CN221026432U - Automatic feeding device for bearing roller machining - Google Patents

Abstract

The utility model discloses an automatic feeding device for bearing roller processing, which belongs to the technical field of roller processing and comprises a support frame, wherein the side surface of the support frame is connected with a fixed plate, a telescopic device is connected onto the fixed plate, an adjusting structure is connected onto the fixed plate, the adjusting structure is connected with the telescopic device, a funnel is connected into the support frame, a conveying pipe is connected outside the funnel, and the conveying pipe is connected with the adjusting structure. This automatic feeding device is used in bearing roller processing is through setting up conveyer pipe, fixed plate, expansion bend and regulation structure, through the cooperation between L template, first spring and the connecting plate for the locating lever can realize clearance type removal function with taking the post, and can cut off the transport to the bearing roller in the conveyer pipe, avoids too much bearing roller to take place the condition of striking each other when carrying, has avoided the bearing roller to appear blocking or overlapping phenomenon when the unloading, thereby has ensured this automatic feeding device's normal work.

Description

Automatic feeding device for bearing roller machining

Technical Field

The utility model belongs to the technical field of roller processing, and particularly relates to an automatic feeding device for bearing roller processing.

Background

The roller is the element bearing load when the bearing is operated, is the weakest part in the roller bearing, and its manufacturing quality has very big influence to bearing working property, is the main factor that influences bearing life, and the bearing roller needs automatic feeding device to carry when processing, and current automatic feeding device carries the bearing roller to the processing region through the conveyer belt, however, too many bearing rollers can receive the influence of striking each other when carrying in proper order between the bearing roller, leads to the bearing roller to appear blocking or overlapping phenomenon when the unloading easily, has influenced automatic feeding device's normal work.

Disclosure of utility model

In order to overcome the defects, the utility model provides the automatic feeding device for processing the bearing rollers, which solves the problem that the bearing rollers are easy to be blocked or overlapped when being fed due to the influence of mutual collision when excessive bearing rollers are sequentially conveyed, and the normal work of the automatic feeding device is influenced.

In order to achieve the above purpose, the present utility model provides the following technical solutions: the automatic feeding device for bearing roller machining comprises a supporting frame, wherein the side surface of the supporting frame is connected with a fixed plate, a telescopic device is connected onto the fixed plate, an adjusting structure is connected onto the fixed plate, the adjusting structure is connected with the telescopic device, a funnel is connected into the supporting frame, a conveying pipe is connected outside the funnel, the conveying pipe is connected with the adjusting structure, an inclined plate is connected in the funnel in a sliding manner, an auxiliary mechanism is arranged under the funnel, the auxiliary mechanism is connected with the inclined plate, and the auxiliary mechanism is connected into the supporting frame;

The adjusting structure comprises a concave plate, the concave plate is connected to the fixing plate, a guide rod and an L-shaped plate are connected in a sliding manner in the concave plate, one end of the guide rod is connected with a lapping column, a positioning rod is connected outside the concave plate, a connecting plate is connected outside the positioning rod in a rotating manner, a first spring is sleeved outside the guide rod, and one side of the L-shaped plate is connected with the telescopic device.

As a further aspect of the utility model: the inclined plate is provided with a round groove, and the funnel is internally provided with a groove.

As a further aspect of the utility model: the L-shaped plate is connected in the conveying pipe in a sliding mode, the lapping columns are clamped in the conveying pipe, and the connecting plate is connected with the guide rod.

As a further aspect of the utility model: the locating rod is connected with the L-shaped plate, and the guide rod is connected in the concave plate through a first spring.

As a further aspect of the utility model: the auxiliary mechanism comprises a driving rod, a fixing sleeve, a sleeve plate and a bottom plate, wherein the fixing sleeve is connected under the funnel, the sleeve plate is connected to the side face of the funnel, the driving rod is rotationally connected in the fixing sleeve, a half gear is connected outside the driving rod, and a toothed plate is connected in the sleeve plate in a sliding mode.

As a further aspect of the utility model: the toothed plate is connected with the inclined plate, the toothed plate is meshed with the half gear, the bottom plate is connected in the supporting frame, and the bottom plate is connected with the auxiliary rod.

As a further aspect of the utility model: the auxiliary rod is externally connected with a supporting plate in a sliding manner, the supporting plate is connected under the inclined plate, a second spring is sleeved outside the auxiliary rod, and the supporting plate is connected with the bottom plate through the second spring.

Compared with the prior art, the utility model has the beneficial effects that:

1. This automatic feeding device is used in bearing roller processing through setting up conveyer pipe, fixed plate, expansion bend and regulation structure, exert thrust to L template through the expansion bend and can contact with the connecting plate, the connecting plate rotates as the center with the locating lever, the connecting plate then can drive the guide arm and remove in concave template, and the guide arm can drive first spring and take place deformation when removing, when L template is restoreed, the guide arm can reset through the effect of first spring, this automatic feeding device passes through L template, cooperation between first spring and the connecting plate, make the locating lever and take the post can realize the function that the clearance removed, and can cut off the transport to the bearing roller in the conveyer pipe, avoid too much bearing roller to take place the condition of striking each other when carrying, the phenomenon of jam or overlapping appears when the unloading to guaranteed this automatic feeding device's normal work.

2. This automatic feeding device is used in bearing roller processing drives the actuating lever through setting up assist mechanism, rotates in fixed cover through external driver, and half gear can be with the pinion rack contact when rotating, and the swash plate can pass through the recess with the bearing roller on circular slot surface when sliding in the funnel and carry the conveyer pipe in, and the swash plate then can reset when half gear breaks away from with the cover board, can carry the conveyer pipe in proper order with the bearing roller when the swash plate carries out reciprocating motion in the funnel in, avoid the bearing roller unloading too fast and take place the phenomenon that drops.

3. This automatic feeding device is used in bearing roller processing through setting up circular slot and recess, when the swash plate is moving, the bearing roller in the circular slot can carry the conveyer pipe through the recess in for circular slot and recess play certain guide effect to the bearing roller, have avoided the phenomenon that the bearing roller takes place the dislocation when carrying.

Drawings

FIG. 1 is a schematic view of a three-dimensional structure of the present utility model;

FIG. 2 is a schematic diagram of the auxiliary mechanism of the present utility model;

FIG. 3 is a schematic view of a three-dimensional cross-sectional structure of a funnel according to the present utility model;

FIG. 4 is a schematic view of a three-dimensional cross-sectional structure of an adjusting structure according to the present utility model;

In the figure: 1. a support frame; 2. a funnel; 3. a delivery tube; 4. a fixing plate; 5. a telescopic device; 6. an adjustment structure; 601. a concave plate; 602. a guide rod; 603. a positioning rod; 604. an L-shaped plate; 605. a first spring; 606. a connecting plate; 607. building a column; 7. a sloping plate; 8. an auxiliary mechanism; 801. a driving rod; 802. a fixed sleeve; 803. a sleeve plate; 804. a toothed plate; 805. a half gear; 806. a bottom plate; 807. an auxiliary lever; 808. a second spring; 809. a support plate; 9. a circular groove; 10. a groove.

Detailed Description

The technical scheme of the patent is further described in detail below with reference to the specific embodiments.

As shown in fig. 1-4, the present utility model provides a technical solution: the automatic feeding device for bearing roller machining comprises a support frame 1, wherein a fixing plate 4 is connected to the side surface of the support frame 1, a telescopic device 5 is connected to the fixing plate 4, an adjusting structure 6 is connected to the fixing plate 4, the adjusting structure 6 is connected with the telescopic device 5, a funnel 2 is connected in the support frame 1, a conveying pipe 3 is connected to the outside of the funnel 2, the conveying pipe 3 is connected with the adjusting structure 6, an inclined plate 7 is connected in the funnel 2 in a sliding manner, an auxiliary mechanism 8 is arranged below the funnel 2, the auxiliary mechanism 8 is connected with the inclined plate 7, and the auxiliary mechanism 8 is connected in the support frame 1;

The inclined plate 7 is provided with the circular groove 9, the funnel 2 is internally provided with the groove 10, and by arranging the circular groove 9 and the groove 10, when the inclined plate 7 moves, bearing rollers in the circular groove 9 can be conveyed into the conveying pipe 3 through the groove 10, so that the circular groove 9 and the groove 10 have a certain guiding effect on the bearing rollers, and the phenomenon that the bearing rollers are misplaced during conveying is avoided;

The auxiliary mechanism 8 comprises a driving rod 801, a fixed sleeve 802, a sleeve plate 803 and a bottom plate 806, the fixed sleeve 802 is connected below the funnel 2, the sleeve plate 803 is connected to the side surface of the funnel 2, the driving rod 801 is rotatably connected in the fixed sleeve 802, a half gear 805 is connected outside the driving rod 801, a toothed plate 804 is slidably connected in the sleeve plate 803, the toothed plate 804 is connected with the inclined plate 7, the toothed plate 804 is meshed with the half gear 805, the bottom plate 806 is connected in the support frame 1, the toothed plate 804 and the half gear 805 are arranged, when the half gear 805 rotates, the half gear 805 contacts with the toothed plate 804, when the inclined plate 7 slides in the funnel 2, bearing rollers on the surface of the circular groove 9 are conveyed into the conveying pipe 3 through the groove 10, when the half gear 805 is separated from the sleeve plate 803, the inclined plate 7 can be reset, when the inclined plate 7 reciprocates in the funnel 2, the bearing rollers can be sequentially conveyed into the conveying pipe 3, and the phenomenon that the bearing rollers fall off due to too fast is avoided;

The auxiliary rod 807 is connected to the bottom plate 806, the supporting plate 809 is connected to the outside of the auxiliary rod 807 in a sliding manner, the supporting plate 809 is connected to the lower portion of the inclined plate 7, the second spring 808 is sleeved outside the auxiliary rod 807, the supporting plate 809 is connected with the bottom plate 806 through the second spring 808, when the inclined plate 7 moves, the supporting plate 809 below the supporting plate 809 slides on the surface of the auxiliary rod 807, and the supporting plate 809 drives the second spring 808 to deform, so that the second spring 808 plays a certain buffering role on the inclined plate 7, and the phenomenon that the inclined plate 7 collides during movement is avoided;

The adjusting structure 6 comprises a concave plate 601, the concave plate 601 is connected to the fixed plate 4, a guide rod 602 and an L-shaped plate 604 are connected in a sliding manner in the concave plate 601, one end of the guide rod 602 is connected with a lapping post 607, a positioning rod 603 is connected outside the concave plate 601, a connecting plate 606 is connected outside the positioning rod 603 in a rotating manner, a first spring 605 is sleeved outside the guide rod 602, and one side of the L-shaped plate 604 is connected with the telescopic device 5;

L-shaped plate 604 sliding connection is in conveyer pipe 3, and the post 607 joint is in conveyer pipe 3, and connecting plate 606 is connected with guide arm 602, and locating lever 603 is connected with L-shaped plate 604, and guide arm 602 passes through first spring 605 to be connected in concave plate 601, through setting up locating lever 603, can exert thrust to connecting plate 606 when L-shaped plate 604 moves in concave plate 601, and connecting plate 606 then can rotate with locating lever 603 as the center for locating lever 603 plays certain limiting displacement to connecting plate 606, has avoided connecting plate 606 to take place the phenomenon of clamping shell when rotating.

The working principle of the utility model is as follows:

When the automatic feeding device conveys bearing rollers, a batch of bearing rollers can be placed in the hopper 2, then the external driver drives the driving rod 801 to rotate in the fixed sleeve 802, the half gear 805 is contacted with the toothed plate 804 when rotating, the toothed plate 804 exerts thrust on the inclined plate 7 when sliding in the sleeve 803, the bearing rollers on the surface of the circular groove 9 are conveyed into the conveying pipe 3 through the groove 10 when the inclined plate 7 slides in the hopper 2, the inclined plate 7 is reset when the half gear 805 is separated from the sleeve 803, the supporting plate 809 below the inclined plate 7 slides on the surface of the auxiliary rod 807, and the supporting plate 809 drives the second spring 808 to deform when moving;

When the conveying pipe 3 is used for discharging the bearing rollers, the telescopic device 5 is used for applying thrust to the L-shaped plate 604, the L-shaped plate 604 is contacted with the connecting plate 606 when sliding in the concave plate 601, the connecting plate 606 rotates around the positioning rod 603, the connecting plate 606 drives the guide rod 602 to move in the concave plate 601, the guide rod 602 drives the first spring 605 to deform when moving, when the L-shaped plate 604 is restored, the guide rod 602 is reset through the action of the first spring 605, and the positioning rod 603 and the lapping post 607 can separate and convey the bearing rollers in the conveying pipe 3 when moving in a clearance mode.

In the description of the present utility model, it should be noted that, unless explicitly specified and limited otherwise, the terms "mounted," "connected," and "connected" are to be construed broadly, and may be either fixedly connected, detachably connected, or integrally connected, for example; can be mechanically or electrically connected; can be directly connected or indirectly connected through an intermediate medium, and can be communication between two elements. The specific meaning of the above terms in the present utility model can be understood by those of ordinary skill in the art in a specific case.

While the preferred embodiments of the present patent have been described in detail, the present patent is not limited to the above embodiments, and various changes may be made without departing from the spirit of the present patent within the knowledge of one of ordinary skill in the art.

Claims (7)

1. The utility model provides an automatic feeding device is used in bearing roller processing, includes support frame (1), its characterized in that: the side of support frame (1) is connected with fixed plate (4), be connected with expansion bend (5) on fixed plate (4), be connected with adjustment structure (6) on fixed plate (4), adjustment structure (6) are connected with expansion bend (5), be connected with funnel (2) in support frame (1), funnel (2) external connection has conveyer pipe (3), conveyer pipe (3) are connected with adjustment structure (6), sliding connection has swash plate (7) in funnel (2), be equipped with auxiliary mechanism (8) under funnel (2), auxiliary mechanism (8) are connected with swash plate (7), auxiliary mechanism (8) are connected in support frame (1);

the adjusting structure (6) comprises a concave plate (601), the concave plate (601) is connected to the fixed plate (4), a guide rod (602) and an L-shaped plate (604) are connected in the concave plate (601) in a sliding mode, one end of the guide rod (602) is connected with a lapping column (607), the concave plate (601) is externally connected with a positioning rod (603), the positioning rod (603) is externally connected with a connecting plate (606) in a rotating mode, a first spring (605) is sleeved outside the guide rod (602), and one side of the L-shaped plate (604) is connected with the telescopic device (5).

2. The automatic feeding device for processing bearing rollers according to claim 1, wherein: the inclined plate (7) is provided with a round groove (9), and the funnel (2) is internally provided with a groove (10).

3. The automatic feeding device for processing bearing rollers according to claim 1, wherein: the L-shaped plate (604) is slidably connected in the conveying pipe (3), the lapping post (607) is clamped in the conveying pipe (3), and the connecting plate (606) is connected with the guide rod (602).

4. The automatic feeding device for processing bearing rollers according to claim 3, wherein: the positioning rod (603) is connected with the L-shaped plate (604), and the guide rod (602) is connected in the concave plate (601) through a first spring (605).

5. The automatic feeding device for processing bearing rollers according to claim 1, wherein: the auxiliary mechanism (8) comprises a driving rod (801), a fixing sleeve (802), a sleeve plate (803) and a bottom plate (806), wherein the fixing sleeve (802) is connected under the hopper (2), the sleeve plate (803) is connected to the side face of the hopper (2), the driving rod (801) is rotationally connected in the fixing sleeve (802), the driving rod (801) is externally connected with a half gear (805), and the sleeve plate (803) is internally connected with a toothed plate (804).

6. The automatic feeding device for processing bearing rollers according to claim 5, wherein: the toothed plate (804) is connected with the inclined plate (7), the toothed plate (804) is meshed with the half gear (805), the bottom plate (806) is connected in the support frame (1), and the bottom plate (806) is connected with the auxiliary rod (807).

7. The automatic feeding device for processing bearing rollers according to claim 6, wherein: the auxiliary rod (807) is connected with a supporting plate (809) in an outward sliding mode, the supporting plate (809) is connected under the inclined plate (7), a second spring (808) is sleeved outside the auxiliary rod (807), and the supporting plate (809) is connected with the bottom plate (806) through the second spring (808).