CN217971200U - Magnetic bolt material distributing device - Google Patents

Abstract

The utility model provides a magnetic bolt distributing device, which is used for distributing stacked magnetic bolts and comprises a base, a movable mechanism and a turntable discharging mechanism, wherein the movable mechanism and the turntable discharging mechanism are arranged on the base; a plurality of material cylinders for storing materials are arranged on the rotary table discharging mechanism, and a plurality of magnetic bolts are stacked in each material cylinder; offer the silo that is used for connecing the material on the moving mechanism, moving mechanism slides to the below that is located carousel discharge mechanism, and carousel discharge mechanism rotates to a feed cylinder and communicates in the silo and make the magnetic bolt of bottommost in the feed cylinder fall into the silo in, and the moving mechanism action is kept away from the feed cylinder in order to divide the material with the magnetic bolt that drives the silo. The utility model discloses a magnetism bolt feed divider, simple structure, convenient operation divides the material effectual.

Description

Magnetic bolt material distributing device

Technical Field

The utility model relates to a select separately technical field, especially relate to a magnetism bolt feed divider.

Background

The magnetic bolt can be automatically aligned and attracted, can also be prevented from falling off, and is more and more widely applied to the assembly of furniture and some mechanical parts. After the magnetic bolt is assembled, the magnetic bolt can be adsorbed on scrap iron and the like generated in the using process so as to avoid influencing the normal use of the mechanism. The bolt is small in size, generally placed in a centralized mode, and materials are taken for installation when the bolt is used. But the magnetic bolt can be attracted together due to the magnetism. In prior art, magnetic bolt all relies on the manual work to part one by one when using, and the magnetic bolt after part also can not a plurality of putting together, needs certain distance at a distance, and this required working space is great, still need wait sometimes that the former process assembly is complete just can then divide the material, has seriously influenced efficiency, and degree of automation is low.

Therefore, it is necessary to provide a magnetic bolt distribution device which can distribute magnetic bolts with good distribution effect.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a can divide material and divide effectual magnetism bolt feed divider to the magnetism bolt.

In order to achieve the purpose, the utility model provides a magnetic bolt distributing device which is used for distributing stacked magnetic bolts and comprises a base, a movable mechanism and a turntable discharging mechanism, wherein the movable mechanism and the turntable discharging mechanism are arranged on the base; a plurality of material cylinders for storing materials are arranged on the rotary table discharging mechanism, and a plurality of magnetic bolts are stacked in each material cylinder; offer the silo that is used for connecing the material on the moving mechanism, moving mechanism slides to the below that is located carousel discharge mechanism, and carousel discharge mechanism rotates to a feed cylinder and communicates in the silo and make the magnetic bolt of bottommost in the feed cylinder fall into the silo in, and the moving mechanism action is kept away from the feed cylinder in order to divide the material with the magnetic bolt that drives the silo.

Preferably, carousel discharge mechanism include with movable mechanism complex rotary disk, a plurality of feed cylinders along the equidistant distribution of circumference on the rotary disk, seted up many material ways in the rotary disk, many material ways communicate respectively in corresponding feed cylinder, and many material ways all run through the bottom of rotary disk in order to dock the silo.

Preferably, the movable mechanism is provided with a limiting groove, the limiting groove is communicated with the material groove, and the width of the material groove is greater than that of the limiting groove; the magnetic bolt comprises a head part and a rod part which are integrated, and when the movable mechanism slides away from the turntable discharging mechanism, the rod part of the magnetic bolt to be separated at the bottom falls into the limiting groove; when the movable mechanism slides to be close to the rotary table discharging mechanism, the rod part slides along the limiting groove, and the magnetic bolt falls into the material groove.

Preferably, the turntable discharging mechanism further comprises a mounting seat for supporting the rotating disc, a top plate in running fit with the rotating disc is arranged on the mounting seat, a groove body is formed in the top plate in a running-through mode, and the groove body can be communicated with a material barrel and a material groove.

Preferably, the rotating disc is further provided with a plurality of channels along the peripheral side of the rotating disc, and each channel is communicated with the corresponding material channel.

Preferably, the material pushing device further comprises a material pushing mechanism, the material pushing mechanism is located on one side, close to the material groove, of the base, the material pushing mechanism can stretch and move on the base, and the material pushing mechanism acts to push materials in the channel, so that the magnetic bolts in the material barrel can feed materials according to a preset track.

Preferably, the material ejecting mechanism comprises an ejecting cylinder and an ejector rod, the ejector rod is mounted at the output end of the ejecting cylinder, and the ejecting cylinder acts to enable the ejector rod to extend into the channel and act on the magnetic bolts in the material dividing channel, so that the magnetic bolts to be divided feed materials according to a preset track.

Preferably, the turntable discharging mechanism further comprises a power assembly and a transmission assembly, the power assembly is mounted on the base, the transmission assembly is located in the base, the transmission assembly is connected to the output end of the power assembly and connected to the rotating disk, and the power assembly acts to enable the transmission assembly to drive the rotating disk to rotate by a preset angle.

Preferably, the material barrel is installed on the rotating disc through the fixing seat, the material barrel is of a hollow structure, a plurality of through grooves are formed in each material barrel, and whether materials exist in the material barrel or not can be determined through the through grooves.

Preferably, the movable mechanism comprises a moving module and a movable assembly, the moving module moves to enable the movable assembly to slide along the moving module, the trough is arranged on the movable assembly, and the movable assembly slides to enable the trough to be close to or far away from the rotary table discharging mechanism to distribute materials.

Compared with the prior art, the utility model discloses a magnetism bolt feed divider for divide the material to the magnetism bolt that piles up. The magnetic bolt distribution device comprises a base, and a movable mechanism, a rotary table discharging mechanism and a material ejecting mechanism which are arranged on the base. Wherein, the movable mechanism is arranged on the base in a sliding way, and the sliding of the movable mechanism can be close to and communicated with the turntable discharging mechanism. The turntable discharging mechanism is provided with a plurality of material cylinders for storing materials, a plurality of magnetic bolts are stacked in each material cylinder, and the magnetic bolts are stacked in the material cylinders one by one and sequentially discharged. A trough for receiving materials and a limit groove are arranged on the moving mechanism. Specifically, the movable mechanism slides to the position below the rotary table discharging mechanism, a material barrel with materials is rotated to a material groove communicated with the movable mechanism, the magnetic bolt at the bottommost part in the material barrel falls into the material groove, and the movable mechanism slides relative to the rotary table discharging mechanism to distribute the materials. When the movable mechanism slides, the rod part of the magnetic bolt to be distributed falls into the limiting groove in advance, the movable mechanism slides to be positioned below the rotary table discharging mechanism, the whole magnetic bolt to be distributed falls into the material groove, and distribution is continued. It can be understood that the trough can be communicated with the material receiving barrel when being close to the turntable discharging mechanism, and the trough can be separated from the material when being far away from the turntable discharging mechanism. On the other hand, when a series of magnetic bolts are separated, the penultimate magnetic bolt at the bottom is easy to turn over under the combined action of external forces such as magnetic force, gravity and the like, so that the magnetic bolts cannot be embedded into the trough in an aligned mode when the magnets of the next round are separated. Therefore, an ejection mechanism is added, a channel corresponding to the ejection mechanism is arranged at the edge of the rotating disc, and the channel is communicated with the interior of the charging barrel. The liftout mechanism can stretch out and draw back in the passageway and remove, and after the magnetism bolt fell into the silo, the liftout mechanism stretched into the inside of feed cylinder through the passageway, blocked between two magnetism bolts of bottom just. After the first magnetic bolt at the bottom is separated, the second magnetic bolt at the bottom is limited and fixed by the material ejecting mechanism. The utility model discloses a magnetism bolt feed divider, simple structure, convenient operation divides the material effectual.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings required to be used in the description of the embodiments are briefly introduced below, and it is obvious that the drawings in the following description are some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without any creative effort.

Fig. 1 is a structural diagram of a magnetic bolt distribution device according to an embodiment of the present invention.

Fig. 2 is a partial structural view of fig. 1.

Fig. 3 is an enlarged view at a in fig. 2.

Fig. 4 is a partial block diagram of the cartridge of fig. 1.

Fig. 5 is a structural view of the moving mechanism and the ejector mechanism in fig. 1.

Description of reference numerals:

100. a magnetic bolt distributing device; 10. a base; 11. an inner cavity; 20. a turntable discharging mechanism; 21. a charging barrel; 210. a fixed seat; 211. an accommodating cavity; 212. a through groove; 22. rotating the disc; 221. a material channel; 222. a channel; 23. a power assembly; 24. a transmission assembly; 25. a mounting seat; 251. a top plate; 30. a movable mechanism; 31. A moving module; 32. a movable component; 321. a trough; 322. a limiting groove; 40. a material ejecting mechanism; 41. a material ejection cylinder; 42. and a push rod.

Detailed Description

In order to explain technical contents and structural features of the present invention in detail, the following description is made with reference to the embodiments and the accompanying drawings.

Referring to fig. 1, the present invention provides a magnetic bolt distribution device 100 for distributing stacked magnetic bolts. The magnetic bolt distribution device 100 comprises a base 10, and a movable mechanism 30 and a turntable discharging mechanism 20 which are arranged on the base 10. Wherein, the movable mechanism 30 is slidably disposed on the base 10, and the sliding of the movable mechanism 30 can be close to and communicated with the turntable discharging mechanism 20. Or the sliding of the movable mechanism 30 can be away from the turntable outfeed mechanism 20 to effect material separation. On the other hand, a plurality of material cylinders 21 for storing materials are arranged on the turntable discharging mechanism 20, a plurality of magnetic bolts are stacked in each material cylinder 21, and the plurality of magnetic bolts are stacked one on another in the material cylinders 21. Specifically, a trough 321 for receiving materials is formed in the movable mechanism 30, the movable mechanism 30 slides to a position below the turntable discharging mechanism 20, the turntable discharging mechanism 20 rotates to one of the material cylinders 21 and is communicated with the trough 321, the magnetic bolt at the bottommost part in the material cylinder 21 falls into the trough 321, and the movable mechanism 30 moves to drive the magnetic bolt in the trough 321 to be far away from the material cylinder 21 so as to distribute materials. The magnetic member may be disposed in the trough 321, so that the trough 321 can better receive materials. It can be understood that the trough 321 can be communicated with the material barrel 21 to receive the material when being close to the turntable discharging mechanism 20, and the trough 321 can distribute the material when being far from the turntable discharging mechanism 20.

Referring to fig. 1-3, in some alternative embodiments, the turntable discharging mechanism 20 includes a rotating disk 22 cooperating with a movable mechanism 30, and further includes a mounting seat 25 for supporting the rotating disk 22. The rotary plate 22 is rotatably mounted on the mounting base 25. The mount 25 is provided with a top plate 251, and the rotary plate 22 is rotatable with respect to the top plate 251. A trough is formed through the top plate 251 and can be connected to a material cylinder 21 and a material trough 321. It can be understood that the mounting seat 25 is fixed on the base 10, and when the movable mechanism 30 is close to the turntable discharging mechanism 20 and is in the material receiving position, the groove body on the top plate 251 is always communicated with the material groove 321. When the rotating disc 22 rotates on the mounting seat 25 until the material channel 221 is communicated with the groove body, the material in the material barrel 21 at the corresponding position can fall into the material groove 321 to be divided. At this time, the barrel 21 and the chute 221 at other positions are stopped by the top plate 251 and are not discharged.

Referring to fig. 1 to 4, in some alternative embodiments, a plurality of cartridges 21 are arranged on the rotating disc 22, and the plurality of cartridges 21 are equally distributed on the rotating disc 22 along the circumferential direction, i.e. the plurality of cartridges 21 are mounted on the rotating disc 22 and distributed along the rotating direction of the rotating disc 22. In particular, the cartridge 21 is mounted on the rotating disc 22 by means of a holder 210. The barrel 21 is hollow to form a receiving cavity 211 for receiving the magnetic bolt. Each barrel 21 is provided with a plurality of through grooves 212, and whether materials exist in the barrel 21 can be determined by the through grooves 212, so that the materials can be supplemented in time. The through grooves 212 are provided on the outer side of the cartridge 21 so as to facilitate observation, or the cartridge 21 is provided with a plurality of groups of through grooves 212 along the circumferential direction thereof so as to more conveniently observe whether the material exists in the cartridge 21 at each angle. Meanwhile, the through groove 212 is formed, so that the weight of the charging barrel 21 can be reduced. The material cylinder 21 is inserted into the fixing base 210 and is locked by a fixing member such as a screw. The fixing base 210 is also hollow to allow the material barrel 21 to be dropped into the material groove 321. On the other hand, a plurality of material channels 221 are formed in the rotating disc 22, the plurality of material channels 221 are respectively communicated with the corresponding material cylinders 21, and the plurality of material channels 221 penetrate through the bottom of the rotating disc 22 to be capable of abutting against the material groove 321. When the rotating disc 22 rotates, the plurality of material barrels 21 simultaneously rotate along with the rotating disc 22, and when the material barrels 21, the material channels 221, the groove bodies and the material grooves 321 are located on the same axis, the material barrels 21 can distribute materials.

Referring to fig. 1 to 3 and fig. 5, in some alternative embodiments, the movable mechanism 30 is provided with a limiting groove 322. The limiting groove 322 is communicated with the trough 321, and the width of the trough 321 is greater than that of the limiting groove 322. The magnetic bolt comprises a head part and a rod part which are integrated. Specifically, when the movable mechanism 30 slides away from the turntable discharging mechanism 20, the magnetic bolt at the bottommost part is separated from the trough 321, the rod part of the second magnetic bolt at the bottom part is located in the limiting groove 322, and the limiting groove 322 is communicated with the trough 321, so that the magnetic bolt can be positioned in advance, and the subsequent magnetic bolt can be aligned with the trough 321 better. When the movable mechanism 30 slides to approach the turntable discharging mechanism 20, the rod part slides along the limiting groove 322, and the whole magnetic bolt falls into the trough 321. It can be understood that spacing groove 322 can be used for the counterpoint in advance of magnetic bolt for in silo 321 can better be put into to the magnetic bolt, spacing groove 322 communicates in silo 321, makes in the magnetic bolt of spacing groove 322 can better fall into silo 321, counterpoints effectually.

Referring to fig. 1 to 3 and fig. 5, in some alternative embodiments, the rotating disc 22 is further provided with a plurality of channels 222 along the circumferential side thereof, and each channel 222 is communicated with the corresponding material channel 221. It can be understood that the rotating disk 22 is cylindrical, the plurality of cartridges 21 are mounted on the rotating disk 22, and the rotating disk 22 is provided with a plurality of passages 222 on the arc-shaped surface of the side surface thereof corresponding to the plurality of cartridges 21, respectively. Each channel 222 communicates with one cartridge 21. On the other hand, the magnetic bolt distribution device 100 further includes an ejecting mechanism 40, and the ejecting mechanism 40 is located on one side of the base 10 close to the trough 321, that is, the ejecting mechanism 40 is close to the trough body of the top plate 251. Specifically, the ejecting mechanism 40 can be telescopically moved on the base 10, and the ejecting mechanism 40 is operated to eject the material in the channel 222 to pre-separate the magnetic bolts to be separated.

Referring to fig. 1 to 3 and 5, in some alternative embodiments, the material ejecting mechanism 40 includes a material ejecting cylinder 41 and an ejector rod 42, the ejector rod 42 is installed at the output end of the material ejecting cylinder 41, and the material ejecting cylinder 41 is operated to make the ejector rod 42 extend into the channel 222 and act on the magnetic bolts in the material channel 221 being separated so as to pre-separate the magnetic bolts to be separated. It can be understood that when a series of magnetic bolts are separated, the penultimate magnetic bolt at the bottom is easy to turn over under the combined action of external forces such as magnetic force, gravity and the like, so that the magnetic bolt cannot be embedded into the trough 321 in an aligned manner when the magnets of the next round are separated. For this purpose, an ejector mechanism 40 is added, and the edge of the rotating disc 22 is provided with a channel 222 corresponding to the ejector mechanism 40, and the channel 222 is communicated with the inside of the barrel 21. The ejecting mechanism 40 can move telescopically in the channel 222, and after the magnetic bolts fall into the trough 321, the ejecting mechanism 40 extends into the barrel 21 through the channel 222 and is just clamped between the two magnetic bolts at the bottom. At this time, after the first magnetic bolt at the bottom is separated, the second magnetic bolt at the bottom is limited and fixed by the material ejecting mechanism 40. That is, the ejector mechanism 40 may be used only when three magnetic bolts remain.

Referring to fig. 1-3, in some alternative embodiments, the turntable discharging mechanism 20 further includes a power assembly 23 and a transmission assembly 24. The power assembly 23 is mounted on the base 10, the base 10 has a hollow inner cavity 11 therein, and the transmission assembly 24 is located in the inner cavity 11 of the base 10. The transmission assembly 24 is connected to the output end of the power assembly 23 and connected to the rotating disc 22, and the power assembly 23 acts to make the transmission assembly 24 drive the rotating disc 22 to rotate by a preset angle. Wherein the power assembly 23 may comprise a motor and the transmission assembly 24 may comprise a belt. The preset angle may be set according to the specific number of cartridges 21, and illustratively, when the number of cartridges 21 is six, the rotating disk 22 is rotated by 60 ° at a time to switch from one cartridge 21 to another cartridge 21 adjacent thereto. When the number of cartridges 21 is four, the rotating disk 22 rotates 90 ° at a time to switch from one cartridge 21 to another cartridge 21 adjacent thereto. Of course, the cartridge 21 may have other numbers of configurations.

Referring to fig. 5, in some alternative embodiments, the movable mechanism 30 includes a moving module 31 and a movable element 32, and the moving module 31 operates to slide the movable element 32 along the moving module 31. Specifically, the trough 321 opens on the movable assembly 32, and the sliding of the movable assembly 32 enables the trough 321 to approach or move away from the turntable discharging mechanism 20 to divide the material.

As shown in fig. 1 to 5, the rotary plate 22 is provided with a plurality of cartridges 21, a series of magnetic bolts are placed in the cartridges 21, and the cartridges 21 penetrate from top to bottom to the bottom of the rotary plate 22. When one of the cartridges 21 performs the operation of separating the magnetic bolts, when the trough 321 of the movable mechanism 30 is located right below the corresponding cartridge 21, the magnetic bolt at the bottommost in the cartridge 21 falls into the trough 321, the movable mechanism 30 moves horizontally to separate the magnetic bolt at the bottommost, and the separated magnetic bolt is moved out and installed through an external transfer device. When a series of magnetic bolts are used for separation, the penultimate magnetic bolt at the bottom is easy to tip over under the combined action of external forces such as magnetic force, gravity and the like, so that the magnetic bolts cannot be aligned and embedded into the trough 321 when the magnets of the next round are separated. For this purpose, an ejector mechanism 40 is added, and the edge of the rotating disc 22 is provided with a channel 222 corresponding to the ejector mechanism 40, and the channel 222 is communicated with the inside of the barrel 21. The ejecting mechanism 40 can move telescopically in the channel 222, and after the magnetic bolts fall into the trough 321, the ejecting mechanism 40 extends into the barrel 21 through the channel 222 and is just clamped between the two magnetic bolts at the bottom. At this time, after the first magnetic bolt at the bottom is separated, the second magnetic bolt at the bottom is limited and fixed by the material ejecting mechanism 40. After the magnetic bolts in one whole barrel 21 are separated, the power assembly 23 and the transmission assembly 24 drive the rotating disc 22 to rotate, the barrel 21 is switched, and the separation of the magnetic bolts in the next barrel 21 is continued. The motor and the rotating disc 22 are driven by a transmission belt, and the transmission belt is arranged in the installation base 10.

As shown in fig. 1 to 5, the magnetic bolt distribution device 100 of the present invention is used for distributing stacked magnetic bolts. The magnetic bolt distribution device 100 comprises a base 10, and a movable mechanism 30, a turntable discharging mechanism 20 and an ejection mechanism 40 which are arranged on the base 10. Wherein, the movable mechanism 30 is slidably disposed on the base 10, and the sliding of the movable mechanism 30 can be close to and communicated with the turntable discharging mechanism 20. The turntable discharging mechanism 20 is provided with a plurality of material cylinders 21 for storing materials, a plurality of magnetic bolts are stacked in each material cylinder 21, and the magnetic bolts are stacked in the material cylinders 21 one by one and sequentially discharged. A trough 321 for receiving material and a limit trough 322 are arranged on the movable mechanism 30. Specifically, the movable mechanism 30 slides to a position below the turntable discharging mechanism 20, so that a material cylinder 21 with material is rotated to a material groove 321 communicated with the movable mechanism 30, the magnetic bolt at the bottommost part in the material cylinder 21 falls into the material groove 321, and the movable mechanism 30 slides relative to the turntable discharging mechanism 20 to distribute material. When the movable mechanism 30 slides, the rod part of the magnetic bolt to be distributed falls into the limiting groove 322 in advance, the movable mechanism 30 slides to be positioned below the turntable discharging mechanism 20, the whole magnetic bolt to be distributed falls into the material groove 321, and the material distribution is continued through the circular action. It can be understood that the trough 321 can be communicated with the material barrel 21 to receive the material when being close to the turntable discharging mechanism 20, and the trough 321 can distribute the material when being far from the turntable discharging mechanism 20. On the other hand, when a series of magnetic bolts are separated, the penultimate magnetic bolt at the bottom is easily turned over under the combined action of external forces such as magnetic force, gravity and the like, so that the magnetic bolt cannot be inserted into the trough 321 in an aligned manner when the magnet of the next round is separated. By providing an ejector mechanism 40, the ejector rod 42 of the ejector mechanism 40 extends into the barrel 21 through the channel 222 and is just clamped between the two magnetic bolts at the bottom. The material ejecting mechanism 40 is arranged, so that all the magnetic bolts can be smoothly separated, and the material separating effect is good. The utility model discloses a magnetism bolt feed divider 100, simple structure, convenient operation divides the material effectual.

The above disclosure is only a preferred embodiment of the present invention, and the scope of the claims of the present invention should not be limited thereby, and all the equivalent changes made in the claims of the present invention are intended to be covered by the present invention.

Claims (10)

1. A magnetic bolt distribution device is used for distributing stacked magnetic bolts and is characterized by comprising a base, a movable mechanism and a rotary table discharge mechanism, wherein the movable mechanism and the rotary table discharge mechanism are arranged on the base; a plurality of material cylinders for storing materials are arranged on the rotary disc discharging mechanism, and a plurality of magnetic bolts are stacked in each material cylinder; offer the silo that is used for connecing the material on the moving mechanism, moving mechanism slides to being located carousel discharge mechanism's below, carousel discharge mechanism rotates to one the feed cylinder communicate in the silo makes in the feed cylinder bottommost the magnetism bolt falls into in the silo, the moving mechanism action is in order to drive in the silo the magnetism bolt is kept away from the feed cylinder is in order to divide the material.

2. The magnetic bolt distribution device according to claim 1, wherein the rotary disc discharging mechanism comprises a rotary disc matched with the movable mechanism, a plurality of the material barrels are circumferentially and equidistantly distributed on the rotary disc, a plurality of material channels are formed in the rotary disc and respectively communicated with the corresponding material barrels, and the plurality of material channels penetrate through the bottom of the rotary disc to be in butt joint with the material barrels.

3. The magnetic bolt distribution device according to claim 1, wherein the movable mechanism is provided with a limiting groove, the limiting groove is communicated with the trough, and the width of the trough is larger than that of the limiting groove.

4. The magnetic bolt distribution device according to claim 2, wherein the rotary disc discharging mechanism further comprises a mounting seat for supporting the rotary disc, a top plate which is in running fit with the rotary disc is arranged on the mounting seat, a groove body penetrates through the top plate, and the groove body can be communicated with the feed cylinder and the trough.

5. The magnetic bolt distribution device according to claim 2, wherein the rotary disk is further provided with a plurality of channels along the peripheral side thereof, and each channel is communicated with the material channel for distribution.

6. The magnetic bolt distribution device according to claim 5, further comprising an ejection mechanism, wherein the ejection mechanism is located on one side of the base close to the trough, the ejection mechanism can be telescopically moved on the base, and the ejection mechanism acts to eject the magnetic bolts in the channel, so that the magnetic bolts in the material barrel are fed according to a preset track.

7. The magnetic bolt distribution device according to claim 6, wherein the material ejection mechanism comprises a material ejection cylinder and an ejector rod, the ejector rod is mounted at the output end of the material ejection cylinder, and the material ejection cylinder acts to make the ejector rod extend into the channel and act on the magnetic bolts in the material distribution channel, so that the magnetic bolts to be distributed are fed according to a preset track.

8. The magnetic bolt distribution device of claim 2, wherein the turntable discharging mechanism further comprises a power assembly and a transmission assembly, the power assembly is mounted on the base, the transmission assembly is located in the base, the transmission assembly is connected to an output end of the power assembly and connected to the rotating disc, and the power assembly is operated to enable the transmission assembly to drive the rotating disc to rotate by a preset angle.

9. The magnetic bolt distribution device according to claim 2, wherein the material cylinder is mounted on the rotating disc through a fixing seat, the material cylinder is of a hollow structure, and a plurality of through grooves are formed in each material cylinder, so that whether the material exists in the material cylinder can be determined through the through grooves.

10. The magnetic bolt distribution device according to claim 1, wherein the movable mechanism includes a moving module and a movable assembly, the moving module is operated to slide the movable assembly along the moving module, the trough is provided on the movable assembly, and the movable assembly slides to enable the trough to approach or move away from the turntable discharging mechanism for distribution.

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