CN218836328U - Automatic blank cutting machine for square magnetic cores - Google Patents

Abstract

The utility model discloses an automatic blank cutting machine of square magnetic core, including vibrations dish feed mechanism, guide mechanism, blank mechanism and operation panel, vibrations dish feed mechanism includes vibrations dish, ladle body, screw channel and circulation material loading module, circulation material loading module is integrative with the ladle body, including material loading channel and circulation channel, material loading channel and screw channel's end-to-end connection, material loading channel's end is provided with the slope, screw channel sets up on the ladle body inner wall, guide mechanism include guide passageway and guide pole, the guide pole is placed on the guide passageway, the guide passageway is stretched out to the front end of guide pole, the front end of guide pole hangs in the slope top that is close to material loading channel position, blank mechanism sets up in the rear end of guide mechanism, square magnetic core hangs can adjust under the effect of gravity behind the guide pole and get into the guide passageway for the wide, the narrow gesture in upper and lower both sides of left and right sides to cut from the side of broad through the cutter, the artifical adjustment direction during the material loading, it is more convenient to use.

Description

Automatic blank cutting machine for square magnetic cores

Technical Field

The utility model relates to a magnetic core cutting equipment field especially relates to an automatic blank machine of cutting of square magnetic core.

Background

The magnetic core is a sintered magnetic metal oxide composed of various iron oxide mixtures, and the sintered string of bare magnetic cores is separated into single products, commonly called 'blank cutting', wherein the blank cutting of the square magnetic core needs to be carried out from a wider side to ensure the yield, such as application numbers: 202122887985.2, the cutting device of the existing square magnetic core is loaded through a conveyor belt, and the magnetic core can be placed on the conveyor belt after the direction of the magnetic core is adjusted, so that the automation degree is low, and the use is inconvenient.

SUMMERY OF THE UTILITY MODEL

The utility model aims at overcoming the not enough of prior art, provide an automatic blank machine of cutting of square magnetic core.

In order to achieve the above purpose, the utility model adopts the following technical scheme: the utility model provides an automatic blank cutting machine of square magnetic core, includes vibrations dish feed mechanism, guide mechanism, blank mechanism and operation panel, vibrations dish feed mechanism includes vibrations dish, ladle body, helical channel and circulation material loading module, circulation material loading module is integrative with the ladle body, including material loading passageway and circulation channel, material loading passageway and helical channel's end-to-end connection, material loading passageway's end is provided with the slope, helical channel sets up on the ladle body inner wall, guide mechanism include guide passageway and guide pole, the guide pole is placed on the guide passageway, the guide passageway is stretched out to the front end of guide pole, the front end of guide pole is hung in the slope top that is close to the material loading passageway position, blank mechanism sets up in the rear end of guide mechanism.

Furthermore, the cutting mechanism is installed on the operating platform and comprises a cutter and an air cylinder, and the cutter is arranged on the left side or the right side of the material guide mechanism.

Furthermore, the front part of the material guide channel is fixed on the inner wall of the circulating feeding module, the rear end of the material guide channel is installed on the operating platform, and the front part of the material guide rod is tilted upwards.

Furthermore, a limiting block is arranged right in front of the rear end of the material guide channel.

Furthermore, a blowing device with an air blowing opening is installed on the operating platform, and the air blowing opening of the blowing device is arranged above a gap between the limiting block and the material guide channel.

Furthermore, an induction device is installed on the operating platform and is installed above a gap between the limiting block and the material guide channel.

Furthermore, the feeding channel is positioned above the circulating channel, the slope is connected with the feeding channel and the circulating channel, and a feed back port is arranged between the circulating channel and the spiral channel.

Furthermore, a discharging sliding hopper is arranged on the operating platform, and the front part of the discharging sliding hopper is positioned below a gap between the limiting block and the material guide channel.

Preferably, the spiral channel and the feeding channel are inclined towards the inner wall of the connection.

Preferably, the operating platform can be further provided with a counting sensor.

Preferably, a material inductor is further arranged on the material guide channel.

Preferably, the vibration disc feeding mechanism, the material guiding mechanism, the material cutting mechanism and the operation table are respectively provided with two groups, the operation table is arranged on the machine table, the machine table is provided with a control module, and the vibration disc, the material cutting mechanism, the blowing device and the sensing device are electrically connected with the control module.

The beneficial effects of the utility model reside in that: 1. the square magnetic core is conveyed to the tail end of the feeding channel through the vibration disc, when the square magnetic core enters a slope for reversing, a strip-shaped through hole in the middle of the square magnetic core can be inserted into and hung on the material guide rod, the center of gravity of the square magnetic core on the material guide rod is located below the material guide rod, the square magnetic core is automatically adjusted to be in a posture that the left side and the right side are wide and the upper side and the lower side are narrow, the square magnetic core enters the material guide channel and is conveyed to the tail end of the material guide channel under the driving of the vibration disc, the cutter is arranged on the left side or the right side of the material guide mechanism, the cutter can automatically cut the magnetic core from the wider side, the direction of the magnetic core does not need to be adjusted manually, and the use is more convenient; 2. be provided with induction system and blow the device off above the space between stopper and guide passageway, the cutter just can cut the base when sensing square magnetic core existence, does not have the magnetic core to feed on the response space, blows the magnetic core that the device can use compressed air to blow off fast in addition after the cutting, and efficiency is higher.

Drawings

Fig. 1 is an overall schematic view of the present invention.

Fig. 2 is an enlarged view of a portion of fig. 1A.

Fig. 3 is a schematic view of a feeding mechanism of the vibration plate.

Fig. 4 is a top view of the present invention.

Detailed Description

Example (b): the present invention will be further explained with reference to the accompanying drawings.

An automatic blank cutting machine with a square magnetic core comprises a vibration disc feeding mechanism 1, a material guiding mechanism 2, a material cutting mechanism 3 and an operating platform 4, wherein the vibration disc feeding mechanism 1 comprises a vibration disc 11, a barrel body 12, a spiral channel 13 and a circulating feeding module 14, the circulating feeding module 14 is integrated with the barrel body 12 and comprises a feeding channel 141 and a circulating channel 142, the feeding channel 141 is connected with the tail end of the spiral channel 142, the tail end of the feeding channel 141 is provided with a slope 143, the spiral channel 13 is arranged on the inner wall of the barrel body 12, the material guiding mechanism 2 comprises a material guiding channel 22 and a material guiding rod 21, the material guiding rod 21 is placed on the material guiding channel 22, a string of square magnetic cores can be strung on the material guiding rod 21 before use so as to fix the material guiding rod 21, the front end of the material guiding rod 21 extends out of the material guiding channel 22, the front end of guide bar 21 hangs in the slope 13 top that is close to the material loading passageway position, blank mechanism 3 sets up in the rear end of guide mechanism 1, and there is long banding opening in the middle of square magnetic core, puts into ladle body 12 back with square magnetic core, and square magnetic core moves upward along spiral channel 13 under the effect of vibrations dish 11 and gets into material loading passageway 141 to when slope turning in the terminal slope 143 department of material loading passageway 141, during long banding opening pricks guide bar 21, make the magnetic core hang and arrange in on guide bar 21, magnetic core automatic adjustment pendulum orientation under the action of gravity keeps the wide, the narrow gesture of upper and lower both sides of left and right sides to get into material loading passageway 22, and transport to the end of material loading passageway 22 and cut by blank mechanism 3.

Further, the cutting mechanism 3 is installed on the operating platform 4, the cutting mechanism 3 includes a cutter 32 and a cylinder 31, the cutter 32 is disposed on the left side or the right side of the material guiding mechanism 3, and the cutter 32 cuts from the side surface, i.e., the wider surface of the square magnetic core, so as to ensure a better cutting effect.

Further, the material guiding channel 22 is S-shaped, the front portion of the material guiding channel 22 is fixed on the inner wall of the circulating material feeding module 14, the rear end of the material guiding channel 22 is installed on the operating platform 4, the magnetic core entering the material guiding mechanism 2 still moves forward under the driving of the vibration plate, and the front portion of the material guiding rod 21 tilts upward, so that the square magnetic core can conveniently enter the material guiding channel 22.

Further, a limiting block 43 is arranged right in front of the rear end of the material guide channel 22, the limiting block 43 blocks the magnetic core to prevent the magnetic core from moving continuously, the material cutting mechanism 3 is convenient to cut, and the position of the limiting block 43 is adjustable, so that the material cutting thickness can be adjusted as required.

Further, the operation table 4 is provided with a blowing device with an air blowing port 41, the air blowing port 41 of the blowing device is arranged above a gap between the limiting block 43 and the material guide channel 22, the cutting magnetic core is separated through the blowing device, and compressed air can be provided through additionally arranging an air compressor.

Further, the operating platform 4 is provided with a sensing device 42, the sensing device 42 is installed above a gap between the limiting block 43 and the material guiding channel 22, the sensing device 42 may be an infrared sensing device or an ultrasonic sensing device, and the sensing device 42 feeds back a signal to the control module after sensing that the magnetic core enters the gap between the limiting block 43 and the material guiding channel 22, and the control module controls the air cylinder 31 to push the cutter 32 to cut.

Further, the feeding channel 141 is located above the circulating channel 142, the slope 143 connects the feeding channel 141 and the circulating channel 142, a material return opening 144 is disposed between the circulating channel 142 and the spiral channel 13, and the square magnetic core without the material guiding rod 21 falls into the circulating channel 142 and re-enters the spiral channel 13 through the material return opening 144.

Further, a discharging sliding hopper 5 is arranged on the operating platform 4, the front part of the discharging sliding hopper 5 is positioned below a gap between the limiting block 43 and the material guide channel 22, and the cut magnetic cores fall into the discharging sliding hopper 5 for collection.

Preferably, the spiral channel 13 and the feeding channel 141 are inclined towards the connected inner wall, and the square magnetic core moves along the inner wall.

Preferably, the operating platform can be further provided with a counting sensor for sensing the number of the blanks to be cut.

Preferably, a material sensor 23 is further arranged on the material guiding channel, the vibration disc 11 is started to supply materials when the material sensor 23 senses that no magnetic core exists at the detection position, and the material sensor stops supplying materials when sensing that the magnetic core exists at the detection position and exceeds the set time.

Preferably, vibrations dish feed mechanism 1, guide mechanism 2 and blank mechanism 3 and operation panel 4 respectively have two sets ofly, operation panel 4 sets up on board 6, be provided with control module 7 on the board 6, vibrations dish 11, blank mechanism 3, blow-off device, material inductor 23 and induction system 42 are connected with control module 7 module electricity, through the two blank of two pay-offs of control module 7 control, efficiency is higher.

The present invention is not limited to the above-described embodiments, and various changes can be made within the knowledge range of those skilled in the art without departing from the spirit of the present invention, and the changed contents still belong to the protection scope of the present invention.

Claims (8)

1. The utility model provides an automatic blank cutting machine of square magnetic core, includes vibrations dish feed mechanism (1), guide mechanism (2), blank mechanism (3) and operation panel (4), its characterized in that vibrations dish feed mechanism (1) including vibrations dish (11), ladle body (12), spiral channel (13) and circulation material loading module (14), circulation material loading module (14) and ladle body (12) are integrative, including material loading passageway (141) and circulation channel (142), material loading passageway (141) and the end-to-end connection of spiral channel (13), the end of material loading passageway (141) is provided with slope (143), spiral channel (13) set up on ladle body (12) inner wall, guide mechanism (2) including guide passageway (22) and guide rod (21), guide rod (21) are placed on guide passageway (22), guide rod (21)'s front end stretches out guide passageway (22), guide rod (21)'s front end hangs in the position (143) that is close to the material loading passageway, guide mechanism (3) set up in the rear end of guide mechanism (3).

2. The automatic blank cutting machine with the square magnetic core according to claim 1, wherein the cutting mechanism (3) is mounted on the operation table (4), the cutting mechanism (3) comprises a cutter (32) and a cylinder (31), and the cutter (32) is arranged on the left side or the right side of the material guiding mechanism (2).

3. The automatic blank cutting machine with the square magnetic core according to claim 2, wherein the front part of the material guiding channel (22) is fixed on the inner wall of the circulating feeding module (14), the rear end of the material guiding channel (22) is installed on the operating platform, and the front part of the material guiding rod (21) is tilted upwards.

4. The automatic blank cutting machine with the square magnetic core according to claim 3, characterized in that a limiting block (43) is arranged right in front of the rear end of the material guiding channel (22).

5. The automatic blank cutting machine for the square magnetic cores according to claim 4, wherein a blowing device with a blowing opening is installed on the operating platform, and the blowing opening (41) of the blowing device is arranged above a gap between the limiting block (43) and the material guide channel (22).

6. The automatic blank cutting machine with the square magnetic core according to claim 5, characterized in that the operating platform is provided with an induction device, and the induction device (42) is arranged above a gap between the limiting block (43) and the material guide channel (22).

7. The automatic blank cutting machine for the square magnetic cores according to claim 6, wherein the feeding channel (141) is located above the circulating channel (142), the slope (143) connects the feeding channel (141) and the circulating channel (142), and a material returning opening (144) is arranged between the circulating channel (142) and the spiral channel (13).

8. The automatic square magnetic core blank cutting machine according to any one of claims 1-7, wherein a blanking sliding hopper (5) is arranged on the operating platform (4), and the front part of the blanking sliding hopper is positioned below a gap between the limiting block (43) and the material guide channel (22).

Images