CN212150680U - Material supplementing device for bearing assembly line - Google Patents

Abstract

The material supplementing device for the bearing assembly line comprises a base and a bearing conveying belt device arranged on the base; the automatic feeding device is characterized by further comprising a mounting seat arranged on the base, a bearing material storing mechanism arranged on the mounting seat, a bearing material discharging mechanism and a pulling mechanism matched with the bearing material discharging mechanism. The utility model discloses guaranteed bearing assembly line's work efficiency, work efficiency is high, and the feed supplement is timely, rapid.

Description

Material supplementing device for bearing assembly line

Technical Field

The invention relates to the technical field of bearing processing, in particular to a material supplementing device for a bearing assembly line.

Background

In the production process of the bearing, all outer rings, ferrules, retainers and the like are required to be installed together, then necessary inspection is required to be carried out after assembly, the existing conveying is automatically carried by adopting a conveying line, the speed is high, for example, Chinese patent invention No. CN201710396438.X discloses an automatic bearing conveying device which comprises a conveying box and is characterized in that a conveying belt is arranged on the upper side of the bottom of the conveying box, a plurality of limiting rods are vertically connected to the surface of the conveying belt, a motor is fixedly connected to the bottom of the conveying box, a motor driving shaft is in transmission connection with the conveying belt, a feeding channel is arranged on the side wall of the conveying box, the tail end of the feeding channel is positioned right above the input end of the conveying belt, a discharging channel is arranged on the side wall of the conveying box far away from the motor, the upper end of the discharging channel is positioned below the output end of the conveying belt, a sliding, the lower extreme of two convex slider all is connected with the montant, and the lower extreme of montant is connected with the brush board, and two brush boards are parallel to each other and the level sets up. In the bearing production and conveying process, unqualified products need to be inspected and removed, and the phenomenon of gear breakage can occur due to the fact that the conveying speed of an assembly line is constant, so that the production efficiency of the bearing is influenced.

Disclosure of Invention

The technical purpose of the invention is to overcome the defects of the prior art, provide the material supplementing device for the bearing assembly line, solve the problems in the prior art, ensure the working efficiency of the bearing assembly line, and realize high working efficiency and timely and rapid material supplementing.

The technical purpose of the invention is realized by the following technical scheme: the material supplementing device for the bearing assembly line comprises a base and a bearing conveying belt device arranged on the base; the automatic feeding device is characterized by further comprising a mounting seat arranged on the base, a bearing material storing mechanism arranged on the mounting seat, a bearing material discharging mechanism and a pulling mechanism matched with the bearing material discharging mechanism.

As a further preferable technical scheme of the present invention, the bearing storage mechanism includes a bearing storage cavity provided on the mounting seat, a bearing discharge cavity communicated with the bearing storage cavity, a lateral sliding groove located between the bearing storage cavity and the bearing discharge cavity, a discharge opening communicated with the bearing discharge cavity, a vertical bracket fixed on the mounting seat, a lateral mounting plate connected with the vertical bracket, and a bearing storage portion provided on the lateral mounting plate and used for storing a bearing.

As a further preferable technical solution of the present invention, the bearing storage portion includes a vertical tandem shaft, an external limiting sleeve provided at a top end of the vertical tandem shaft, and a limiting hole provided on the horizontal mounting plate for being matched with the external limiting sleeve.

As a further preferable technical scheme of the invention, a lateral opening is arranged on the transverse mounting plate, and the width of the lateral opening is larger than the outer diameter of the vertical tandem axle.

As a further preferable technical scheme, the bearing discharging mechanism comprises an opening sliding bottom groove arranged in the mounting seat, a bottom sliding plate arranged in the opening sliding bottom groove, a vertical arc pushing plate connected with the bottom sliding plate, a guide sliding groove arranged on the bottom surface of the bearing discharging cavity and matched with the vertical arc pushing plate, and a separating plate arranged on the vertical arc pushing plate.

As a further preferable technical scheme of the invention, the width of the guide chute is smaller than the diameter of the bearing discharge cavity, and the end part of the separation material plate close to the vertical arc pushing plate is provided with a guide inclined surface.

As a further preferable technical solution of the present invention, the pulling mechanism includes a pulling cylinder and a connecting plate connected to the pulling cylinder.

As a further preferable technical scheme of the invention, the transverse mounting plate is also provided with a limiting sleeve storage opening communicated with the limiting hole.

In conclusion, the invention has the following beneficial effects:

the invention ensures the working efficiency of the bearing assembly line, has high working efficiency and supplies materials timely and rapidly.

Drawings

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a block diagram of the transverse mounting plate of the present invention;

FIG. 3 is a partial view showing a structure of a bearing housing part according to the present invention;

fig. 4 is a structural view of a guide chute of the present invention.

Detailed Description

The invention is further described below with reference to the accompanying drawings.

Example (b): as shown in fig. 1-4, the feeding device for bearing assembly line comprises a base 1 and a bearing conveyer belt device 2 arranged on the base 1, the bearing conveyer belt device is driven by a speed reducing motor to convey, the conveyer belt is arranged on a frame, the frame is provided with a side port for facilitating the bearing to pass through, because the above structures are all prior art, the details are not described herein; the automatic feeding device is characterized by further comprising a mounting seat 3 arranged on the base 1, a bearing material storage mechanism 4, a bearing material discharging mechanism 5 and a pulling mechanism 6 matched with the bearing material discharging mechanism 5, wherein the bearing material storage mechanism is used for storing a bearing to be supplemented, and the bearing material discharging mechanism 5 is used for conveying the bearing to be supplemented to a bearing conveying belt device under the pulling of the pulling mechanism 6 and conveying the bearing to be supplemented to a main assembly line.

In this embodiment, the bearing storage mechanism 4 includes a bearing storage cavity 41 formed on the mounting base 3, a bearing storage cavity 42 communicated with the bearing storage cavity 41, a horizontal sliding groove 43 located between the bearing storage cavity 41 and the bearing storage cavity 42, a discharge opening 44 communicated with the bearing storage cavity 42, a vertical bracket 45 fixed on the mounting base 3, a horizontal mounting plate 46 connected with the vertical bracket 45, and a bearing storage portion 47 formed on the horizontal mounting plate 46 and used for storing a bearing. The bearing storage cavity 41 and the bearing discharging cavity 42 are communicated in the vertical direction, the diameters of the bearing storage cavity 41 and the bearing discharging cavity 42 are the same, the bearing storage cavity is matched with the diameter of an outer ring of a bearing, the transverse sliding groove 43 is located between the bearing storage cavity 41 and the bearing discharging cavity 42, the transverse sliding groove penetrates through two side faces of the mounting seat, an inserting plate can be placed in the transverse sliding groove, the inserting plate is inserted in the transverse sliding groove when the bearing storage cavity is not used, the vertical support and the mounting seat are welded or screwed and fixed, the transverse mounting plate and the vertical support are integrally formed or assembled in a split mode, the bearing to be supplemented is placed in the bearing storage portion 47 according to actual requirements, the bearings are sequentially conveyed out through the matching of the pulling mechanism 6 and the bearing discharging mechanism 5, the bearing is conveyed to the bearing conveying belt device 2.

Further, the bearing storage portion 47 includes a vertical tandem axle 471, an external limiting sleeve 472 arranged at the top end of the vertical tandem axle 471, and a limiting hole 473 arranged on the transverse mounting plate 46 and used for matching with the external limiting sleeve 472, the plurality of bearings are installed on the vertical tandem axle in series, the external limiting sleeve is fixed with the vertical tandem axle after being installed on the vertical tandem axle by the bearings, the fixing mode can adopt a screw connection mode to keep the position of the vertical tandem axle stable, the limiting hole limits the external limiting sleeve, and the external limiting sleeve is prevented from falling downwards in the vertical direction to affect the normal operation of the whole device.

The transverse mounting plate 46 is provided with a lateral opening 474, the width of the lateral opening 474 is greater than the outer diameter of the vertical tandem axle 471, the arrangement does not affect the transverse position stability of the external limiting sleeve, is convenient for the arrangement of the vertical tandem axle and the arrangement of the bearing on the vertical tandem axle, and further, the diameter of the lateral opening is greater than the outer diameter of the bearing to be arranged, and meanwhile, the diameter of the limiting hole is greater than the outer diameter of the bearing to be arranged.

In this embodiment, the bearing discharging mechanism 5 includes an open sliding bottom slot 51 disposed in the mounting seat 3, a bottom sliding plate 52 disposed in the open sliding bottom slot 51, a vertical arc pushing plate 53 connected to the bottom sliding plate 52, a guiding chute 54 disposed on the bottom surface of the bearing discharging cavity 42 and matched with the vertical arc pushing plate 53, and a separating plate 55 disposed on the vertical arc pushing plate 53, the open sliding bottom slot 51 enables the bottom sliding plate to slide therein, the vertical arc pushing plate is used for pushing the bearing, the guiding chute ensures the position stability of the vertical arc pushing plate during movement, and the separating plate has two functions, the first function plays a separating role when the bearing is conveyed out, so as to prevent the other bearing on the conveyed bearing from affecting the normal conveying, meanwhile, after the conveying is finished and when the conveying device returns, the other bearing is not influenced to fall down, and the normal conveying of the next time is ensured, namely the stopping and discharging actions are realized by one reciprocating action.

Further, the width of the guide chute 54 is smaller than the diameter of the bearing discharging cavity 42, the end of the material separating plate 55 close to the vertical arc pushing plate 53 is provided with a guide inclined surface 56, and the guide chute 54 divides the bottom surface of the bearing discharging cavity 42 into two supporting surfaces for supporting the bearing.

In the present embodiment, the pulling mechanism 6 includes a pulling cylinder 61 and a connecting plate 62 connected to the pulling cylinder 61, one end of the connecting plate is connected to the piston rod of the pulling cylinder, and the other end is connected to the bottom slide plate 52.

Furthermore, the transverse mounting plate 46 is provided with a position-limiting sleeve storage opening 475 communicated with the position-limiting hole 473.

Claims (8)

1. The material supplementing device for the bearing assembly line comprises a base (1) and a bearing conveying belt device (2) arranged on the base (1); the method is characterized in that: the automatic feeding device is characterized by further comprising a mounting seat (3) arranged on the base (1), a bearing material storage mechanism (4) arranged on the mounting seat (3), a bearing discharging mechanism (5) and a pulling mechanism (6) matched with the bearing discharging mechanism (5).

2. The feed supplement device for a bearing assembly line according to claim 1, wherein: bearing stock mechanism (4) are including establishing bearing on mount pad (3) deposit chamber (41) and the bearing deposit chamber (42) that chamber (41) communicates with each other, be located the bearing deposit chamber (41) mutually with horizontal sliding tray (43) between bearing stock chamber (42) with communicating blowing opening (44) in bearing stock chamber (42), fix vertical support (45) on mount pad (3) and horizontal mounting panel (46) that vertical support (45) are connected and establish bearing deposit portion (47) that are used for depositing the bearing on horizontal mounting panel (46).

3. The feed supplement device for a bearing assembly line according to claim 2, wherein: the bearing storage part (47) comprises a vertical tandem shaft (471), an external limiting sleeve (472) arranged at the top end of the vertical tandem shaft (471) and a limiting hole (473) arranged on the transverse mounting plate (46) and used for being matched with the external limiting sleeve (472).

4. The feed supplement device for a bearing assembly line according to claim 3, wherein: and a lateral opening (474) is formed in the transverse mounting plate (46), and the width of the lateral opening (474) is larger than the outer diameter of the vertical tandem axle (471).

5. Feed supplement arrangement for a bearing assembly line according to claim 2 or 3 or 4, characterized in that: bearing drop feed mechanism (5) are including establishing opening slip kerve (51) in mount pad (3), establishing bottom slide (52) in opening slip kerve (51), with vertical circular arc pushing plate (53) that bottom slide (52) are connected establish on bearing blowing chamber (42) bottom surface with vertical circular arc pushing plate (53) matched with direction spout (54) and establish partition flitch (55) on vertical circular arc pushing plate (53).

6. The feed supplement device for a bearing assembly line according to claim 5, wherein: the width of the guide chute (54) is smaller than the diameter of the bearing discharging cavity (42), and a guide inclined plane (56) is arranged at the end part of the partition plate (55) close to the vertical arc pushing plate (53).

7. The feed supplement device for a bearing assembly line according to claim 6, wherein: the pulling mechanism (6) comprises a pulling cylinder (61) and a connecting plate (62) connected with the pulling cylinder (61).

8. The feed supplement device for a bearing assembly line according to claim 4, wherein: and the transverse mounting plate (46) is also provided with a limiting sleeve storage opening (475) communicated with the limiting hole (473).

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