CN217200740U - Magnetic material draws hole and uses unloader - Google Patents

Abstract

The utility model relates to the technical field of magnetic material processing, and discloses a blanking device for punching magnetic material, which comprises a left support mechanism and a right support mechanism, the left supporting mechanism is provided with a first supporting block, the right supporting mechanism is provided with a second supporting block, the first supporting block and the second supporting block both have the freedom degree of sliding left and right, the right end of the first supporting block is shaped like a Chinese character' >, the upper inclined plane is a first supporting surface, the lower inclined plane is a guiding surface, the left end surface of the second supporting block is an inclined second supporting surface, the inclination direction and the angle of the second supporting surface are the same as those of the guiding surface, when the first supporting block and the second supporting block are close to each other, the guide surface can be tightly attached to the lower portion of the second supporting surface, a V-shaped supporting position can be formed between the first supporting surface and the upper portion of the second supporting surface, and a conveying mechanism is arranged below the left supporting mechanism and the right supporting mechanism. The utility model discloses an aim at promotes unloading speed, promotes and draws the efficiency and the degree of automation of hole process.

Description

Magnetic material draws hole and uses unloader

Technical Field

The utility model relates to a magnetic material processing technology field especially relates to a magnetic material draws hole and uses unloader.

Background

The magnetic material is generally required to be processed into a specific shape and then be magnetized for use, and some magnetic materials are required to be subjected to hole digging processing during production and processing, and are transferred to a multi-wire cutting device to be cut into required thickness after hole digging is completed. At present, the magnetic material transfer after hole digging is generally carried out manually, the automation degree and the efficiency are low, and a large amount of manpower is needed to be consumed particularly in the batch production process.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to solve above-mentioned problem, provide a magnetic material draws hole and uses unloader for promote unloading speed, promote and draw the efficiency and the degree of automation of hole process.

The purpose of the utility model is realized through the following technical scheme:

the utility model provides a magnetic material draws hole and uses unloader, is including left supporting mechanism and the right supporting mechanism that the symmetry set up, be equipped with first supporting shoe on the supporting mechanism of a left side, be equipped with the second supporting shoe on the supporting mechanism of a right side, first supporting shoe and second supporting shoe all have the horizontal slip degree of freedom, the right-hand member of first supporting shoe is ">" shape, and its upper portion inclined plane is first holding surface, lower part inclined plane are the spigot surface, the left end face of second supporting shoe is the second holding surface of slope and the incline direction and the angle of second holding surface are the same with the spigot surface for when first supporting shoe and second supporting shoe are close to, the spigot surface can hug closely the support position that can form the V font between second holding surface lower part, first holding surface and the second holding surface upper portion, the below of left side supporting mechanism and right supporting mechanism is equipped with transport mechanism.

Furthermore, a first pressing block is arranged above the first supporting block, a second pressing block is arranged above the second supporting block, the first pressing block and the second pressing block both have sliding freedom degrees, and the right lower side of the first pressing block and the left lower side of the second pressing block are both inclined planes and are symmetrical in inclined direction.

Furthermore, left side supporting mechanism includes first support, installs first cylinder and second cylinder on the first support, first compact heap is connected on the piston rod of first cylinder, first supporting block is connected on the piston rod of second cylinder, first guiding axle is all installed at both ends around the left side of first compact heap, the second guiding axle is all installed at both ends around the left side of first supporting block, the free end of first guiding axle and second guiding axle all runs through first support.

Furthermore, the right supporting mechanism comprises a second support, a third cylinder and a fourth cylinder are mounted on the second support, the second pressing block is connected to a piston rod of the third cylinder, the second supporting block is connected to a piston rod of the fourth cylinder, third guide shafts are mounted at the front end and the rear end of the right side of the second pressing block, fourth guide shafts are mounted at the front end and the rear end of the right side of the second supporting block, and free ends of the third guide shafts and the fourth guide shafts penetrate through the second support.

Furthermore, the first support is provided with a first guide sleeve at a position corresponding to the first guide shaft and the second guide shaft, and the first guide shaft and the second guide shaft pass through the first guide sleeve and can slide in the first guide sleeve.

Furthermore, a second guide sleeve is arranged on the second support and corresponds to the third guide shaft and the fourth guide shaft, and the third guide shaft and the fourth guide shaft penetrate through the second guide sleeve and can slide in the second guide sleeve.

Further, transport mechanism includes the conveyer belt, evenly is provided with the stopper on the conveyer belt, clearance between the stopper forms the screens that are used for holding the semi-manufactured goods bar after the processing.

Furthermore, the upper left side and the upper right side of the limiting block are both arc surfaces.

Technical scheme more than combining, compare with prior art, the utility model provides a magnetic material draws hole and uses unloader, its beneficial effect is:

the utility model provides a magnetic material draws hole and uses unloader, can draw the hole in-process to original bar support and press from both sides tight positioning accuracy who guarantees to draw the hole process at magnetic material, drawing the hole and accomplishing the back, first supporting shoe and second supporting shoe are reversed to retreat and are drawn big spigot surface and the distance of second holding surface and can make the semi-manufactured goods bar after the processing fall into the conveyer belt, and transmit next processing station through the conveyer belt, need not artifical semi-manufactured goods bar that shifts, the unloading efficiency has been promoted and the degree of automation of drawing the hole process, be applicable to mass production.

Drawings

Fig. 1 is a schematic structural view of a blanking device for hole digging of magnetic material of the present invention.

Fig. 2 is a state schematic diagram of a magnetic material drawing-out hole blanking device in blanking.

Fig. 3 is a state schematic diagram of a magnetic material drawing hole blanking device when feeding.

Fig. 4 is a top view of the blanking device for hole drilling made of magnetic material according to the present invention.

The device comprises a left support mechanism, a 11-first support, a 12-first air cylinder, a 13-first guide shaft, a 14-first pressing block, a 15-second air cylinder, a 16-second guide shaft, a 17-first support block, a 171-first support surface, a 172-guide surface, a 18-first guide sleeve, a 2-right support mechanism, a 21-second support, a 22-third air cylinder, a 23-third guide shaft, a 24-second pressing block, a 25-fourth air cylinder, a 26-fourth guide shaft, a 27-second support surface, a 271-second support surface, a 28-second guide sleeve, a 3-conveying mechanism, a 31-conveying belt, a 32-limiting block, a 321-arc surface, a 33-clamping position, a 4-original bar stock and a 5-semi-finished bar stock.

Detailed Description

For a detailed description of the technical features and the objects and effects achieved by the present invention, further description is made below with reference to the accompanying drawings:

as shown in figures 1 to 4, a blanking device for magnetic material hole digging comprises a left support mechanism 1 and a right support mechanism 2 which are symmetrically arranged, the left supporting mechanism 1 is provided with a first supporting block 17, the right supporting mechanism 2 is provided with a second supporting block 27, the first supporting block 17 and the second supporting block 27 have a degree of freedom of sliding right and left, the right end of the first supporting block 17 is shaped like ">", the upper inclined plane is a first supporting plane 171, the lower inclined plane is a guiding plane 172, the left end surface of the second supporting block 27 is an inclined second supporting plane 271, the inclination direction and angle of the second supporting plane 271 are the same as those of the guiding plane 172, when the first supporting block 17 and the second supporting block 27 are close to each other, the guide surface 172 can be closely attached to the lower portion of the second supporting surface 271, and a V-shaped supporting position can be formed between the first supporting surface 171 and the upper portion of the second supporting surface 271, and the conveying mechanism 3 is arranged below the left supporting mechanism 1 and the right supporting mechanism 2. In this embodiment, when the first supporting block 17 and the second supporting block 27 are closed, a supporting position for accommodating the original bar 4 is formed between the first supporting surface 171 and the second supporting surface 271, the hole digging step can be completed by means of a clamping mechanism externally arranged on the hole digging device, after the hole digging is completed, the first supporting block 17 and the second supporting block 27 are opened, the processed semi-finished bar 5 can fall into the conveying mechanism 3 through a gap between the guiding surface 172 and the second supporting surface 271 and is transferred to the next station, and therefore the blanking efficiency and the automation degree after the hole digging are improved.

Preferably, a first pressing block 14 is arranged above the first supporting block 17, a second pressing block 24 is arranged above the second supporting block 27, the first pressing block 14 and the second pressing block 24 both have a degree of freedom of sliding left and right, and the lower right of the first pressing block 14 and the lower left of the second pressing block 24 are both inclined planes and are symmetrical in inclined direction. In this embodiment, the first holding-down block 14 and the second holding-down block 24 are integrated as a clamping mechanism on the support mechanism, simplifying the apparatus structure.

Preferably, left side supporting mechanism 1 includes first support 11, installs first cylinder 12 and second cylinder 15 on first support 11, first compact heap 14 is connected on the piston rod of first cylinder 12, first supporting block 17 is connected on the piston rod of second cylinder 15, first guiding axle 13 is all installed at both ends around the left side of first compact heap 14, second guiding axle 16 is all installed at both ends around the left side of first supporting block 17, first guiding axle 13 and second guiding axle 16's free end all runs through first support 11. In this embodiment, the first pressing block 14 and the first supporting block 17 are driven by the first air cylinder 12 and the second air cylinder 15 to slide left and right, and the first guide shaft 13 and the second guide shaft 16 guide the sliding of the first pressing block 14 and the first supporting block 17, respectively.

Preferably, the right supporting mechanism 2 includes a second bracket 21, a third cylinder 22 and a fourth cylinder 25 are mounted on the second bracket 21, the second pressing block 24 is connected to a piston rod of the third cylinder 22, the second supporting block 27 is connected to a piston rod of the fourth cylinder 25, third guide shafts 23 are mounted at front and rear ends of the right side of the second pressing block 24, fourth guide shafts 26 are mounted at front and rear ends of the right side of the second supporting block 27, and free ends of the third guide shafts 23 and the fourth guide shafts 26 penetrate through the second bracket 21. In this embodiment, the second pressing block 24 and the second supporting block 27 are driven by the third cylinder 22 and the fourth cylinder 25 to slide left and right, and the third guide shaft 23 and the fourth guide shaft 26 guide the sliding of the second pressing block 24 and the second supporting block 27, respectively.

Preferably, a first guide sleeve 18 is mounted on the first bracket 11 at a position corresponding to the first guide shaft 13 and the second guide shaft 16, and the first guide shaft 13 and the second guide shaft 16 pass through the first guide sleeve 18 and can slide in the first guide sleeve 18. In this embodiment, the first guide sleeve 18 can make the sliding of the first guide shaft 13 and the second guide shaft 16 smoother, thereby making the sliding of the first pressing block 14 and the first supporting block 17 more smooth from side to side.

Preferably, a second guide sleeve 28 is mounted on the second bracket 21 at a position corresponding to the third guide shaft 23 and the fourth guide shaft 26, and the third guide shaft 23 and the fourth guide shaft 26 pass through the second guide sleeve 28 and can slide in the second guide sleeve 28. In this embodiment, the second guide sleeve 28 can make the sliding of the third guide shaft 23 and the fourth guide shaft 26 smoother, thereby making the sliding of the second pressing block 24 and the second supporting block 27 more smooth from side to side.

Preferably, the conveying mechanism 3 comprises a conveying belt 31, the conveying belt 31 is uniformly provided with limit blocks 32, and a position stop 33 for accommodating the processed semi-finished bar 5 is formed in a gap between the limit blocks 32. In this embodiment, the processed semi-finished bars 5 fall into the position of the block 33 from the gap between the guide surface 172 and the second support surface 271, and then move with the conveyor belt 31 to enable the next block 33 to enter the feeding position, so as to avoid the surface damage of the semi-finished bars 5 caused by collision between the semi-finished bars 5.

Preferably, the upper left and upper right of the limiting block 32 are both arc surfaces 321. In this embodiment, the arc surface 321 may contact with the outer circumferential surface of the semi-finished bar 5 to increase friction force, thereby avoiding the defects of collision and the like caused by rolling of the semi-finished bar 5 during the transfer process.

The present invention is not limited to the above embodiments, and those skilled in the art can make various modifications, improvements and substitutions without departing from the concept of the present invention, which all belong to the protection scope of the present invention, and the protection scope of the present invention is subject to the appended claims.

Claims (8)

1. The utility model provides a magnetic material draws hole and uses unloader which characterized in that: the left supporting mechanism and the right supporting mechanism are symmetrically arranged, a first supporting block is arranged on the left supporting mechanism, a second supporting block is arranged on the right supporting mechanism, the first supporting block and the second supporting block have the degree of freedom of sliding left and right, the right end of the first supporting block is in a shape of '>', the upper inclined plane of the first supporting block is a first supporting surface, and the lower inclined plane of the first supporting block is a guide surface, the left end face of the second supporting block is an inclined second supporting surface, the inclination direction and the angle of the second supporting surface are the same as those of the guide surface, so that when the first supporting block and the second supporting block are close to each other, the guide surface can be tightly attached to a supporting position capable of forming a V shape between the lower portion of the second supporting surface, the upper portion of the first supporting surface and the upper portion of the second supporting surface, and a conveying mechanism is arranged below the left supporting mechanism and the right supporting mechanism.

2. The blanking device for magnetic material hole drawing according to claim 1, characterized in that: the supporting device is characterized in that a first pressing block is arranged above the first supporting block, a second pressing block is arranged above the second supporting block, the first pressing block and the second pressing block both have left-right sliding freedom degrees, and the right lower side of the first pressing block and the left lower side of the second pressing block are inclined planes and are symmetrical in inclined direction.

3. The blanking device for magnetic material hole drawing according to claim 2, characterized in that: left side supporting mechanism includes first support, installs first cylinder and second cylinder on the first support, first compact heap is connected on the piston rod of first cylinder, first supporting shoe is connected on the piston rod of second cylinder, first guiding axle is all installed at both ends around the left side of first compact heap, the second guiding axle is all installed at both ends around the left side of first supporting shoe, the free end of first guiding axle and second guiding axle all runs through first support.

4. The blanking device for magnetic material hole drawing according to claim 2, characterized in that: the right supporting mechanism comprises a second support, a third air cylinder and a fourth air cylinder are mounted on the second support, a second pressing block is connected to a piston rod of the third air cylinder, a second supporting block is connected to a piston rod of the fourth air cylinder, third guide shafts are mounted at the front end and the rear end of the right side of the second pressing block, fourth guide shafts are mounted at the front end and the rear end of the right side of the second supporting block, and free ends of the third guide shafts and the fourth guide shafts penetrate through the second support.

5. The blanking device for magnetic material hole drawing according to claim 3, characterized in that: first guide sleeves are arranged on the first support and correspond to the first guide shaft and the second guide shaft, and the first guide shaft and the second guide shaft penetrate through the first guide sleeves and can slide in the first guide sleeves.

6. The blanking device for magnetic material hole drawing according to claim 4, characterized in that: and the second support is provided with second guide sleeves at positions corresponding to the third guide shaft and the fourth guide shaft, and the third guide shaft and the fourth guide shaft penetrate through the second guide sleeves and can slide in the second guide sleeves.

7. The blanking device for magnetic material hole drawing according to claim 1, characterized in that: the conveying mechanism comprises a conveying belt, limiting blocks are evenly arranged on the conveying belt, and gaps between the limiting blocks form clamping positions used for containing the processed semi-finished bar stocks.

8. The blanking device for magnetic material hole drawing according to claim 7, characterized in that: the upper left side and the upper right side of the limiting block are both arc surfaces.

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