CN212150566U - Ejection of compact tilting mechanism - Google Patents

Abstract

The utility model discloses an ejection of compact tilting mechanism, including the vibration dish that is used for arranging the material in order, still including setting up the vibration dish ejection of compact structure at vibration dish rear, set up the flip structure at vibration dish ejection of compact structure rear to and set up the upset ejection of compact structure at flip structure rear. The utility model provides an ejection of compact tilting mechanism can cooperate the vibration dish to use, when sifting out the nail, can make the nail of sifting out accomplish the upset to convenient to use person takes and uses, the better different demands that have satisfied different users, the better demand that has adapted to market, very big improvement the development of enterprise and trade.

Description

Ejection of compact tilting mechanism

Technical Field

The utility model relates to a vibration dish field specifically indicates a with vibration dish matched with ejection of compact tilting mechanism.

Background

The vibration feeding tray is called vibration tray for short, and is an auxiliary feeding device for automatic assembling or automatic processing machinery. The automatic assembling machine can arrange various products in order, and is matched with automatic assembling equipment to assemble various parts of the products into a complete product, or is matched with automatic processing machinery to finish processing workpieces.

The pulse electromagnet is arranged below the vibrating disc hopper, so that the hopper can vibrate in the vertical direction, and the inclined spring piece drives the hopper to do torsional vibration around the vertical shaft of the hopper. The parts in the hopper, as a result of being subjected to such vibrations, rise along a helical track. During the ascending process, the parts can automatically enter the assembling or machining position in a uniform state according to the assembling or machining requirements through screening or posture change of a series of tracks. The working purpose is to automatically, orderly, directionally and neatly arrange the disordered workpieces by vibration and accurately convey the disordered workpieces to the next procedure.

When the existing vibration tray is used for screening nails, the nail head is generally downward on the upper nail body, and when the vibration tray is used for further processing, the nail body is sometimes required to be downward on the upper nail head, and no corresponding equipment can be used for completing the operation at present.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to overcome above-mentioned problem, provide an ejection of compact tilting mechanism, can cooperate the vibration dish to use, when sifting out the nail, can make the nail of sifting out accomplish the upset to convenient to use person takes and uses, the better different demands that have satisfied different users, the better demand that has adapted to the market, very big improvement the development of enterprise and trade.

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

the utility model provides a ejection of compact tilting mechanism, is including the vibration dish that is used for arranging in order the material, still including setting up the vibration dish ejection of compact structure at vibration dish rear, sets up the flip structure at vibration dish ejection of compact structure rear to and set up the upset ejection of compact structure at flip structure rear.

Furthermore, vibration dish ejection of compact structure comprises the vibration dish ejection of compact structure that the discharge gate adjacent setting of front end and vibration dish to and set up and directly shake the feeder and constitute in this vibration dish ejection of compact structure downside.

Preferably, the vibration disc discharging structure is long, a vibration discharging limiting groove penetrating through the vibration disc discharging structure from front to back is further arranged in the vibration disc discharging structure, and a vibration discharging observation groove is formed in the side face of the vibration disc discharging structure.

Preferably, the section of the vibration discharging limiting groove is in a T shape; the vibration discharging observation groove penetrates through the upper surface of the vibration disc discharging structure and is communicated with the vibration discharging limiting groove.

Still further, the flip structure comprises an inner rotary structure, an outer limit structure surrounding the outer side surface of the inner rotary structure, a support frame for supporting the inner rotary structure and the outer limit structure, and a stepping motor connected with the inner rotary structure through a transmission belt.

Preferably, the internal rotation structure is cylindrical, a nail body limiting groove which penetrates through the internal rotation structure from front to back is formed in the side wall of the internal rotation structure, a nail cap overturning groove which is perpendicular to the nail body limiting groove and penetrates through the internal rotation structure from front to back is further formed in the tail end of the nail body limiting groove, and a driving rotating shaft is arranged at the axis position of the rear side face of the internal rotation structure.

Preferably, the outer limiting structure is annular and consists of a front limiting ring and a rear limiting ring, and the front limiting ring and the rear limiting ring have the same size and are coaxially arranged with the inner rotating structure; the bottom of preceding spacing ring is provided with the feed opening who runs through this preceding spacing ring around one, and the top of back spacing ring is provided with the ejection of compact opening that runs through this back spacing ring around one.

Furthermore, upset ejection of compact structure is by setting up including the push rod of the positive one side of revolution mechanic, setting including the ejection of compact stopper of revolution mechanic back one side, set up in ejection of compact stopper below and with the parallel ejection of compact conveying structure of this ejection of compact stopper for drive push rod seesaw's hydraulic stem and be used for supporting push rod, hydraulic stem and ejection of compact conveying structure's support frame to constitute.

Preferably, the discharging conveying structure consists of at least two discharging rollers arranged on the same horizontal plane, a discharging motor connected with any one of the discharging rollers and used for driving the discharging roller to rotate, and a discharging conveying belt surrounding the outer sides of the first discharging roller and the last discharging roller; the discharging limiting block is composed of two strip-shaped block structures which are bilaterally symmetrical and do not contact with each other, and the lower surface of the discharging limiting block is not contacted with the discharging conveyor belt; the gap between the discharge limiting block and the discharge conveyor belt is located on the horizontal plane, and the horizontal plane where the gap is located is the highest horizontal plane which can be reached by the nail cap turnover groove in the rotating process.

Preferably, the push rod, the gap between the discharge limiting block and the discharge conveyor belt are located on the same horizontal plane, and the push rod can penetrate through the nail cap overturning groove from front to back.

Compared with the prior art, the utility model, following advantage and beneficial effect have:

the utility model discloses can cooperate the vibration dish to use, when sifting out the nail, can make the nail of sifting out accomplish the upset to convenient to use person takes and uses, the better different demands that have satisfied different users, the better demand that has adapted to market, very big improvement the development of enterprise and trade.

Drawings

Fig. 1 is a front view of the present invention.

Fig. 2 is a right side view of the discharging structure of the vibrating plate of the present invention.

Fig. 3 is a left side view of the turnover structure of the present invention.

Fig. 4 is a left side view of the turnover discharging structure of the utility model.

Description of the figures: 1. a direct vibration feeder; 2. a vibrating disc discharging structure; 3. an outer limit structure; 4. an inner rotary structure; 5. a nail body limiting groove; 6. driving the rotating shaft; 7. a transmission belt; 8. a stepping motor; 9. a push rod; 10. a discharge limiting block; 11. a discharging roller; 12. a discharge conveyor belt; 13. vibrating a discharging limiting groove; 14. Vibrating the discharging observation tank; 15. the nail cap upset groove.

Detailed Description

The present invention will be described in further detail with reference to examples, but the present invention is not limited thereto.

Examples

As shown in fig. 1, a discharging turnover mechanism comprises a vibrating disk for arranging materials, a vibrating disk discharging structure arranged behind the vibrating disk, a turnover structure arranged behind the vibrating disk discharging structure, and a turnover discharging structure arranged behind the turnover structure.

As shown in fig. 2, the vibrating plate discharging structure is composed of a vibrating plate discharging structure 2 with a front end adjacent to the discharging port of the vibrating plate, and a direct vibration feeder 1 arranged on the lower side of the vibrating plate discharging structure 2.

The vibration disc discharging structure 2 is in a long strip shape, a vibration discharging limiting groove 13 which penetrates through the vibration disc discharging structure 2 from front to back is further arranged in the vibration disc discharging structure 2, and a vibration discharging observation groove 14 is arranged on the upper side face of the vibration disc discharging structure 2.

The section of the vibration discharging limiting groove 13 is T-shaped; the vibration discharging observation groove 14 penetrates through the upper surface of the vibration disc discharging structure 2 and is communicated with the vibration discharging limiting groove 13.

As shown in fig. 3, the turning structure is composed of an inner rotating structure 4, an outer limiting structure 3 surrounding the outer side surface of the inner rotating structure 4, a supporting frame for supporting the inner rotating structure 4 and the outer limiting structure 3, and a stepping motor 8 connected with the inner rotating structure 4 through a driving belt 7.

The internal rotation structure 4 is cylindrical, a nail body limiting groove 5 which penetrates through the internal rotation structure 4 is arranged on the side wall of the internal rotation structure 4 in the front and at the back, a nail cap overturning groove 15 which is perpendicular to the nail body limiting groove 5 and penetrates through the internal rotation structure 4 in the front and at the back is further arranged at the tail end of the nail body limiting groove 5, and a driving rotating shaft 6 is arranged at the axis position of the back side face of the internal rotation structure 4.

The outer limiting structure 3 is annular and consists of a front limiting ring and a rear limiting ring, and the front limiting ring and the rear limiting ring have the same size and are coaxially arranged with the inner rotating structure 4; the bottom of preceding spacing ring is provided with the feed opening who runs through this preceding spacing ring around one, and the top of back spacing ring is provided with the ejection of compact opening that runs through this back spacing ring around one.

The purpose that sets up of outer limit structure is to prevent that the nail from rocking around when rotatory along with inner rotating structure, fine avoided the nail to deviate from in rotatory in-process from inner rotating structure.

As shown in fig. 4, upset ejection of compact structure is by setting up including the push rod 9 of the positive one side of revolution mechanic 4, set up including the ejection of compact stopper 10 of 4 back one sides of revolution mechanic, set up in ejection of compact stopper 10 below and with the ejection of compact conveying structure of this ejection of compact stopper 10 parallel for the hydraulic stem of drive push rod 9 seesaw, and the support frame that is used for supporting push rod 9, hydraulic stem and ejection of compact conveying structure constitutes.

The discharging conveying structure consists of at least two discharging rollers 11 arranged on the same horizontal plane, a discharging motor which is connected with any one discharging roller 11 and is used for driving the discharging roller 11 to rotate, and a discharging conveying belt 12 which surrounds the outer sides of the first discharging roller 11 and the last discharging roller 11; the discharging limiting block 10 is composed of two strip-shaped block structures which are bilaterally symmetrical and do not contact with each other, and the lower surface of the discharging limiting block 10 is not contacted with the discharging conveyor belt 12; the gap between the discharge limiting block 10 and the discharge conveyor belt 12 is located on a horizontal plane, and the horizontal plane where the gap is located is the highest horizontal plane which can be reached by the nail cap overturning groove 15 in the rotating process.

The gap between the push rod 9 and the discharge limiting block 10 and between the push rod 9 and the discharge conveyor belt 12 is located on the same horizontal plane, and the push rod 9 can penetrate through the nail cap overturning groove 15 from front to back.

When using, the nail is followed vibration dish and is seen off back entering vibration dish ejection of compact structure and is moved to the rear under the drive of the discharger that directly shakes, then will get into nail cap upset groove and nail body spacing groove after the nail is exported by vibration dish ejection of compact structure to rotate thereupon, nail body is last under until the nail cap, and the push rod is released the nail and is gone into ejection of compact stopper and ejection of compact conveyer belt and is carried backward when rotatory to the peak.

As described above, the utility model discloses alright fine realization.

Claims (10)

1. The utility model provides an ejection of compact tilting mechanism, includes the vibration dish that is used for arranging the material, its characterized in that: still including setting up the vibration dish ejection of compact structure at vibration dish rear, set up the flip structure at vibration dish ejection of compact structure rear to and set up the upset ejection of compact structure at flip structure rear.

2. The discharging turnover mechanism of claim 1, wherein: the vibration plate discharging structure is composed of a vibration plate discharging structure (2) with the front end adjacent to the discharging port of the vibration plate, and a direct vibration feeder (1) arranged on the lower side of the vibration plate discharging structure (2).

3. The discharging turnover mechanism of claim 2, wherein: vibration dish ejection of compact structure (2) are rectangular form, still are provided with vibration ejection of compact spacing groove (13) that run through this vibration dish ejection of compact structure (2) by preceding to back in this vibration dish ejection of compact structure (2), and the side is provided with vibration ejection of compact observation groove (14) on this vibration dish ejection of compact structure (2).

4. A discharge turnover mechanism as claimed in claim 3, characterised in that: the section of the vibration discharging limiting groove (13) is T-shaped; the vibration discharging observation groove (14) penetrates through the upper surface of the vibration disc discharging structure (2) and is communicated with the vibration discharging limiting groove (13).

5. The discharge turnover mechanism of claim 4, wherein: the turnover structure is composed of an inner rotary structure (4), an outer limiting structure (3) surrounding the outer side surface of the inner rotary structure (4), a supporting frame for supporting the inner rotary structure (4) and the outer limiting structure (3), and a stepping motor (8) connected with the inner rotary structure (4) through a driving belt (7).

6. The discharge turnover mechanism of claim 5, wherein: interior revolution mechanic (4) are cylindricly, run through nail body spacing groove (5) of this interior revolution mechanic (4) around being provided with on the lateral wall of interior revolution mechanic (4), still be provided with one at the end of this nail body spacing groove (5) with this nail body spacing groove (5) perpendicular and around the nut upset groove (15) that run through interior revolution mechanic (4), be provided with one drive shaft (6) in the axle center position department of this interior revolution mechanic (4) trailing flank.

7. The discharging turnover mechanism of claim 6, wherein: the outer limiting structure (3) is annular and consists of a front limiting ring and a rear limiting ring, and the front limiting ring and the rear limiting ring are the same in size and are coaxially arranged with the inner rotating structure (4); the bottom of preceding spacing ring is provided with the feed opening who runs through this preceding spacing ring around one, and the top of back spacing ring is provided with the ejection of compact opening that runs through this back spacing ring around one.

8. The discharge turnover mechanism of claim 7, wherein: the turnover discharging structure is composed of a push rod (9) arranged on one side of the front face of the inner rotating structure (4), a discharging limiting block (10) arranged on one side of the back face of the inner rotating structure (4), a discharging conveying structure arranged below the discharging limiting block (10) and parallel to the discharging limiting block (10), a hydraulic rod used for driving the push rod (9) to move back and forth, and a supporting frame used for supporting the push rod (9), the hydraulic rod and the discharging conveying structure.

9. The discharge turnover mechanism of claim 8, wherein: the discharging conveying structure consists of at least two discharging rollers (11) arranged on the same horizontal plane, a discharging motor which is connected with any one discharging roller (11) and is used for driving the discharging roller (11) to rotate, and a discharging conveying belt (12) which is arranged around the outer sides of the first discharging roller (11) and the last discharging roller (11); the discharging limiting block (10) is composed of two strip-shaped block structures which are bilaterally symmetrical and do not contact with each other, and the lower surface of the discharging limiting block (10) is not contacted with the discharging conveyor belt (12); the gap between the discharge limiting block (10) and the discharge conveyor belt (12) is located on the horizontal plane, and the horizontal plane where the gap is located is the highest horizontal plane which can be reached by the nail cap overturning groove (15) in the rotating process.

10. The discharge turnover mechanism of claim 9, wherein: the gap between the push rod (9) and the discharge limiting block (10) and the discharge conveyor belt (12) is located on the same horizontal plane, and the push rod (9) can penetrate through the nail cap overturning groove (15) from front to back.

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