CN218402763U - Feeding mechanism of metal rotating shaft - Google Patents

Abstract

The utility model relates to a feed mechanism of metal pivot, including blanking plate and delivery sheet, the blanking plate sets up the top position at the delivery sheet, the blanking plate has the charging chute that is used for supplying the metal pivot to pass through in the blanking plate, the position that corresponds the charging chute below on the delivery sheet is equipped with the chute feeder that is used for supplying the metal pivot to pass through, the one end of chute feeder is the opening form, its other end is connected with and is used for promoting the metal pivot in the chute to the push rod subassembly on the processing module, be connected with the spacing subassembly that is used for making the metal pivot in the blanking chute singly get into the chute feeder one by one on the blanking plate, through setting up spacing subassembly on the blanking plate, can avoid in a plurality of metal pivots in the blanking chute to get into the chute feeder that the influence push rod subassembly normally removes single metal pivot to the processing module, avoided getting into the chute because of a plurality of metal pivots and lead to the jam trouble, the unnecessary metal pivot in the workman need not to clear up the chute feeder, and improved work efficiency.

Description

Feeding mechanism of metal rotating shaft

Technical Field

The utility model relates to a technical field of metal pivot processing equipment, concretely relates to feed mechanism of metal pivot.

Background

In the production and processing process of the metal rotating shaft, the metal rotating shaft needs to be processed according to actual conditions (such as thread rolling, flat position, side hole and the like), usually, the metal rotating shaft can be centrally stacked on the feeding vibration disc before processing, and after the metal rotating shaft on the feeding vibration disc enters the feeding mechanism, the metal rotating shaft on the feeding mechanism is moved to a corresponding processing module through a driving device, such as a thread rolling machine, a punching machine and the like.

Generally, the feeding mechanism is provided with a plurality of metal rotating shafts at the same time, which easily causes the plurality of metal rotating shafts to fall into the working range of the driving device, so that the driving device can not normally move the metal rotating shafts to the corresponding processing modules, thereby increasing the failure rate of the equipment and reducing the working efficiency.

Therefore, further improvements are needed.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to overcome the not enough of above-mentioned prior art existence, and provide a feed mechanism of metal rotating shaft, aim at solving one of the above-mentioned technical problem among the prior art to a certain extent at least.

The purpose of the utility model is realized like this:

the utility model provides a feed mechanism of metal rotating shaft, including blanking plate and delivery sheet, the blanking plate sets up the top position at the delivery sheet, the blanking groove that is used for supplying the metal rotating shaft to pass through has in the blanking plate, the position that corresponds the blanking groove below on the delivery sheet is equipped with the chute feeder that is used for supplying the metal rotating shaft to pass through, the one end of chute feeder is the opening form, its other end is connected with and is used for promoting the metal rotating shaft in the chute push rod assembly to processing on the module, be connected with the spacing subassembly that is used for making the metal rotating shaft in the blanking groove singly get into the chute feeder one by one on the blanking plate.

The feeding end of the blanking groove is connected with a feeding vibration disc device, and the discharging end of the feeding vibration disc device is arranged above the feeding end of the blanking groove.

The spiral pipe is connected between the discharge end of material loading vibration disc device and the feed end of charging conduit, and the spiral pipe is the spring shape, and the inboard formation of spiral pipe is used for supplying the passageway that the metal rotating shaft passes through, and the clearance that its inboard passageway can be observed is formed in the outside of spiral pipe.

Spacing subassembly includes first pin and second pin, and first pin sets up in the one side by the charging chute discharge end, and the second pin sets up in the one side by the charging chute feed end, forms the interval that can hold the metal pivot between first pin and the second pin, and first pin is connected with first drive arrangement, is connected with the gangboard between first pin and the second pin, and the second pin makes synchronous motion through gangboard and first pin, is equipped with the portion of dodging that can supply the metal pivot to pass through on the first pin.

When the first driving device drives the first stop lever to move to the first state, a structure through which the metal rotating shaft can pass is formed between the second stop lever and the charging conduit, and the first stop lever and the charging conduit form a structure used for blocking the metal rotating shaft from passing.

When the first driving device drives the first stop lever to move to the second state, a structure for blocking the metal rotating shaft to pass through is formed between the second stop lever and the charging conduit, and the avoiding portion of the first stop lever and the charging conduit form a structure for the metal rotating shaft to pass through.

And a guide inclined plane is arranged at the end part of the second stop lever.

The blanking plate is provided with a plurality of positioning holes for the first stop rod or the second stop rod to pass through.

And the linkage plate is provided with an adjusting slotted hole for the first stop lever and the second stop lever to pass through, and the first stop lever and the second stop lever are respectively connected and fixed with the adjusting slotted hole through locking nuts.

The push rod assembly comprises a second driving device and a push rod main body, the outer side of the push rod main body is connected with a protruding portion, an infrared sensor used for sensing the position of the protruding portion is arranged on the feeding plate, and the infrared sensor is electrically connected with the first driving device.

When the push rod main body pushes the metal rotating shaft in the feeding groove to the processing module, the protruding portion is aligned with the infrared sensor, and the first driving device drives the first stop lever to move to the first state.

When the push rod main body drives the protruding part to reset, the first driving device drives the first stop lever to move to the second state.

The beneficial effects of the utility model are that:

through set up spacing subassembly on the blanking plate, can avoid in a plurality of entering the chute simultaneously of metal pivot in the chute and influence the push rod subassembly normally to single metal pivot remove to the processing module on, avoided getting into the chute and leading to the jam fault because of a plurality of metal pivots, the workman need not to clear up unnecessary metal pivot in the chute, has improved work efficiency.

Additional aspects and advantages of the invention will be set forth in part in the description which follows, or may be learned by practice of the invention.

Drawings

Fig. 1 is a schematic view of a working state of the embodiment of the present invention.

Fig. 2 is a schematic view of a working state of the embodiment of the present invention.

Fig. 3 is a schematic view of a third working state of the embodiment of the present invention.

Fig. 4 is a partial structure schematic diagram of an embodiment of the present invention.

Fig. 5 is an enlarged view of embodiment a of the present invention.

Fig. 6 is an enlarged view of embodiment B of the present invention.

Detailed Description

The present invention will be further described with reference to the accompanying drawings and examples.

Referring to fig. 1-6, this feed mechanism of metal pivot, including blanking plate 1 and delivery sheet 2, blanking plate 1 sets up the top position at delivery sheet 2, have the blanking groove 11 that is used for supplying the metal pivot to pass through in blanking plate 1, the position that corresponds blanking groove 11 below on delivery sheet 2 is equipped with the chute 21 that is used for supplying the metal pivot to pass through, the one end of chute 21 is the opening form, its other end is connected with and is used for promoting the metal pivot in chute 21 to the push rod subassembly on the processing module, be connected with on blanking plate 1 and be used for making the metal pivot in blanking groove 11 singly get into the spacing subassembly in chute 21 one by one, through set up spacing subassembly on blanking plate 1, can avoid a plurality of metal pivots in blanking groove 11 to get into chute 21 simultaneously and influence the subassembly normally to move a single metal pivot to the processing module, avoided getting into chute 21 because of a plurality of metal pivots and lead to the jam trouble, the workman need not to clear up unnecessary metal pivot in chute 21, work efficiency has been improved.

Further, the feeding end of the charging chute 11 is connected with a feeding vibrating plate device 3, and the discharging end of the feeding vibrating plate device 3 is arranged above the feeding end of the charging chute 11, so that the metal rotating shaft can automatically enter the charging chute 11 without manual operation.

Further, be connected with spiral pipe 31 between the discharge end of material loading shake dish device 3 and the feed end of charging chute 11, spiral pipe 31 is the spring shape, and the inboard of spiral pipe 31 forms the passageway that is used for supplying the metal rotating shaft to pass through, and the clearance that its inboard passageway can be observed is formed in the outside of spiral pipe 31, makes things convenient for the workman to observe whether the passageway in spiral pipe 31 appears blockking up from the outside, guarantees that equipment can normal operating.

Preferably, the inner diameter of the channel inside the spiral pipe 31 is larger than the diameter of the metal rotating shaft, and the spiral pipe 31 can be elastically deformed, and when the metal rotating shaft slides in the channel inside the spiral pipe 31 under the action of self gravity, the metal rotating shaft can pass through the channel quickly, and because the spiral pipe 31 has certain elasticity, the metal rotating shaft can have certain vibration when passing through the spiral pipe 31, and cannot be clamped in the gap.

Further, spacing subassembly includes first pin 41 and second pin 42, first pin 41 sets up in the one side that leans on 11 discharge end of charging chute, second pin 42 sets up in the one side that leans on 11 feed ends of charging chute, form the interval that can hold the metal pivot between first pin 41 and the second pin 42, first pin 41 is connected with first drive arrangement 43, be connected with linkage plate 44 between first pin 41 and the second pin 42, second pin 42 makes synchronous motion through linkage plate 44 and first pin 41, be equipped with the portion of dodging 411 that can supply the metal pivot to pass through on the first pin 41.

As shown in fig. 3 and 6, when the first driving device 43 drives the first stopper 41 to move to the first state, a structure through which the metal rotating shaft can pass is formed between the second stopper 42 and the charging chute 11, and the first stopper 41 and the charging chute 11 form a structure for blocking the metal rotating shaft from passing through, at this time, a single metal rotating shaft enters and stays at a spatial position between the first stopper 41 and the second stopper 42.

As shown in fig. 1, fig. 2, and fig. 5, when the first driving device 43 drives the first stopper 41 to move to the second state, a structure for blocking the metal rotation shaft from passing is formed between the second stopper 42 and the charging chute 11, and the avoiding portion 411 of the first stopper 41 and the charging chute 11 form a structure for the metal rotation shaft to pass through, at this time, a single metal rotation shaft can slide from a spatial position between the first stopper 41 and the second stopper 42 toward the discharging end of the charging chute 11, and finally enter the feeding chute 21, and at the same time, the second stopper 42 prevents the metal rotation shaft outside the single metal rotation shaft from entering the spatial position between the first stopper 41 and the second stopper 42.

Preferably, the first driving means 43 is a cylinder means.

Further, the end position of the second bar 42 is provided with a guiding inclined plane 421, when it is required to switch from the second state back to the first state, the second bar 42 is lowered to a position between the metal rotating shaft abutting against the first bar 41 and the metal rotating shaft adjacent to the metal rotating shaft, and passes through, and the metal rotating shafts are separated from each other under the action of the guiding inclined plane 421, so that the second bar 42 can more easily separate the two metal rotating shafts again.

Further, the blanking plate 1 is provided with a plurality of positioning holes 12 for the first stop rod 41 or the second stop rod 42 to pass through, so that workers can adapt to metal rotating shafts with different lengths by adjusting the distance between the first stop rod 41 and the second stop rod 42.

Furthermore, the linkage plate 44 is provided with an adjusting slot 441 for the first stop rod 41 and the second stop rod 42 to pass through, and the first stop rod 41 and the second stop rod 42 are respectively connected and fixed with the adjusting slot 441 through a locking nut, so that a worker can adapt to metal rotating shafts with different lengths by adjusting the distance between the first stop rod 41 and the second stop rod 42.

Further, the push rod assembly comprises a second driving device 51 and a push rod main body 52, a protruding portion 521 is connected to the outer side of the push rod main body 52, an infrared sensor 53 for sensing the position of the protruding portion 521 is arranged on the feeding plate 2, and the infrared sensor 53 is electrically connected with the first driving device 43.

Preferably, the second driving means 51 is a cylinder device.

When the push rod body 52 pushes the metal rotating shaft in the feeding chute 21 to the processing module, the protrusion 521 is aligned with the infrared sensor 53, and the first driving device 43 drives the first stop lever 41 to move to the first state.

When the push rod body 52 drives the protrusion 521 to return, the first driving device 43 drives the first blocking lever 41 to move to the second state.

The infrared sensor 53 senses the position of the protrusion 521, and controls the operating state of the first driving device 43, thereby improving the operating accuracy of the feeding mechanism.

The above embodiments are merely preferred embodiments of the present invention, and other embodiments are also possible. Equivalent modifications or substitutions may be made by those skilled in the art without departing from the spirit of the invention, and such equivalent modifications or substitutions are intended to be included within the scope of the claims set forth herein.

Claims (8)

1. The feeding mechanism of the metal rotating shaft is characterized by comprising a blanking plate (1) and a feeding plate (2), wherein the blanking plate (1) is arranged at the position above the feeding plate (2), a blanking groove (11) for the metal rotating shaft to pass through is formed in the blanking plate (1), a feeding groove (21) for the metal rotating shaft to pass through is formed in the feeding plate (2) and corresponds to the position below the blanking groove (11), one end of the feeding groove (21) is in an opening shape, the other end of the feeding groove is connected with a push rod assembly for pushing the metal rotating shaft in the feeding groove (21) to a processing module, and the blanking plate (1) is connected with a limiting assembly for enabling the metal rotating shaft in the blanking groove (11) to enter the feeding groove (21) one by one.

2. The feeding mechanism of the metal rotating shaft according to claim 1, wherein: the feeding end of the blanking groove (11) is connected with a feeding vibration disc device (3), and the discharging end of the feeding vibration disc device (3) is arranged above the feeding end of the blanking groove (11).

3. The feeding mechanism of the metal rotating shaft according to claim 2, characterized in that: be connected with spiral pipe (31) between the discharge end of material loading vibration plate device (3) and the feed end of charging chute (11), spiral pipe (31) are the spring shape, and the inboard of spiral pipe (31) forms the passageway that is used for supplying the metal pivot to pass through, and the outside of spiral pipe (31) forms the clearance that can observe its inboard passageway.

4. The feeding mechanism of the metal rotating shaft according to claim 1, characterized in that: the limiting assembly comprises a first stop lever (41) and a second stop lever (42), the first stop lever (41) is arranged on one side close to the discharge end of the charging chute (11), the second stop lever (42) is arranged on one side close to the feed end of the charging chute (11), a space capable of accommodating a metal rotating shaft is formed between the first stop lever (41) and the second stop lever (42), the first stop lever (41) is connected with a first driving device (43), a linkage plate (44) is connected between the first stop lever (41) and the second stop lever (42), the second stop lever (42) and the first stop lever (41) move synchronously through the linkage plate (44), and an avoiding part (411) for the metal rotating shaft to pass through is arranged on the first stop lever (41);

when the first driving device (43) drives the first stop lever (41) to move to a first state, a structure through which a metal rotating shaft can pass is formed between the second stop lever (42) and the charging chute (11), and the first stop lever (41) and the charging chute (11) form a structure through which the metal rotating shaft can pass;

when the first driving device (43) drives the first stop lever (41) to move to the second state, a structure for stopping the metal rotating shaft from passing is formed between the second stop lever (42) and the charging chute (11), and the avoidance part (411) of the first stop lever (41) and the charging chute (11) form a structure for the metal rotating shaft to pass.

5. The feeding mechanism of the metal rotating shaft according to claim 4, wherein: the end part of the second stop lever (42) is provided with a guide inclined plane (421).

6. The feeding mechanism of the metal rotating shaft according to claim 4, wherein: the blanking plate (1) is provided with a plurality of positioning holes (12) for the first stop rods (41) or the second stop rods (42) to pass through.

7. The feeding mechanism of the metal rotating shaft according to claim 4, wherein: the linkage plate (44) is provided with an adjusting slotted hole (441) for the first stop rod (41) and the second stop rod (42) to pass through, and the first stop rod (41) and the second stop rod (42) are respectively connected and fixed with the adjusting slotted hole (441) through locking nuts.

8. The feeding mechanism of the metal rotating shaft according to any one of claims 4 to 7, characterized in that: the push rod assembly comprises a second driving device (51) and a push rod main body (52), a protruding part (521) is connected to the outer side of the push rod main body (52), an infrared sensor (53) used for sensing the position of the protruding part (521) is arranged on the feeding plate (2), and the infrared sensor (53) is electrically connected with the first driving device (43);

when the push rod main body (52) pushes the metal rotating shaft in the feeding groove (21) to the processing module, the protruding part (521) is aligned with the infrared sensor (53), and the first driving device (43) drives the first stop lever (41) to move to a first state;

when the push rod main body (52) drives the protruding part (521) to reset, the first driving device (43) drives the first stop lever (41) to move to the second state.

Images