CN111883316A - A computer data line transmission manufacturing device - Google Patents

Abstract

The invention relates to the field of computers, in particular to a computer data line transmission manufacturing device, comprising a cylinder, a convex plate, a plywood and a side rail rod. The invention can clamp multiple strands of wires together and twist them into thick wires to make data lines . The front and rear ends of the left side of the cylinder are fixedly connected with side rail rods, and the plywood is provided with one up and down each, and the two plywood are slidably connected between the two side rail rods along the direction of the two side rail rods. The upper and lower ends of the left side of the cylinder are fixedly connected with convex plates, and the two convex plates are fixedly connected with compression springs I, and the other ends of the two compression springs I are respectively on the outside of the two splints. The computer data line transmission manufacturing device also includes a rear extension rod, a slider I and an equal-length rod I, and a rear extension rod is fixedly connected to the middle of the side rail rod at the rear side, and the rear extension rod is slidably connected with a slider I, Two equal-length rods I are hingedly connected to the slider I, and the other ends of the two equal-length rods I are hingedly connected to the rear ends of the two splints, respectively.

Description

A computer data line transmission manufacturing device

technical field

The invention relates to the field of computers, in particular to a computer data line transmission manufacturing device.

Background technique

The application number CN201611059660.2 discloses a method and a device for prefabricating tin points at the soldering end of a core wire and a method and device for manufacturing a data cable. The invention discloses a prefabricated tin point or immersion plating flux for the soldering end of a data connection wire core wire. Method and apparatus, and data line manufacturing method and apparatus. The method for prefabricating tin points at the welding end of the core wire sequentially includes: regularly arranging and straightening the welding ends of the core wire; breaking the insulating skin at the welding end of the core wire to form a wire tail insulation covering the welding end of the core wire; The insulating skin is moved in the direction of the wire tail in a halfway shape to expose part of the inner core conductor and position the exposed inner core conductor into the casting groove of the casting template; Next, prefabricating tin points on the exposed inner core conductor by melting tin mold, or controlling the amount of tin is equivalent to immersion tin soldering, which avoids the scattering of multi-strand metal wires. The invention also provides a device for prefabricating tin points at the soldering end of the core wire under the restraint state of half stripping of the core wire, and a method and device for manufacturing a data line by using the method for half stripping the prefabricated tin point of the core wire. However, in this invention, the multi-strand wires cannot be clamped and twisted together into thick wires to make data wires.

SUMMARY OF THE INVENTION

The invention provides a computer data line transmission manufacturing device, which has the beneficial effect that the invention can clamp multiple wires together and twist them into thick lines to make data lines.

The invention relates to the field of computers, and more particularly to a computer data line transmission manufacturing device, comprising a cylinder, a convex plate, a plywood and a side rail rod. The invention can clamp multiple strands of wires together and twist them into thick wires to make data lines .

The front and rear ends of the left side of the cylinder are fixedly connected with side rail rods, and the plywood is provided with one on the upper and lower sides. The upper and lower ends of the left side of the cylinder are fixedly connected with convex plates, and the two convex plates are fixedly connected with compression springs I, and the other ends of the two compression springs I are respectively on the outside of the two splints.

The computer data line transmission manufacturing device also includes a rear extension rod, a slider I and an equal-length rod I, and a rear extension rod is fixedly connected to the middle of the side rail rod on the rear side, and the rear extension rod is slidably connected with a slider I, Two equal-length rods I are hingedly connected to the slider I, and the other ends of the two equal-length rods I are hingedly connected to the rear ends of the two splints, respectively.

The computer data line transmission manufacturing device also includes a baffle, a collar, a threaded hole column, a round hole column, a support frame, a screw rod and a horizontal round rod. A horizontal round rod is fixedly connected, the left and right ends of the screw rod are respectively connected to the upper part of the two support frames, the collar is sleeved on the cylinder, and the upper part of the cylinder is fixedly connected with two blocking protrusions, and the two blocking protrusions are respectively located in the cylinder. On the left and right sides of the collar, the upper side of the collar is fixedly connected with a threaded hole column, the rear side of the collar is fixedly connected with a circular hole column, the circular hole column is slidably connected to the horizontal round rod, and the screw rod passes through the threaded hole column. The screw is matched with the threaded hole column through the thread.

The computer data line transmission manufacturing device also includes a rubber ring, a motor, a shaft seat and a horizontal shaft, the right end of the cylinder is fixedly connected with the rubber ring, the lower parts of the two support frames are fixedly connected with the shaft seat, and the left and right ends of the horizontal shaft are fixedly connected. They are respectively rotatably connected to two axle seats, the axle seat on the left side is fixedly connected with a motor, the output shaft of the motor is fixedly connected to the left end of the horizontal shaft, and the horizontal shaft is frictionally driven with the lower part of the rubber ring.

The computer data line transmission manufacturing device also includes a pulley I and a pulley II, the left part of the horizontal axis is fixedly connected with the pulley II, the left part of the screw is fixedly connected with the pulley I, and the pulley I and the pulley II are driven by a belt.

The computer data cable transmission manufacturing device further comprises a bottom plate, a connecting piece, a support column, a folded plate and a square column, the left middle part of the bottom plate is fixedly connected with a connecting piece, and the left end of the connecting piece is fixedly connected to the supporting frame on the right side, The front and rear ends of the bottom plate are fixedly connected with support columns, the upper ends of the two support columns are fixedly connected with a square column, and the middle of the square column is provided with two folded plates.

The computer data line transmission manufacturing device also includes an arc spring, the two folded plates are both slidably connected to the square column in the front and rear directions, the outer sides of the two square columns are fixedly connected with arc springs, and the two arc springs are connected to each other. The outer ends are respectively fixedly connected to the upper parts of the two support columns.

The computer data line transmission manufacturing device also includes a vertical plate, a reel, an L-shaped rod and a round baffle, the front part of the bottom plate is fixedly connected with the vertical plate, the upper left side of the vertical plate is rotatably connected with the reel, and the L-shaped rod is in the The L-shaped rod is slidably connected to the lower part of the vertical plate in the left-right direction. The right end of the L-shaped rod is fixedly connected with a circular block. The L-shaped rod is sleeved with a compression spring II. The compression spring II is located between the vertical plate and the circular block. The L-shaped rod on the left side of the roll.

The computer data line transmission manufacturing device also includes a ring cylinder and a rear extension column, the front end of the rear extension column is fixedly connected to the upper part of the vertical plate, the rear end of the rear extension column is fixedly connected with a ring cylinder, and the ring cylinder is located in the left direction of the square column. superior.

The computer data line transmission manufacturing device also includes a vertical column, an equal-length rod II, a slider II, a rubber strip and a clamping rod, and a vertical vertical column is fixedly connected to the left side of the rear end of the rear extension column. Both ends are slidably connected with clamping rods, the two clamping rods are located on the left side of the ring cylinder, the upper side of the rear extension column is bonded with a rubber strip, and the slider II is slidably connected to the rear extension column and the rubber strip, and the sliding Two equal-length rods II are hingedly connected to the block II, the other ends of the two equal-length rods II are hingedly connected to the front ends of the two clamping rods respectively, and the right side of the slider II is fixedly connected with a handle.

The beneficial effects of a computer data line transmission manufacturing device of the present invention are:

The invention relates to a computer data line transmission manufacturing device. The invention can clamp multiple strands of wires together and twist them into thick wires to make data lines. The two compression springs I respectively give the two splints a force close to each other, so that the two splints clamp one end of the multiple wires, and then the cylinder moves to the left and rotates with the axis of the cylinder as the axis, and then the multiple strands are moved. The wires are clamped together and twisted together to form a thick wire to make a data cable.

Description of drawings

The present invention will be described in further detail below with reference to the accompanying drawings and specific implementation methods.

1 is a schematic diagram 1 of the overall structure of a computer data line transmission manufacturing device of the present invention;

FIG. 2 is a schematic diagram 2 of the overall structure of a computer data line transmission manufacturing device according to the present invention;

Fig. 3 is the structural representation one of the cylinder and the collar;

Fig. 4 is the structural representation two of cylinder and collar;

5 is a schematic structural diagram of a support frame;

Fig. 6 is the structural representation of base plate and vertical plate;

Fig. 7 is the structural representation one of the ring cylinder;

FIG. 8 is a second schematic view of the structure of the ring cylinder.

In the figure: cylinder 1; rubber ring 101; blocking protrusion 102; convex plate 103; rear extension rod 104; slider I105; equal-length rod I106; Round hole column 202; Support frame 3; Screw 301; Pulley I302; Motor 303; Shaft seat 304; Pulley II305; Column 404; Arc spring 405; Vertical plate 5; Reel 501; L-shaped rod 502; 605; clamping rod 606.

Detailed ways

In the description of the present invention, it should be understood that the terms "center", "portrait", "horizontal", "top", "bottom", "front", "rear", "left", "right", " The orientation or positional relationship indicated by vertical, horizontal, top, bottom, inner, outer, etc. is based on the orientation or positional relationship shown in the drawings, and is only for the convenience of describing the present invention and The description is simplified rather than indicating or implying that the device or element referred to must have a particular orientation, be constructed and operate in a particular orientation, and therefore should not be construed as limiting the invention. In addition, the terms "first", "second", etc. are used for descriptive purposes only, and should not be construed as indicating or implying relative importance or implying the number of indicated technical features. Thus, a feature defined as "first", "second", etc., may expressly or implicitly include one or more of that feature. In the description of the present invention, unless otherwise specified, "plurality" means two or more.

Specific implementation one:

The present embodiment will be described below with reference to FIGS. 1-8. The present invention relates to the field of computers, and more specifically to a computer data line transmission manufacturing device, comprising a cylinder 1, a convex plate 103, a clamping plate 107 and a side rail rod 108. The present invention Multiple strands of wires can be clamped together and twisted into thick wires to make data cables.

The front and rear ends of the left side of the cylinder 1 are fixedly connected with side rail rods 108 , and the upper and lower splints 107 are provided with one each. Between the rods 108, the upper and lower ends of the left side of the cylinder 1 are fixedly connected with a convex plate 103, and the two convex plates 103 are fixedly connected with a compression spring I, and the other ends of the two compression springs I are respectively against the two splints. 107 outside. The two compression springs 1 respectively give the two clamping plates 107 a force close to each other, so that the two clamping plates 107 clamp one end of the plurality of wires, and then the cylinder 1 moves to the left while the axis of the cylinder 1 is used as the axis to rotate, and then Just clamp the multi-strand wires together and twist them into thick wires to make data cables.

Specific implementation two:

The present embodiment will be described below with reference to Figs. 1-8. The computer data cable transmission manufacturing device further includes a rear extension rod 104, a slider I105 and an isometric rod I106, and the middle of the side rail rod 108 on the rear side is fixedly connected with a rear extension rod A slider I105 is slidably connected to the rod 104 and the rear extension rod 104, and two equal-length rods I106 are hingedly connected to the slider I105. When the slider I105 is pushed forward, two equal-length rods I106 can be used to drive the two clamping plates 107 to separate from each other, so that it is convenient to place a plurality of lead wires between the two clamping plates 107. The wire head is clamped, which is convenient for twisting the multi-strand wires together into thick wires to make data cables.

Specific implementation three:

The present embodiment will be described below with reference to FIGS. 1-8 . The computer data line transmission manufacturing device further includes a blocking protrusion 102 , a collar 2 , a threaded hole post 201 , a round hole post 202 , a support frame 3 , a screw rod 301 and a horizontal round rod 307 , the support frame 3 is provided with one on the left and right, a horizontal circular rod 307 is fixedly connected between the rear parts of the two support frames 3, the left and right ends of the screw rod 301 are respectively connected to the upper part of the two support frames 3 in rotation, and 2 sets of collars Connected to the cylinder 1, the upper part of the cylinder 1 is fixedly connected with two blocking protrusions 102, the two blocking protrusions 102 are respectively located on the left and right sides of the collar 2, and the upper side of the collar 2 is fixedly connected with a threaded hole post 201, The rear side of the collar 2 is fixedly connected with a circular hole post 202, the circular hole post 202 is laterally slidably connected to the horizontal circular rod 307, the screw rod 301 passes through the threaded hole post 201, and the screw rod 301 and the threaded hole post 201 are threadedly matched. When the screw 301 rotates with its own axis as the axis, it can drive the threaded hole post 201 to move left and right, and the collar 2 can slide left and right on the horizontal round rod 307 through the circular hole post 202, thereby driving the cylinder 1 to slide left and right, and the screw 301 can be used. Control the cylinder 1 to move left and right, thereby realizing the transmission of the data line in one direction.

Specific implementation four:

The present embodiment will be described below with reference to FIGS. 1-8. The computer data line transmission manufacturing device further includes a rubber ring 101, a motor 303, a shaft seat 304 and a horizontal shaft 306. The right end of the cylinder 1 is fixedly connected with the rubber ring 101. Two The lower part of the support frame 3 is fixedly connected with a shaft seat 304, the left and right ends of the horizontal shaft 306 are respectively connected to the two shaft seats 304 in rotation, and a motor 303 is fixedly connected to the shaft seat 304 on the left side. The output shaft of the motor 303 It is fixedly connected to the left end of the horizontal shaft 306, and the horizontal shaft 306 is frictionally driven with the lower part of the rubber ring 101. When the motor 303 rotates, it can drive the horizontal shaft 306 to rotate, and when the horizontal shaft 306 rotates, it can drive the rubber ring 101 to rotate, thereby driving the cylinder 1 to rotate on the collar 2 with the axis of the cylinder 1 as the axis.

Specific implementation five:

The present embodiment will be described below with reference to FIGS. 1-8. The computer data line transmission manufacturing device further includes a pulley I302 and a pulley II305. The left part of the horizontal shaft 306 is fixedly connected with the pulley II305, and the left part of the screw 301 is fixedly connected with the pulley I302. The belt drive is used between the pulley I302 and the pulley II305. When the horizontal shaft 306 rotates, it will also drive the pulley II305 to rotate. When the pulley II305 rotates, the belt drives the pulley I302 and the screw 301 to rotate, and the rotation of the screw 301 drives the cylinder 1 to move left and right. It will rotate with its own axis as the axis, so that the two clamping plates 107 twist the multiple wires into one while pulling the multiple guides to move and transmit.

Specific implementation six:

The present embodiment will be described below with reference to FIGS. 1-8. The computer data cable transmission manufacturing device further includes a base plate 4, a connecting piece 401, a support column 402, a folded plate 403 and a square column 404. The left middle of the base plate 4 is fixedly connected with a connection Piece 401, the left end of the connecting piece 401 is fixedly connected to the support frame 3 on the right side, the front and rear ends of the bottom plate 4 are fixedly connected with a support column 402, and a square column 404 is fixedly connected between the upper ends of the two support columns 402, Two folded plates 403 are arranged in the middle of the square column 404 . When entering the cylinder 1, the multi-strand wires first pass between the two folded plates 403, so that the multi-strand wires are gathered together, which is convenient for twisting the plurality of wires into one.

Specific implementation seven:

The present embodiment will be described below with reference to FIGS. 1-8 . The computer data cable transmission manufacturing device further includes an arc spring 405 . The outer sides are fixedly connected with arc springs 405 , and the outer ends of the two arc springs 405 are fixedly connected to the upper parts of the two support columns 402 respectively. The two arc-shaped springs 405 respectively impart an inward force to the two folded plates 403, so that the two folded plates 403 tend to move close to each other, thereby pressing the multi-strand wires together.

Eighth specific implementation:

The present embodiment will be described below with reference to FIGS. 1-8 . The computer data cable transmission manufacturing device further includes a vertical plate 5 , a reel 501 , an L-shaped rod 502 and a circular baffle 503 , and the vertical plate 5 is fixedly connected to the front of the bottom plate 4 . , the upper left side of the vertical plate 5 is rotatably connected with the reel 501, the L-shaped rod 502 is slidably connected to the lower part of the vertical plate 5 in the left-right direction, the right end of the L-shaped rod 502 is fixedly connected with a circular blocking plate 503, and the L-shaped rod 502 The upper sleeve is connected with a compression spring II, the compression spring II is located between the vertical plate 5 and the circular blocking piece 503 , and the left part of the L-shaped rod 502 is pressed against the left side of the reel 501 . The reel 501 is used to wrap the aluminum foil strips. When the multi-strand wires are rotated and twisted into one, the ends of the aluminum foil strips are fixed on the multi-strand wires. At this time, the multi-strand wires are rotated, and then the multi-strand wires are twisted together. Wrap a layer of aluminum foil as an inner shield. The compression spring II on the L-shaped rod 502 exerts a rightward pressure on the L-shaped rod 502, and further presses the L-shaped rod 502 on the reel 501, so as to prevent the reel 501 from rotating at will to release the aluminum foil in advance.

Specific implementation nine:

The present embodiment will be described below with reference to FIGS. 1-8. The computer data cable transmission manufacturing device further includes a ring cylinder 6 and a rear extension column 605. The front end of the rear extension column 605 is fixedly connected to the upper part of the vertical plate 5. A ring barrel 6 is fixedly connected to the rear end, and the ring barrel 6 is located in the left direction of the square column 404 . Before winding the aluminum foil strip, the multi-strand conductors are gathered through the ring cylinder 6, so that a layer of aluminum foil is conveniently wrapped on the multi-strand conductors as an inner shielding layer.

Specific implementation ten:

The present embodiment will be described below with reference to FIGS. 1-8. The computer data cable transmission manufacturing device further includes a vertical column 601, an equal-length rod II 602, a slider II 603, a rubber strip 604, and a clamping rod 606. The rear end of the rear extension column 605 The left side is fixedly connected with a vertical vertical column 601 , and the upper and lower ends of the vertical column 601 are slidably connected with clamping rods 606 . A rubber strip 604 is glued, the slider II603 is slidably connected to the rear extension column 605 and the rubber strip 604, and two equal-length rods II602 are hingedly connected to the slider II603, and the other ends of the two equal-length rods II602 are hingedly connected to each other. The front ends of the two clamping rods 606 and the right side of the slider II 603 are fixedly connected with a handle. The slider II603 can slide back and forth on the rear extension column 605. The rubber strip 604 enables the slider II603 to be fixed with the rear extension column 605 when it slides to different positions. When the slider II603 slides, two equal-length rods II602 drive two clamps. The clamping rods 606 are close to or away from each other, and when the ends of the aluminum foil strips are fixed on the multi-strand wires, the two clamping rods 606 are brought close to each other, and the ends of the aluminum foil strips are fixed on the multi-strand wires, which is convenient for the multi-strand wires in the next step. Continuously wrap the foil strip around the stranded wire as it turns.

The working principle of the present invention: the two compression springs 1 respectively give the two clamping plates 107 a force close to each other, so that the two clamping plates 107 clamp one end of the plurality of wires, and then the cylinder 1 moves to the left while the cylinder 1 moves to the left. The axis is the axis of rotation, and then the multi-strand wires are clamped together and twisted into thick wires to make data lines. When the slider I105 is pushed forward, two equal-length rods I106 can be used to drive the two clamping plates 107 to separate from each other, so that it is convenient to place a plurality of lead wires between the two clamping plates 107. The wire head is clamped, which is convenient for twisting the multi-strand wires together into thick wires to make data cables. When the screw 301 rotates with its own axis as the axis, it can drive the threaded hole post 201 to move left and right, and the collar 2 can slide left and right on the horizontal round rod 307 through the circular hole post 202, thereby driving the cylinder 1 to slide left and right, and the screw 301 can be used. Control the cylinder 1 to move left and right, thereby realizing the transmission of the data line in one direction. When the motor 303 rotates, it can drive the horizontal shaft 306 to rotate, and when the horizontal shaft 306 rotates, it can drive the rubber ring 101 to rotate, thereby driving the cylinder 1 to rotate on the collar 2 with the axis of the cylinder 1 as the axis. When the horizontal shaft 306 rotates, it will also drive the pulley II305 to rotate. When the pulley II305 rotates, the belt drives the pulley I302 and the screw 301 to rotate, and the rotation of the screw 301 drives the cylinder 1 to move left and right. It will rotate with its own axis as the axis, so that the two clamping plates 107 twist the multiple wires into one while pulling the multiple guides to move and transmit. When entering the cylinder 1, the multi-strand wires first pass between the two folded plates 403, so that the multi-strand wires are gathered together, which is convenient for twisting the plurality of wires into one. The two arc-shaped springs 405 respectively impart an inward force to the two folded plates 403, so that the two folded plates 403 tend to move close to each other, thereby pressing the multi-strand wires together. The reel 501 is used to wrap the aluminum foil strips. When the multi-strand wires are rotated and twisted into one, the ends of the aluminum foil strips are fixed on the multi-strand wires. At this time, the multi-strand wires are rotated, and then the multi-strand wires are twisted together. Wrap a layer of aluminum foil as an inner shield. The compression spring II on the L-shaped rod 502 exerts a rightward pressure on the L-shaped rod 502, and further presses the L-shaped rod 502 on the reel 501, so as to prevent the reel 501 from rotating at will to release the aluminum foil in advance. Before winding the aluminum foil strip, the multi-strand conductors are gathered through the ring cylinder 6, so that a layer of aluminum foil is conveniently wrapped on the multi-strand conductors as an inner shielding layer. The slider II603 can slide back and forth on the rear extension column 605. The rubber strip 604 enables the slider II603 to be fixed with the rear extension column 605 when it slides to different positions. When the slider II603 slides, two equal-length rods II602 drive two clamps. The clamping rods 606 are close to or away from each other, and when the ends of the aluminum foil strips are fixed on the multi-strand wires, the two clamping rods 606 are brought close to each other, and the ends of the aluminum foil strips are fixed on the multi-strand wires, which is convenient for the multi-strand wires in the next step. Continuously wrap the foil strip around the stranded wire as it turns.

Of course, the above description does not limit the present invention, and the present invention is not limited to the above examples. Changes, modifications, additions or substitutions made by those of ordinary skill in the art within the essential scope of the present invention also belong to the present invention. protected range.

Claims (10)

1. A computer data line transmission manufacturing apparatus comprising a cylinder (1), a convex plate (103), a clamp plate (107), and a side rail bar (108), characterized in that: equal fixedly connected with side rail pole (108) in both ends around drum (1) left respectively is provided with one from top to bottom in splint (107), and two splint (107) all are between two side rail pole (108) along the direction sliding connection of two side rail pole (108), equal fixedly connected with flange (103) in both ends about drum (1) left, equal fixedly connected with compression spring I on two flange (103), and two compression spring I's the other end pushes up the outside at two splint (107) respectively.

2. The computer data line transmission manufacturing device according to claim 1, characterized in that: the computer data line transmission manufacturing device further comprises a rear extension rod (104), a sliding block I (105) and an equal length rod I (106), the middle part of the side rail rod (108) positioned on the rear side is fixedly connected with the rear extension rod (104), the rear extension rod (104) is connected with the sliding block I (105) in a sliding mode, the sliding block I (105) is connected with two equal length rods I (106) in a hinged mode, and the other ends of the two equal length rods I (106) are connected to the rear ends of the two clamping plates (107) in a hinged mode respectively.

3. The computer data line transmission manufacturing device according to claim 2, characterized in that: the computer data line transmission manufacturing device further comprises a retaining protrusion (102), a lantern ring (2), threaded hole columns (201), round hole columns (202), supporting frames (3), a screw rod (301) and a transverse round rod (307), wherein the left and right sides of each supporting frame (3) are respectively provided with one, the transverse round rod (307) is fixedly connected between the rear parts of the two supporting frames (3), the left and right ends of the screw rod (301) are respectively and rotatably connected to the upper parts of the two supporting frames (3), the lantern ring (2) is sleeved on the cylinder (1), the upper part of the cylinder (1) is fixedly connected with the two retaining protrusions (102), the two retaining protrusions (102) are respectively positioned on the left and right sides of the lantern ring (2), the upper side of the lantern ring (2) is fixedly connected with the threaded hole columns (201), the rear side of the lantern ring (2) is fixedly connected with the round hole columns (202), the round hole columns (202) are transversely and slidably connected to the transverse round rod (307), and the, the screw (301) is in threaded fit with the threaded hole column (201).

4. The computer data line transmission manufacturing device according to claim 3, characterized in that: the computer data line transmission manufacturing device further comprises a rubber ring (101), a motor (303), shaft seats (304) and a transverse shaft (306), the rubber ring (101) is fixedly connected to the right end of the cylinder (1), the shaft seats (304) are fixedly connected to the lower portions of the two supporting frames (3), the left end and the right end of the transverse shaft (306) are respectively rotatably connected to the two shaft seats (304), the motor (303) is fixedly connected to the shaft seat (304) on the left side, an output shaft of the motor (303) is fixedly connected to the left end of the transverse shaft (306), and the transverse shaft (306) and the lower portion of the rubber ring (101) are in friction transmission.

5. The computer data line transmission manufacturing device according to claim 4, characterized in that: the computer data line transmission manufacturing device further comprises a belt pulley I (302) and a belt pulley II (305), the left part of the transverse shaft (306) is fixedly connected with the belt pulley II (305), the left part of the screw (301) is fixedly connected with the belt pulley I (302), and the belt pulley I (302) and the belt pulley II (305) are in belt transmission.

6. The computer data line transmission manufacturing device according to claim 5, characterized in that: computer data line transmission manufacturing installation still includes bottom plate (4), connection piece (401), support column (402), folded plate (403) and square column (404), left side middle part fixedly connected with connection piece (401) of bottom plate (4), the left end fixed connection of connection piece (401) is on carriage (3) that are located the right side, equal fixedly connected with support column (402) in both ends around bottom plate (4), fixedly connected with square column (404) between the upper end of two support columns (402), the middle part of square column (404) is provided with two folded plates (403).

7. The computer data line transmission manufacturing device according to claim 6, characterized in that: the computer data line transmission manufacturing device further comprises arc springs (405), the two folded plates (403) are connected to the square columns (404) in a sliding mode in the front-back direction, the arc springs (405) are fixedly connected to the outer sides of the two square columns (404), and the outer ends of the two arc springs (405) are fixedly connected to the upper portions of the two supporting columns (402) respectively.

8. The computer data line transmission manufacturing device according to claim 7, characterized in that: computer data line transmission manufacturing installation still includes riser (5), reel (501), L shape pole (502) and circle separation blade (503), anterior fixedly connected with riser (5) of bottom plate (4), the upper portion left side of riser (5) is rotated and is connected with reel (501), sliding connection is in the lower part of riser (5) in the direction about L shape pole (502), the right-hand member fixedly connected with circle separation blade (503) of L shape pole (502), compression spring II has been cup jointed on L shape pole (502), compression spring II is located between riser (5) and circle separation blade (503), the left part pressure of L shape pole (502) is in the left side of reel (501).

9. The computer data line transmission manufacturing device according to claim 8, characterized in that: the computer data line transmission manufacturing device further comprises a ring cylinder (6) and a rear extension column (605), the front end of the rear extension column (605) is fixedly connected to the upper portion of the vertical plate (5), the rear end of the rear extension column (605) is fixedly connected with the ring cylinder (6), and the ring cylinder (6) is located on the left direction of the square column (404).

10. The computer data line transmission manufacturing device according to claim 9, characterized in that: computer data line transmission manufacturing installation still includes upstand (601), isometric pole II (602), slider II (603), rubber strip (604) and clamp rod (606), the rear end left side fixedly connected with vertical upstand (601) of post (605) is stretched to the back, the equal sliding connection in upper and lower both ends of upstand (601) has clamp rod (606), two clamp rod (606) all are located the left side of a ring section of thick bamboo (6), the upside of post (605) is stretched to the back bonds has rubber strip (604), slider II (603) sliding connection stretches on post (605) and rubber strip (604) after, articulated being connected with two isometric pole II (602) on slider II (603), the other end of two isometric pole II (602) articulates the front end of connecting at two clamp rod (606) respectively, the right side fixedly connected with hand (hold) of slider II (603).

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