the data line is prevented from sliding excessively along the outer surface of the arc-shaped baffle plate 8, and the convenience of installation of the data line in the line management mechanism 6 is improved.

And the second method comprises the following steps: for a data line with a larger line diameter, the arc-shaped blocking piece 8 can be pulled upwards, as shown in fig. 6, at this time, the arc-shaped blocking piece 8 rotates upwards, namely, the outer side of the notch pipe 7, the data line is placed in the center of the notch pipe 7, the arc-shaped blocking piece 8 is loosened, the torsion spring in the torsion spring shaft 9 enables the arc-shaped blocking piece 8 to reset, and then the data line can enter the line arranging pipe mechanism 6 formed by the notch pipe 7 and the arc-shaped blocking piece 8 together; the arcuate flaps 8 are shown in figure 4 after repositioning.

After the data line is put into the line management mechanism 6 in the above manner, the position of the line management mechanism 6 and the interval between the two line management mechanisms 6 are adjusted according to the length of the data line.

And a rubber pad is arranged on the inner side of the sliding sleeve 5, so that the friction force between the sliding sleeve 5 and the sliding rail 4 is properly increased. The wire management mechanism 6 can slide on the sliding rail 4 through the sliding sleeve 5, and the distance between the two wire management mechanisms 6 on the same sliding rail 4 can be adjusted.

Example two

Referring to fig. 1-14, in the second embodiment, on the basis of the first embodiment, a perforated slider 18 is fixed on the lower side of each sliding sleeve 5, a sliding slot 17 is formed in the top surface of the sliding rail 4 downward, the perforated slider 18 extends into the sliding slot 17, a bidirectional threaded rod 19 is rotatably mounted in the sliding slot 17, and the bidirectional threaded rod 19 and the perforated slider 18 are in threaded mounting. Both ends of the bidirectional threaded rod 19 extend to the outer side of the slide rail 4, and both ends of the bidirectional threaded rod 19 are provided with knobs 20.

In the second embodiment, the two-way threaded rod 19 can be rotated by the knob 20, the two sliding blocks 18 on the same two-way threaded rod 19 are controlled to move in a thread transmission mode, the sliding sleeve 5 moves along with the sliding blocks 18, and the distance between the two line management mechanism 6 on the same sliding rail 4 can be accurately and stably adjusted, so that the positioning effect on the data line is more stable.

Based on the above, it can be seen that: the wire arranging device can conveniently and quickly arrange the data wires with different lengths, the data wires cannot be accidentally separated from the wire arranging pipe mechanism 6 after the wire arrangement, the data wire arranging positioning is more accurate, the stability is higher, the data wire arranging operation is simple and quick, the time and the labor are saved, and the efficiency is higher.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be considered to be within the technical scope of the present invention, and the technical solutions and the inventive concepts thereof according to the present invention should be equivalent or changed within the scope of the present invention.