CN217280234U - Double-station mechanism for twisting twist of electronic wire - Google Patents

Abstract

The utility model discloses a duplex position is used for mechanism of electron wire hank fried dough twist, include base connecting plate, duplex position operating device, install and remove mechanism and operating device, the top of base connecting plate is provided with duplex position operating device, and one side limit end of duplex position operating device is provided with installs and removes the mechanism, duplex position operating device's top is provided with operating device, duplex position operating device includes base, assembly part, swivel bearing, the spacing piece of bearing, cylinder joint, the adjustable cylinder of stroke, built-in pole, connecting piece and last wire clamping splint, and the middle part both sides of base are provided with the assembly part. The double-station twist mechanism for the electronic wire twisting comprises a piston rod arranged in the middle of a stroke-adjustable cylinder and connected with an internally installed rod, when the piston rod is pushed out, an upper wire clamping splint at the top of the piston rod can clamp the front end of the piston rod, and when the piston rod retracts, the upper wire clamping splint can open along with the piston rod, so that a user can clamp the electronic wire conveniently.

Description

Double-station mechanism for twisting twist of electronic wire

Technical Field

The utility model relates to an electron wire hank fried dough twist technical field specifically is a duplex position is used for mechanism of electron wire hank fried dough twist.

Background

The twist-shaped electronic wire forming part is composed of two copper wires with insulating protective layers. Two insulated electronic wires are twisted together according to a certain density to meet the requirement of the electric industry, and the mechanism of twisting the twist of the electronic wires is an operating device specially used for twisting the twist of the two or more electronic wires.

When the electronic wire twisting twist mechanism on the market is used, a common electronic wire twisting twist device works in a single station, and can perform twisting twist operation better repeatedly, but compared with double-station structural assembly, the efficiency of the electronic wire twisting twist is greatly reduced under almost resource assemblies, and unnecessary mechanical energy is wasted.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a duplex position is used for mechanism of electron line hank fried dough twist to solve the general electron line hank fried dough twist device that proposes in the above-mentioned background art and all be the simplex position and carry out the operation, though the repetition that can be better carries out the hank fried dough twist operation, but compare in the structure assembly of duplex position, the efficiency of the electron line hank fried dough twist that has significantly reduced under almost resource assembly, still wasted the problem of the unnecessary mechanical energy simultaneously.

In order to achieve the above purpose, the utility model provides a following technical scheme: a double-station mechanism for twisting fried dough twists with electronic wires comprises a base connecting plate, a double-station operating mechanism, an assembling and disassembling mechanism and an operating mechanism, wherein the double-station operating mechanism is arranged above the base connecting plate, the assembling and disassembling mechanism is arranged at one side end of the double-station operating mechanism, the operating mechanism is arranged above the double-station operating mechanism, the double-station operating mechanism comprises a base, an assembly part, a rotary bearing, a bearing limiting piece, a cylinder joint, a stroke-adjustable cylinder, an internal rod, a connecting part and an upper wire clamping plate, the assembly part is arranged on two sides of the middle part of the base, the rotary bearing is arranged on the periphery of the edge end of the assembly part, a bearing limiting piece is arranged on one side of the rotary bearing, the cylinder joint is arranged on the outer side of the bearing limiting piece, the stroke-adjustable cylinder is arranged on the side of the cylinder joint, the internal rod is assembled on the inner side of the assembly part, and the edge end of the built-in rod is connected with a connecting piece, and the end of the connecting piece is provided with an upper wire clamping splint.

Furthermore, the assembly part and the base form a rotating structure through a rotating bearing, and the rotating bearing is connected with the bearing limiting sheet.

Furthermore, the connecting piece is distributed in an inclined shape, and the connecting piece, the built-in rod and the upper wire clamping splint are fixedly connected with each other.

Further, install and remove the mechanism and include lower wire clamping splint, connecting plate and screw assembly, and the avris of lower wire clamping splint is fixed with the connecting plate, the middle-end both sides of connecting plate are provided with screw assembly.

Furthermore, the lower wire clamping plate, the thread assemblies and the double-station operating mechanism form a thread assembly structure through the connecting plate, and the thread assemblies are provided with two groups.

Further, operation mechanism includes installed part, even dress arbor wheel, belt, rotatory synchronizing wheel, servo motor and origin inductor, and the avris of installed part is provided with even dress arbor wheel, the side of even dress arbor wheel is provided with the belt, and one section inboard of belt is provided with rotatory synchronizing wheel, rotatory synchronizing wheel's middle-end avris is provided with servo motor, and one side top of servo motor is provided with the origin inductor.

Furthermore, the continuous installation shaft wheel forms a meshing transmission structure with the belt through the servo motor and the rotating synchronous wheel, and is connected with the installation part.

Compared with the prior art, the beneficial effects of the utility model are that: the double-station twist mechanism for the electronic wire, the piston rod in the middle of the stroke-adjustable cylinder is connected with the built-in rod, when the piston rod is pushed out, the upper wire clamping splint at the top of the piston rod can clamp the electronic wire towards the front end, and when the piston rod retracts, the upper wire clamping splint can also open along with the piston rod, so that a user can clamp the electronic wire conveniently, the double-station twist mechanism can control the wire clamping splints at the two front ends of the two sets of built-in rods by using the stroke-adjustable cylinder, the beneficial effect of simultaneous operation of the double stations can be achieved, and the production efficiency is improved.

The rotary bearing is arranged to ensure that the assembly part and a piston rod in the middle of the stroke-adjustable cylinder are assembled in a connected mode, but the rotation of the assembly part cannot be influenced, the upper wire clamping plates are respectively connected with the built-in rods, the connecting part is fixedly connected, the piston rod in the middle of the stroke-adjustable cylinder is connected with the built-in rods, when the piston rod is pushed out, the upper wire clamping plates at the top of the piston rod can clamp the front ends of the two sets of built-in rods, when the piston rod retracts, the upper wire clamping plates can be opened accordingly, convenience is brought to a user to clamp the electronic wire, the device controls the two front ends of the two sets of built-in rods to be connected with the wire clamping plates through the stroke-adjustable cylinder, the beneficial effect of double-station simultaneous operation can be achieved, and the production efficiency is improved.

Lower trapping clamp plate sets up the front end at the assembly part, and agrees with between the two with last trapping clamp plate mutually, and the user of also being convenient for of screw assembly's setting is dismantled the equipment to lower trapping clamp plate simultaneously, and it is more convenient to overhaul and clear up.

Servo motor is starting the back, and the rotatory synchronizing wheel that drives front end middle part carries out synchronous rotation, utilizes setting up of belt, continuous installation arbor wheel and installed part to drive the assembly part and carry out the rotation with the speed this moment to drive two lower double-layered line splint and carry out the electron line hank fried dough twist operation of equidirectional, and rotatory synchronizing wheel big belt little can reach high-speed twisted wire.

Drawings

FIG. 1 is a schematic structural view of the utility model in a three-dimensional assembly state;

FIG. 2 is a schematic view of a partial enlarged structure at A in FIG. 1 according to the present invention;

fig. 3 is a schematic structural view of the utility model in a three-dimensional explosion state.

In the figure: 1. a base connection plate; 2. a double-station operating mechanism; 201. a base; 202. an assembly member; 203. a rotating bearing; 204. a bearing limiting sheet; 205. a cylinder joint; 206. a stroke-adjustable cylinder; 207. a pole is arranged inside; 208. connecting parts; 209. an upper wire clamping splint; 3. an assembling and disassembling mechanism; 301. a lower wire clamping splint; 302. a connecting plate; 303. a threaded assembly; 4. an operating mechanism; 401. a mounting member; 402. connecting and installing a shaft wheel; 403. a belt; 404. rotating the synchronizing wheel; 405. a servo motor; 406. an origin sensor.

Detailed Description

As shown in fig. 1, a double station mechanism for twisting an electronic wire, comprises: a base connection plate 1; a double-station operating mechanism 2 is arranged above a base connecting plate 1, an assembling and disassembling mechanism 3 is arranged at one side edge end of the double-station operating mechanism 2, an operating mechanism 4 is arranged above the double-station operating mechanism 2, the double-station operating mechanism 2 comprises a base 201, an assembling part 202, a rotary bearing 203, a bearing limiting sheet 204, a cylinder joint 205, a stroke-adjustable cylinder 206, an inner rod 207, a connecting part 208 and an upper wire clamping plate 209, the assembling part 202 is arranged at two sides of the middle part of the base 201, the rotary bearing 203 is arranged at the periphery of the edge end of the assembling part 202, a bearing limiting sheet 204 is arranged at one side of the rotary bearing 203, the assembling part 202 forms a rotating structure with the base 201 through the rotary bearing 203, the rotary bearing 203 is connected with the bearing limiting sheet 204, the cylinder joint 205 is arranged at the outer side of the bearing limiting sheet 204, and the stroke-adjustable cylinder 206 is arranged at the side edge of the cylinder joint 205, the inner side of the interior of the assembly part 202 is provided with an interior rod 207, the edge end of the interior rod 207 is connected with a connecting part 208, the end head of the connecting part 208 is provided with an upper wire clamping clamp plate 209, the connecting part 208 is distributed in an inclined shape, the connecting part 208, the interior rod 207 and the upper wire clamping clamp plate 209 are fixedly connected with each other, the arrangement of the rotary bearing 203 can ensure that the assembly part 202 and a piston rod in the middle of the stroke-adjustable cylinder 206 are integrally assembled without influencing the rotation of the assembly part 202, the upper wire clamping clamp plate 209 is respectively fixedly connected with the interior rod 207 and the connecting part 208, the piston rod in the middle of the stroke-adjustable cylinder 206 is connected with the interior rod 207, when the piston rod is pushed out, the upper wire clamping clamp plate 209 at the top of the piston rod can be clamped towards the front end along with the piston rod, and when the piston rod retracts, the upper wire clamping clamp plate 209 can be opened along with the piston rod, so that a user can conveniently clamp the electronic wire, and the device utilizes the stroke-adjustable cylinder 206 to control the two sets of upper wire clamping clamp plates 209 at the two front ends of the interior rods 207, the beneficial effect of simultaneous operation of double stations can be achieved, and the production efficiency is increased.

As shown in fig. 2, the double-station twist mechanism for the electronic wire, the assembling and disassembling mechanism 3 comprises a lower wire clamping splint 301, a connecting plate 302 and a threaded component 303, the connecting plate 302 is fixed on the side of the lower wire clamping splint 301, the threaded components 303 are arranged on two sides of the middle end of the connecting plate 302, the lower wire clamping splint 301, the threaded component 303 and the double-station operating mechanism 2 form a threaded assembling structure through the connecting plate 302, the threaded components 303 are arranged in two groups, the lower wire clamping splint 301 is arranged at the front end of the assembling part 202 and is matched with the upper wire clamping splint 209, and meanwhile, the lower wire clamping splint 301 is convenient to disassemble and assemble by a user due to the arrangement of the threaded component 303, so that the overhauling and cleaning are more convenient.

As shown in fig. 3, a double-station mechanism for twisting twist with electronic wire, the operating mechanism 4 includes a mounting member 401, a connecting shaft wheel 402, a belt 403, a rotating synchronous wheel 404, a servo motor 405 and an origin sensor 406, the connecting shaft wheel 402 is disposed at the side of the mounting member 401, the belt 403 is disposed at the side of the connecting shaft wheel 402, the rotating synchronous wheel 404 is disposed at the inner side of one section of the belt 403, the servo motor 405 is disposed at the side of the middle end of the rotating synchronous wheel 404, the origin sensor 406 is disposed above one side of the servo motor 405, the connecting shaft wheel 402 forms a meshing transmission structure with the belt 403 through the servo motor 405, the rotating synchronous wheel 404 at the middle of the front end and is connected between the connecting shaft wheel 402 and the mounting member 401, after the servo motor 405 is started, the rotating synchronous rotation of the rotating synchronous wheel 404 at the middle of the front end is driven by the arrangement of the belt 403, the connecting shaft wheel 402 and the mounting member 401 to drive the assembly member 202 to rotate at the same speed, thereby driving the two lower wire clamping splints 301 to twist the twist of the electronic wire in the same direction, and rotating the synchronizing wheel 404 to achieve high-speed wire twisting.

The working principle is as follows: for the double-station mechanism for twisting the twist of the electronic wire, firstly, the arrangement of the rotary bearing 203 can ensure that the assembly part 202 and the piston rod in the middle of the stroke-adjustable cylinder 206 are integrally assembled without influencing the rotation of the assembly part 202, the upper wire clamping splint 209 is respectively and fixedly connected with the inner installation rod 207 and the connecting part 208, the piston rod in the middle of the stroke-adjustable cylinder 206 is connected with the inner installation rod 207, when the piston rod is pushed out, the upper wire clamping splint 209 at the top of the piston rod can clamp the front end along with the piston rod, and when the piston rod retracts, the upper wire clamping splint 209 can be opened along with the piston rod, so that a user can clamp the electronic wire, in addition, the device utilizes the stroke-adjustable cylinder 206 to control the wire clamping splints 209 at the two front ends of the two groups of inner installation rods 207, the beneficial effect of simultaneous operation of double stations can be achieved, the production efficiency is increased, and the servo motor 405 can drive the rotary synchronizing wheel 404 in the middle of the front end to synchronously rotate after being started, at this time, the belt 403, the connecting shaft wheel 402 and the mounting member 401 are arranged to drive the mounting member 202 to rotate at the same speed, so as to drive the two lower wire clamping plates 301 to twist the twist of the electronic wire in the same direction, and the rotating synchronizing wheel 404 is arranged to rotate with a larger belt and a smaller belt to twist the wire at a high speed.

Claims (7)

1. The utility model provides a duplex position is used for mechanism of electron wire hank fried dough twist, includes base connecting plate (1), duplex position operating device (2), installs and removes mechanism (3) and operating device (4), its characterized in that: the double-station wire clamping device is characterized in that a double-station operating mechanism (2) is arranged above the base connecting plate (1), an assembling and disassembling mechanism (3) is arranged at one side end of the double-station operating mechanism (2), an operating mechanism (4) is arranged above the double-station operating mechanism (2), the double-station operating mechanism (2) comprises a base (201), an assembling part (202), a rotary bearing (203), a bearing limiting piece (204), a cylinder joint (205), a stroke-adjustable cylinder (206), an inner installing rod (207), a connecting part (208) and an upper wire clamping plate (209), the assembling part (202) is arranged on two sides of the middle of the base (201), the rotary bearing (203) is arranged on the periphery of the side end of the assembling part (202), the bearing limiting piece (204) is arranged on one side of the rotary bearing (203), and the cylinder joint (205) is arranged on the outer side of the bearing limiting piece (204), and a stroke-adjustable air cylinder (206) is arranged on the side edge of the air cylinder joint (205), an inner side of the interior of the assembly part (202) is provided with an inner rod (207), the side end of the inner rod (207) is connected with an assembly part (208), and the end of the assembly part (208) is provided with an upper wire clamping plate (209).

2. The mechanism of claim 1, wherein the double station is for twist of electronic wire, and wherein: the assembly part (202) and the base (201) form a rotating structure through a rotary bearing (203), and the rotary bearing (203) and the bearing limiting sheet (204) are connected with each other.

3. The mechanism of claim 1, wherein the double station is used for twisting electronic wires, and the mechanism comprises: the connecting piece (208) is distributed in an inclined shape, and the connecting piece (208), the built-in rod (207) and the upper wire clamping splint (209) are fixedly connected with each other.

4. The mechanism of claim 1, wherein the double station is for twist of electronic wire, and wherein: install and remove mechanism (3) including lower wire clamping splint (301), connecting plate (302) and screw assembly (303), and the avris of lower wire clamping splint (301) is fixed with connecting plate (302), the middle-end both sides of connecting plate (302) are provided with screw assembly (303).

5. The mechanism of claim 4, wherein the double station is used for twisting electronic wires, and the mechanism comprises: the lower wire clamping splint (301) forms a thread assembly structure with the thread assembly (303) and the double-station operating mechanism (2) through the connecting plate (302), and the thread assemblies (303) are provided with two groups.

6. The mechanism of claim 1, wherein the double station is for twist of electronic wire, and wherein: operating device (4) are including installed part (401), company's dress arbor wheel (402), belt (403), rotatory synchronizing wheel (404), servo motor (405) and origin inductor (406), and the avris of installed part (401) is provided with company's dress arbor wheel (402), the side of company's dress arbor wheel (402) is provided with belt (403), and one section inboard of belt (403) is provided with rotatory synchronizing wheel (404), the middle-end avris of rotatory synchronizing wheel (404) is provided with servo motor (405), and one side top of servo motor (405) is provided with origin inductor (406).

7. The mechanism of claim 6, wherein the double station is used for twisting electronic wires, and the mechanism comprises: the connecting shaft wheel (402) forms a meshing transmission structure with the belt (403) through the servo motor (405), the rotating synchronous wheel (404), and the connecting shaft wheel (402) is connected with the mounting piece (401).

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