CN110718833A - Wire stripping device for computer laboratory management - Google Patents

Abstract

The invention discloses a wire stripping device for computer laboratory management, which comprises a shell, wherein a containing cavity is arranged in the shell, a driving assembly is arranged in the containing cavity, a wire stripping assembly connected with the driving assembly is arranged at one side end of the shell as an operating end, the wire stripping assembly comprises a hanging shaft, a first guide clamping block, a front end conveying roller set, a second guide clamping block, a scissors module and a rear end conveying roller set, the hanging shaft is arranged at one end part of the operating end of the shell, the first guide clamping block is arranged behind the hanging shaft, the front end conveying roller set is arranged behind the first guide clamping block, the second guide clamping block is arranged behind the front end conveying roller set, the scissors module is arranged behind the second guide clamping block, and the rear end conveying roller set is arranged behind the scissors module. The invention has the following advantages and effects: the wire stripping operation is conveniently carried out on the wires in the computer laboratory, so that the wires of all instruments and equipment can be connected subsequently, and the wire stripping device is convenient to operate, time-saving and labor-saving.

Description

Wire stripping device for computer laboratory management

Technical Field

The invention relates to the field of computer laboratory management, in particular to a wire stripping device for computer laboratory management.

Background

The computer laboratory is a necessary place for colleges and universities and is a scientific and technological output place. With the development of science and technology, various computer laboratories such as bamboo shoots in spring after rain, research works are widely developed. The computer lab is a scientific cradle, a base of scientific research and a source of scientific and technological development, and plays a very important role in scientific and technological development.

A large amount of expensive instruments and equipment are stored in a computer laboratory, and the requirements on fire prevention and theft prevention are high, so that the management and monitoring of the laboratory are very necessary. In the existing management monitoring system, the arrangement positions of all detection devices such as a sensor, a camera and the like are fixed, and wiring connection is required to be carried out through a lead; meanwhile, various instruments and equipment in the computer laboratory need to be connected by wires, so that there are a lot of wires for wiring in the computer laboratory. In order to facilitate wire stripping operation of wires in a computer laboratory and to facilitate subsequent wire connection of instruments and equipment, a wire stripping device for computer laboratory management is required.

Disclosure of Invention

The invention aims to provide a wire stripping device for computer laboratory management, which is convenient for wire stripping operation of wires in a computer laboratory so as to connect the wires of various instruments and equipment subsequently, and is convenient to operate, time-saving and labor-saving.

The technical purpose of the invention is realized by the following technical scheme: the utility model provides a wire stripping device of using in computer lab management which characterized in that: the wire stripping device comprises a shell, wherein an accommodating cavity is formed in the shell, a driving assembly is placed in the accommodating cavity, a wire stripping assembly is arranged at one side end of the shell as an operating end, and the wire stripping assembly is connected with the driving assembly in the accommodating cavity and driven by the driving assembly; the wire stripping assembly comprises a hanging shaft, a first guide clamping block, a front end conveying roller set, a second guide clamping block, a scissors module and a rear end conveying roller set, wherein the hanging shaft is arranged at one end part of the operating end of the shell and used for hanging wires, the first guide clamping block is arranged behind the hanging shaft and used for positioning the wires, the front end conveying roller set is arranged behind the first guide clamping block and used for continuously conveying the wires, the second guide clamping block is arranged behind the front end conveying roller set and used for positioning the wires conveyed out of the front end conveying roller set, the scissors module is arranged behind the second guide clamping block and used for stripping the wires, and the rear end conveying roller set is arranged behind the scissors module and used for conveying the wires subjected to the wire stripping operation; the driving assembly comprises a first driving motor for controlling the front end conveying roller group, a second driving motor for controlling the scissor module group and a third driving motor for controlling the rear end conveying roller group.

The further setting is that: the scissors module comprises a base fixed at the operating end of the shell, the setting direction of the base is vertical to the conveying direction of the lead, and one end of the base facing the second guide clamping block is sequentially provided with an inner guide rail group and an outer guide rail group which are stacked, an inner sliding plate which can slide relative to the inner guide rail group is arranged between the inner guide rail groups, an outer sliding plate which can slide relative to the outer guide rail group is arranged between the outer guide rail groups, at least the lower half part of the inner sliding plate is arranged in a hollow way and forms a mounting hole, one end of the outer sliding plate facing the inner sliding plate is provided with a mounting plate, the mounting plate is just positioned in the mounting hole and can slide in the mounting hole, the inner sliding plate is fixedly provided with a lower shear blade, the mounting plate is fixedly provided with an upper shear blade, and the upper shear blade and the lower shear blade can be abutted along with the opposite/reverse sliding of the outer sliding plate and the inner sliding plate so as to perform wire stripping operation on a wire; the output shaft of second driving motor on the fixed rack that is provided with along with its synchronous rotation, interior slide on the fixed interior tooth piece that is provided with, this internal tooth piece has the internal tooth line with rack looks meshing, outer slide on set up the stroke groove that supplies the internal tooth piece to stretch out, outer slide on the fixed outer tooth piece that is provided with, this external tooth piece has the external tooth line with rack looks meshing, just internal tooth line and external tooth line be located the both sides that the rack is relative respectively, make interior slide and outer slide carry out the looks back on the back and forth slip under the transmission of rack from this.

The further setting is that: the outer sliding plate is characterized in that a rectangular stroke cavity is formed in the outer gear block, one side of the stroke cavity, which is far away from the outer sliding plate, is provided with the outer gear, and two side ends of the stroke cavity in the sliding direction of the outer sliding plate are used as limiting ends to limit the sliding positions of the outer sliding plate and the inner sliding plate.

The further setting is that: the opposite ends of the lower shear blade and the upper shear blade are respectively provided with a triangular notch which is sunken towards the self direction, and a wire stripping ring opening for performing wire stripping operation on the wires is formed between the triangular notches on the lower shear blade and the upper shear blade.

The further setting is that: the rear part of the base is fixedly provided with a guide block for guiding, the guide block is provided with a guide ring, and the guide ring is cut into a semi-ring shape and is attached to the upper half part of the lead.

The further setting is that: the micro-control device is arranged on the outer side of the box body corresponding to the operation end and comprises a shell, a fourth driving motor is installed in the shell, an output shaft of the fourth driving motor is connected with a driving rod which synchronously rotates along with the fourth driving motor, the rear end conveying roller group is provided with a driven rod which extends along the axis direction, the driven rod corresponds to the driving rod in position, and the ends of the driving rod and the driven rod can be buckled through a buckling piece to realize the synchronous rotation of the driving rod and the driven rod.

The further setting is that: the shell is fixedly provided with a bearing plate below the operation end.

The invention has the beneficial effects that:

1. the wire stripping device can be used for conveniently stripping wires, so that the wiring in a computer laboratory is facilitated, and the wire stripping device can be used for power lines of computers, power supplies of other equipment, communication wires among the power lines, data transmission lines and the like; the wire stripping device has the advantages that the manual wire stripping step is omitted, time and labor are saved, the length of the wire can be reasonably cut, subsequent direct wiring is facilitated, and the wiring structure of a computer laboratory is simplified.

2. Hang the wire through the hanging scroll to fix a position the wire through first guide clamp splice and second guide clamp splice, the transport of wire has been realized to front end conveying roller set and rear end conveying roller set under drive assembly's drive, makes overall structure more automatic, convenient to use.

3. In the invention, wires with various line widths are matched through the scissor module, and the distances are quickly adjusted by utilizing the opposite/reverse movement of the upper scissor blade and the lower scissor blade so as to match the wires; compared with the traditional fixing structure, the fixing structure is more flexible, and meanwhile, the wire width requirements of different devices in a computer laboratory are met.

4. The guide device also has an innovation point that the upper shear blade and the lower shear blade move in a reverse direction/reverse direction, so that a reference point exists, the upper shear blade and the lower shear blade move in a reverse direction/reverse direction based on the reference point, the wire conveyed out of the second guide clamping block is ensured to always keep linear movement of the wire passing through the reference point and then enter a subsequent rear end conveying roller group, and the whole process is smooth and continuous. Compared with the traditional structure that the lower shear blade is fixed and the position of the upper shear blade is adjusted, if the width of the conducting wire is small, the conducting wire is forced to be pressed downwards by the upper shear blade to be deflected downwards under the support of the upper shear blade and the lower shear blade, so that subsequent positioning errors can be caused, and the problems can be well solved.

5. The upper shear blade and the lower shear blade can move in the opposite direction/back direction only by utilizing one second driving motor, and the inner insection on the inner tooth block and the outer insection on the outer tooth block are respectively arranged on the two opposite sides of the rack through the reasonable structural design, so that the inner sliding plate and the outer sliding plate can be driven to move in the opposite direction/back direction under the rotation of the rack, and the upper shear blade and the lower shear blade can move synchronously along with the upper shear blade and the lower shear blade. The motor has the advantages of simple and reasonable structure, implementation by only one motor, and reduction of cost and volume of the equipment.

6. The wire is stripped through the triangular gaps in the lower shear blade and the upper shear blade, compared with an annular wire stripping effect, the wire stripping effect is better, two sides of the triangular gap can penetrate into the outer surface of the wire, a formed wire stripping ring is deeper, and subsequent direct wire stripping is facilitated.

7. The guide block is arranged to guide the output of the lead, the guide ring is cut into a semi-ring shape and attached to the upper half part of the lead, the lead is led in along the rotation direction of the rear end conveying roller set, meanwhile, the guide ring is not ring-shaped, can be adapted to the lead with various line widths, and can reduce the production cost of the guide ring.

8. The micro-control device is used for finely adjusting the conveying position of a wire, and it should be understood that the rotating speed of the fourth driving motor is slower than that of the second driving motor, the driving rod and the driven rod are buckled by the buckling piece, synchronous rotation can be achieved, the fourth driving motor is started to finely adjust the position of the wire, the wire stripping length of the wire is reasonably planned, and the wire stripping position under the quick transmission of the second driving motor can be effectively prevented from being too deep, so that the waste of the wire is avoided.

Drawings

FIG. 1 is a first schematic structural diagram of an embodiment;

FIG. 2 is a schematic view of the embodiment with the housing removed and the driving assembly shown;

FIG. 3 is a schematic structural view of the embodiment with a structure of the base portion hidden;

FIG. 4 is an enlarged view of portion A of FIG. 3;

FIG. 5 is a first partial schematic view of the embodiment (to show the structure of the scissors module);

FIG. 6 is a second schematic view of a partial structure in the embodiment (to show the structure of the scissors module);

FIG. 7 is a second schematic structural diagram according to an embodiment;

FIG. 8 is a schematic structural diagram of the embodiment with the rear end conveying roller group hidden;

fig. 9 is an enlarged view of a portion B in fig. 8.

In the figure: 11. a housing; 12. an operation end; 21. hanging a shaft; 22. a first guide clamp block; 23. a front end conveyor roller set; 24. a second guide clamp block; 25. a scissor module; 26. a rear end transport roller set; 31. a first drive motor; 32. a second drive motor; 33. a third drive motor; 41. a base; 42. an inner guide rail set; 43. an outer guide rail set; 44. an inner slide plate; 45. an outer slide plate; 51. a rack; 52. an inner tooth block; 53. inner insection; 54. a stroke slot; 55. an outer tooth block; 56. external insection; 57. a stroke chamber; 58. a limiting end; 61. mounting holes; 62. mounting a plate; 63. a lower shear blade; 64. an upper shear blade; 65. a triangular notch; 66. stripping a wire ring opening; 71. a guide block; 72. a guide ring; 81. a housing; 82. a driving lever; 83. a passive rod; 9. a carrier plate.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

Referring to fig. 1 to 8, a wire stripping device for computer lab administration includes a housing 11, a receiving cavity is provided in the housing 11, a driving assembly is disposed in the receiving cavity, a wire stripping assembly is provided at one side end of the housing 11 as an operation end 12, and the wire stripping assembly is connected to and driven by the driving assembly in the receiving cavity.

The wire stripping assembly comprises a hanging shaft 21, a first guide clamping block 22, a front end conveying roller group 23, a second guide clamping block 24, a scissors module 25 and a rear end conveying roller group 26, wherein the hanging shaft 21 is arranged at one end part of the operating end 12 of the shell 11 and used for hanging wires, the first guide clamping block 22 is arranged behind the hanging shaft 21 and used for positioning the wires, the front end conveying roller group 23 is arranged behind the first guide clamping block 22 and used for continuously conveying the wires, the second guide clamping block 24 is arranged behind the front end conveying roller group 23 and used for positioning the wires conveyed out of the front end conveying roller group 23, the scissors module 25 is arranged behind the second guide clamping block 24 and used for stripping the wires, and the rear end conveying roller group 26 is arranged behind the scissors module 25 and used for conveying the wires subjected to the wire stripping operation;

the driving component comprises a first driving motor 31 for controlling the front end conveying roller group 23, a second driving motor 32 for controlling the scissor module group 25 and a third driving motor 33 for controlling the rear end conveying roller group 26, and the control of the first driving motor 31, the second driving motor 32 and the third driving motor 33 belongs to the prior field and can be driven by an output shaft thereof to rotate.

The scissors module 25 comprises a base 41 fixed on the operation end 12 of the housing 11, the base 41 is arranged in a direction perpendicular to the feeding direction of the wires, and the base 41 is provided with an inner guide rail group 42 and an outer guide rail group 43 which are overlapped in sequence towards one end of the second guide clamping block 24, an inner sliding plate 44 which can slide relative to the inner guide rail group 42 is arranged between the inner guide rail groups 42, an outer sliding plate 45 which can slide relative to the outer guide rail group 43 is arranged between the outer guide rail groups, the lower half part of the inner sliding plate 44 is arranged in a hollow way and forms a mounting hole 61, one end of the outer sliding plate 45 facing the inner sliding plate 44 is provided with a mounting plate 62, the mounting plate 62 is just located in the mounting hole 61 and can slide in the mounting hole 61, the inner sliding plate 44 is fixedly provided with a lower shear blade 63, the mounting plate 62 is fixedly provided with an upper shear blade 64, and the upper shear blade 64 and the lower shear blade 63 can be abutted along with the opposite/reverse sliding of the outer sliding plate 45 and the inner sliding plate 44 so as to strip wires.

The output shaft of the second driving motor 32 is fixedly provided with a rack 51 which synchronously rotates along with the output shaft, the inner slide plate 44 is fixedly provided with an inner tooth block 52, the inner tooth block 52 is provided with an inner tooth thread 53 meshed with the rack 51, the outer slide plate 45 is provided with a stroke groove 54 for the inner tooth block 52 to extend out, the outer slide plate 45 is fixedly provided with an outer tooth block 55, the outer tooth block 55 is provided with an outer tooth thread 56 meshed with the rack 51, and the inner tooth thread 53 and the outer tooth thread 56 are respectively positioned at two opposite sides of the rack 51, so that the inner slide plate 44 and the outer slide plate 45 slide in the opposite direction/opposite direction under the transmission of the rack 51. It should be understood that the second driving motor 32 can rotate forward and backward, so as to control the rotation direction of the rack 51 to achieve the sliding of the inner slide plate 44 and the outer slide plate 45 toward/away from each other.

A rectangular stroke cavity 57 is formed in the outer gear block 55, the outer gear is arranged on one side of the stroke cavity 57 far away from the outer sliding plate 45, and two side ends of the stroke cavity 57 along the sliding direction of the outer sliding plate 45 are used as limiting ends 58 to limit the sliding positions of the outer sliding plate 45 and the inner sliding plate 44. When the rack 51 is abutted against one side limit end 58 of the stroke cavity 57, the upper shear blade 64 is just abutted against the lower shear blade 63; when rack 51 abuts the other side limit end 58 of stroke chamber 57, upper scissor blade 64 and lower scissor blade 63 are spaced the furthest apart.

Triangular notches 65 which are sunken towards the self direction are arranged at the opposite end parts of the lower scissors blade 63 and the upper scissors blade 64, and a wire stripping ring opening 66 for stripping wires is formed between the triangular notches 65 on the lower scissors blade 63 and the upper scissors blade 64.

A guide block 71 for guiding is fixedly arranged behind the base 41, the guide block 71 is provided with a guide ring 72, the guide ring 72 is cut into a semi-ring shape and is attached to the upper half part of the lead wire, so that the lead wire can be led in along the rotating direction of the rear end conveying roller group 26, meanwhile, the guide ring 72 is not ring-shaped, the lead wire with various line widths can be adapted, and the production cost of the guide ring 72 can be reduced.

The micro-control device is arranged outside the box body corresponding to the operation end 12, and comprises a housing 81, a fourth driving motor (not marked in the figure) is installed in the housing 81, an output shaft of the fourth driving motor is connected with an active rod 82 which rotates synchronously therewith, the rear end conveying roller set 26 is provided with a passive rod 83 which extends along the axis direction, the position of the passive rod 83 corresponds to that of the active rod 82, and the ends of the active rod 82 and the passive rod 83 can be buckled through a buckling piece (not marked in the figure) to realize the synchronous rotation of the active rod 82 and the passive rod 83. It should be noted that, the fastener only needs to fix the active rod 82 and the passive rod 83 together, and can be fixed by matching with a bolt, so that the description is omitted; in addition, the fourth driving motor is installed in the housing 81, the connection method belongs to the prior art, and the rotation speed of the fourth driving motor should be slower than that of the second driving motor 32, thereby achieving fine adjustment.

The shell 11 is fixedly provided with a bearing plate 9 below the operation end 12, and the bearing plate 9 is used for placing the wires and collecting the fallen outer skins of the wires after the wire stripping operation.

The present embodiment is only for explaining the present invention, and it is not limited to the present invention, and those skilled in the art can make modifications of the present embodiment without inventive contribution as needed after reading the present specification, but all of them are protected by patent law within the scope of the claims of the present invention.

Claims (7)

1. The utility model provides a wire stripping device of using in computer lab management which characterized in that: the wire stripping device comprises a shell (11), wherein an accommodating cavity is formed in the shell (11), a driving assembly is placed in the accommodating cavity, a wire stripping assembly is arranged at one side end of the shell (11) as an operating end (12), and the wire stripping assembly is connected with and driven by the driving assembly in the accommodating cavity;

the wire stripping assembly comprises a hanging shaft (21), a first guide clamping block (22), a front end conveying roller set (23), a second guide clamping block (24), a scissor module (25) and a rear end conveying roller set (26), the hanging shaft (21) is arranged at one end part of the operating end (12) of the shell (11) and is used for hanging the conducting wire, the first guide clamping block (22) is arranged behind the hanging shaft (21) and used for positioning a lead, the front end conveying roller group (23) is arranged behind the first guide clamping block (22) and is used for continuously conveying the conducting wire, the second guide clamping block (24) is arranged behind the front end conveying roller group (23) and is used for positioning the conducting wire conveyed out of the front end conveying roller group (23), the scissors module (25) is arranged behind the second guide clamping block (24) and is used for stripping wires, the rear end conveying roller group (26) is arranged behind the scissor module (25) and is used for conveying the conducting wire subjected to the wire cutting operation;

the driving assembly comprises a first driving motor (31) for controlling the front end conveying roller group (23), a second driving motor (32) for controlling the scissors module (25) and a third driving motor (33) for controlling the rear end conveying roller group (26).

2. A wire stripping device for computer lab management as claimed in claim 1, wherein: the scissors module (25) comprises a base (41) fixed at an operation end (12) of a shell (11), the setting direction of the base (41) is perpendicular to the conveying direction of a lead, one end, facing a second guide clamping block (24), of the base (41) is sequentially provided with an inner guide rail group (42) and an outer guide rail group (43) which are stacked, an inner sliding plate (44) capable of sliding relative to the inner guide rail group is arranged between the inner guide rail group (42), an outer sliding plate (45) capable of sliding relative to the outer guide rail group is arranged between the outer guide rail group (43), at least the lower half part of the inner sliding plate (44) is hollowed out to form a mounting hole (61), one end, facing the inner sliding plate (44), of the outer sliding plate (45) is provided with a mounting plate (62), the mounting plate (62) is just positioned in the mounting hole (61) and can slide in the mounting hole (61), the inner sliding plate (44) is fixedly provided with a lower shear blade (63), the mounting plate (62) is fixedly provided with an upper shear blade (64), and the upper shear blade (64) and the lower shear blade (63) can be abutted with each other along with the opposite/reverse sliding of the outer sliding plate (45) and the inner sliding plate (44) so as to strip wires;

the output shaft of the second driving motor (32) is fixedly provided with a rack (51) which synchronously rotates along with the output shaft, the inner sliding plate (44) is fixedly provided with an inner tooth block (52), the inner tooth block (52) is provided with inner threads (53) meshed with the rack (51), the outer sliding plate (45) is provided with a stroke groove (54) for the inner tooth block (52) to extend out, the outer sliding plate (45) is fixedly provided with an outer tooth block (55), the outer tooth block (55) is provided with outer threads (56) meshed with the rack (51), and the inner teeth (53) and the outer teeth (56) are respectively positioned at two opposite sides of the rack (51), so that the inner sliding plate (44) and the outer sliding plate (45) slide oppositely/reversely under the transmission of the rack (51).

3. A wire stripping device for computer lab management as claimed in claim 2, wherein: a rectangular stroke cavity (57) is formed in the outer gear block (55), the outer gear is arranged on one side, away from the outer sliding plate (45), of the stroke cavity (57), and two side ends, in the sliding direction of the outer sliding plate (45), of the stroke cavity (57) serve as limiting ends (58) to limit the sliding positions of the outer sliding plate (45) and the inner sliding plate (44).

4. A wire stripping device for computer lab management as claimed in claim 2, wherein: triangular notches (65) which are sunken towards the self direction are arranged at the opposite end parts of the lower shear blade (63) and the upper shear blade (64), and a wire stripping ring opening (66) for stripping wires is formed between the triangular notches (65) on the lower shear blade (63) and the upper shear blade (64).

5. A wire stripping device for computer lab management as claimed in claim 2, wherein: a guide block (71) for guiding is fixedly arranged at the rear of the base (41), the guide block (71) is provided with a guide ring (72), and the guide ring (72) is cut into a semi-ring shape and is attached to the upper half part of the lead.

6. A wire stripping device for computer lab management as claimed in claim 1, wherein: the box outside correspond operation end (12) be provided with the micro-control device, the micro-control device is including a casing (81), install fourth driving motor in this casing (81), fourth driving motor's output shaft have along with its synchronous pivoted active lever (82), rear end conveying roller set (26) be provided with along axle center direction extension passive pole (83), this passive pole (83) correspond with the position of active lever (82), can buckle the end looks of active lever (82) and passive pole (83) through a buckling piece, realize synchronous rotation between them.

7. A wire stripping device for computer lab management as claimed in claim 1, wherein: the shell (11) is fixedly provided with a bearing plate (9) below the operation end (12).

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