CN216054285U - Automatic wire dividing mechanism - Google Patents

Abstract

The utility model relates to the technical field of magnetic ring winding production devices, in particular to an automatic wire dividing mechanism; the device comprises a mounting plate, wherein a mounting seat is fixed on the mounting plate, a material seat is fixed on the mounting seat, movable wire distributing seats are respectively arranged at the front end and the rear end of the material seat, a plurality of wire distributing grooves are vertically formed in the wire distributing seats, and clamping arms are correspondingly and movably arranged at the front end and the rear end of the material seat; according to the utility model, the winding pin is pulled outwards through the clamping arm, and according to the length of the winding pin, the shortest winding pin is separated from the clamping arm firstly and falls into the first wire placing groove of the wire distributing base, and the longest winding pin is separated from the clamping arm finally and falls into the last wire placing groove of the wire distributing base, so that the automatic production can be realized, and the production efficiency is improved.

Description

Automatic wire dividing mechanism

Technical Field

The utility model relates to the technical field of magnetic ring winding production devices, in particular to an automatic wire dividing mechanism.

Background

Electronic products such as transformers need to use the magnetic ring, and the coiling has many magnetic ring windings on the magnetic ring, and many winding pins form a plurality of winding pins that differ in length, and each winding pin corresponds a welding position, in process of production, need separate each winding pin. At present, the magnetic ring is placed in the jig in a manual placing mode, the wire diameter of the magnetic ring winding is very small, and a wire slot of the jig is also very small, so that the production efficiency of the magnetic ring placement is very low, and due to the fact that careful operation is needed during placement, visual fatigue of operators can be caused, and the production efficiency is further influenced.

Therefore, in view of the above-mentioned drawbacks of the conventional production method, it is necessary to improve the conventional production method.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide an automatic wire separating mechanism aiming at the defects of the prior art, which solves the problems that the prior automatic wire separating mechanism has the following problems: low production efficiency and the like.

In order to realize the purpose, the utility model is realized by the following technical scheme: automatic wire separating mechanism, including the mounting panel, be fixed with the mount pad on the mounting panel, be fixed with the material seat on the mount pad, both ends are provided with movable separated time seat respectively around the material seat, and a plurality of wire laying grooves have vertically been seted up to the separated time seat, and both ends correspond the activity and are provided with the arm lock around the material seat.

Furthermore, the mounting plate is provided with a mounting hole position, and the mounting seat is positioned above the mounting hole.

Furthermore, the mounting panel on install the slide rail, be provided with arm lock actuating mechanism on the slide rail, arm lock actuating mechanism is including driving the rotatory rack and pinion device of arm lock.

Furthermore, the middle part of the material seat is provided with a placing groove for placing the magnetic ring, the front end and the rear end of the material seat are vertically provided with wire dividing grooves, and the wire dividing grooves are communicated with the placing groove.

Furthermore, a V-shaped material inclined plane is formed on the upper part of the material seat.

Furthermore, the wire distributing seat is vertically arranged, the lower part of the wire distributing seat is connected with a driving device, the driving device is positioned below the mounting plate, and the wire distributing seat is positioned in the mounting hole.

Furthermore, push rods moving left and right are respectively arranged on two sides of the material seat, one surface of each push rod facing the material seat is a wire pushing inclined surface, and the wire pushing inclined surfaces are located above the wire distributing seats.

Furthermore, the middle part of the push rod is provided with an avoiding hole for avoiding the material seat.

Furthermore, the air outlet pipes are arranged above the push rod, the air outlets of the air outlet pipes are located above the push wire inclined plane, and the two air outlet pipes are respectively located at the front end and the rear end of the material seat.

Furthermore, two groups of pressing needles are movably arranged at the front end and the rear end of the material seat respectively, each group of pressing needles is staggered, each group of pressing needles is located between the wire distributing seat and the material seat, and the pressing needles are movably located below the wire pushing inclined plane.

The utility model has the beneficial effects that: the winding pins are pulled outwards through the clamping arms, the winding pins are separated from the clamping arms at the shortest first and fall into the first wire placing groove of the wire distributing base according to the length, and the winding pins are separated from the clamping arms at the longest last and fall into the last wire placing groove of the wire distributing base, so that automatic production can be realized, and the production efficiency is improved.

Drawings

FIG. 1 is a schematic structural diagram of the present invention.

Fig. 2 is a partial structural schematic diagram of the present invention.

Fig. 3 is a side view of fig. 2.

Detailed Description

The utility model will be further described with reference to the accompanying drawings.

Referring to fig. 1 to 3, the automatic wire-separating mechanism of the present invention comprises: the device comprises a mounting plate 10, a mounting hole position 11, a mounting seat 12, a clamping arm 20, a clamping arm driving mechanism 21, a material seat 31, a material inclined surface 311, a wire distributing groove 312, a wire distributing seat 32, a wire distributing groove 321, an air outlet pipe 33, a pressing pin 34, a push rod 35, a wire pushing inclined surface 351 and a yielding hole 352.

The utility model comprises a mounting plate 10, wherein a mounting hole 11 is arranged on the mounting plate 10, a mounting seat 12 is fixed on the mounting plate 10, and the mounting seat 12 is positioned above the mounting hole 11. Be fixed with material seat 31 on mount pad 12, both ends are provided with the separated time seat 32 of activity respectively around material seat 31, and separated time slot 321 has been seted up from top to bottom at the top of separated time seat 32 vertical setting, separated in separated time slot 321 to the wire winding pin of placing at the top of separated time seat 32. The mounting plate 10 is movably mounted with a clamping arm 20, the clamping arm 20 has two ends respectively located at the front and rear ends of the material seat 31, the clamping arm 20 moves towards the material seat 31 for clamping the winding pin to be pulled outwards, and the shortest winding pin is separated from the clamping arm 20 and falls into the wire releasing slot 321 of the wire distributing seat 32.

The mounting plate 10 of the present invention is provided with a clamping arm driving mechanism 21, the clamping arm driving mechanism 21 is located on the slide rail, and the clamping arm driving mechanism 21 moves along the slide rail to make the clamping arm 20 close to and far away from the material seat 31. The clamping arm driving mechanism 21 further includes a rack and pinion device, the rack and pinion device drives the clamping arm 20 to rotate, and when the winding pins of the magnetic ring are sequentially and longitudinally arranged, the clamping arm 20 clamps the winding pins and then rotates, so that the winding pins are horizontally arranged.

As shown in fig. 3, a placing groove for placing a magnetic ring is formed in the middle of the material seat 31, the front end and the rear end of the material seat 31 are respectively provided with a wire dividing groove 312 from top to bottom, the wire dividing grooves 312 are communicated with the placing groove, the wire dividing grooves 312 are used for winding pins to penetrate out, and a V-shaped material inclined surface 311 is formed on the upper portion of the material seat 31, so that the magnetic ring can be conveniently and rapidly placed in the placing groove.

As shown in fig. 2 and 3, the front end and the rear end of the material seat 31 of the present invention are respectively provided with a movable wire distributing seat 32, the wire distributing seat 32 is vertically arranged, the wire distributing seat 32 can move left and right, the top of the wire distributing seat 32 is provided with a plurality of wire distributing grooves 321, and the winding pins are placed in the wire distributing grooves 321 to be separated. As shown, two sets of wire-releasing slots 321 are provided at the top of each wire-separating seat 32 to support the wire-releasing pins. The lower part of the wire distributing base 32 is connected with a driving device, the driving device is positioned below the mounting plate 10, the wire distributing base 31 is positioned in the mounting hole 11, when a winding pin is placed in one wire distributing groove 321, the driving device pushes the wire distributing base 32 to move along the horizontal direction, so that the next wire distributing groove 321 corresponds to the wire distributing groove 312, and the next winding pin is waited to be placed.

The installation base 12 is further provided with two push rods 35 moving left and right, the two push rods 35 are respectively located on two sides of the material base 31, one surface of the push rod 35 facing the material base 31 is a line pushing inclined surface 351, and the line pushing inclined surface 351 is located above the distributing base 32. The middle parts of the two push rods 35 are provided with avoidance holes 352 avoiding the material seat 31, and the two push rods 35 move oppositely to enable the push wire inclined plane 351 to be close to the wire dividing groove 312 to wait for the placement of the next wire winding pin.

As shown in fig. 2 and 3, two sets of pressing pins 34 are respectively disposed at the front end and the rear end of the material seat 31 of the present invention, each set of pressing pins 34 is staggered, the pressing pins 34 can move horizontally and vertically, and a driving device for the pressing pins 34 is not shown in the figure. Each group of pressing pins 34 is located between the wire distributing base 32 and the material base 31, when the winding pins are placed in the wire distributing grooves 321 of the wire distributing base 32, one pressing pin 34 moves to the upper side of the winding pins along the horizontal direction, and then the pressing pin 34 moves vertically downwards to press the winding pins downwards for limiting.

The needle 34 of the present invention is movably located below the push wire inclined plane 351.

An air outlet pipe 33 is arranged above one of the push rods 35, an air outlet of the air outlet pipe 33 is positioned above the line pushing inclined plane 351, and the number of the air outlet pipes 33 is two and the two air outlet pipes are respectively positioned at the front end and the rear end of the material seat 31. The air outlet pipe 33 blows the winding pins into the wire discharge slot 321.

The working process of the utility model is as follows:

1. the magnetic ring is sent into the placing groove of the material seat 31 by an external moving device, at this time, a plurality of winding pins at the front end and the rear end of the mounting seat 12 are sequentially arranged from top to bottom, and the winding pins penetrate out of the branching groove 312;

2. the wire-separating seat 32 moves until the first wire-separating groove 321 corresponds to the wire-separating groove 312;

3. the push rod 35 moves towards each other until the bottom end of the push rod inclined plane 351 is close to the wire releasing slot 321 and the wire releasing slot 312;

4. the clamping arm 20 moves towards the material seat 31 to clamp the winding pins, and then the clamping arm 20 rotates by 90 degrees to enable the winding pins to be arranged left and right;

5. the clamping arm 20 is reset away from the material seat 31;

6. when the clamping arm 20 reaches the first preset position, the shortest winding pin is separated from the clamping arm 20 and falls into the first wire discharge groove 321 under the action of gravity, and the clamping arm 20 is continuously reset;

7. the air outlet pipe 33 is ventilated to ensure that the first winding pin separated from the clamping arm 20 is blown into the first winding slot 321;

8. the pressing pin 34 on the left side horizontally moves to the position above the first winding pin and then vertically moves downwards to press the first winding pin for limiting;

9. the wire-separating seat 32 moves until the second wire-separating groove 321 corresponds to the wire-separating groove 312;

10. when the clamping arm 20 reaches the second preset position, a second short winding pin is separated from the clamping arm 20 and falls into the second wire releasing groove 321 under the action of gravity, and the clamping arm 20 is continuously reset;

11. the air outlet pipe 33 is ventilated to ensure that the second winding pin separated from the clamping arm 20 is blown into the second winding slot 321;

12. the right pressing pin 34 moves horizontally to the position above the second winding pin, then vertically downwards presses the first winding pin and the second winding pin for limiting;

13. the left pressing pin 34 is horizontally reset; the pressing pin 34 limits the wire winding pin in an alternate moving mode;

14. until all the winding pins are accurately placed in the branching slot 312, all the pressing pins 34 are horizontally reset;

15. the magnetic rings with the divided winding pins are transferred out of the material seat 31 by an external moving device and sent to the next production process;

16. the clamping arm 20 returns to the initial position and the initial state, the push rod 35 resets, and the distributing base 32 resets.

The utility model can quickly separate a plurality of winding pins of a plurality of magnetic rings, can realize automatic production and has high production efficiency.

It is to be understood that the above-described embodiments are merely preferred examples of the present invention and are not intended to limit the scope of the utility model, so that equivalent changes or modifications in the structure, features and principles of the utility model as described in the claims should be included in the claims.

Claims (10)

1. Automatic wire separating mechanism, its characterized in that: the wire distributing seat is vertically provided with a plurality of wire distributing grooves, and clamping arms are correspondingly movably arranged at the front end and the rear end of the material seat.

2. The automatic wire-separating mechanism of claim 1, wherein: the mounting plate is provided with a mounting hole position, and the mounting seat is positioned above the mounting hole.

3. The automatic wire-separating mechanism of claim 1, wherein: the mounting panel on install the slide rail, be provided with arm lock actuating mechanism on the slide rail, arm lock actuating mechanism is including driving the rotatory rack and pinion device of arm lock.

4. The automatic wire-separating mechanism of claim 1, wherein: the middle part of the material seat is provided with a placing groove for placing the magnetic ring, the front end and the rear end of the material seat are vertically provided with wire dividing grooves, and the wire dividing grooves are communicated with the placing groove.

5. The automatic wire-separating mechanism of claim 4, wherein: and a V-shaped material inclined plane is formed on the upper part of the material seat.

6. The automatic wire-separating mechanism of claim 1, wherein: the wire distributing seat is vertically arranged, the lower part of the wire distributing seat is connected with a driving device, the driving device is positioned below the mounting plate, and the wire distributing seat is positioned in the mounting hole.

7. The automatic wire-separating mechanism of claim 1, wherein: push rods moving left and right are respectively arranged on two sides of the material seat, one surface of each push rod facing the material seat is a wire pushing inclined plane, and the wire pushing inclined planes are located above the wire distributing seats.

8. The automatic wire-separating mechanism of claim 7, wherein: the middle part of the push rod is provided with an avoiding hole for avoiding the material seat.

9. The automatic wire-separating mechanism of claim 7, wherein: the upper part of the push rod is provided with two air outlet pipes, the air outlet of each air outlet pipe is positioned above the inclined plane of the push wire, and the two air outlet pipes are respectively positioned at the front end and the rear end of the material seat.

10. The automatic wire-separating mechanism of claim 7, wherein: the front end and the rear end of the material seat are respectively movably provided with two groups of pressing needles, each group of pressing needles is staggered, each group of pressing needles is positioned between the wire distributing seat and the material seat, and the pressing needles are movably positioned below the wire pushing inclined plane.

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