CN211365954U - Automatic material loading screening vibration dish - Google Patents

Abstract

The utility model discloses an automatic feeding screening vibration dish, the utility model relates to the technical field of vibration dish device, including the shell that sets up below the charging tray and the generator that sets up below the shell, the charging tray includes the inside inner rail that sets up and the outside track that sets up of charging tray, and the outside track encircles the charging tray and has a connecting track along the extension of charging tray outer wall, and the outside welding of outside track has the material receiving frame, and the inner rail divide into upper rail and well track and lower track; two fixed plates are welded above the middle rail, the fixed plates comprise fixed rails arranged at the middle parts and blocking rods movably connected inside the fixed rails, the bottoms of the blocking rods are in contact with the tops of the middle rails, the stacked raw materials can be blocked through the blocking rods, the raw materials are made to fall into the upper charging tray and continuously slide, the uniformity of the raw materials inside the middle rails can be effectively guaranteed, and the phenomenon of synchronous conveying of the stacked raw materials can be prevented.

Description

Automatic material loading screening vibration dish

Technical Field

The utility model relates to a vibration dish technical field specifically is an automatic material loading screening vibration dish.

Background

The movable disc is an auxiliary feeding device for automatic assembly or automatic processing machinery. The vibrating disc can arrange various products in order, and all parts of the products are assembled into a complete product by matching with automatic assembling equipment or the products are processed by matching with automatic processing machinery;

but the inside raw materials that can't handle the overlapping transportation of slide rail including that current is used for automatic feeding screening vibration dish, can't adjust the interval simultaneously to only adopt a process to screen when the screening, can't guarantee the quality of screening.

SUMMERY OF THE UTILITY MODEL

The utility model provides a not enough to prior art, the utility model provides an automatic material loading screening vibration dish has solved automatic material loading screening vibration dish including the slide rail is inside can't handle the raw materials that the stack was transported, can't adjust the interval simultaneously to only adopt one process to filter when the screening, can't guarantee the quality of screening.

In order to achieve the above purpose, the utility model discloses a following technical scheme realizes: an automatic feeding screening vibration disc comprises a feeding disc, a shell arranged below the feeding disc and a generator arranged below the shell, wherein the feeding disc comprises an inner rail arranged inside and an outer rail arranged outside the feeding disc, the outer rail surrounds the feeding disc and extends along the outer wall of the feeding disc to form a connecting rail, a material receiving frame is welded on the outer side of the outer rail, and the inner rail is divided into an upper rail, a middle rail and a lower rail; two fixing plates are welded above the middle rail, each fixing plate comprises a fixing rail arranged in the middle and a blocking rod movably connected inside the fixing rail, and the bottom of each blocking rod is in contact with the top of the middle rail.

Through above-mentioned technical scheme, can carry out the separation to superimposed raw materials through the separation pole to make the raw materials drop into the inside work that continues to slide of material loading tray, the homogeneity of the inside raw materials of rail in can effectual assurance can prevent the production of the raw materials synchronous transport phenomenon that overlaps simultaneously.

Preferably, a plurality of symmetrically arranged fixing holes are formed in two sides of the fixing plate, connecting plates are welded on two sides of the blocking rod, and mounting holes matched with the fixing holes are formed in the connecting plates

Through above-mentioned technical scheme, through being relative with the mounting hole of connecting plate inside with the fixed orifices, take out the screw after that and put into mounting hole and fixed orifices and rotate and can be fixed in the front end of fixed plate with the separation pole, guarantee going on of separation work, conveniently carry out periodic disassembly and maintenance simultaneously.

Preferably, the screening unit and the spacing adjusting unit are fixedly mounted on the outer side of the feeding disc.

Through above-mentioned technical scheme, can filter the raw materials of course of working and the raw materials that do not process through the screening unit, can adjust the interval between two raw materials through the interval adjustment unit, conveniently filter.

Preferably, the screening unit comprises a first information processing box and a first infrared sensing head is fixedly mounted on one side of the front end of the first information processing box, a movable screening rod is movably connected to the other side of the first information processing box, and a spring is welded at the rear end of the movable screening rod.

Through above-mentioned technical scheme, can respond to the round hole at the front end of the raw materials that slides through first infrared induction head, the movable sieve selection pole can pop out and release the not slotted raw materials when first infrared induction head senses the raw materials inside and has not seted up the round hole.

Preferably, the first information processing box comprises a first processing module arranged inside, a first information receiving module arranged on one side of the first processing module, and a first pushing module arranged on the other side of the first processing module.

Through above-mentioned technical scheme, can receive and transmit the processing module inside through first information receiving module to the information of sensing and handle, can feed back the result after handling to first promotion module inside simultaneously, promote the module simultaneously and can control the operating condition of movable screening pole according to information.

Preferably, the distance adjusting unit comprises a second information processing box, a blocking plate movably connected to one side of the middle of the front end of the second information processing box and two second infrared induction heads fixedly mounted on the other side of the middle of the second information processing box, and a spring is welded at the rear end of the blocking plate.

Through above-mentioned technical scheme, can respond to and feed back the interval between two raw materialss through two infrared induction backs, the side is apart from the too short-term baffler can be popped out and carry out the separation to the raw materials in the slip, can effectually guarantee the interval between the raw materials.

Preferably, the second information processing box comprises a second processing module arranged inside, a second information receiving module arranged on one side of the second processing module, and a second pushing module arranged on the other side of the second processing module, the second pushing module comprises a placing groove, a spring movably connected inside the placing groove and a popup article welded at the front end of the spring, and the middle part of the spring is movably connected with a return rod at the rear end of the popup article.

Through above-mentioned technical scheme, can contact the information of sensing through second information receiving module to carry to the inside processing that handles of second processing module.

Preferably, the top of one end of the connecting track is welded with a fixed frame, a connecting plate welded on the outer side of the fixed frame and a hook movably connected at the bottom of the connecting plate.

Through above-mentioned technical scheme, can contact and change the movement track of raw materials with the round hole through the couple, can not change its movement track when the raw materials that does not have the round hole contact simultaneously, can effectually play the effect of screening.

Preferably, the welding of orbital one side of connection has the inclined rail, the fixed slot has been seted up to the inside of inclined rail, the inside fixed mounting of fixed slot has circular track, circular fixed bottom is connected with processing equipment, the bottom and the drilling equipment of inclined rail are connected.

Through above-mentioned technical scheme, can carry the raw materials that does not have the round hole to inside the puncher through the inclined rail to open inside the puncher, can carry the raw materials of seting up the round hole to processing equipment inside through circular rail, and carry out process on next step.

Preferably, the shell comprises an electromagnet fixedly arranged inside, spring pieces arranged on two sides of the electromagnet and four shock absorption soles fixedly arranged below the inside of the shell, and the bottom of each shock absorption sole is welded with a bottom plate.

Through above-mentioned technical scheme, can absorb and drive the charging tray through the electro-magnet and vibrate the spring leaf, the charging tray in the vibration can drive the raw materials and slide in the track simultaneously.

Advantageous effects

The utility model provides an automatic material loading screening vibration dish. Compared with the prior art, the method has the following beneficial effects:

1. this automatic feeding screening vibration dish can carry out the separation to superimposed raw materials through blockking the pole to make the raw materials drop into the inside work that continues to slide of last charging tray, the homogeneity of the inside raw materials of rail in can effectual assurance can prevent the production of the raw materials synchronous transport phenomenon that overlaps simultaneously.

2. This automatic feeding screening vibration dish can filter the raw materials of course of working and the raw materials that do not process through the screening unit, can adjust the interval between two raw materials through interval adjustment unit, conveniently filters, can contact and change the movement track of raw materials with the round hole through the couple, can not change its movement track when the raw materials that does not have the round hole contacts simultaneously, can effectually play the effect of screening.

Drawings

Fig. 1 is a schematic view of the overall structure of the present invention;

FIG. 2 is a schematic view of the internal structure of the housing of the present invention;

FIG. 3 is a schematic structural view of the screening machine set of the present invention;

FIG. 4 is a schematic view of the internal structure of the first information processing box of the present invention;

FIG. 5 is a schematic structural view of the spacing adjustment unit of the present invention;

FIG. 6 is a schematic view of the internal structure of a second information processing box of the present invention;

fig. 7 is a schematic view of the inner rail structure of the present invention;

fig. 8 is an enlarged schematic structural view of B in fig. 7 according to the present invention;

fig. 9 is an enlarged schematic structural view of a in fig. 1 according to the present invention;

fig. 10 is a schematic view of the flow structure of the processing module of the present invention.

In the figure: 1. feeding a material plate; 11. an inner rail; 12. an outer rail; 13. a material receiving frame; 14. connecting the rails; 141. a fixing frame; 142. a connecting plate; 143. hooking; 15. an inclined rail; 16. a circular track; 161. fixing grooves; 2. a housing; 21. a spring plate; 22. an electromagnet; 23. damping soles; 24. a base plate; 3. a generator; 4. screening the machine set; 41. a first information processing box; 411. a first information receiving module; 412. a first processing module; 413. a first pushing module; 42. a movable screening rod; 43. a first infrared sensor head; 5. a spacing adjustment unit; 51. a second information processing box; 511. a second information receiving module; 512. a second processing module; 513. a second pushing module; 5131. a placement groove; 5132. a spring; 5133. the pull rod is pulled back; 52. a second infrared sensor head; 53. a barrier plate; 6. a fixing plate; 61. fixing a track; 62. a fixing hole; 7. a blocking rod; 71. a rectangular plate.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Referring to fig. 1 and fig. 2, the present invention provides a technical solution: an automatic feeding screening vibration disk comprises an upper tray 1, a shell 2 arranged below the upper tray 1 and a generator 3 arranged below the shell 2, wherein the upper tray 1 comprises an inner rail 11 arranged inside and an outer rail 12 arranged outside the upper tray 1, the outer rail 12 surrounds the upper tray 1 and extends along the outer wall of the upper tray 1 to form a connecting rail 14, a receiving frame 13 is welded on the outer side of the outer rail 12, the inner rail 11 is divided into an upper rail, a middle rail and a lower rail, an inclined rail 15 is welded on one side of the connecting rail 14, a fixing groove 161 is formed inside the inclined rail 15, a circular rail 16 is fixedly arranged inside the fixing groove 161, the bottom end of the circular fixing groove is connected with processing equipment, the bottom end of the inclined rail 15 is connected with punching equipment, the shell 2 comprises an electromagnet 22 fixedly arranged inside, a spring 5132 sheet 21 arranged on two sides of the electromagnet 22 and four damping sole 23 fixedly arranged below the inside the shell 2, and the bottom of the four foot shock absorption soles 23 is welded with a bottom plate 24, and the outer side of the feeding tray 1 is fixedly provided with a screening unit 4 and a spacing adjusting unit 5.

The raw material is taken out and put into the upper tray 1, and the generator 3 is started, then the generator 3 supplies power to the electromagnet 22, and the electromagnet 22 generates magnetic force and the spring 5132 piece 21 performs torsional oscillation movement, and meanwhile, the spring 5132 disc drives the feeding disc 1 to perform synchronous movement, then the raw material enters the lower track in the twisting process, slides along the lower track and enters the middle track and the upper track, when sliding in the middle rail, the overlapped raw materials are blocked, and the raw materials above fall into the upper tray 1, then enters the inner part of the outer rail 12 along the upper rail, and the screening unit 4 and the spacing adjusting unit 5 at the outer rail 12 respectively carry out spacing adjustment and raw material screening, meanwhile, unqualified raw materials screened can enter the material receiving frame 13 and synchronously enter the material feeding disc 1, and finally are conveyed to the inside of the connecting rail and are respectively discharged into the inclined rail 15 and the circular rail 16.

Referring to fig. 7 and 8, two fixing plates 6 are welded above the middle rail, each fixing plate 6 comprises a fixing rail 61 and a separation rod 7 movably connected inside the fixing rail 61, the middle of each separation rod 7 is in contact with the top of the middle rail, a plurality of symmetrically arranged fixing holes 62 are formed in two sides of each fixing plate 6, connecting plates 142 are welded on two sides of each separation rod 7, and mounting holes matched with the fixing holes 62 are formed in the connecting plates 142.

Take out the separation bar 7 before using and put into inside trapped orbit 61, slide and make the bottom of baffler 53 and well orbital top contact in trapped orbit 61 inside after then, the mounting hole is with relative with fixed orifices 62 after the contact is accomplished, take out the screw and put into the mounting hole inside and rotate the screw after then, can carry out the separation to superimposed raw materials at gliding in-process separation bar 7 of raw materials after fixed the completion, simultaneously can fall inside supreme charging tray 1 at gliding in-process raw materials, and continue to slide work, can prevent the production of stack transportation phenomenon, guarantee going on of screening work.

Referring to fig. 3 and 4, the screening unit 4 includes a first information processing box 41 and a first infrared sensor head fixedly mounted on one side of the front end of the first information processing box 41, the other side is movably connected with a movable screening rod 42, a spring 5132 is welded on the rear end of the movable screening rod 42, and the first information processing box 41 includes a first processing module 412 arranged inside and a first information receiving module 411 arranged on one side of the first processing module 412 and a first pushing module 413 arranged on the other side.

First infrared induction head 43 can respond to the round hole of the front end of slip raw materials at the gliding in-process of raw materials, then can feed back the information that senses to inside first information receiving module 411, first information receiving module 411 can receive the information that senses and transmit to the processing module inside and handle, can feed back the result after handling to inside first promotion module 413 simultaneously, promote the operating condition that the module can control movable screening pole 42 according to information simultaneously, first promotion module 413 can make spring 5132 pop out and drive movable screening pole 42 and can pop out when not sensing the round hole, then the movable screening pole 42 that pops out can be released the raw materials that do not have the grove, and make the raw materials enter into and connect material frame 13 inside, movable screening pole 42 can not pop out when sensing the round hole.

Referring to fig. 5, 6 and 10, the spacing adjustment unit 5 includes a second information processing box 51, a blocking plate 53 movably connected to one side of the middle portion of the front end of the second information processing box 51, and two second infrared sensing heads 52 fixedly installed on the other side of the middle portion of the front end of the second information processing box 51, a spring 5132 is welded to the rear end of the blocking plate 53, the second information processing box 51 includes a second processing module 512 arranged inside, a second information receiving module 511 arranged on one side of the second processing module 512, and a second pushing module 513 arranged on the other side of the second processing module, the second pushing module 513 includes a placing groove 5131, a spring 5132 movably connected to the inside of the placing groove 5131, and a pop-up article welded to the front end of the spring 5132, and a pull rod 5133 is movably connected to the middle portion of the spring 5132 and.

After the raw materials slide, the two second infrared sensing heads 52 respectively sense the distance between the two raw materials and feed back the distance to the inside of the second information receiving module 511, then the second information receiving module 511 can convey the received information to the inside of the second processing module 512 and process the information in the inside of the second processing module 512, when the distance between the two raw materials is too short, the second pushing module 513 can enable the spring 5132 to pop up and drive the blocking plate 53 to enter the inside of the outer rail 12 and block the moving raw materials, after the adjustment is completed, the second pushing module 513 can drive the spring 5132 to retract, the distance between the raw materials can be effectively ensured, and after the adjustment is completed, the second pushing module 513 can bring the pull-back rod 5133 to work and pull back the blocking plate 53, and enable the blocking plate to enter the inside of the placing groove 5131 to be stored.

In this embodiment, the first information receiving module 411 and the second information 511 receiving module are of the same type, and the types are: sub-1 GHz.

In this embodiment, the first processing module 412 and the second processing module 512 are of the same type, and are both central processing units, and the types are: and (VIA).

In the present embodiment, the internal components of the first pushing module 413 and the second pushing module 513 are the same, and the principle is the same.

Referring to fig. 9, a connecting plate 142 welded to the fixing frame 141 and the outside of the fixing frame 141 and a hook 143 movably connected to the bottom of the connecting plate 142 are welded to the top of one end of the connecting rail 14, an inclined rail 15 is welded to one side of the connecting rail 14, a fixing groove 161 is formed in the inclined rail 15, a circular rail 16 is fixedly mounted in the fixing groove 161, the bottom end of the circular fixing is connected to a processing device, and the bottom end of the inclined rail 15 is connected to a punching device.

The couple 143 can contact and fix with the round hole that the raw materials front end was seted up at gliding in-process, then the below of raw materials can slide, couple 143 can become flexible the raw materials after the raw materials enters into fixed slot 161 inside, and make the raw materials enter into circular track 16 inside, when couple 143 does not set up the round hole at the front end of the in-process raw materials of contact, can produce forward power and take and can make couple 143 carry out the motion of small-amplitude, then the raw materials can enter into inclined rail 15 inside, can carry the raw materials that do not have the round hole to inside the puncher through inclined rail 15, and open inside the puncher, can carry the raw materials of seting up the round hole to inside the processing equipment through circular track 16, and carry out process on next step.

When the material screening device works, raw materials are taken out and placed into the upper tray 1, the generator 3 is started, then the generator 3 supplies power to the electromagnet 22, the electromagnet 22 generates magnetic force, the spring 5132 sheet 21 performs torsional motion, the spring 5132 sheet drives the upper tray 1 to perform synchronous motion, then the raw materials enter the lower rail in the torsional process, slide along the lower rail and enter the middle rail and the upper rail, when the raw materials slide on the middle rail, the blocking rod 7 blocks the overlapped raw materials, meanwhile, the raw materials fall into the upper tray 1 in the sliding process, slide continuously and drop the raw materials above into the upper tray 1, then enter the outer rail 12 along the upper rail, and the screening unit 4 and the spacing adjusting unit 5 at the outer rail 12 perform spacing adjustment and raw material screening respectively, first infrared induction head can respond to the round hole of the front end of slip raw materials at the gliding in-process of raw materials, then can feed back the information of sensing to inside first information receiving module 411, first information receiving module 411 can receive the information of sensing and transmit to the processing module inside and handle, simultaneously can feed back the result after handling to inside first promotion module 413, promote the operating condition that the module can control movable screening pole 42 according to information simultaneously, first promotion module 413 can make spring 5132 pop out and drive movable screening pole 42 and can pop out when not sensing the round hole, then the movable screening pole 42 that pops out can be released the raw materials that do not have the fluting, and make the raw materials enter into and connect material frame 13 inside, movable screening pole 42 can not pop out when sensing the round hole, then after the gliding in-process of raw materials two infrared induction respectively respond to the interval between two raw materials and feed back to second information and connect The receiving module 511 is used for receiving information, the second information receiving module 511 is used for transmitting the received information to the inside of the second processing module and processing the received information in the second processing module, when the distance between the two raw materials is too short, the second pushing module 513 can enable the spring 5132 to pop out and drive the blocking plate 53 to enter the outer rail 12 and block the moving raw materials, the second pushing module 513 can drive the spring 5132 to retract after the adjustment is completed, the distance between the raw materials can be effectively ensured, then the hook 143 can be contacted and fixed with a round hole formed at the front end of the raw material in the sliding process, then the lower part of the raw material can slide, when the raw material enters the fixing groove 161, the hook 143 can loosen the raw material and enable the raw material to enter the round rail 16, when the hook 143 is not provided with a round hole at the front end of the raw material in the contacting process, the hook 143 can move to a small extent by generating a forward force, and then the raw material can enter the inclined rail 15, and the raw material without the round hole can be conveyed to the inside of the punching machine through the inclined rail 15, and can be opened in the inside of the punching machine, and the raw material with the round hole can be conveyed to the inside of the processing equipment through the round rail 16, and the next process can be performed.

It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (10)

1. The utility model provides an automatic material loading screening vibration dish, including last charging tray (1) with go up shell (2) that charging tray (1) below set up and generator (3) that shell (2) below set up, go up charging tray (1) including inside inner rail (11) that sets up with go up outer track (12) that charging tray (1) outside set up, outer track (12) encircle charging tray (1) and extend along last charging tray (1) outer wall and have connecting track (14), the outside welding of outer track (12) has material receiving frame (13), its characterized in that: the inner track (11) is divided into an upper track, a middle track and a lower track; two fixing plates (6) are welded above the middle rail, each fixing plate (6) comprises a fixing rail (61) arranged in the middle and a blocking rod (7) movably connected inside the fixing rail (61), and the bottom of each blocking rod (7) is in contact with the top of the middle rail.

2. The automatic feeding screening vibratory pan of claim 1, wherein: the two sides of the fixing plate (6) are provided with a plurality of symmetrically arranged fixing holes (62), the two sides of the blocking rod (7) are welded with connecting plates (142), and mounting holes matched with the fixing holes (62) are formed in the connecting plates (142).

3. The automatic feeding screening vibratory pan of claim 1, wherein: the screening unit (4) and the spacing adjusting unit (5) are fixedly mounted on the outer side of the feeding disc (1).

4. The automatic feeding screening vibratory pan of claim 3, wherein: screening unit (4) including first information processing case (41) with first information processing case (41) front end one side fixed mounting has first infrared induction head (43), opposite side swing joint has movable screening pole (42), the rear end welding of movable screening pole (42) has the spring.

5. The automatic feeding screening vibratory pan of claim 4, wherein: the first information processing box (41) comprises a first processing module (412) arranged inside, a first information receiving module (411) arranged on one side of the first processing module (412) and a first pushing module (413) arranged on the other side of the first processing module.

6. The automatic feeding screening vibratory pan of claim 3, wherein: the interval adjusting unit (5) comprises a second information processing box (51), a blocking plate (53) movably connected to one side of the middle of the front end of the second information processing box (51) and two second infrared induction heads (52) fixedly mounted on the other side of the middle of the front end of the second information processing box, and a spring is welded at the rear end of the blocking plate (53).

7. The automatic feeding screening vibratory pan of claim 6, wherein: the second information processing box (51) comprises a second processing module (512) arranged inside, a second information receiving module (511) arranged on one side of the second processing module (512) and a second pushing module (513) arranged on the other side of the second processing module, the second pushing module (513) comprises a placing groove (5131), a spring (5132) movably connected inside the placing groove (5131) and a popup article welded at the front end of the spring (5132), and the middle of the spring (5132) is movably connected with a pull-back rod (5133) at the rear end of the popup article.

8. The automatic feeding screening vibratory pan of claim 1, wherein: the top of one end of the connecting track (14) is welded with a fixed frame (141), a connecting plate (142) welded on the outer side of the fixed frame (141) and a hook (143) movably connected with the bottom of the connecting plate (142).

9. The automatic feeding screening vibratory pan of claim 8, wherein: the welding of one side of connecting track (14) has inclined rail (15), fixed slot (161) have been seted up to the inside of inclined rail (15), the inside fixed mounting of fixed slot (161) has circular track (16), the bottom and the processing equipment of circular track (16) are connected, the bottom and the drilling equipment of inclined rail (15) are connected.

10. The automatic feeding screening vibratory pan of claim 1, wherein: the shell (2) include inside fixed mounting's electro-magnet (22) with spring leaf (21) that electro-magnet (22) both sides set up and shell (2) inside below fixed mounting has four shock attenuation sole (23), and is located four the bottom welding of shock attenuation sole (23) has bottom plate (24).

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