CN211768867U - Automatic material distributing device - Google Patents

Abstract

The utility model discloses an automatic feed divider. The device of the utility model comprises a demagnetizing mechanism, a magnet tightness control mechanism, a magnetic device, a demagnetizing guide mechanism and a magnet movement guide mechanism; the magnet movement guide mechanism comprises a U-shaped fixed support and two guide posts fixed on the U-shaped fixed support; the magnetic device penetrates through the guide post and is directly sleeved on the guide post; the magnet tightness control mechanism comprises a magnet tightness control cylinder and two fixing pieces, and two ends of the cylinder are fixed on the fixing blocks and the U-shaped fixing support through the fixing pieces respectively; the demagnetizing guide mechanism comprises two demagnetizing guide connecting pieces, a demagnetizing cylinder and a horizontal fixing plate, two ends of each demagnetizing guide connecting piece are respectively fixed on the U-shaped fixing support and the horizontal fixing plate, and the demagnetizing cylinder is connected with the U-shaped fixing support. The utility model discloses simple structure can separate the unloading one by one to the product, improves work efficiency, confirms the quantity of product, avoids losing of product extravagant and scrap, reduction in production cost's purpose.

Description

Automatic material distributing device

Technical Field

The utility model relates to an automatic technical field, concretely relates to automatic feed divider.

Background

Traditional product divides the material mode mainly adopts manual operation, divide the material use with the product through the staff is manual, because partial product size is less, the manual work divides the material more complicated, work load is great, work efficiency is lower, and the quantity of dividing the material product can't be confirmed during manual operation, and, when dividing the material to the product, partial product is most likely to drop carelessly, because the product size is less, look for the difficulty, just so often can cause losing of product extravagant, lead to manufacturing cost's increase, and because the product is small slice class, it is very easy to appear two or more materials and assemble, just so take place the problem of adorning more, lead to the product to scrap.

At present, automation is applied more and more, particularly in the spraying industry, but some processes need to be matched with special equipment to realize automation. In this case, according to market requirements: after the products are automatically sprayed, the products need to be separated one by one, and the products are prevented from being adhered together after being dried.

SUMMERY OF THE UTILITY MODEL

For solving traditional material mode of dividing and be manual branch material, work load is great, and work efficiency is lower, can't divide the material one by one to the product, is difficult to confirm the quantity of work piece, and easily causes the product to lose extravagantly, leads to manufacturing cost to increase the scheduling problem, the utility model discloses an automatic feed divider mainly to the branch material that can be by the material of magnet absorption to reach and separate the unloading one by one to the product, improve work efficiency, confirm the quantity of product, avoid losing extravagant and scrapping of product, reduction in production cost's purpose. The device is to need the product separately after product automatic spraying, prevents that the product from adhesion together after drying.

The utility model provides an automatic material distributing device, which comprises a demagnetizing mechanism, a magnet tightness control mechanism, a magnetic device, a demagnetizing guide mechanism, a magnet movement guide mechanism and a top plate;

the magnet movement guide mechanism comprises a U-shaped fixed support and two guide pillars, the opening of the U-shaped fixed support faces downwards, and two ends of each guide pillar are respectively fixed on two sides of the U-shaped fixed support;

the magnetic device is a combination of a plurality of magnet assemblies, each magnet assembly consists of a metal piece and a magnet, wherein the magnet is arranged at the bottom of the metal piece, the middle of the metal piece of each magnet assembly is provided with an upper hole and a lower hole, and the magnetic device formed by combining the plurality of magnet assemblies penetrates through the two guide posts through the holes in the metal piece and is directly sleeved on the guide posts; one side of the magnetic device is provided with a fixed block, the other side of the magnetic device is tightly attached to one side surface of the U-shaped fixed support, the fixed block is used for pressing the magnet assembly, and the fixed block and the metal piece have the same shape and are sleeved on the guide pillar;

the magnet tightness control mechanism comprises a magnet tightness control cylinder, a fixing piece I and a fixing piece II, the lower portion of the fixing piece I is fixed on the fixing block through a screw, one end of the magnet tightness control cylinder is fixed at the upper end of the fixing piece I through a screw, the other end of the magnet tightness control cylinder is connected with the fixing piece II, and the bottom of the fixing piece II is fixed on a top plate of the U-shaped fixing support;

the demagnetizing guide mechanism comprises two demagnetizing guide connecting pieces, a demagnetizing cylinder and a horizontal fixing plate, wherein the bottoms of the two demagnetizing guide connecting pieces are respectively fixed on the top plate of the U-shaped fixing support through screws; the demagnetizing guide connecting piece and the U-shaped fixing support are of an integral structure; the other ends of the two demagnetizing guide connecting pieces are fixed on the horizontal fixing plate and are movably connected with the horizontal fixing plate up and down, the bottom of the demagnetizing cylinder penetrates through the horizontal fixing plate through a cylinder connecting piece to be connected with the U-shaped fixing bracket, and the two demagnetizing guide connecting pieces and the cylinder connecting piece penetrate through the horizontal fixing plate; the cylinder connecting piece is arranged between the two demagnetizing guide connecting pieces;

the top of the demagnetizing cylinder is fixedly connected with the top plate, and the top of the top plate is fixedly installed;

a product releasing push plate is respectively arranged at the front and the rear of the device, and the top of the product releasing push plate is fixedly connected with the top plate through a screw; the horizontal fixing plate is fixed on the product releasing push plate;

the demagnetizing mechanism, the magnet tightness control mechanism, the magnetic device, the demagnetizing guide mechanism and the magnet movement guide mechanism are all positioned inside a structure formed by combining the two product releasing push plates and the top plate.

The product disengaging push plate is an L-shaped flat plate, and the bottom of the product disengaging push plate and the bottom of the magnetic device are positioned on the same horizontal plane.

Fix magnet on portable metalwork, the metalwork can remove on the guide pillar, utilizes the principle that the homopolar repulsion of magnet mutually, and magnet elasticity control cylinder compresses tightly the metalwork, and after holding the product, magnet elasticity control cylinder opens, and the certain distance can be left each other to the magnet of repelling, just so pulls open the product, and the demagnetization mechanism breaks away from the product through the magnet that takes off the magnetism cylinder and hold the product. The product can be completely separated by the product separation push plate.

The working principle is as follows: after spraying, the product is attracted by the magnet assembly, the magnet is loosened by the magnet tightness control mechanism, the magnet is opened in the linear direction under the constraint of the motion guide mechanism, the adhered products are pulled apart, and the magnet is separated from the products by the demagnetizing mechanism. By utilizing the principle that the homopolar repulsion of the magnets is utilized, the magnets pressed together adsorb the products and then the magnets combined together are loosened through the homopolar repulsion, and the products are pulled open through magnetic opening and closing.

The utility model has simple structure and is suitable for the product which can be absorbed by the magnet; the utility model discloses the device can separate the unloading to the product one by one, improves work efficiency, confirms the quantity of product, avoids losing of product extravagant and scrap, reduction in production cost's purpose.

Drawings

Fig. 1 is a left side view of the structure of the push plate for releasing the front product of the automatic powder device.

Fig. 2 is a right side view of the structure of the push plate for releasing the front product of the automatic powder device of the utility model.

Fig. 3 is a sectional view of the automatic powder device of the present invention.

Fig. 4 is a left side view of the automatic powder device of the present invention.

Fig. 5 is a structural diagram of the magnet assembly of the present invention.

In fig. 1-5, each is labeled: the device comprises a guide pillar 1, a demagnetizing cylinder 2, a magnet tightness control cylinder 3, a magnetic device 4, a first demagnetizing guide connecting piece 5-1, a second demagnetizing guide connecting piece 5-2, a product 6 to be distributed, a first product 7-1 disengaging push plate 7-2 disengaging push plate, a second product 7-2 disengaging push plate 8, a horizontal fixing plate 9U-shaped fixing support, a fixing piece I10, a fixing piece II 11, a cylinder connecting piece 12, a fixing block 13, a top plate 14, a metal piece 15 and a magnet 16.

Detailed Description

The device of the present invention will be further described with reference to the accompanying drawings.

The utility model relates to an automatic material distributing device, which comprises a demagnetizing mechanism, a magnet tightness control mechanism, a magnetic device 4, a demagnetizing guide mechanism, a magnet movement guide mechanism and a top plate 14;

the magnet movement guide mechanism comprises a U-shaped fixed support 9 and two guide pillars 1, wherein the opening of the U-shaped fixed support 9 is downward, and two ends of each guide pillar 1 are respectively fixed on two sides of the U-shaped fixed support 9;

the magnetic device 4 is a combination of a plurality of magnet assemblies, each magnet assembly consists of a metal piece 15 and a magnet 16, the magnet 16 is arranged at the bottom of the metal piece 15, an upper hole and a lower hole are formed in the middle of the metal piece 15 of each magnet assembly, and the magnetic device 4 formed by combining the plurality of magnet assemblies penetrates through the two guide posts 1 through the holes in the metal pieces 15 and is directly sleeved on the guide posts 1; one side of the magnetic device 4 is provided with a fixed block 13, the other side of the magnetic device is tightly attached to one side surface of the U-shaped fixed bracket 9, and the fixed block 13 and the metal piece 15 have the same shape and are sleeved on the guide pillar 1;

the magnet tightness control mechanism comprises a magnet tightness control cylinder 3, a fixing piece I10 and a fixing piece II 11, the lower part of the fixing piece I10 is fixed on a fixing block 13 through a screw, one end of the magnet tightness control cylinder 3 is fixed at the upper end of the fixing piece I10 through a screw, the other end of the magnet tightness control cylinder 3 is connected with the fixing piece II 11, and the bottom of the fixing piece II 11 is fixed on a top plate of a U-shaped fixing support 9;

the demagnetizing guide mechanism comprises two demagnetizing guide connecting pieces 5-1 and 5-2, a demagnetizing cylinder 2 and a horizontal fixing plate 8, wherein the bottoms of the two demagnetizing guide connecting pieces are respectively fixed on a top plate of a U-shaped fixing support 9 through screws; the demagnetizing guide connecting piece and the U-shaped fixing support 9 form an integral structure; the other ends of the two demagnetizing guide connecting pieces are fixed on a horizontal fixing plate 8 and are movably connected with the horizontal fixing plate 8 up and down, the bottom of the demagnetizing cylinder 2 penetrates through the horizontal fixing plate 8 through a cylinder connecting piece 12 to be connected with a U-shaped fixing support 9, and the two demagnetizing guide connecting pieces and the cylinder connecting piece 12 penetrate through the horizontal fixing plate 8; the cylinder connecting piece 12 is arranged between the two demagnetizing guide connecting pieces;

the top of the demagnetizing cylinder 2 is fixedly connected with a top plate 14, and the top of the top plate 14 is fixedly installed;

a product releasing push plate (7-1, 7-2) is respectively arranged at the front and the back of the device, and the top of the product releasing push plate is fixedly connected with the top plate 14 through screws; the horizontal fixing plate 8 is fixed on the product disengaging push plate 7-1;

the demagnetizing mechanism, the magnet tightness control mechanism, the magnetic device 4, the demagnetizing guide mechanism and the magnet movement guide mechanism are all positioned in the structure combining the two product releasing push plates and the top plate 14.

The product disengaging push plate is an L-shaped flat plate, and the bottom of the product disengaging push plate and the bottom of the magnetic device 4 are positioned on the same horizontal plane.

The use method of the device comprises the following steps:

(1) a magnet assembly of the magnetic device penetrates through two guide posts on the U-shaped fixed support through a round hole on the metal piece, and the magnet assembly is tightly pressed on the guide posts by using the fixed block;

(2) the magnet assembly is pressed through the magnet tightness control cylinder, and a magnet at the bottom of the magnet assembly attracts a product to be distributed; then the magnet assembly is loosened through a magnet tightness control cylinder, and products to be distributed are separated;

(3) the two demagnetizing guide connecting pieces are controlled by the demagnetizing cylinder to drive the U-shaped fixing bracket, so that the magnet assembly is controlled to loosen the distributed product; and the product separation push plate is used for ensuring that the powdered product is separated from the magnet.

Claims (2)

1. The utility model provides an automatic feed divider which characterized in that: comprises a demagnetizing mechanism, a magnet tightness control mechanism, a magnetic device (4), a demagnetizing guide mechanism, a magnet movement guide mechanism and a top plate (14);

the magnet movement guide mechanism comprises a U-shaped fixed support (9) and two guide pillars (1), the opening of the U-shaped fixed support (9) faces downwards, and two ends of each guide pillar (1) are respectively fixed on two sides of the U-shaped fixed support (9);

the magnetic device (4) is a combination of a plurality of magnet assemblies, each magnet assembly consists of a metal piece (15) and a magnet (16), the magnet (16) is arranged at the bottom of the metal piece (15), the middle of the metal piece (15) of each magnet assembly is provided with an upper hole and a lower hole, and the magnetic device (4) formed by combining the plurality of magnet assemblies penetrates through the two guide pillars (1) through the holes in the metal piece (15) and is directly sleeved on the guide pillars (1); one side of the magnetic device (4) is provided with a fixed block (13), the other side of the magnetic device is tightly attached to one side surface of the U-shaped fixed support (9), and the fixed block (13) and the metal piece (15) have the same shape and are sleeved on the guide pillar (1);

the magnet tightness control mechanism comprises a magnet tightness control cylinder (3), a fixing piece I (10) and a fixing piece II (11), the lower portion of the fixing piece I (10) is fixed on a fixing block (13) through a screw, one end of the magnet tightness control cylinder (3) is fixed at the upper end of the fixing piece I (10) through a screw, the other end of the magnet tightness control cylinder (3) is connected with the fixing piece II (11), and the bottom of the fixing piece II (11) is fixed on a top plate of a U-shaped fixing support (9);

the demagnetizing guide mechanism comprises a first demagnetizing guide connecting piece (5-1), a second demagnetizing guide connecting piece (5-2), a demagnetizing cylinder (2) and a horizontal fixing plate (8), wherein the bottoms of the first demagnetizing guide connecting piece (5-1) and the second demagnetizing guide connecting piece (5-2) are respectively fixed on the top plate of the U-shaped fixing support (9) through screws; the first demagnetizing guide connecting piece (5-1), the second demagnetizing guide connecting piece (5-2) and the U-shaped fixing bracket (9) are of an integral structure; the other ends of the first demagnetizing guide connecting piece (5-1) and the second demagnetizing guide connecting piece (5-2) are fixed on the horizontal fixing plate (8) and are movably connected with the horizontal fixing plate (8) up and down, the bottom of the demagnetizing cylinder (2) penetrates through the horizontal fixing plate (8) through a cylinder connecting piece (12) to be connected with the U-shaped fixing support (9), and the two demagnetizing guide connecting pieces (5-1, 5-2) and the cylinder connecting piece (12) penetrate through the horizontal fixing plate (8); the cylinder connecting piece (12) is arranged between the first demagnetizing guide connecting piece (5-1) and the second demagnetizing guide connecting piece (5-2);

the top of the demagnetizing cylinder (2) is fixedly connected with a top plate (14), and the top of the top plate (14) is fixedly installed;

a first product disengaging push plate (7-1) and a second product disengaging push plate (7-2) are respectively arranged at the front and the back of the device, and the tops of the first product disengaging push plate (7-1) and the second product disengaging push plate (7-2) are fixedly connected with the top plate (14) through screws; the horizontal fixing plate (8) is fixed on the first product disengaging push plate (7-1);

the demagnetizing mechanism, the magnet tightness control mechanism, the magnetic device (4), the demagnetizing guide mechanism and the magnet movement guide mechanism are all positioned in the structure combining the first product releasing push plate (7-1), the second product releasing push plate (7-2) and the top plate (14).

2. The automatic material distributing device according to claim 1, wherein the first product separating push plate (7-1) and the second product separating push plate (7-2) are L-shaped flat plates, and the bottoms of the first product separating push plate and the second product separating push plate are on the same horizontal plane with the bottom of the magnetic device (4).

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