CN110060819B - Cable middle part drive arrangement for cable manufacture - Google Patents

Abstract

The invention discloses a cable middle driving device for cable production, which comprises a main mounting plate. The invention acts on the middle section part of the cable, can drive the middle section part, thereby increasing the traction of the cable, reducing the occurrence of cable damage caused by over-small traction area, and in addition, the device can intensively pull a plurality of cables, has strong practicability, has a longitudinal reverse thread type height adjusting mechanism, realizes the height adjusting function by utilizing the reverse thread principle, thereby conveniently driving the cables to adjust the height, and in addition, the device is provided with a threaded structure screwing installation type gas inlet release mechanism, can realize the high-pressure sealing effect on air, moreover, the air can be flushed and released, the extrusion force on the cable is formed by utilizing the air pressure of the air, thereby the biggest traction force of control cable conductor prevents to lead to the fact the destruction to the cable conductor because the traction force is too big.

Description

Cable middle part drive arrangement for cable manufacture

Technical Field

The invention relates to the technical field of power production equipment, in particular to a cable middle driving device for cable production.

Background

At present, in an electric power production place, production and manufacturing of cables are not enough, and when the cables are produced, the cables need to be hoisted, so that integrated processing is realized, and when the cables are driven, a general mode is as follows: utilize hoist wheel drive hoist processing, and because the cable conductor overlength, so it only drives the tip when pulling, and too big to cable conductor traction force can cause the damage to the cable conductor undoubtedly, and the limitation is great.

Disclosure of Invention

The invention aims to provide a cable middle driving device for cable production, which solves the problems in the background technology.

In order to achieve the purpose, the invention provides the following technical scheme: a cable middle driving device for cable production comprises a main mounting plate, wherein a plurality of main bolt holes are formed in the main mounting plate, a longitudinal reverse threaded height adjusting mechanism is mounted at the center of the upper surface of the main mounting plate, a main support plate is mounted at the top of the longitudinal reverse threaded height adjusting mechanism, vertical plate structures which are integrated with the main support plate are arranged on the upper surface of the main support plate on two opposite sides, a main hollow structure is arranged in each vertical plate structure, a solid rotating shaft mounting pipeline is arranged at the center of the inner part of each vertical plate structure, a main shaft hole is formed in the center of the inner part of each rotating shaft mounting pipeline, a first rotating shaft and a second rotating shaft are respectively mounted in the main shaft holes of the two rotating shaft mounting pipelines through bearings, a bottom roller is mounted at the opposite end of each first rotating shaft and each second rotating shaft, and a plurality of bottom semicircular groove structures are arranged on the surface of the bottom roller, the other end of the first rotating shaft is provided with a main belt pulley, a main air duct hole communicated with two main hollow structures is arranged in the main support plate, the bottom of the main support plate is provided with an air duct of an integrated structure with the main support plate, a threaded structure screwing installation type gas inlet and release mechanism installation hole communicated with the main air duct hole is arranged in the air duct, a threaded structure screwing installation type gas inlet and release mechanism is arranged in the threaded structure screwing installation type gas inlet and release mechanism installation hole, an air sealing flowing piston type rotating shaft connecting mechanism is arranged in each of the top ends of the two main hollow structures, a main through hole is arranged in the center of the top of the vertical plate structure, the air sealing flowing piston type rotating shaft connecting mechanism penetrates through the main through hole, and a third rotating shaft is arranged in each of the opposite ends of the two air sealing flowing piston type rotating shaft connecting mechanisms, and the opposite ends of the two third rotating shafts are provided with a top roller, and the surface of the top roller is provided with a plurality of top semicircular groove structures.

Further, the longitudinal reverse thread type height adjusting mechanism comprises a thread sleeve for the longitudinal reverse thread type height adjusting mechanism, a thread section for the longitudinal reverse thread type height adjusting mechanism, a thread structure for the longitudinal reverse thread type height adjusting mechanism, a bottom threaded rod for the longitudinal reverse thread type height adjusting mechanism, a top threaded rod for the longitudinal reverse thread type height adjusting mechanism, a limiting hole for the longitudinal reverse thread type height adjusting mechanism and a limiting rod for the longitudinal reverse thread type height adjusting mechanism; the screw thread interval for the longitudinal reverse thread type height adjusting mechanism is arranged at the center inside the screw thread sleeve for the longitudinal reverse thread type height adjusting mechanism and is communicated with two end faces of the screw thread sleeve for the longitudinal reverse thread type height adjusting mechanism, the screw thread sleeve for the longitudinal reverse thread type height adjusting mechanism is located on the inner wall of the screw thread interval for the longitudinal reverse thread type height adjusting mechanism, a thread structure for the longitudinal reverse thread type height adjusting mechanism is arranged on the inner wall of the screw thread interval for the longitudinal reverse thread type height adjusting mechanism, the bottom and the top of the thread interval for the longitudinal reverse thread type height adjusting mechanism are respectively connected with a bottom threaded rod for the longitudinal reverse thread type height adjusting mechanism and a top threaded rod for the longitudinal reverse thread type height adjusting mechanism through the thread structure for the longitudinal reverse thread type height adjusting mechanism, and the bottom threaded rod for the longitudinal reverse thread type height adjusting mechanism and the top threaded rod for the longitudinal reverse thread type height adjusting mechanism The limiting hole for the height adjusting mechanism is formed by inserting a limiting rod for the longitudinal reverse thread type height adjusting mechanism into the limiting hole for the longitudinal reverse thread type height adjusting mechanism.

Further, the thread structure for the longitudinal reverse thread type height adjusting mechanism comprises an internal thread structure arranged on the inner wall of the thread sleeve for the longitudinal reverse thread type height adjusting mechanism and an external thread structure arranged on the body of the bottom threaded rod for the longitudinal reverse thread type height adjusting mechanism and the body of the top threaded rod for the longitudinal reverse thread type height adjusting mechanism, and the thread directions of the thread structures on the body of the bottom threaded rod for the longitudinal reverse thread type height adjusting mechanism and the body of the top threaded rod for the longitudinal reverse thread type height adjusting mechanism are opposite.

Further, the structure appearance of the cross section of the limiting hole for the longitudinal reverse thread type height adjusting mechanism and the structure appearance of the cross section of the limiting rod for the longitudinal reverse thread type height adjusting mechanism are both triangular structures, and the bottom end of the bottom threaded rod for the longitudinal reverse thread type height adjusting mechanism and the top end of the top threaded rod for the longitudinal reverse thread type height adjusting mechanism are respectively installed on the upper surface of the main mounting plate and the lower surface of the main support plate.

Further, the threaded structure screwing installation type gas introducing and releasing mechanism comprises a pipeline body for the threaded structure screwing installation type gas introducing and releasing mechanism, an external thread structure for the threaded structure screwing installation type gas introducing and releasing mechanism, a vent hole for the threaded structure screwing installation type gas introducing and releasing mechanism, a valve core mounting groove structure for the threaded structure screwing installation type gas introducing and releasing mechanism and a valve core for the threaded structure screwing installation type gas introducing and releasing mechanism in the prior art; the gaseous pipeline body for releasing mechanism that lets in of the screw thread structure twist the side of the gaseous pipeline body one end that lets in of installation formula and release the mechanism and be provided with rather than the integral type structure the screw thread structure twist the installation formula and let in the gaseous external screw thread structure for releasing mechanism that lets in of installation formula, the gaseous center that lets in the pipeline body for releasing mechanism that lets in of screw thread structure twist the installation formula is provided with the gaseous air vent that lets in the releasing mechanism of screw thread structure twist the installation formula, the gaseous valve core mounting groove structure that lets in the releasing mechanism of the gaseous internally mounted of screwing the installation formula of screw thread structure twist the installation formula and let in the valve core for releasing mechanism.

Furthermore, the thread structure screwing installation type gas inlet and outlet release mechanism is meshed with an external thread structure at the position of the thread structure screwing installation type gas inlet and outlet release mechanism installation hole.

Further, the pipeline body for the threaded structure screwing installation type gas inlet and outlet release mechanism is installed inside the threaded structure screwing installation type gas inlet and outlet release mechanism installation hole, and one end of the vent hole for the threaded structure screwing installation type gas inlet and outlet release mechanism is communicated with the main vent pipeline hole.

Further, the air-tight sealing flowing piston type rotating shaft connecting mechanism comprises a piston plate for the air-tight sealing flowing piston type rotating shaft connecting mechanism, an annular groove structure for the air-tight sealing flowing piston type rotating shaft connecting mechanism, an air sealing ring for the air-tight sealing flowing piston type rotating shaft connecting mechanism, an upright rod structure for the air-tight sealing flowing piston type rotating shaft connecting mechanism, a bearing mounting hole for the air-tight sealing flowing piston type rotating shaft connecting mechanism, a bearing for the air-tight sealing flowing piston type rotating shaft connecting mechanism and a shaft body mounting hole for the air-tight sealing flowing piston type rotating shaft connecting mechanism; the side surface of the piston plate for the air-tight flowing piston type rotating shaft connecting mechanism is provided with an annular groove structure for the air-tight flowing piston type rotating shaft connecting mechanism, the piston plate for the air-tight flowing piston type rotating shaft connecting mechanism is internally provided with an air-tight sealing ring for the air-tight flowing piston type rotating shaft connecting mechanism, the center of the upper surface of the piston plate for the air-tight flowing piston type rotating shaft connecting mechanism is provided with a vertical rod structure for the air-tight flowing piston type rotating shaft connecting mechanism, the inside of the top end of the vertical rod structure for the air-tight flowing piston type rotating shaft connecting mechanism is provided with a bearing mounting hole for the air-tight flowing piston type rotating shaft connecting mechanism, and the inside of the bearing mounting hole for the air-tight flowing piston type rotating shaft connecting mechanism is provided with a bearing for the air-tight flowing piston type rotating shaft connecting mechanism, the inner ring of the bearing for the air-tight flowing piston type rotating shaft connecting mechanism forms a shaft body mounting hole for the air-tight flowing piston type rotating shaft connecting mechanism.

Further, a third rotating shaft is mounted inside the shaft body mounting hole for the air-tight flow piston type rotating shaft connecting mechanism.

Further, the air-tight flow piston-type rotating shaft connecting mechanism is mounted inside the main hollow structure with a piston plate.

Compared with the prior art, the invention has the beneficial effects that: the device acts on the middle section of the cable, can drive the middle section, thereby increasing the traction on the cable and reducing the damage of the cable caused by the over-small traction area, can intensively traction a plurality of cables, has strong practicability, has a longitudinal reverse thread type height adjusting mechanism, realizes the height adjusting function by utilizing the reverse thread principle, thereby facilitating the driving height adjustment on the cable, has a thread structure, is mounted in a screwing way, can realize the high-pressure sealing function on air, can realize the rushing-in and releasing of the air, forms the extrusion force on the cable by utilizing the air pressure, thereby controlling the maximum traction force of the cable and preventing the damage to the cable caused by the over-large traction force, in addition, the device is provided with an air sealing flow piston type rotating shaft connecting mechanism, can realize the lifting function under the influence of air, and performs the rotary fixing function on the top roller.

Drawings

FIG. 1 is a schematic view of a middle driving device of a cable for cable production according to the present invention;

FIG. 2 is a schematic structural view of a longitudinal reverse thread type height adjusting mechanism in a cable middle driving device for cable production according to the present invention;

FIG. 3 is a schematic structural diagram of a gas inlet/outlet release mechanism screwed with a thread structure in a cable middle driving device for cable production according to the present invention;

FIG. 4 is a schematic structural diagram of an air-tight sealing flow piston type rotating shaft connecting mechanism in the cable middle driving device for cable production according to the present invention;

in the figure: 1, a main mounting plate, 2, a main bolt hole, 3, a longitudinal reverse thread type height adjusting mechanism, 31, a thread sleeve for the longitudinal reverse thread type height adjusting mechanism, 32, a thread interval for the longitudinal reverse thread type height adjusting mechanism, 33, a thread structure for the longitudinal reverse thread type height adjusting mechanism, 34, a bottom threaded rod for the longitudinal reverse thread type height adjusting mechanism, 35, a top threaded rod for the longitudinal reverse thread type height adjusting mechanism, 36, a limit hole for the longitudinal reverse thread type height adjusting mechanism, 37, a limit rod for the longitudinal reverse thread type height adjusting mechanism, 4, a main support plate, 5, a vertical plate structure, 6, a main hollow structure, 7, a main vent pipe hole, 8, a vent pipe, 9, a thread structure screwing mounting type gas inlet releasing mechanism mounting hole, 10, a thread structure screwing mounting type gas inlet releasing mechanism, 101, a pipeline body for a threaded structure screwing installation type gas inlet and release mechanism 102, an external thread structure for a threaded structure screwing installation type gas inlet and release mechanism 203, a vent hole for a threaded structure screwing installation type gas inlet and release mechanism 104, a valve core installation groove structure for a threaded structure screwing installation type gas inlet and release mechanism 105, a valve core for a threaded structure screwing installation type gas inlet and release mechanism 11, a rotating shaft installation pipeline 12, a main shaft hole 13, a first rotating shaft 14, a second rotating shaft 15, a main belt pulley 16, an air sealing flow piston type rotating shaft connecting mechanism 161, a piston plate for an air sealing flow piston type rotating shaft connecting mechanism 162, an annular groove structure for an air sealing flow piston type rotating shaft connecting mechanism 163, an air sealing ring for an air sealing flow piston type rotating shaft connecting mechanism, 164, upright rod structures and 165 for an air sealing flow piston type rotating shaft connecting mechanism, bearing mounting holes and 166 for the air sealing flow piston type rotating shaft connecting mechanism, bearings and 167 for the air sealing flow piston type rotating shaft connecting mechanism, shaft body mounting holes and 17 for the air sealing flow piston type rotating shaft connecting mechanism, bottom rollers and 18, bottom semi-circular groove structures and 19, third rotating shafts and 20, top rollers and 21, top semi-circular groove structures and 22 and main through holes.

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, an embodiment of the present invention: the vertical plate structure comprises a main mounting plate 1, a plurality of main bolt holes 2 are arranged in the main mounting plate 1, a vertical reverse threaded height adjusting mechanism 3 is arranged at the center of the upper surface of the main mounting plate 1, a main support plate 4 is arranged at the top of the vertical reverse threaded height adjusting mechanism 3, vertical plate structures 5 which are integrated with the main support plate 4 are arranged on two opposite sides of the upper surface of the main support plate 4, a main hollow structure 6 is arranged in each vertical plate structure 5, a solid rotating shaft mounting pipeline 11 is arranged at the center of the inside of each vertical plate structure 5, a main shaft hole 12 is arranged at the center of the inside of each rotating shaft mounting pipeline 11, a first rotating shaft 13 and a second rotating shaft 14 are respectively arranged in the main shaft hole 12 of each rotating shaft mounting pipeline 11 through bearings, and a bottom roller 17 is arranged at the opposite end of each first rotating shaft 13 and each second rotating shaft 14, the surface of the bottom roller 17 is provided with a plurality of bottom semicircular groove structures 18, the other end of the first rotating shaft 13 is provided with a main belt pulley 15, the inside of the main support plate 4 is provided with a main air duct hole 7 communicated with the two main hollow structures 6, the bottom of the main support plate 4 is provided with an air duct 8 which is integrated with the main support plate, the inside of the air duct 8 is provided with a threaded structure screwing installation type air inlet release mechanism mounting hole 9 communicated with the main air duct hole 7, the inside of the threaded structure screwing installation type air inlet release mechanism mounting hole 9 is provided with a threaded structure screwing installation type air inlet release mechanism 10, the inside of the top ends of the two main hollow structures 6 is provided with an air sealing flow piston type rotating shaft connecting mechanism 16, the top center of the vertical plate structure 5 is provided with a main through hole 22, and the air sealing flow piston type rotating shaft connecting mechanism 16 penetrates through the main through hole 22, and the two air-tight flow piston type rotating shaft connecting mechanisms 16 are respectively provided with a third rotating shaft 19 at the inner part of the opposite end, the two third rotating shafts 19 are respectively provided with a top roller 20 at the opposite end, and the surface of the top roller 20 is provided with a plurality of top semicircular groove structures 21.

Referring to fig. 2, the longitudinal reverse thread type height adjusting mechanism 3 includes a thread sleeve 31 for the longitudinal reverse thread type height adjusting mechanism, a thread section 32 for the longitudinal reverse thread type height adjusting mechanism, a thread structure 33 for the longitudinal reverse thread type height adjusting mechanism, a bottom threaded rod 34 for the longitudinal reverse thread type height adjusting mechanism, a top threaded rod 35 for the longitudinal reverse thread type height adjusting mechanism, a limiting hole 36 for the longitudinal reverse thread type height adjusting mechanism, and a limiting rod 37 for the longitudinal reverse thread type height adjusting mechanism; the thread sleeve 31 for the longitudinal reverse thread type height adjusting mechanism is internally provided with a thread section 32 for the longitudinal reverse thread type height adjusting mechanism communicating two end faces of the thread sleeve 31 for the longitudinal reverse thread type height adjusting mechanism at the center, the thread sleeve 31 for the longitudinal reverse thread type height adjusting mechanism is provided with a thread structure 33 for the longitudinal reverse thread type height adjusting mechanism on the inner wall of the thread section 32 for the longitudinal reverse thread type height adjusting mechanism, the bottom and the top of the thread section 32 for the longitudinal reverse thread type height adjusting mechanism are respectively connected with a bottom threaded rod 34 for the longitudinal reverse thread type height adjusting mechanism and a top threaded rod 35 for the longitudinal reverse thread type height adjusting mechanism through the thread structure 33 for the longitudinal reverse thread type height adjusting mechanism, and the bottom threaded rod 34 for the longitudinal reverse thread type height adjusting mechanism and the top threaded rod 35 for the longitudinal reverse thread type height adjusting mechanism are arranged inside the opposite end Both are provided with longitudinal reverse thread type height adjusting mechanism limiting holes 36, and a longitudinal reverse thread type height adjusting mechanism limiting rod 37 is inserted into the longitudinal reverse thread type height adjusting mechanism limiting holes 36; the thread structure 33 for the longitudinal reverse thread type height adjusting mechanism comprises an internal thread structure arranged on the inner wall of the thread sleeve 31 for the longitudinal reverse thread type height adjusting mechanism and an external thread structure arranged on the rod body of the bottom threaded rod 34 for the longitudinal reverse thread type height adjusting mechanism and the top threaded rod 35 for the longitudinal reverse thread type height adjusting mechanism, and the thread directions of the thread structures on the rod body of the bottom threaded rod 34 for the longitudinal reverse thread type height adjusting mechanism and the top threaded rod 35 for the longitudinal reverse thread type height adjusting mechanism are opposite; the structure appearance of 36 cross sections of the longitudinal reverse thread type height adjusting mechanism limiting holes and the structure appearance of 37 cross sections of the longitudinal reverse thread type height adjusting mechanism limiting rods are triangular structures, the bottom end of the bottom threaded rod 34 for the longitudinal reverse thread type height adjusting mechanism and the top end of the top threaded rod 35 for the longitudinal reverse thread type height adjusting mechanism are respectively arranged on the upper surface of the main mounting plate 1 and the lower surface of the main support plate 4, and the main functions of the mechanism are as follows: the thread structure 33 for the longitudinal reverse thread type height adjusting mechanism comprises an internal thread structure arranged on the inner wall of the thread sleeve 31 for the longitudinal reverse thread type height adjusting mechanism and an external thread structure arranged on the rod bodies of the bottom threaded rod 34 for the longitudinal reverse thread type height adjusting mechanism and the top threaded rod 35 for the longitudinal reverse thread type height adjusting mechanism, and the thread directions of the thread structures on the rod bodies of the bottom threaded rod 34 for the longitudinal reverse thread type height adjusting mechanism and the top threaded rod 35 for the longitudinal reverse thread type height adjusting mechanism are opposite; the structure appearance of 36 cross sections of the longitudinal reverse thread type height adjusting mechanism limiting holes and the structure appearance of 37 cross sections of the longitudinal reverse thread type height adjusting mechanism limiting rods are triangular structures, the bottom end of the bottom threaded rod 34 for the longitudinal reverse thread type height adjusting mechanism and the top end of the top threaded rod 35 for the longitudinal reverse thread type height adjusting mechanism are respectively arranged on the upper surface of the main mounting plate 1 and the lower surface of the main support plate 4, and therefore when the threaded sleeve 31 for the longitudinal reverse thread type height adjusting mechanism rotates, the adjusting function can be achieved under the action of reverse threads.

Referring to fig. 3, the threaded structure screwing installation type gas inlet and release mechanism 10 includes a pipeline body 101 for the threaded structure screwing installation type gas inlet and release mechanism, an external thread structure 102 for the threaded structure screwing installation type gas inlet and release mechanism, a vent hole 103 for the threaded structure screwing installation type gas inlet and release mechanism, a valve core installation groove structure 104 for the threaded structure screwing installation type gas inlet and release mechanism, and a valve core 105 for the threaded structure screwing installation type gas inlet and release mechanism in the prior art; the side face of one end of the pipeline body 101 for the threaded structure screwing installation type gas inlet and release mechanism is provided with an external thread structure 102 for the threaded structure screwing installation type gas inlet and release mechanism, the thread structure screwing installation type gas inlet and release mechanism is of an integral structure with the external thread structure 102, the center of the inside of the pipeline body 101 for the threaded structure screwing installation type gas inlet and release mechanism is provided with a vent hole 103 for the threaded structure screwing installation type gas inlet and release mechanism, one end of the vent hole 103 for the threaded structure screwing installation type gas inlet and release mechanism is provided with a valve core installation groove structure 104 for the threaded structure screwing installation type gas inlet and release mechanism, and a threaded structure screwing installation type gas inlet and release mechanism valve core 105 is installed inside the valve core installation groove structure 104 for the threaded structure screwing installation type gas inlet and release; the external thread structure 102 for the threaded structure screwing installation type gas inlet and outlet release mechanism is meshed with the internal thread structure at the position of the mounting hole 9 of the threaded structure screwing installation type gas inlet and outlet release mechanism; the pipeline body 101 for the threaded structure screwing installation type gas inlet and outlet release mechanism is installed inside the mounting hole 9 for the threaded structure screwing installation type gas inlet and outlet release mechanism, one end of the vent hole 103 for the threaded structure screwing installation type gas inlet and outlet release mechanism is communicated with the main vent pipeline hole 7, and the main functions of the vent pipeline hole are as follows: the external thread structure 102 for the threaded structure screwing installation type gas inlet and outlet release mechanism is meshed with the internal thread structure at the position of the mounting hole 9 of the threaded structure screwing installation type gas inlet and outlet release mechanism; the gaseous pipeline body 101 that lets in release mechanism of the screw thread structure twist the installation formula is installed in the inside that the screw thread structure twist the installation formula and lets in release mechanism mounting hole 9, just the screw thread structure twist the one end intercommunication total breather pipe way hole 7 that the installation formula is gaseous to let in release mechanism for air vent 103, because the valve core 105 is the valve core among the prior art for the release mechanism is let in to the installation formula is twisted to the screw thread structure, so conveniently connect and bleed, when opening, make things convenient for the air to get into, realize the negative pressure control effect.

Referring to fig. 4, the air-tight flowing piston type rotating shaft connecting mechanism 16 includes a piston plate 161 for the air-tight flowing piston type rotating shaft connecting mechanism, an annular groove structure 162 for the air-tight flowing piston type rotating shaft connecting mechanism, an air seal ring 163 for the air-tight flowing piston type rotating shaft connecting mechanism, a vertical rod structure 164 for the air-tight flowing piston type rotating shaft connecting mechanism, a bearing mounting hole 165 for the air-tight flowing piston type rotating shaft connecting mechanism, a bearing 166 for the air-tight flowing piston type rotating shaft connecting mechanism, and a shaft body mounting hole 167 for the air-tight flowing piston type rotating shaft connecting mechanism; an annular groove structure 162 for an air-tight flowing piston type rotating shaft connecting mechanism is arranged on the side surface of the piston plate 161 for the air-tight flowing piston type rotating shaft connecting mechanism, an air sealing ring 163 for the air-tight flowing piston type rotating shaft connecting mechanism is arranged inside the annular groove structure 162 for the air-tight flowing piston type rotating shaft connecting mechanism 161, a vertical rod structure 164 for the air-tight flowing piston type rotating shaft connecting mechanism is arranged at the center of the upper surface of the piston plate 161 for the air-tight flowing piston type rotating shaft connecting mechanism, a bearing mounting hole 165 for the air-tight flowing piston type rotating shaft connecting mechanism is arranged inside the top end of the vertical rod structure 164 for the air-tight flowing piston type rotating shaft connecting mechanism, and an air sealing piston type rotating shaft connecting mechanism bearing mounting hole 165 is arranged inside the bearing mounting hole 165 for the air-tight flowing piston type rotating shaft connecting mechanism A shaft connecting mechanism bearing 166, an inner ring of the air-tight flow piston type rotating shaft connecting mechanism bearing 166 forming the air-tight flow piston type rotating shaft connecting mechanism shaft body mounting hole 167; a third rotating shaft 19 is arranged in the shaft body mounting hole 167 for the air-tight flowing piston type rotating shaft connecting mechanism; the piston plate 161 for the air-tight flowing piston type rotating shaft connecting mechanism is arranged in the main hollow structure 6 and mainly has the following functions: the third rotating shaft 19 is arranged in the shaft body mounting hole 167 for the air sealing flow piston type rotating shaft connecting mechanism; the air-tight flow piston type rotating shaft connecting mechanism is installed inside the main hollow structure 6 by the piston plate 161, so that the movement effect can be realized under the action of air, thereby driving the top roller 20 to realize the pressing effect.

The specific use mode is as follows: during the operation of the invention, a main mounting plate 1 is fixed on the ground through bolts, then a driving motor with a belt pulley is connected with a main belt pulley 15 through a belt, then the middle part of each cable is inserted into the corresponding bottom semi-circular groove structure 18 and the top semi-circular groove structure 21, then the air suction machine is connected with a thread structure to screw the mounting type gas into a releasing mechanism 10, the air suction machine is opened to suck the air in the main hollow structure 6, after the completion, the motor can be opened, and under the extrusion action and the rotation action of a bottom roller 17 and a top roller 20, the driving action of the cable is realized.

It will be evident to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential attributes thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Claims (10)

1. The utility model provides a cable middle part drive arrangement for cable manufacture, includes main mounting panel (1), its characterized in that: the main shaft structure is characterized in that a plurality of main bolt holes (2) are formed in the main mounting plate (1), a longitudinal reverse threaded height adjusting mechanism (3) is mounted at the center of the upper surface of the main mounting plate (1), a main support plate (4) is mounted at the top of the longitudinal reverse threaded height adjusting mechanism (3), vertical plate structures (5) which are integrated with the main support plate (4) are arranged on two opposite sides of the upper surface of the main support plate (4), a main hollow structure (6) is arranged in each vertical plate structure (5), a solid rotating shaft mounting pipeline (11) is arranged at the center of the inner part of each vertical plate structure (5), a main shaft hole (12) is formed in the center of the inner part of each rotating shaft mounting pipeline (11), and a first rotating shaft (13) and a second rotating shaft (14) are mounted in the main shaft hole (12) of each rotating shaft mounting pipeline (11) through bearings respectively, the device is characterized in that a bottom roller (17) is arranged at the opposite end of the first rotating shaft (13) and the second rotating shaft (14), a plurality of bottom semicircular groove structures (18) are arranged on the surface of the bottom roller (17), a main belt pulley (15) is arranged at the other end of the first rotating shaft (13), main vent pipe holes (7) communicated with two main hollow structures (6) are formed in the main support plate (4), vent pipes (8) of an integrated structure are arranged at the bottom of the main support plate (4), a threaded structure screwing installation type gas inlet and outlet release mechanism mounting hole (9) communicated with the main vent pipe holes (7) is formed in the vent pipes (8), a threaded structure screwing installation type gas inlet and outlet release mechanism (10) is arranged in the threaded structure screwing installation type gas inlet and outlet release mechanism mounting hole (9), the air sealing flowing piston type rotating shaft connecting mechanisms (16) are arranged inside the top ends of the two main hollow structures (6), a main through hole (22) is formed in the center of the top of the vertical plate structure (5), the air sealing flowing piston type rotating shaft connecting mechanisms (16) penetrate through the main through hole (22), third rotating shafts (19) are arranged inside the opposite ends of the two air sealing flowing piston type rotating shaft connecting mechanisms (16), a top roller (20) is arranged at the opposite end of the two third rotating shafts (19), and a plurality of top semicircular groove structures (21) are arranged on the surface of the top roller (20).

2. The cable middle driving device according to claim 1, wherein: the longitudinal reverse thread type height adjusting mechanism (3) comprises a thread sleeve (31) for the longitudinal reverse thread type height adjusting mechanism, a thread section (32) for the longitudinal reverse thread type height adjusting mechanism, a thread structure (33) for the longitudinal reverse thread type height adjusting mechanism, a bottom threaded rod (34) for the longitudinal reverse thread type height adjusting mechanism, a top threaded rod (35) for the longitudinal reverse thread type height adjusting mechanism, a limiting hole (36) for the longitudinal reverse thread type height adjusting mechanism and a limiting rod (37) for the longitudinal reverse thread type height adjusting mechanism; the thread sleeve (31) for the longitudinal reverse thread type height adjusting mechanism is internally provided with a thread section (32) for the longitudinal reverse thread type height adjusting mechanism, which is communicated with two end faces of the thread sleeve (31) for the longitudinal reverse thread type height adjusting mechanism, the thread sleeve (31) for the longitudinal reverse thread type height adjusting mechanism is provided with a thread structure (33) for the longitudinal reverse thread type height adjusting mechanism on the inner wall of the thread section (32) for the longitudinal reverse thread type height adjusting mechanism, the bottom and the top of the thread section (32) for the longitudinal reverse thread type height adjusting mechanism are respectively connected with a bottom threaded rod (34) for the longitudinal reverse thread type height adjusting mechanism and a top threaded rod (35) for the longitudinal reverse thread type height adjusting mechanism through the thread structure (33) for the longitudinal reverse thread type height adjusting mechanism, the vertical reverse thread type height adjusting mechanism is characterized in that a bottom threaded rod (34) for the vertical reverse thread type height adjusting mechanism and a top threaded rod (35) for the vertical reverse thread type height adjusting mechanism are respectively provided with a limiting hole (36) for the vertical reverse thread type height adjusting mechanism in the opposite end, and a limiting rod (37) for the vertical reverse thread type height adjusting mechanism is inserted into the limiting hole (36) for the vertical reverse thread type height adjusting mechanism.

3. The cable middle driving device according to claim 2, wherein: vertical reverse screw thread formula is helicitic texture (33) for height adjusting mechanism is including setting up the internal thread structure at vertical reverse screw thread formula for height adjusting mechanism threaded sleeve (31) inner wall and setting up the external thread structure on vertical reverse screw thread formula for height adjusting mechanism bottom threaded rod (34) and vertical reverse screw thread formula for height adjusting mechanism top threaded rod (35) body of rod, and is located vertical reverse screw thread formula for height adjusting mechanism bottom threaded rod (34) and vertical reverse screw thread formula for height adjusting mechanism top threaded rod (35) body of rod's the opposite thread direction of helicitic texture.

4. The cable middle driving device according to claim 2, wherein: the structure appearance of vertical reverse screw thread formula height-adjusting mechanism with spacing hole (36) cross section and the structure appearance of vertical reverse screw thread formula height-adjusting mechanism with gag lever post (37) cross section are the triangle-shaped structure, just the upper surface at main mounting panel (1) and the lower surface of main tributary fagging (4) are installed respectively on the bottom of vertical reverse screw thread formula height-adjusting mechanism with bottom threaded rod (34) and the top of vertical reverse screw thread formula height-adjusting mechanism with top threaded rod (35).

5. The cable middle driving device according to claim 1, wherein: the threaded structure screwing installation type gas inlet and release mechanism (10) comprises a pipeline body (101) for the threaded structure screwing installation type gas inlet and release mechanism, an external thread structure (102) for the threaded structure screwing installation type gas inlet and release mechanism, a vent hole (103) for the threaded structure screwing installation type gas inlet and release mechanism, a valve core mounting groove structure (104) for the threaded structure screwing installation type gas inlet and release mechanism and a valve core (105) for the threaded structure screwing installation type gas inlet and release mechanism in the prior art; the side of the one end of the pipeline body (101) for the threaded structure screwing installation type gas inlet and outlet release mechanism is provided with an external thread structure (102) for the threaded structure screwing installation type gas inlet and outlet release mechanism, which is of an integrated structure, the center of the inside of the pipeline body (101) for the threaded structure screwing installation type gas inlet and outlet release mechanism is provided with a vent hole (103) for the threaded structure screwing installation type gas inlet and outlet release mechanism, one end of the vent hole (103) for the threaded structure screwing installation type gas inlet and outlet release mechanism is provided with a valve core installation groove structure (104) for the threaded structure screwing installation type gas inlet and outlet release mechanism, and the valve core (105) for the release mechanism is internally installed with a threaded structure screwing installation type gas inlet and outlet installation groove structure (104) for the threaded structure screwing installation type gas inlet and outlet release mechanism.

6. The cable middle driving device according to claim 5, wherein: the external thread structure (102) for the threaded structure screwing installation type gas inlet and release mechanism is meshed with the internal thread structure at the position of the mounting hole (9) of the threaded structure screwing installation type gas inlet and release mechanism.

7. The cable middle driving device according to claim 5, wherein: the pipeline body (101) for the threaded structure screwing installation type gas inlet and outlet release mechanism is installed inside the threaded structure screwing installation type gas inlet and outlet release mechanism installation hole (9), and one end of the vent hole (103) for the threaded structure screwing installation type gas inlet and outlet release mechanism is communicated with the main vent pipeline hole (7).

8. The cable middle driving device according to claim 1, wherein: the air-tight sealing flow piston type rotating shaft connecting mechanism (16) comprises a piston plate (161) for the air-tight sealing flow piston type rotating shaft connecting mechanism, an annular groove structure (162) for the air-tight sealing flow piston type rotating shaft connecting mechanism, an air sealing ring (163) for the air-tight sealing flow piston type rotating shaft connecting mechanism, a vertical rod structure (164) for the air-tight sealing flow piston type rotating shaft connecting mechanism, a bearing mounting hole (165) for the air-tight sealing flow piston type rotating shaft connecting mechanism, a bearing (166) for the air-tight sealing flow piston type rotating shaft connecting mechanism and a shaft body mounting hole (167) for the air-tight sealing flow piston type rotating shaft connecting mechanism; an annular groove structure (162) for the air-sealing flowing piston type rotating shaft connecting mechanism is arranged on the side face of a piston plate (161) for the air-sealing flowing piston type rotating shaft connecting mechanism, an air sealing ring (163) for the air-sealing flowing piston type rotating shaft connecting mechanism is arranged inside the annular groove structure (162) for the air-sealing flowing piston type rotating shaft connecting mechanism, a vertical rod structure (164) for the air-sealing flowing piston type rotating shaft connecting mechanism is arranged at the center of the upper surface of the piston plate (161) for the air-sealing flowing piston type rotating shaft connecting mechanism, and an air-sealing flowing piston type rotating shaft connecting mechanism bearing mounting hole (165) is arranged inside the top end of the vertical rod structure (164) for the air-sealing flowing piston type rotating shaft connecting mechanism, and a bearing (166) for the air sealing flow piston type rotating shaft connecting mechanism is arranged in the bearing mounting hole (165) for the air sealing flow piston type rotating shaft connecting mechanism, and an inner ring of the bearing (166) for the air sealing flow piston type rotating shaft connecting mechanism forms a shaft body mounting hole (167) for the air sealing flow piston type rotating shaft connecting mechanism.

9. The cable middle driving device according to claim 8, wherein: a third rotating shaft (19) is mounted inside a shaft body mounting hole (167) for the air-tight flowing piston type rotating shaft connecting mechanism.

10. The cable middle driving device according to claim 8, wherein: the air-tight flow piston-type rotating shaft connecting mechanism is mounted inside the main hollow structure (6) by a piston plate (161).

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