CN206911753U - Magnet feed rotary table mechanism and its magnet automatic charging detection device - Google Patents

Abstract

The utility model discloses a kind of magnet feed rotary table mechanism, including：Rotating disc support frame, feeding rotating disc and rotation disk drive device, feeding rotating disc are rotatably installed on rotating disc support frame by rotating disk drive device driving.A kind of magnet automatic charging detection device is also disclosed in the utility model, including：Work base station, magnet feed mechanism, magnet feed rotary table mechanism, magnet cutting agency and magnet defective products cutting agency.Magnet automatic charging detection device of the present utility model is by setting magnet feed mechanism, magnet feed rotary table mechanism, magnet cutting agency and magnet defective products cutting agency, so as to complete the operation such as the feeding to cylinder-shaped magnet, detection, non-defective unit storing and defective products blanking, it is effective to improve production efficiency and detection quality, and the magnet that can adapt to different size is feeding detection operation so that the use range of equipment is wider.

Description

Magnet feed rotary table mechanism and its magnet automatic charging detection device

Technical field

Magnet detection technique field is the utility model is related to, more particularly to a kind of magnet feed rotary table mechanism and its magnet Automatic charging detection device.

Background technology

, it is necessary to be carried out to magnet under feeding, detection, non-defective unit blanking and defective products in the production process of cylinder-shaped magnet Material.Current detection mode is mainly by manually carrying out the operation such as detection and sub-material.Artificial detection mode exists certain Error, it is impossible to ensure the quality of detection, and production efficiency is not high.The size of the cylindrical magnet of different size is with thickness simultaneously Degree is the same, so in general detection device can not meet the detection of the cylinder-shaped magnet of plurality of specifications.

Therefore, in order to realize the automated production of cylinder-shaped magnet multistation feeding detection, research and development engineer needs deeply Understand the characteristic of each processing technology, consider the various problems being likely to occur, constantly debugged, be iteratively improved, could design Go out a set of cylinder-shaped magnet feed mechanism and its detection device for meeting enterprise itself reality.

Utility model content

The purpose of this utility model is to overcome weak point of the prior art, there is provided a kind of magnet feed rotary table mechanism and Its magnet automatic charging detection device, so as to improve detection efficiency.

The purpose of this utility model is achieved through the following technical solutions：

A kind of magnet feed rotary table mechanism, including：Rotating disc support frame, feeding rotating disc and rotation disk drive device, it is described Feeding rotating disc is rotatably installed on the rotating disc support frame by the rotation disk drive device driving；

Driving cam and multiple rotating disks transmission positioner are installed, the driving cam rotates on the feeding rotating disc Stated installed in described on feeding rotating disc, multiple rotating disk transmission positioners around the driving cam, divide in a ring by permutation Cloth is on the feeding rotating disc；

The rotating disk transmission positioner includes positioning sliding shoe and locating rotation block, and one end of the positioning sliding shoe is opened Provided with magnet locating slot, the other end is abutted with the driving cam and rotated by the rotation of the driving cam in the feeding Reciprocatingly slided on disk；

The locating rotation block is rotatably installed on the feeding rotating disc, and one end of the locating rotation block extends to institute State at magnet locating slot, the other end is socketed on the positioning sliding shoe, and is made by the slip of the positioning sliding shoe described Locating rotation block is rotated.

As a kind of preferable scheme of the utility model, the rotating disk transmission positioner also includes sliding shoe reset portion, The sliding shoe reset portion includes：Reset pedestal, reset contiguous block and sliding block return springs, described one end for resetting contiguous block It is slidably mounted on the reset pedestal, the other end is connected with the positioning sliding shoe, and the sliding block return springs are connected to Between the reset pedestal and the reset contiguous block.

As a kind of preferable scheme of the utility model, the sliding block return springs are spring.

As a kind of preferable scheme of the utility model, it is connected between the locating rotation block and the feeding rotating disc Reset tension spring.

As a kind of preferable scheme of the utility model, the magnet locating slot is circular groove.

As a kind of preferable scheme of the utility model, the locating rotation block is close to one end of the magnet locating slot Arc structure.

As a kind of preferable scheme of the utility model, the rotation disk drive device is floppy drive.

A kind of magnet automatic charging detection device, including above-mentioned magnet feed rotary table mechanism, in addition to：Work base station, Magnet feed mechanism, magnet cutting agency and magnet defective products cutting agency, the magnet feed mechanism, the magnet feeding turn Disc mechanism, the magnet cutting agency and the magnet defective products cutting agency are sequentially arranged on the work base station.

Compared with prior art, the utility model has advantages below：

Magnet automatic charging detection device of the present utility model is by setting magnet feed mechanism, magnet feed rotary table machine Structure, magnet cutting agency and magnet defective products cutting agency, so as to complete the feeding to cylinder-shaped magnet, detection, non-defective unit storing Operated with defective products blanking etc., it is effective to improve production efficiency and detection quality, and also the magnet that can adapt to different size is Feeding detection operation so that the use range of equipment is wider.

Brief description of the drawings

Fig. 1 is the structure chart of the magnet automatic charging detection device of the embodiment of the utility model one；

Fig. 2 is that the magnet feeding track of the magnet automatic charging detection device in Fig. 1 transmits the structure of fixed mount with magnet Figure；

Fig. 3 is magnet feeding track and the structure chart at another visual angle of magnet transmission fixed mount in Fig. 2；

Fig. 4 is the structure chart of the transmission drive division and transmission driving roller in Fig. 2；

Fig. 5 is the structure chart of the magnet lowering or hoisting gear of the magnet automatic charging detection device in Fig. 1；

Fig. 6 is that the magnet of the magnet lowering or hoisting gear in Fig. 5 lifts the structure chart of assembling fixture；

Fig. 7 is the structure of the magnet feed rotary table mechanism of the magnet automatic charging detection device in Fig. 1；

Fig. 8 is that the feeding rotating disc of the magnet feed rotary table mechanism in Fig. 7 transmits the structure chart of positioner with rotating disk；

Fig. 9 is the structure chart of the magnet cutting agency of the magnet automatic charging detection device in Fig. 1；

Figure 10 is structure of the magnet blanking conveyer with magnet poking device of the magnet cutting agency in Fig. 9；

Figure 11 is that the magnet in Fig. 9 sorts the structure that the transmission of conveyer holds down assembly.

Figure 12 is the structure chart of the magnet storage device of the magnet cutting agency in Fig. 9；

Figure 13 is the structure chart of the magnet storing push part of the magnet storage device in Figure 12；

Figure 14 is the structure chart of the defective products conveyer of the magnet defective products cutting agency in Fig. 1；

Figure 15 is the structure chart of the defective products material-pulling device of the magnet defective products cutting agency in Fig. 1.

Embodiment

For the ease of understanding the utility model, the utility model is more fully retouched below with reference to relevant drawings State.Better embodiment of the present utility model is given in accompanying drawing.But the utility model can come in many different forms Realize, however it is not limited to embodiments described herein.On the contrary, the purpose for providing these embodiments is to make to this practicality newly The more thorough and comprehensive that the disclosure of type understands.

It should be noted that when element is referred to as " being fixed on " another element, it can be directly on another element Or there may also be element placed in the middle.When an element is considered as " connection " another element, it can be directly connected to To another element or it may be simultaneously present centering elements.Term as used herein " vertical ", " horizontal ", " left side ", For illustrative purposes only, it is unique embodiment to be not offered as " right side " and similar statement.

Unless otherwise defined, all of technologies and scientific terms used here by the article is led with belonging to technology of the present utility model The implication that the technical staff in domain is generally understood that is identical.It is simply in term used in the description of the present utility model herein The purpose of description specific embodiment, it is not intended that in limitation the utility model.Term as used herein " and/or " bag Include the arbitrary and all combination of the Listed Items of one or more correlations.

As shown in figure 1, the structure chart of the magnet automatic charging detection device 10 for the embodiment of the utility model one.

A kind of magnet automatic charging detection device 10, including：Work base station 100, magnet feed mechanism 200, magnet feeding Rotating disk mechanism 300, magnet cutting agency 400 and magnet defective products cutting agency 500, magnet feed mechanism 200, magnet feeding turn Disc mechanism 300, magnet cutting agency 400 and magnet defective products cutting agency 500 are sequentially arranged on work base station 100.

With reference to shown in Fig. 1 and Fig. 2, magnet feed mechanism 200 includes：Magnet feeding track 210, magnet transmission fixed mount 220 with magnet lowering or hoisting gear 230, magnet transmission fixed mount 220 on is provided with transmission guide roller 251 with transmission driving roller 250, magnet feeding track 210 passes through transmission driving rolling between transmission guide roller 251 and transmission driving roller 250 Magnet on magnet feeding track 210 is sent at magnet lowering or hoisting gear 230 by the rotation of wheel 250 one by one.In the present embodiment, Transmission guide roller 251 is symmetrically set with transmission driving roller 250.Guide roller 251 is transmitted as transmission one-way wheel.Magnet Feeding clamping plate 211 is installed on feeding track 210.Magnet feeding track 210 is feeding inclined plane.

With reference to shown in Fig. 2 and Fig. 3, it is rotatablely equipped with magnet transmission fixed mount 220 and resets turntable 260, transmission driving Roller 250, which is arranged on, to be resetted on turntable 260.Reset and reset bullet is installed between turntable 260 and magnet transmission fixed mount 220 Property part 270.Reset and transmission drive division 280 is installed on turntable 260, transmission drive division 280 drives with transmission driving roller 250 Connection.

As shown in figure 4, in the present embodiment, return springs 270 are back-moving spring.Transmitting drive division 280 includes transmission Motor 281 and transmission timing belt 282, transmission motor 281 are driven by transmitting timing belt 282 with transmission driving roller 250 connections.

It is noted that the magnet of cylinder carries out feeding operation by being manually placed on magnet feeding track 210, by It is feeding inclined plane in magnet feeding track 210, is slid automatically to transmission guide roller 251 and transmission by the effect of gravity Between driving roller 250, the effect of feeding clamping plate 211 is to enable magnet to be smoothed out transmission of falling.

After being fallen under magnet between transmission guide roller 251 and transmission driving roller 250, turntable is resetted by setting 260, clamping force on the one hand is played a part of to magnet so that magnet can not continue to fall.On the other hand, set to reset and rotate Platform 260 can make the feeding of the magnet of the adaptation different size thickness of magnet feed mechanism 200, when magnet thickness is big, by multiple The interaction of position turntable 260 and return springs 270 can automatically adjust transmission guide roller 251 and transmission driving rolling Space between wheel 250, so that the use range of equipment is wider.Meanwhile driving roller 250 is transmitted in transmission drive division 280 Rotated under driving, so as to by magnet one by one at feeding to magnet lowering or hoisting gear 230 carry out feeding operation so that magnet it is upper Material operation is more enough to be carried out in order.

As shown in figure 5, magnet lowering or hoisting gear 230 includes：Magnet lifting support 231, lifting transmission chain 232 and lifting are driven Dynamic portion 233, the lifting transmission chain 232 is by the driving of the lifting drive division 233 on the magnet lifting support 231 Carry out cycle rotation.In the present embodiment, it is lifting motor to lift drive division 233.

With reference to shown in Fig. 5 and Fig. 6, multiple magnet lifting assembling fixtures 240 are installed on the lifting transmission chain 232, Circular arc mounting groove 241 is offered on magnet lifting assembling fixture 240, one end of the circular arc mounting groove 241 is provided with lifting Positioning wedged block 242.

As shown in fig. 6, the lifting positioning wedged block 242 is provided with the first interface 242a, the second interface 242b and the Three interface 242c, the 3rd interface 242c are located at the direct simultaneously phase of the first interface 242a, the second interface 242b Mutually linking, the first interface 242a are arc-shaped structure and are connected with the circular arc mounting groove 241 that described second is connected Face 242b is ramp structure, and the 3rd interface 242c is perpendicular structure.Two neighboring magnet lifts assembling fixture 240 It is connected by the second interface 242b of the lifting positioning wedged block 242.

It is noted that transmission driving roller 250 lifts magnet feeding to magnet under the driving of transmission drive division 280 On assembling fixture 240, laid by circular arc mounting groove 241, while lift the driving lifting transmission chain of drive division 233 232 are rotated, so as to which magnet is carried out into lifting operations.

Lifting positioning wedged block 242 is by setting the first interface 242a to prevent magnet from lifting assembling fixture 240 upper Magnet skids off circular arc mounting groove 241 during rising, by setting the second interface 242b in ramp structure with being in vertical 3rd interface 242c of planar structure, can play a part of limition orientation enable magnet smoothly really accurate feeding to circular arc In shape mounting groove 241.

As shown in fig. 7, magnet feed rotary table mechanism 300, including：Rotating disc support frame 310, feeding rotating disc 320 and rotation Disk drive device 330, feeding rotating disc 320 are rotatably installed in rotating disc support frame 310 by rotating the driving of disk drive device 330 On.In the present embodiment, it is floppy drive to rotate disk drive device 330.

Further, driving cam 340 and multiple rotating disks transmission positioner 350 are installed on feeding rotating disc 320, passed Moving cam 340, which is rotatably installed in, to be stated on feeding rotating disc 320, and multiple rotating disk transmission positioners 350 are in around driving cam 340 Annular permutation is distributed on feeding rotating disc 320.

In the present embodiment, magnet transmission track 311, magnet lowering or hoisting gear 230 are installed on the rotating disc support frame 310 By on magnet feeding to magnet transmission track 311, positioned so as to which magnet transfer is sent to rotating disk transmission by magnet transmission track 311 Clamping and positioning is carried out on device 350, progress transfer operation is then being rotated by feeding rotating disc 320.

With reference to shown in Fig. 7 and Fig. 8, rotating disk transmission positioner 350 includes positioning sliding shoe 351 and locating rotation block 352, One end of positioning sliding shoe 351 offers magnet locating slot 351a, and the other end abuts with driving cam and by driving cam 340 Rotation reciprocatingly slided on feeding rotating disc 320.

Further, locating rotation block 352 is rotatably installed on feeding rotating disc 320, and one end of locating rotation block 352 is prolonged Extend at magnet locating slot 351a, the other end is socketed on positioning sliding shoe 351, and the slip by positioning sliding shoe 351 makes Locating rotation block 352 is rotated.

In the present embodiment, position to be provided with sliding shoe 351 and be oriented to card column 351b, begun with locating rotation block 352 Neck 352a is oriented to, the locating rotation block 352 is fastened on the guiding card column 351b by the guiding neck 352a.

Further, in order to coordinate the placement positioning of the magnet of cylinder, magnet locating slot 351a is circular groove, fixed Position moving block 352 is arc structure close to one end of magnet locating slot.So as to form semicircular magnet placement space so that magnetic Iron can be good at obtaining positioning placement.

As shown in figure 8, rotating disk transmission positioner 350 also includes sliding shoe reset portion 353, sliding shoe reset portion 353 is wrapped Include：Reset pedestal 353a, reset contiguous block 353b and sliding block return springs 353c, peace is slided in the one end for resetting contiguous block 353b Mounted in resetting on pedestal 353a, the other end is connected with positioning sliding shoe 351, and sliding block return springs 353c is connected to reset pedestal Between 353a and reset contiguous block 353b.So that positioning sliding shoe 351 can be automatically performed reset operation after line slip is entered. In the present embodiment, sliding block return springs are spring.

Further, in order that locating rotation block 352 can automatically reset after rotating, locating rotation block 352 is with sending Reset tension spring 354 is connected between material rotating disc 320.

It is noted that when magnet is sent on rotating disk transmission positioner 350 by magnet transmission track 311, pass through Design the movement locus of driving cam 340 so that positioning sliding shoe 351 is in the 320 enterprising line slip of feeding rotating disc, so as to drive Locating rotation block 352 is rotated so that the magnet placement space that magnet locating slot 351a is formed with the one end of locating rotation block 352 State in opening so that there is magnet enough spaces to drop at magnet locating slot 351a.

After magnet enters magnet locating slot 351a, by the movement locus and sliding shoe that design driving cam 340 Reset portion 353 is resetted with the presence of reset tension spring 354, positioning sliding shoe 351 with locating rotation block 352, thus to magnetic Magnet in iron locating slot 351a carries out positioning clamping.

On the one hand the rotation design of locating rotation block 352 is that the feeding for facilitating magnet operates, another aspect locating rotation block 352 elasticity design causes rotating disk transmission positioner 350 to can adapt to the magnet positioning of different size thickness, so that equipment Use range is wider.

Referring to Fig. 7, rotary disk limitation protective block 312 and feeding limit assembly are also equipped with rotating disc support frame 310 313, the rotary disk limitation protective block 312 sets and is centered around around the feeding rotating disc 320, the feeding limit assembly 313 are arranged on the side of the magnet transmission track 311.

Further, feeding limit assembly 313 includes feeding limiting plate 313a and is arranged on the feeding limiting plate Feeding rotation-limited roller 313b, the feeding rotation-limited roller 313b on 313a are arranged on the feeding rotating disc 320 Top and rotated along the rotation direction of the feeding rotating disc 320.

It is centered around it is noted that rotary disk limitation protective block 312 is set around feeding rotating disc 320, can prevents from sending Expect that the magnet during rotation of rotating disc 320 drops, so as to ensureing the smooth transmission of magnet.

The setting of feeding limit assembly 313 can make magnet transmit positioning dress from the feeding of magnet transmission track 311 to rotating disk After putting 350, feeding rotation-limited roller 313b is rotated through by feeding rotating disc 320, in feeding rotation-limited roller Magnet is set to prevent magnet from dropping completely into magnet locating slot 351a under 313b rotary spacing.

Referring to Fig. 1, magnet feed rotary table mechanism 300 also includes magnet detecting device 360, magnet detecting device 360 are provided with multiple, and are separately mounted at the surface of rotating disc support frame 310 and tow sides.In the present embodiment, magnet is examined Survey device 360 is CCD detection means, and magnet detecting device 360 is in order to magnetic at the surface of rotating disc support frame 310 The side of iron carries out the detection of crackle or breach, the magnet detecting device 360 installed in the tow sides of rotating disc support frame 310 be for Magnet tow sides are carried out with the detection of crackle or breach, data after detection contrast the control that can feed back to equipment by analysis System processed, related non-defective unit is carried out according to the data magnet cutting agency 400 of detection respectively to magnet defective products cutting agency 500 Or the blanking operation of defective products.

Magnet feed rotary table mechanism 300 is by setting the type of drive of driving cam 340 to transmit positioner 350 to rotating disk Folding be controlled, the startup of each rotating disk transmission positioner 350 on the one hand can be made more accurate, be on the other hand driven The Trajectory Design of cam 340 can simplify design, and equipment structure it is simpler with it is compact, by increasing capacitance it is possible to increase equipment is transported The accuracy of work.

As shown in figure 9, magnet cutting agency 400, for carrying out blanking sorting transmission to magnet, including：For to magnet The magnet blanking conveyer 410 transmitted one by one, the magnet sorting conveyer for magnet sort transmission 420th, the magnetic being sent to for carrying out material toggling to the magnet on magnet blanking conveyer 410 on magnet sorting conveyer 420 Iron poking device 430 and the magnet for being sent to magnet sorting conveyer 420 carry out the magnet storage device of storing 440。

Magnet poking device 430 is arranged on the top of magnet blanking conveyer 410, and magnet sorting conveyer 420 is held in the mouth Connect installed between magnet blanking conveyer 410 and magnet storage device 440.

As shown in Figure 10, magnet blanking conveyer 410 includes：Magnet blanking support 411, magnet blanking transmission chain 412 with magnet blanking drive division 413, magnet blanking transmission chain 412 is by the driving of magnet blanking drive division 413 under magnet Cycle rotation is carried out on material support 411, multiple magnet blankings are installed on magnet blanking transmission chain 412 and lay fixture 414, phase Adjacent two magnet blankings form magnet placement space between laying fixture 414.In the present embodiment, magnet blanking drive division 413 For magnet blanking motor.

With reference to shown in Fig. 1 and Figure 10, it is to be noted that, between magnet feed rotary table mechanism 300 and magnet cutting agency 400 Magnet transfer transport mechanism 600 is installed, magnet transfer transport mechanism 600 is the mechanisms such as transfer transmission chain, when magnet feeding Rotating disk mechanism 300 passes through magnet transfer transport mechanism by after the magnet feeding after the completion of detection to magnet transfer transport mechanism 600 600, by the magnet transfer feeding after detection to magnet blanking conveyer 410, pass through phase on magnet blanking transmission chain 412 Two adjacent magnet blankings lay fixture 414 and magnet are positioned, and pass through the drive magnet blanking of magnet blanking drive division 413 Transmission chain 412, which rotates, makes magnet be sent to progress material toggling operation at magnet poking device 430.

Referring to Figure 10, magnet poking device 430 includes：Material toggling support frame 431, material toggling moving block 432 and material toggling Drive division 433, material toggling moving block 432 are rotatably installed on material toggling support frame 431, material toggling drive division 433 and material toggling moving block 432 Drive connection.

Further, material toggling moving block 432 is provided with multiple material toggling gear block 432a, two neighboring material toggling gear block 432a Between offer material toggling groove 432b.Center circular arrays point of multiple material toggling gear block 432a around material toggling moving block 432 Cloth.Material toggling groove 432b is circular groove.

In the present embodiment, material toggling moving block 432 is provided with multiple, and multiple material toggling moving blocks 432 are in yi word pattern arrangement installation On material toggling support frame 431.Material toggling drive division 433 includes material toggling motor 433a and material toggling driving belt 433b, and material toggling is driven Dynamic motor 433a passes through material toggling driving belt 433b and the drive connection of material toggling moving block 432.

It is noted that after magnet blanking conveyer 410 transmits magnet in place, material toggling moving block 432 is by dialling Expect drive division 433 by magnet material toggling to magnet sorting conveyer 420.Material toggling gear block is set on material toggling moving block 432 432a, stop is played a part of to the magnet of feeding, magnet can be placed and skid off magnet blanking transmission chain 412.Meanwhile pass through Material toggling groove 432b is set,, can be by magnetic when material toggling moving block 432 is rotated so as to form magnet material toggling placement space On the smooth material toggling of magnet to magnet sorting conveyer 420 on iron blanking transmission chain 412.

Material toggling gear block 432a and material toggling groove 432b is equipped with simultaneously so that there is sufficiently large material toggling space, So as to adapt to the operation of the magnet material toggling of different size.When magnet is small dimension product, material toggling gear block 432a can hinder Gear magnet skids off, when magnet is the product of big specification, the space of material toggling gear block 432a and material toggling groove 432b formation It can be accommodated, so that the use range of equipment is wider.

Referring to Figure 10, magnet blanking clamping plate 411a, magnet blanking clamping plate are installed on magnet blanking support 411 411a, which is located on the position of material toggling moving block 432, offers magnet blanking breach 411b.

It is noted that magnet blanking clamping plate 411a plays a part of stop, magnet can be prevented from two magnet blankings Skidded off between placement fixture 414.Material toggling moving block 432 can smoothly complete material toggling behaviour during magnet blanking breach 411b setting Make so that magnet can enter magnet by magnet blanking breach 411b and sort conveyer 420.

With reference to shown in Fig. 9 and Figure 11, magnet sorting conveyer 420 includes non-defective unit Transfer pipe 421 and multiple defective products Transfer pipe 422, the top of non-defective unit Transfer pipe 421 are provided with transmission and hold down assembly 423.Non-defective unit Transfer pipe 421 is engaged on Between the magnet blanking conveyer 410 and the magnet storage device 440, one end of the defective products Transfer pipe 422 It is engaged on the magnet blanking conveyer 410, the other end is extended at the magnet defective products cutting agency 500, so as to By in magnet defective products blanking to magnet defective products cutting agency 500.

As shown in figure 11, transmission holds down assembly and 423 included：Support frame 423a, transmission compact heap 423b is compressed be hinged to turn Motion block 423c, one end of the be hinged moving block 423c are hinged with the compression support frame 423a, and the other end is pressed with the transmission Tight block 423b is hinged, so that transmission compact heap 423b is swung above the non-defective unit Transfer pipe 421.

Further, be hinged gear block 423d, the be hinged moving block 423c are installed on the compression support frame 423a Side be connected on the be hinged gear block 423d.One end of the transmission compact heap 423b is ramp structure.

It is noted that magnet poking device 430 will be detected as the magnet material toggling of non-defective unit on magnet blanking conveyer 410 To non-defective unit Transfer pipe 421, will be detected as on magnet material toggling to the defective products Transfer pipe 422 of defective products.In the present embodiment In, defective products Transfer pipe 422 is ramp way, and magnet is slid to magnet defective products cutting agency 500 under gravity Place.

When magnet enters non-defective unit Transfer pipe 421, because the one end for transmitting compact heap 423b is ramp structure so that magnetic Iron can smoothly enter non-defective unit Transfer pipe 421, while transmit compact heap 423b and swung again under the promotion of magnet, coordinate hinge Switch through motion block 423c and magnet is compressed with transmitting compact heap 423b Action of Gravity Field, can prevent magnet in transmit process Position shifts.And transmission compact heap 423b swing designs and causes non-defective unit Transfer pipe 421 to be adapted to different size Magnet transfer operation, the effective use range for improving equipment.

As shown in figure 12, the magnet storage device 440 includes：Magnet storing transmission chain 441, magnet storing push part 442 with pusher pars contractilis 443, multiple magnet storing tools 444, the magnetic are installed on the magnet storing transmission chain 441 Iron storing push part 442 is symmetrically arranged on the two of the magnet storing transmission chain 441 with the pusher pars contractilis 443 Side.

As shown in figure 13, magnet storing push part 442 includes：Storing push cam 442a, storing pushing motor 442b, storage Expect that push rod 442c and storing push support frame 442d, the storing pushing motor 442b drives with storing push cam 442a Dynamic connection, described storing push rod 442c one end abut with storing push cam 442a and push cam by the storing 442a rotation enters line slip in storing push support frame 442d, so as to which magnet is pushed into magnet storing transmission chain On 441 magnet storing tool 444.

Further, storing push roller 442e is rotatablely equipped with storing push rod 442c, the storing pushes roller 442e abuts with storing push cam 442a.

It is noted that when magnet is come at magnet storing push part 442 through non-defective unit Transfer pipe 421, storing push Motor 442b driving storing push cam 442a is rotated, so that storing push rod 442c carries out pusher motion, so that will Magnet is pushed on magnet storing tool 444.

Because magnet material is more crisp, mutually easily generation slight crack or breach etc. is bad for collision, therefore, using cam drive Mode makes storing push rod 442c be moved along the track of design, on the one hand, can solve the problems, such as inertia buffering so that The material returned can be carried out according to suitable speed during the pusher of magnet, ensure that play will not occur between each other during magnet feeding Strong collision.On the other hand, can quickly be answered after pusher is completed by designing the track storing push rod 442c of cam Position, the speed of backhaul is accelerated, not under the influence of a magnet pusher operate, effectively increase production efficiency.

Referring to Figure 12, pusher pars contractilis 443 includes pusher expansion link 443a and pusher telescope motor 443b, described Magnet positioning contact block 443c, the pusher telescope motor 443b are provided with pusher expansion link 443a drives the pusher to stretch Bar 443a is actively located in the magnet storing tool 444.

It is noted that while storing push rod 442c carries out pusher to magnet, pusher expansion link 443a is in pusher Contractile motion is carried out under telescope motor 443b driving, so that while magnet is connected on magnet positioning contact block 443c, Orderly enters in magnet storing tool 444.Similarly, fashionable, pusher expansion link 443a progress is entered when next magnet carries out pusher Shrink a segment distance, thus enable that magnet carry out well it is overlapping be placed in magnet storing tool 444, prevent that magnet is inclined .

After magnet is filled in magnet storing tool 444, rotated by magnet storing transmission chain 441 so that next sky The magnet storing tool 444 put enters storing station and carries out storing operation, thus completes whole non-defective unit storing operation.

With reference to shown in Fig. 9 and Figure 14, magnet defective products cutting agency 500 is arranged on the lower section of magnet cutting agency 400, magnetic Iron cutting agency 400 will be detected as the magnet blanking of defective products to magnet defective products blanking machine by defective products Transfer pipe 422 On structure 500.

Magnet defective products cutting agency 500, including：Defective products blanking base 510, defective products conveyer 520 with it is bad Product material-pulling device 530, defective products conveyer 520 are arranged on defective products blanking base 510, and defective products material-pulling device 530 is set In one end of defective products conveyer 520.

In the present embodiment, defective products conveyer 520 is provided with multiple and arrangement and is arranged on defective products blanking base 510 On.

As shown in figure 14, defective products conveyer 520 includes：First transmission clamping plate 521, second transmits clamping plate 522 with answering Position transmission component 523, the side of the first transmission transmission clamping plate 522 of clamping plate 521 and second are rotatablely equipped with multiple swing and are hinged Block 524, the first transmission clamping plate 521 and second transmit clamping plate 522 and are rotatably installed in defective products blanking bottom by swinging hinged block 524 On seat 510, reset transmission component 523 and be arranged between the first transmission transmission clamping plate 522 of clamping plate 521 and second.

In the present embodiment, swing and swing reset bullet is connected and installed between hinged block 524 and defective products blanking base 510 Property part 525.Swing return springs 525 are spring.One end that first transmission clamping plate 521 and second transmits clamping plate 522 is inclined-plane Structure.First transmission clamping plate 521 is identical with the second transmission structure of clamping plate 522 and mutually this is set.

Referring to Figure 14, resetting transmission component 523 includes：Reset support frame 523a, the first reset moving block 523b Moving block 523c is resetted with second, support frame 523a is resetted and transmits the upper of clamping plate 522 with second installed in the first transmission clamping plate 521 Side, first, which resets moving block 523b and second, resets the moving block 523c mutual twisting in one end and installed in reset support frame 523a On, the first reset moving block 523b and the second reset moving block 523c other end be respectively hinged at the first transmission clamping plate 521 and On second transmission clamping plate 522.

It is noted that after magnet feeding is transmitted on clamping plate 522 to the first transmission clamping plate 521 and second, by bad Magnet is pushed feeding to the transmission formed between the first transmission transmission clamping plate 522 of clamping plate 521 and second and led to by product material-pulling device 530 On road.Because one end that the first transmission clamping plate 521 and second transmits clamping plate 522 is ramp structure so that magnet can be easier Feeding is transmitted to the first transmission clamping plate 521 and second between clamping plate 522.

In the case where the feeding of magnet promotes, the first transmission clamping plate 521 is swung with the second transmission clamping plate 522, so as to magnetic Iron is clamped fixation, can prevent magnet from falling partially so that magnet can be layered on top of each other transmission.

First transmission clamping plate 521 and second transmits clamping plate 522 and swings hinged block 524 with resetting transmission component by setting 523, the first transmission clamping plate 521 is transmitted clamping plate 522 with second, there is enough clamping forces magnet is clamped, and prevent Only magnet occur partially fall, on the other hand cause first transmission clamping plate 521 and second transmit clamping plate 522 have enough activity and Space is transmitted, can adapt to the transfer operation of the magnet of different size.

As shown in figure 15, defective products material-pulling device 530 includes：Defective products material returned base 531, defective products expeller 532, no Non-defective unit pusher motor 533 and pusher contiguous block 534, the defective products pusher motor 533 pass through the pusher contiguous block 534 and institute State the drive connection of defective products expeller 532 so that defective products expeller 532 carries out pusher cunning on defective products material returned base 531 It is dynamic, magnet is pushed feeding between the first transmission transmission clamping plate 522 of clamping plate 521 and second.

Compared with prior art, the utility model has advantages below：

Magnet automatic charging detection device 10 of the present utility model is by setting magnet feed mechanism 200, magnet feeding to turn Disc mechanism 300, magnet cutting agency 400 and magnet defective products cutting agency 500, so as to complete the feeding to cylinder-shaped magnet, The operation such as detection, non-defective unit storing and defective products blanking, it is effective to improve production efficiency and detection quality, and can adapt to difference The magnet of specification is feeding detection operation so that the use range of equipment is wider.

Embodiment described above only expresses several embodiments of the present utility model, and its description is more specific and detailed, But therefore it can not be interpreted as the limitation to utility model patent scope.It should be pointed out that the common skill for this area For art personnel, without departing from the concept of the premise utility, various modifications and improvements can be made, these are belonged to The scope of protection of the utility model.Therefore, the protection domain of the utility model patent should be determined by the appended claims.

Claims (8)

1. A kind of 1. magnet feed rotary table mechanism, it is characterised in that including：Rotating disc support frame, feeding rotating disc and rotation dish driving Device, the feeding rotating disc are rotatably installed on the rotating disc support frame by the rotation disk drive device driving；

   Driving cam and multiple rotating disks transmission positioner, the driving cam rotational installation are installed on the feeding rotating disc On the feeding rotating disc, around the driving cam, permutation is distributed in institute to multiple rotating disk transmission positioners in a ring State on feeding rotating disc；

   The rotating disk transmission positioner includes positioning sliding shoe and locating rotation block, and one end of the positioning sliding shoe offers Magnet locating slot, the other end abut with the driving cam and by the rotation of the driving cam on the feeding rotating disc Reciprocatingly slided；

   The locating rotation block is rotatably installed on the feeding rotating disc, and one end of the locating rotation block extends to the magnetic At iron locating slot, the other end is socketed on the positioning sliding shoe, and makes the positioning by the slip of the positioning sliding shoe Moving block is rotated.
2. 2. magnet feed rotary table mechanism according to claim 1, it is characterised in that the rotating disk transmission positioner also wraps Sliding shoe reset portion is included, the sliding shoe reset portion includes：Reset pedestal, reset contiguous block and sliding block return springs, it is described The one end for resetting contiguous block is slidably mounted on the reset pedestal, and the other end is connected with the positioning sliding shoe, the sliding block Return springs are connected between the reset pedestal and the reset contiguous block.
3. 3. magnet feed rotary table mechanism according to claim 2, it is characterised in that the sliding block return springs are bullet Spring.
4. 4. magnet feed rotary table mechanism according to claim 1, it is characterised in that the locating rotation block and the feeding Reset tension spring is connected between rotating disc.
5. 5. magnet feed rotary table mechanism according to claim 1, it is characterised in that the magnet locating slot is that circular arc is recessed Groove.
6. 6. magnet feed rotary table mechanism according to claim 1, it is characterised in that the locating rotation block is close to the magnetic One end of iron locating slot is arc structure.
7. 7. magnet feed rotary table mechanism according to claim 1, it is characterised in that the rotation disk drive device is rotating disk Driver.
8. 8. a kind of magnet automatic charging detection device, it is characterised in that including the magnetic as described in claim 1 to 7 any one Iron feed rotary table mechanism, in addition to：Work base station, magnet feed mechanism, magnet cutting agency and magnet defective products cutting agency, The magnet feed mechanism, the magnet feed rotary table mechanism, the magnet cutting agency and the magnet defective products blanking machine Structure is sequentially arranged on the work base station.