CN208246205U - Feeding material pressing device for magnetic bar production - Google Patents

Abstract

The utility model discloses a kind of feeding material pressing device for magnetic bar production, including rack, it is successively arranged feed device, material pressing device in the rack and moves material device；Compared with existing magnetic bar production technology, high degree of automation has the function of automatic charging and automatic pressing material, reduces the dependence to operator, reduces cost of labor, is able to satisfy the demand of large-scale production and product qualification rate is high.

Description

Feeding material pressing device for magnetic bar production

Technical field

The utility model relates to machine automatization manufacturing technology fields, are related to magnetic bar production equipment, in particular to are used for magnetic The feeding material pressing device of power stick production.

Background technique

Magnetic bar is mainly used for the iron pin in filter stock；Filter various fine powders and liquid, the iron content in semiliquid Impurity and other magnetic substances of band energy, are now widely used for chemical industry, food, waste recovery, the fields such as carbon black.With society It can develop, magnetic bar can also be liked as a kind of magnetic playset by numerous young men, and great playability facilitates intelligence and opens Hair.A kind of magnetic bar structure in the prior art is as shown in figure 9, include hollow sleeve 2 and clamping engagement in 2 both ends of hollow sleeve Internal cylindrical magnetic iron block 3.It is all to complete to assemble with press machine manually by worker generally when producing above-mentioned magnetic bar , which is unable to scale volume production, is unable to satisfy the market demand.

Utility model content

The purpose of the utility model is to provide it is a kind of for magnetic bar production feeding material pressing device, high degree of automation, Cost of labor is reduced, the demand of large-scale production is able to satisfy and product qualification rate is high.

The above-mentioned technical purpose of the utility model has the technical scheme that

A kind of feeding material pressing device for magnetic bar production, including rack, be successively arranged in the rack feed device, Material pressing device and shifting material device；

The feed device includes the vibrating disk one and vibrating disk two in rack；

The shifting material device includes the retainer block being slidably connected in rack, and the width of the retainer block is less than hollow sleeve Length, the retainer slot for holding hollow sleeve is offered in the retainer block, is installed in the rack for driving support Expect the drawing material cylinder of block, when retainer block is moved to filling position, the discharge port of the vibrating disk one is opposite with retainer slot；

The material pressing device totally two, shifting material device two sides are symmetrically set in, the material pressing device includes being fixedly arranged in rack Runner block, slidably connect binder block, the glide direction of the binder block and the glide direction of retainer block in the runner block Vertically, the feedhole that internal diameter and magnet block outer diameter match is offered in the binder block, is offered on the binder block and feeding The feed opening of hole connection, when binder block is moved to feed entrance point, the discharge port of the vibrating disk two is connected to feed opening, described It is fixed with push plate far from the side for moving material device on runner block, compressed spring, the pressure are equipped between the runner block and push plate Contracting spring has binder block towards the mobile trend in material device direction is moved, and slidably connects compressing rod in the feedhole, institute It states compressing rod and is convexly equipped with the cylinder binder head that outer diameter is greater than compressing rod close to the one end for moving material device, the feed opening is separate to move material One end of device is equipped with the pulling hole that internal diameter is less than binder head outer diameter, is installed in the rack first far from binder with compressing rod End connects the press cylinder for driving compressing rod.

As a kind of improvement of the utility model, it is fixed with fixed bracket in the rack, is tilted on the fixed bracket Be installed with charging line, the connection opposite with charging line feed inlet of the discharge port of the vibrating disk one, the fixed bracket with give Be fixed with hollow tube between pipe material, slidably connect buffer block in the hollow tube, the upper surface of the buffer block with The upper surface of retainer block flushes, and extension spring is connected between the hollow tube and buffer block, and the extension spring to delay Rushing block has the trend mobile towards retainer block direction, when retainer block does not squeeze buffer block, in the buffer block Block the discharge port of charging line in end face.

By using above scheme, during retainer block pushes buffer block to filling position open, buffer block exists It can play the role of deceleration buffer to retainer block under the action of extension spring, so that the hollow sleeve in charging line can smoothly enter into In retainer slot in retainer block；After retainer block leaves filling position, retainer block Rapid reset under the action of extension spring, weight The discharge port for newly blocking charging line, avoids hollow sleeve from dropping out.

As a kind of improvement of the utility model, in the front and rear sides of retainer block glide direction, difference is fixed in the rack There is the limit plate for limiting retainer block sliding distance.

By using above scheme, it can be ensured that retainer block, which is stablized, to be moved on setting station, guarantees the normal of magnetic bar Production.

As a kind of improvement of the utility model, caging bolt one is threaded on the limit plate.

By using above scheme, caging bolt one can be finely adjusted on limit plate, can more accurately be limited The machining accuracy of magnetic bar is improved in the shift position of retainer block.

As a kind of improvement of the utility model, the feed opening is equipped with internal diameter and hollow sleeve close to the one end for moving material device The binder hole that pipe outside diameter matches.

By using above scheme, when binder block compresses the both ends of hollow sleeve in retainer slot, binder hole just can be with It covers at the both ends of hollow sleeve, positioning that can be better by hollow bush, magnet block is pressed into hollow sleeve convenient for subsequent.

As a kind of improvement of the utility model, the cross section of the retainer slot is semicircle.

By using above scheme, what hollow sleeve can be more stable is placed in de- material slot.

As a kind of improvement of the utility model, caging bolt two is threaded in the push plate.

By using above scheme, caging bolt two can be finely adjusted in push plate, to retract binder to compressing rod The station of block to charging is adjusted, so that magnet block enters more smoothly out of feed opening on binder block.

In conclusion the utility model has the following beneficial effects:

Compared with existing magnetic bar production technology, high degree of automation has the function of automatic charging and automatic pressing material, drop The low dependence to operator, reduces cost of labor, is able to satisfy the demand of large-scale production and product qualification rate is high.

Detailed description of the invention

Fig. 1 is the structural schematic diagram of magnetic bar production equipment；

Fig. 2 is to move connection relationship diagram between material device and rack；

Fig. 3 connection relationship diagram between vibrating disk one and rack；

Fig. 4 is the exploded view of material pressing device；

Fig. 5 is the partial sectional view of material pressing device；

Fig. 6 is connection relationship diagram between reducing device, blanking device and rack；

Fig. 7 is the structural schematic diagram of necking；

Fig. 8 is the structural schematic diagram of blanking device；

Fig. 9 is the structural schematic diagram of magnetic bar in the prior art.

In figure, 1, rack；2, hollow sleeve；3, magnet block；101, vibrating disk one；102, vibrating disk two；103, feed pipe Road；104, fixed bracket；105, hollow tube；106, buffer block；107, extension spring；200, material device is moved；201, guide rail； 202, sliding block；203, movable plate；204, retainer block；205, retainer slot；206, cylinder mounting base one；207, material cylinder is drawn；208, Limit plate；209, caging bolt one；300, material pressing device；301, press holder；302, runner block；303, sliding slot；304, binder Block；305, binder hole；306, feedhole；307, hole is pulled；308, feed opening；309, hollow conduit；310, convex block；311, it pushes away Plate；312, compressed spring；313, cylinder mounting base two；314, press cylinder；315, connector one；316, compressing rod；317, even Access slot one；318, socket cap one；319, binder head；320, caging bolt two；400, reducing device；401, necking bracket；402, Guide hole block；403, guide hole；404, necking bar；405, connector two；406, necking cylinder；407, cylinder mounting base three；408, even Access slot two；409, socket cap two；410, necking slot；500, blanking device；501, blanking bracket；502, rotating plate；503, jacking block； 504, blanking cylinder；505, notch；506, blanking plate.

Specific embodiment

The utility model is described in further detail below in conjunction with attached drawing.

Embodiment:

Referring to Fig. 1, a kind of magnetic bar production equipment with the feeding material pressing device produced for magnetic bar, including rack 1, feed device is sequentially installed in rack 1 from front to back, moves material device 200 and blanking device 500, is located in rack 1 and moves The two sides of material device 200 are sequentially installed with material pressing device 300 and reducing device 400 from front to back.

Feed device includes the vibrating disk 1 and vibrating disk 2 102 being placed in rack 1, vibrating disk 1 be used for according to Secondary conveying hollow sleeve 2, vibrating disk 2 102 is for successively conveying the magnet block 3 of demagnetization.

Referring to fig. 2, moving material device 200 includes two parallel guide rails 201 being mounted in rack 1 by guide rail fixing seat, Guide rail 201 uses straight optical axis, is slidably connected on each guide rail 201 there are two the sliding block 202 matched with guide rail 201, and four It has been bolted to connection movable plate 203 on sliding block 202, retainer block 204 has been bolted to connection on movable plate 203, 204 upper end of retainer block offers the retainer slot 205 for holding hollow sleeve 2, and the cross section of retainer slot 205 is semicircle rigid Good and hollow sleeve 2 major diameter fit, the width of retainer block 204 are less than the length of hollow sleeve 2；Pass through cylinder in rack 1 Mounting base 1 is fixedly installed with drawing material cylinder 207, and cylinder mounting base 1 is bolted in rack 1, draws material gas Cylinder 207 is bolted in cylinder mounting base 1, and the piston rod end of material cylinder 207 is drawn to be threaded with one piece of U-shaped Connecting plate, the open card of U-shaped connecting plate pass through U-shaped connecting plate and movable plate in the side of movable plate 203, and by connecting pin 203 connect the two.Front and rear sides in rack 1 positioned at movable plate 203 have been bolted to connection respectively for limiting The limit plate 208 of 203 sliding distance of movable plate is threaded with the caging bolt that can be abutted with movable plate 203 on limit plate 208 One 209, it is threaded with a nut on caging bolt 1 and is used to fix position of the caging bolt 1 on limit plate 208 It sets.

Referring to Fig. 3, the discharge port of vibrating disk 1 is communicated with the charging line 103 for conveying hollow sleeve 2, feeding In on fixed bracket 104, fixed bracket 104 is bolted in rack 1 103 oblique weld of pipeline, in fixed bracket It is also welded with the hollow tube 105 of a rectangle between 104 and charging line 103, slidably connects buffer block in hollow tube 105 106, the upper surface of buffer block 106 is flushed with the upper surface of retainer block 204, between hollow tube 105 and buffer block 106 It is connected with extension spring 107, the both ends of extension spring 107 pass through bolt respectively and connect with hollow tube 105 and buffer block 106, Extension spring 107 makes buffer block 106 have the trend mobile towards 204 direction of retainer block, when retainer block 204 is not squeezed When pressing buffer block 106, buffer block 106 just blocks the discharge port of charging line 103.

Referring to Fig. 1, Fig. 4 and Fig. 5, material pressing device 300 totally two, it is symmetrical set in the two sides for moving material device 200, pressure Material device 300 includes the press holder 301 being mounted by means of bolts in rack 1, and 301 upper end of press holder passes through bolt Runner block 302 is installed, it is in cross sliding slot 303 that 302 upper end of runner block, which offers cross section, is slidably connected in sliding slot 303 Having cross section is in cross binder block 304, offers among binder block 304 towards the direction far from shifting material device 200 and successively connects Logical binder hole 305, feedhole 306 and pulling hole 307, the internal diameter in binder hole 305 are equal to the outer diameter of hollow sleeve 2, feedhole 306 internal diameter is equal to the outer diameter of magnet block 3, pulls the internal diameter in hole 307 to be less than the outer diameter of magnet block 3, in 304 upper end of binder block The feed opening 308 being connected to feedhole 306 is offered, hollow conduit 309, hollow conduit are installed in 302 upper surface of runner block 309 lower ends are welded with a conduit connecting plate, and conduit connecting plate is bolted to connection with runner block 302, so that hollow conduit 309 lower ending openings and sliding slot 303 are opposite.The lower end of binder block 304 is convexly equipped with convex block 310, fills on runner block 302 far from shifting material The side for setting 200 is welded with L-shaped push plate 311, and compressed spring 312, the both ends of compressed spring 312 are additionally provided in sliding slot 303 It is butted between convex block 310 and push plate 311, compressed spring 312 has binder block 304 towards 200 direction of the device movement of shifting material Trend.Press cylinder 314, cylinder mounting base 2 313 are fixedly installed with by cylinder mounting base 2 313 in press holder 301 It is bolted in press holder 301, press cylinder 314 is mini cylinder, is fixed on cylinder mounting base two by nut On 313, compressing rod 316, connector 1 and binder are connected with by connector 1 on the piston rod of press cylinder 314 The piston rod thread of cylinder 314 connects, and the other end of connector 1 radially offers the T-shaped link slot one in cross section 317, one end of compressing rod 316 is convexly equipped with the socket cap 1 cooperated with link slot 1, and the other end of compressing rod 316 is worn Enter be convexly equipped in feedhole 306 with the cylinder binder head 319 of 306 internal diameter of feedhole cooperation (for the ease of observation, binder in Fig. 5 Bar 316 does not penetrate in feedhole 306), when not carrying out binder, the medial surface and feedhole 306 of binder head 319 and pulling hole Step surface between 307 offsets.It is threaded with the caging bolt 2 320 that can be abutted with binder block 304 in push plate 311, limits A nut is threaded on the bolt 2 320 of position to be used to fix position of the caging bolt 2 320 in push plate 311.Two pressures Hollow conduit 309 on material device 300 is connect by three-way hose (being not shown) with the discharge port of vibrating disk 2 102, Specific connection type is that the nozzle of three-way hose is respectively fitted over the feed inlet of hollow conduit 309 and the discharge port of vibrating disk 2 102 On.

Referring to Fig. 1, reducing device 400 is set to the rear of material pressing device 300, and reducing device 400 totally two, and left and right The two sides for moving material device 200 are symmetricly set on, in conjunction with Fig. 6, reducing device 400 includes the contracting being mounted in rack 1 by bolt Mouthful bracket 401 is equipped with guide hole block 402 by bolt on necking bracket 401, guide hole 403 is offered among guide hole block 402, is led The axis in hole 403 and the axis of retainer slot 205 are in same level, when retainer block 204 is in necking station, guide hole 403 It is concentric with retainer slot 205, necking bar 404 is slidably connected in guide hole 403, necking bar 404 is logical far from the one end for moving material device 200 It crosses connector 2 405 and is connected with necking cylinder 406, necking cylinder 406 is fixed on necking bracket by cylinder mounting base 3 407 On 401, cylinder mounting base 3 407 is welded on necking bracket 401, and necking cylinder 406 is adjustable cylinder, is bolted In cylinder mounting base 3 407, connector 2 405 is threadedly coupled with the piston rod end of necking cylinder 406, connector 2 405 The other end radially offer the T-shaped link slot 2 408 in cross section, in conjunction with Fig. 7, one end of necking bar 404 be convexly equipped with even The socket cap 2 409 that access slot 2 408 is engaged by clamping, the other end face of necking bar 404 offer necking slot 410, necking slot 410 In the small taper of outer imperial palace, the big end internal diameter of necking slot 410 is greater than the outer diameter of hollow sleeve 2.

Referring to Fig. 8, blanking device 500 includes the rotating plate 502 being mounted in rack 1 by blanking bracket 501, blanking bracket 501 are bolted in rack 1, and 502 one end of rotating plate and blanking bracket 501 are hinged, and specific connection type is, in rotating plate It is welded with hinge column on the downside of 502 one end, the hinge hole with hinge column cooperation is offered on blanking bracket 501；Rotating plate 502 side is welded with one piece of L-shaped jacking block 503, vertically-mounted below jacking block 503 in rack 1 to have blanking cylinder 504, blanking cylinder 504 is mini cylinder, and blanking cylinder 504 is mounted on the working face of rack 1 by nut, blanking gas The piston rod of cylinder 504 is against the lower end surface of jacking block 503, and when not carrying out blanking, rotating plate 502 is at horizontality, and rotating plate 502 Free end is located just between two reducing devices 400, as shown in fig. 6, the guide hole 403 on guide hole block 402 is higher than rotating plate at this time 502；The notch 505 for avoiding retainer block 204, the opening width and support of notch 505 are offered on the free end of rotating plate 502 Expect that the width of block 204 is equal, enters notch 505 for the ease of retainer block 204, the open end of notch 505 is set as fillet；? It is located at 502 rear of rotating plate also one piece of blanking plate 506 of oblique weld, the two sides of rotating plate 502 and blanking plate 506 on blanking bracket 501 Rib is equipped with for avoiding magnetic bar from falling from side.

In actual work, vibrating disk 1 and vibrating disk 2 102 are first respectively by shaking hollow sleeve 2 and demagnetization Magnet block 3 successively send in charging line 103 and in hollow conduit 309, then draw material cylinder 207 to push 203 band of movable plate Dynamic retainer block 204 is mobile towards feed station, and retainer block 204 squeezes buffer block 106 in moving process, retainer block Feed station is reached after resisting movable plate 203 by the caging bolt 1 on distal end limit plate 208 after 204 decelerations, this When charging line 103 in hollow sleeve 2 just can enter retainer block 204 on retainer slot 205 in.

Then material pressing device 300 starts, and a magnet block 3 in hollow conduit 309 enters from feed opening 308 before this In feedhole 306, press cylinder 314 pushes compressing rod 316 to carry out binder operation towards material 200 direction of device is moved, in compressing rod 316 In moving process, binder block 304 is also mobile towards material 200 direction of device is moved under the action of compressed spring 312, until binder block 305 sets of binder hole on 304 compresses hollow sleeve 2 at 2 both ends of hollow sleeve, and compressing rod 316 continues to move to, and passes through binder head 319 push the magnet block 3 in feedhole 306, are pressed into hollow sleeve 2 until by magnet block 3, press cylinder 314 retracts later Compressing rod 316, until the binder head 319 of compressing rod 316 medial surface and feedhole 306 with pull hole 307 step surface abut, Compressing rod 316 retracts binder block 304, hollow at this time to lead until binder block 304 is butted on the caging bolt 2 320 in push plate 311 The discharge port and feed opening 308 of pipe 309 are opposite, and the magnet block 3 in hollow conduit 309 enters feedhole by feed opening 308 306。

Then material cylinder 207 is drawn to retract movable plate 203 together with semi-finished magnetic bar in retainer slot 205, until movable plate 203 resist arrival necking station by the caging bolt 1 on proximal end limit plate 208, and retainer block 204 just moves at this time In the notch 505 of rotating plate 502, then reducing device 400 starts, and necking cylinder 406 pushes necking bar 404 towards mobile device 200 Direction is mobile, and the port of 410 quick centring blank pipe of the necking slot set 2 on necking bar 404 carries out necking operation, so that magnet block 3 More stable is placed in hollow sleeve 2, and necking cylinder 406 retracts necking bar 404 and completes necking operation later.

Then start blanking cylinder 504, the piston rod of blanking cylinder 504 pushes up rotating plate 502, rotation 502 around In the rotation process of hinged end, the both ends of notch 505 hook the magnetic bar in retainer slot 205 to 502 end face of rotating plate, then from rotating plate 502 slide on blanking plate 506, finally skid off from blanking plate 506.Then blanking cylinder 504 resets, so that rotating plate 502 is in level Shape, post-tensioning material cylinder 207 continue to press on movable plate 203 carry out next round processing.

Whole process high degree of automation, reduces cost of labor, is able to satisfy the demand of large-scale production and product closes Lattice rate is high.It is to be herein pointed out being not have magnetic by the magnetic bar that this magnetic bar production equipment processes, need another Magnetizing outside just has magnetism.

This specific embodiment is only the explanation to the utility model, is not limitations of the present invention, ability Field technique personnel can according to need the modification that not creative contribution is made to the present embodiment after reading this specification, but As long as all by the protection of Patent Law in the scope of the claims of the utility model.

Claims (7)

1. it is a kind of for magnetic bar production feeding material pressing device, which is characterized in that including rack (1), on the rack (1) according to It is secondary to be equipped with feed device, material pressing device (300) and move material device (200)；

The feed device includes the vibrating disk one (101) and vibrating disk two (102) on rack (1)；

Material device (200) that moves includes the retainer block (204) being slidably connected on rack (1), the width of the retainer block (204) Degree is less than the length of hollow sleeve (2), and the retainer slot for holding hollow sleeve (2) is offered on the retainer block (204) (205), the drawing material cylinder (207) for driving retainer block (204) is installed on the rack (1), when retainer block (204) are mobile When to filling position, the discharge port of the vibrating disk one (101) and retainer slot (205) are opposite；

The material pressing device (300) totally two, is symmetrically set in shifting material device (200) two sides, and the material pressing device (300) includes solid Runner block (302) on rack (1), the runner block (302) is interior to slidably connect binder block (304), the binder block (304) glide direction is vertical with the glide direction of retainer block (204), offers internal diameter and magnet in the binder block (304) The feedhole (306) that block (3) outer diameter matches offers the feed opening being connected to feedhole (306) on the binder block (304) (308), when binder block (304) is moved to feed entrance point, the discharge port of the vibrating disk two (102) and feed opening (308) are even It is logical, be fixed with push plate (311) on the runner block (302) far from the side for moving material device (200), the runner block (302) with Compressed spring (312) are equipped between push plate (311), the compressed spring (312) has binder block (304) towards shifting material device (200) the mobile trend in direction, the feedhole (306) is interior to be slidably connected compressing rod (316), and the compressing rod (316) is leaned on Nearly one end for moving material device (200) is convexly equipped with the cylinder binder head (319) that outer diameter is greater than compressing rod (316), the feed opening (308) the pulling hole (307) that internal diameter is less than binder head (319) outer diameter, the rack are equipped with far from the one end for moving material device (200) (1) press cylinder being connect with compressing rod (316) separate binder head (319) one end for driving compressing rod (316) is installed on (314)。

2. the feeding material pressing device according to claim 1 for magnetic bar production, which is characterized in that the rack (1) On be fixed with fixed bracket (104), tilt and be installed with charging line (103) on the fixed bracket (104), the vibrating disk one (101) connection opposite with charging line (103) feed inlet of discharge port, the fixed bracket (104) and charging line (103) it Between be fixed with hollow tube (105), slidably connects buffer block (106), the buffer block in the hollow tube (105) (106) upper surface is flushed with the upper surface of retainer block (204), is connected between the hollow tube (105) and buffer block (106) Have extension spring (107), the extension spring (107) has buffer block (106) towards the shifting of retainer block (204) direction Dynamic trend, when retainer block (204) does not squeeze buffer block (106), feed pipe is blocked in buffer block (106) upper surface The discharge port in road (103).

3. the feeding material pressing device according to claim 1 for magnetic bar production, which is characterized in that the rack (1) On in the front and rear sides of retainer block (204) glide direction be installed with the limit for limiting retainer block (204) sliding distance respectively Plate (208).

4. the feeding material pressing device according to claim 3 for magnetic bar production, which is characterized in that the limit plate (208) caging bolt one (209) is threaded on.

5. the feeding material pressing device according to claim 1 for magnetic bar production, which is characterized in that the feed opening (308) the binder hole (305) that internal diameter and hollow sleeve (2) outer diameter match is equipped with close to the one end for moving material device (200).

6. the feeding material pressing device according to claim 1 for magnetic bar production, which is characterized in that the retainer slot (205) cross section is semicircle.

7. the feeding material pressing device according to claim 1 for magnetic bar production, which is characterized in that the push plate (311) caging bolt two (320) is threaded on.