CN220844152U - Feeding device of I-shaped inductance winding machine - Google Patents

Abstract

The utility model relates to the technical field of electronic element processing equipment, in particular to a feeding device of an I-shaped inductance winding machine, which comprises a feeding part, wherein the feeding part comprises a platform, the top of the platform is provided with a jacking part, the jacking part comprises an empty cylinder, the empty cylinder is vertically fixed on the front side wall of the platform, the inside of the empty cylinder is horizontally provided with limiting rings, the number of the limiting rings is two, the inside of the two limiting rings is vertically provided with a movable rod, the bottom of the platform is vertically and fixedly connected with a support, the inside of the support is horizontally and rotatably connected with a rotating shaft, one end of the rotating shaft horizontally penetrates through the side wall of the empty cylinder to extend into the inside, and one end of the rotating shaft is fixedly connected with a rotating rod.

Description

Feeding device of I-shaped inductance winding machine

Technical Field

The utility model relates to the technical field of electronic element processing equipment, in particular to a feeding device of an I-shaped inductance winding machine.

Background

The inductor is a device which works by utilizing the electromagnetic induction principle, the basic structure of the inductor comprises a magnetic core and a coil wound on the magnetic core, the shape of the inductor is various according to different requirements, the I-shaped inductor is quite common, the magnetic core of the I-shaped inductor consists of a core column and discs connected to two ends of the core column, one disc is connected with two pins at the outer end, and the coil is wound on the core column.

The inductance is required to be wound in the inductance processing process, and an I-shaped inductance winding machine is adopted to perform winding at present in a large amount, so that the working efficiency is improved, and meanwhile, a feeding device is used for feeding the inductance winding machine. Because a large amount of piles up in the inside of charging tray of magnetic core, perhaps the magnetic core is at production and transportation, the pin that highly leads to the magnetic core is damaged, and current loading attachment of I shape inductance coiling machine carries to I shape inductance coiling machine to wire winding after can carrying out neat range with the magnetic core, but lacks the detection function whether qualified to the magnetic core for unqualified magnetic core is sent the wire winding, causes the waste of coil, consequently, we have put forward a loading attachment of I shape inductance coiling machine and have solved above-mentioned problem.

Disclosure of utility model

The utility model aims to solve the defects in the prior art, and provides a feeding device of an I-shaped inductance winding machine.

In order to achieve the above purpose, the present utility model adopts the following technical scheme: the utility model provides a loading attachment of I shape inductance coiling machine, includes the material loading part, the material loading part includes the platform, the top of platform is provided with the liftout part, the liftout part includes an empty section of thick bamboo, the vertical fixed of an empty section of thick bamboo is in the preceding lateral wall of platform, the inside level of an empty section of thick bamboo is provided with the spacing ring, the quantity of spacing ring is two, two the inside vertical movable rod that installs of spacing ring, the vertical fixedly connected with support in bottom of platform, the inside level rotation of support is connected with the pivot, the one end level of pivot runs through the lateral wall of an empty section of thick bamboo extends to inside, the one end fixedly connected with bull stick of pivot, the tip swing joint of bull stick, the top of connecting rod with the bottom swing joint of movable rod, the other end fixedly connected with driven runner of pivot.

Further:

The bottom level fixedly connected with motor of platform, the output fixedly connected with initiative runner of motor, initiative runner with the belt is installed to the outer wall of driven runner, the vertical fixedly connected with ejector pin in top of carriage release lever, the top of ejector pin vertically upwards extends to the outside of empty section of thick bamboo, the below of empty section of thick bamboo is provided with the recovery tank.

Further:

The tray is installed at the top of platform, the delivery outlet department of tray is provided with the delivery track, the vertical fixedly connected with stabilizer blade in bottom of platform, the ejector pin is located delivery track's below.

Further:

the top of platform is provided with detection component, detection component includes L shape bracing piece, L shape bracing piece is vertical to be set up the top of platform, infrared camera is installed at the top of L shape bracing piece, infrared camera is located just above the delivery track.

Further:

the display screen is installed at the top of platform, the controller is installed at the top of platform.

Further:

The motor, the infrared camera and the display screen are electrically connected with the controller.

The utility model has the following beneficial effects:

1. Compared with the prior art, this loading attachment of I shape inductance coiling machine, the liftout part through setting up, when infrared camera detects unqualified magnetic core, will send the signal to the controller, then the controller will make the motor start, the output of motor will drive the belt through initiative runner and rotate, the belt will drive the pivot through driven runner and rotate, the pivot will promote the connecting rod upward movement through the bull stick, thereby make the connecting rod promote the movable rod and vertically upwards remove in the inside of two spacing rings, the movable rod will drive the ejector pin vertically upwards with the inside unqualified magnetic core of delivery track ejecting, make unqualified magnetic core fall to the inside of below recovery box and concentrate the recovery, carry to I shape inductance coiling machine behind can carrying out the orderly range with the magnetic core and wire winding than current device, but lack the detection function whether qualified magnetic core for unqualified magnetic core is sent the wire winding, the device can be with the unqualified magnetic core that detects from the delivery track ejection, make unqualified magnetic core that falls to the below carry out concentrated processing, the inductance is with the unqualified magnetic core that the infrared camera was detected, the waste that leads to the coil is avoided the coil to the winding to carry out.

2. Compared with the prior art, this loading attachment of I shape inductance coiling machine, through the detection component that sets up, infrared camera will pass through the signal transmission to the controller to the quantity of the unqualified magnetic core that detects on the delivery track, and the controller converts the signal of telecommunication into the digit and shows at the display screen, and the staff of being convenient for carries out statistics, the device can detect the magnetic core on the delivery track to can show the quantity of unqualified magnetic core on the display screen through the controller, the staff of being convenient for carries out statistics.

Drawings

FIG. 1 is a schematic view of a first perspective of the overall structure of the present utility model;

FIG. 2 is a schematic view of a second perspective of the overall structure of the present utility model;

FIG. 3 is a cross-sectional view of the hollow cylinder structure of the present utility model;

Fig. 4 is an enlarged view of fig. 3a in accordance with the present utility model.

Legend description:

100. A feeding part; 110. a platform; 120. a material tray; 130. a conveying rail; 140. a support leg; 200. a liftout component; 201. an empty cylinder; 202. a limiting ring; 203. a moving rod; 204. a support; 205. a rotating shaft; 206. a rotating rod; 207. a connecting rod; 208. a driven rotating wheel; 209. a motor; 210. a driving rotating wheel; 211. a belt; 212. a push rod; 213. a recovery box; 300. a detection section; 310. an L-shaped support rod; 320. an infrared camera; 330. a display screen; 340. and a controller.

Detailed Description

Referring to fig. 1-4, the utility model provides a feeding device of an i-shaped inductance winding machine, which comprises: comprises a feeding part 100, a jacking part 200 and a detecting part 300.

The feeding component 100 is used for neatly arranging and conveying a large number of magnetic cores to the inductance winding machine for winding, specifically, the feeding component 100 comprises a platform 110, a tray 120 is installed at the top of the platform 110, a conveying rail 130 is arranged at an output port of the tray 120, support legs 140 are vertically fixedly connected to the bottom of the platform 110, when the feeding component is specifically used, the magnetic cores are added into the tray 120, the magnetic cores are driven to rotate through conveying belts inside the tray 120, the magnetic cores are enabled to be moved into the conveying rail 130, then the magnetic cores are conveyed to the inductance winding machine through the conveying rail 130 for winding, the platform 110 is used for supporting all the components, and the support legs 140 are used for supporting the platform 110.

The ejector component 200 can eject unqualified magnetic cores detected by the infrared cameras 320 from the conveying track 130, so that the unqualified magnetic cores fall to a recovery box 213 below to be intensively processed, the unqualified magnetic cores are prevented from being sent to an inductance winding machine to be wound, the coil is wasted, the ejector component 200 comprises an empty cylinder 201, the empty cylinder 201 is vertically fixed on the front side wall of the platform 110, a limiting ring 202 is horizontally arranged in the empty cylinder 201, the number of the limiting rings 202 is two, movable rods 203 are vertically arranged in the two limiting rings 202, a support 204 is vertically and fixedly connected to the bottom of the platform 110, a rotating shaft 205 is horizontally and rotatably connected to the inside of the support 204, one end of the rotating shaft 205 horizontally penetrates through the side wall of the empty cylinder 201 to the inside, one end of the rotating shaft 205 is fixedly connected with a rotating rod 206, the end of the rotating rod 206 is movably connected with a connecting rod 207, the top end of the connecting rod 207 is movably connected with the bottom end of the movable rod 203, the other end of the rotating shaft 205 is fixedly connected with a driven rotating wheel 208, the bottom of the platform 110 is horizontally and fixedly connected with a motor 209, the output end of the motor 209 is fixedly connected with a driving rotating wheel 210, the outer walls of the driving rotating wheel 210 and the driven rotating wheel 208 are provided with a belt 211, the top end of the moving rod 203 is vertically and fixedly connected with a push rod 212, the top end of the push rod 212 vertically extends upwards to the outside of the hollow cylinder 201, a recovery box 213 is arranged below the hollow cylinder 201, the push rod 212 is positioned under the conveying track 130, when an infrared camera 320 detects an unqualified magnetic core, a signal is sent to a controller 340, then the controller 340 starts the motor 209, the output end of the motor 209 drives the belt 211 to rotate through the driving rotating wheel 210, the belt 211 drives the rotating shaft 205 to rotate through the driven rotating wheel 208, the rotating shaft 205 pushes a connecting rod 207 to move upwards through the rotating rod 206, so that the connecting rod 207 pushes the moving rod 203 to vertically move upwards in the two limiting rings 202, the moving rod 203 drives the ejector rod 212 to vertically push out the unqualified magnetic cores in the conveying track 130 upwards, and the unqualified magnetic cores fall into the lower recovery box 213 for centralized recovery.

The detecting element 300 can detect the magnetic core on the conveying track 130 to can show the quantity of unqualified magnetic core on the display screen 330 through the controller 340, be convenient for the staff to count, specifically, detecting element 300 includes L shape bracing piece 310, L shape bracing piece 310 is vertical to be set up at the top of platform 110, infrared camera 320 is installed at the top of L shape bracing piece 310, infrared camera 320 is located directly over the conveying track 130, display screen 330 is installed at the top of platform 110, controller 340 is installed at the top of platform 110, motor 209, infrared camera 320 and display screen 330 all with controller 340 electric connection, during the specific use, infrared camera 320 will pass through the signal transmission to controller 340 to the quantity of unqualified magnetic core that detects on the conveying track 130, controller 340 converts the signal into the digit and shows at display screen 330, the staff of being convenient for count.

Working principle: when the infrared camera 320 detects the unqualified magnetic core, a signal is sent to the controller 340, the controller 340 starts the motor 209, the driving runner 210 drives the belt 211 to rotate, the belt 211 drives the rotating shaft 205 to rotate through the driven runner 208, the rotating shaft 205 drives the connecting rod 207 to move upwards through the rotating rod 206, so that the connecting rod 207 drives the moving rod 203 to vertically move upwards in the two limiting rings 202, the moving rod 203 drives the ejector rod 212 to vertically upwards move the unqualified magnetic core in the conveying track 130, the unqualified magnetic core falls into the lower recovery box 213 to be intensively recovered, the infrared camera 320 transmits the number of the unqualified magnetic cores detected on the conveying track 130 to the controller 340 through an electric signal, and the controller 340 converts the electric signal into a digital signal to be displayed on the display screen 330, so that the system is convenient for workers.

Finally, it should be noted that: the foregoing description of the preferred embodiments of the present utility model is not intended to be limiting, but rather, although the present utility model has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications may be made to the embodiments described, or equivalents may be substituted for elements thereof, and any modifications, equivalents, improvements or changes may be made without departing from the spirit and principles of the present utility model.

Claims (6)

1. Feeding device of I shape inductance coiling machine, including material loading part (100), its characterized in that: the feeding component (100) comprises a platform (110), the top of platform (110) is provided with liftout part (200), liftout part (200) is including empty section of thick bamboo (201), the vertical of empty section of thick bamboo (201) is fixed the preceding lateral wall of platform (110), the inside level of empty section of thick bamboo (201) is provided with spacing ring (202), the quantity of spacing ring (202) is two, two the internally vertical movable rod (203) of installing of spacing ring (202), the vertical fixedly connected with support (204) in bottom of platform (110), the inside horizontal rotation of support (204) is connected with pivot (205), the one end level of pivot (205) runs through the lateral wall of empty section of thick bamboo (201) extends to inside, one end fixedly connected with bull stick (206) of pivot (205), the tip swing joint of bull stick (206) has connecting rod (207), the top of connecting rod (207) with the bottom swing joint of movable rod (203), the other end fixedly connected with driven (208) of pivot (205).

2. The feeding device of the i-shaped inductance winding machine according to claim 1, wherein: the bottom horizontal fixedly connected with motor (209) of platform (110), the output fixedly connected with initiative runner (210) of motor (209), initiative runner (210) with belt (211) are installed to the outer wall of driven runner (208), the vertical fixedly connected with ejector pin (212) in top of movable rod (203), the top of ejector pin (212) vertically upwards extends to the outside of empty section of thick bamboo (201), the below of empty section of thick bamboo (201) is provided with recovery case (213).

3. The feeding device of the i-shaped inductance winding machine according to claim 2, wherein: the top of platform (110) is installed charging tray (120), delivery outlet department of charging tray (120) is provided with delivery track (130), vertical fixedly connected with stabilizer blade (140) in bottom of platform (110), ejector pin (212) are located delivery track (130) below.

4. A loading attachment of an i-shaped induction coil winding machine according to claim 3, wherein: the top of platform (110) is provided with detection component (300), detection component (300) include L shape bracing piece (310), L shape bracing piece (310) vertical setting is in the top of platform (110), infrared camera (320) are installed at the top of L shape bracing piece (310), infrared camera (320) are located directly over delivery track (130).

5. The feeding device of the i-shaped inductor winding machine of claim 4, wherein: a display screen (330) is installed on the top of the platform (110), and a controller (340) is installed on the top of the platform (110).

6. The feeding device of the i-shaped inductor winding machine of claim 5, wherein: the motor (209), the infrared camera (320) and the display screen (330) are electrically connected with the controller (340).