CN216835671U - Stop wheel discharging device - Google Patents

Abstract

The application relates to the technical field of dust collector part mounting equipment, in particular to a stop wheel discharging device. The device comprises a base, a driving turntable and a blowing device, wherein the driving turntable is rotatably connected to the base, the blowing device is fixedly connected to the base, a plurality of installation stations for assembling the stopping wheels are arranged on the driving turntable, and the blowing device always forces the stopping wheels on the installation stations to blow to a specified position. This application has the effect that reduces the operation degree of difficulty of collecting the locking wheel.

Description

Stop wheel discharging device

Technical Field

The invention relates to the technical field of dust collector part mounting equipment, in particular to a stop wheel discharging device.

Background

The vacuum cleaner utilizes a motor to drive blades to rotate at a high speed, so that air negative pressure is generated in a sealed shell, and then dust, paper scraps, hair and other impurities are sucked from floors, carpets, walls, clamps and other surfaces.

Referring to fig. 1, the stopper wheel for a vacuum cleaner in the related art mainly includes a rubber ring 1 and a stopper wheel seat 2, wherein the rubber ring 1 is sleeved on the stopper wheel seat 2. At present, the assembly of the detent wheel is usually in a flow line installation mode, but after the detent wheel is assembled, workers still need to manually transfer the detent wheel out, and the defect that the operation of collecting the detent wheel is complex exists.

SUMMERY OF THE UTILITY MODEL

In order to reduce the operation degree of difficulty of collecting the locking wheel, this application provides a locking wheel discharging device.

The application provides a stop wheel discharging device adopts following technical scheme:

a stopping wheel discharging device comprises a base, a driving turntable and a blowing device, wherein the driving turntable is connected to the base in a rotating mode, the blowing device is fixedly connected to the base, a plurality of installation stations used for assembling stopping wheels are arranged on the driving turntable, and the blowing device always forces the stopping wheels on the installation stations to blow to specified positions.

By adopting the technical scheme, after the stop wheel is assembled, the driving rotary disc firstly transfers the mounting station provided with the stop wheel to the blowing device, and at the moment, the blowing device directly blows the stop wheel, so that the stop wheel is blown to a stop area, the operation of manually collecting the stop wheel by workers is omitted, and the operation difficulty of collecting the stop wheel is effectively reduced.

Optionally, a placing groove for accommodating the locking wheel is formed in the mounting station.

Through adopting above-mentioned technical scheme, because the setting of standing groove, so when the drive carousel drives the installation station that is equipped with the locking wheel and rotates, the cell wall of standing groove can last to carry on spacingly to the locking wheel, effectively reduces the locking wheel and breaks away from the possibility of installation station in advance, indirectly reduces the operation degree of difficulty of collecting the locking wheel.

Optionally, the tank bottom of standing groove slides and is connected with the knock-out lever, the upper end of knock-out lever all the time with the locking wheel butt.

By adopting the technical scheme, due to the arrangement of the placing groove, when the stop wheel is blown out, the groove wall of the placing groove can limit the collection of the stop wheel. And a plurality of tank bottoms of standing groove slide and connect the knock-out lever, when needing to blow off the locking wheel drive carousel, the staff can control the knock-out lever and upwards slide to break away from the standing groove with the locking wheel, effectively reduce the degree of difficulty that blows off the locking wheel, indirectly reduce the operation degree of difficulty of collecting the locking wheel.

Optionally, an ejection cylinder is fixedly connected to the base, and an output end of the ejection cylinder is always abutted to the lower end of the ejection rod.

Through adopting above-mentioned technical scheme, when needs control ejector pin upwards slided, the staff can open ejection cylinder, and ejection cylinder forces ejector pin upwards to slide automatically, effectively reduces the control degree of difficulty to ejector pin, indirectly reduces the operation degree of difficulty of collecting the locking wheel.

Optionally, a sliding hole is formed in the bottom of the placing groove in a penetrating manner, and the ejector rod is connected in the sliding hole in a sliding manner; the lower end of the ejector rod is provided with a limiting rope ring, and the outer diameter of the limiting rope ring is larger than the aperture of the sliding hole.

Through adopting above-mentioned technical scheme, because the lower extreme of knock-out lever is provided with spacing becket bridle, and the external diameter of spacing becket bridle is greater than the aperture in the hole that slides, so when ejecting cylinder drives knock-out lever upwards to slide, spacing becket bridle can restrict the removal of knock-out lever to effectively reduce the possibility that knock-out lever breaks away from the hole that slides completely, indirectly reduce the operation degree of difficulty of collecting the locking wheel.

Optionally, the outer peripheral face of the ejector rod is provided with a plurality of limiting blocks, a plurality of limiting grooves are formed in the groove bottoms of the placing grooves, the limiting grooves are communicated with the sliding holes, and the limiting blocks are connected in the limiting grooves in a sliding mode all the time.

Through adopting above-mentioned technical scheme, because the outer peripheral face of ejector rod is provided with the stopper, and the stopper slides all the time and connects in the spacing inslot, so when ejecting cylinder contracts, the ejector rod can directly reset through gravity to impel the ejector rod to carry out the assembly line ejecting to the locking wheel, indirectly reduce the operation degree of difficulty of collecting the locking wheel.

Optionally, the blowing device comprises a rack, an inductor and an air nozzle, the rack is fixedly connected to the base, the inductor and the air nozzle are fixedly connected to the rack, and when the inductor induces the stopping wheel, the inductor drives the air nozzle to blow air to the stopping wheel.

Through adopting above-mentioned technical scheme, when the installation station who is equipped with the locking wheel shifts to the position of inductor, the inductor alright order to order about the air nozzle to blow to the locking wheel to save the operation that the staff manual control air nozzle blown, further reduce the operation degree of difficulty of collecting the locking wheel.

Optionally, the frame includes reciprocal anchorage's response frame and guide board, guide board fixed connection is on the base, the equal fixed connection of inductor and air nozzle is on the response frame, the air nozzle with the locking wheel blow to the guide board, the guide board guides the locking wheel to the assigned position.

Through adopting above-mentioned technical scheme, when the air nozzle blows off the locking wheel from the installation station, the locking wheel shifts to guide board department at first, and the guide board leads the locking wheel and finally all shifts to the assigned position, and then effectively reduces the operation degree of difficulty of collecting the locking wheel.

Optionally, limiting plates are symmetrically arranged on two sides of the guiding plate, and the two limiting plates gradually incline to two sides in the direction close to the air nozzle.

Through adopting above-mentioned technical scheme, because the setting of limiting plate, so shift the in-process on the guide board at the locking wheel, the limiting plate can last carry on spacingly to the locking wheel, effectively reduces the locking wheel from the possibility of guide board departure, further reduces the operation degree of difficulty of collecting the locking wheel.

Optionally, a long waist hole is formed in the induction frame in a penetrating mode, an adjusting bolt is arranged in the long waist hole, and the adjusting bolt penetrates through the long waist hole and is fixedly connected with the inductor.

Through adopting above-mentioned technical scheme, when needs are installed the inductor, the staff can adjust the position of inductor through long waist hole to make the inductor can accurately sense the locking wheel, indirectly reduce the operation degree of difficulty of collecting the locking wheel.

In summary, the present application includes at least one of the following beneficial technical effects:

1. when the driving turntable transfers the mounting station provided with the stopping wheel to the blowing device, the blowing device directly blows air to the stopping wheel and blows the stopping wheel to a stopping area, so that the operation difficulty of collecting the stopping wheel is effectively reduced;

2. when the locking wheel needs to be blown out of the driving turntable, a worker can control the ejection rod to slide upwards, so that the locking wheel is separated from the placing groove, and the operation difficulty of collecting the locking wheel is indirectly reduced;

3. when the mounting station provided with the stopping wheel is transferred to the position of the sensor, the sensor can drive the air nozzle to blow air to the stopping wheel, and the operation difficulty of collecting the stopping wheel is further reduced.

Drawings

Fig. 1 is a schematic view showing a structure of a stopper wheel of a vacuum cleaner in the related art.

FIG. 2 is a schematic view of the structure of the stopping wheel discharging device.

FIG. 3 is an exploded view of the insufflation apparatus.

Fig. 4 is an exploded schematic view of the installation station.

Description of reference numerals: 1. a rubber ring; 2. a locking wheel seat; 3. a base; 4. driving the turntable; 5. a blowing device; 41. installing a station; 42. ejecting the rod; 43. ejecting out the cylinder; 44. a limiting rope ring; 45. a limiting block; 46. a spring seat; 47. a spring; 51. a frame; 52. an inductor; 53. an air nozzle; 411. a placement groove; 412. a sliding hole; 413. a limiting groove; 511. an induction frame; 512. a guide plate; 513. a limiting plate; 5111. a long waist hole; 5112. and adjusting the bolt.

Detailed Description

The present application is described in further detail below with reference to figures 2-4.

The embodiment of the application discloses a stop wheel discharging device. Referring to fig. 2 and 3, the stopping wheel discharging device comprises a base 3, a driving turntable 4 and a blowing device 5, wherein the driving turntable 4 is rotatably connected to the upper end surface of the base 3, and a plurality of mounting stations 41 for mounting the stopping wheels are arranged on the driving turntable 4. The air blowing device 5 is fixedly connected to the upper end face of the base 3, and the air blowing device 5 always forces the stop wheel on the mounting station 41 to blow to a specified position.

It should be noted that, in the present embodiment, the driving dial 4 is rotated by the cam divider, but in other embodiments, the driving dial 4 may also be rotated by the rotary cylinder. In addition, in the present embodiment, four mounting stations 41 are provided, and the four mounting stations 41 are circumferentially and uniformly arranged on the upper end surface of the driving turntable 4 at intervals around the center of the driving turntable 4.

The structure of the air blowing device 5 is specifically as follows:

referring to fig. 3, the blowing device 5 includes a frame 51, a sensor 52 and an air nozzle 53, and the frame 51 includes a sensing frame 511 and a guiding plate 512 fixed to each other, wherein the guiding plate 512 is fixedly connected to the upper end surface of the base 3, and the sensor 52 and the air nozzle 53 are both fixedly connected to the sensing frame 511.

When the mounting station 41 with the stopping wheel is transferred to the position of the sensor 52, the sensor 52 drives the air nozzle 53 to blow air toward the stopping wheel, thereby blowing the stopping wheel toward the guide plate 512, and the guide plate 512 collects and transfers the stopping wheel to a designated position.

In order to reduce the possibility of the stopping wheels deviating from the guiding plate 512, in this embodiment, the limiting plates 513 are fixedly connected to both sides of the guiding plate 512, and the limiting plates 513 are gradually inclined to both sides toward the air nozzle 53, so that the limiting plates 513 can inwardly converge the stopping wheels during the process of transferring the stopping wheels to the guiding plate 512.

In addition, in the embodiment, a long waist hole 5111 is formed through the side wall of the induction frame 511, an adjusting bolt 5112 is disposed in the long waist hole 5111, and the adjusting bolt 5112 is formed through the long waist hole 5111 and fixedly connected to the inductor 52, so that when the inductor 52 is installed, the position of the inductor 52 can be adjusted through the long waist hole 5111.

Referring to fig. 2 and 4, when the driving turret 4 transfers the detent wheel through the mounting station 41, the detent wheel is easily thrown out at the time of transfer since a centrifugal force is generated by the rotation of the driving turret 4. In this embodiment, in order to reduce the possibility that the detent wheel is thrown out, the upper end surface of the mounting station 41 is provided with a placing groove 411, and then when the detent wheel is transferred, the groove wall of the placing groove 411 can continuously limit the detent wheel.

However, it is easy to see that, due to the arrangement of the placing slot 411, when the air nozzle 53 blows air to the stopping wheel, the groove wall of the placing slot 411 may also obstruct the collection of the stopping wheel. Therefore, in the present embodiment, a sliding hole 412 is formed through the bottom of the placing slot 411, the ejecting rod 42 is connected to the sliding hole 412 in a sliding manner, the ejecting cylinder 43 is fixedly connected to the upper end surface of the base 3, the upper end of the ejecting rod 42 is always abutted against the stop wheel, and the lower end of the ejecting rod 42 is always abutted against the ejecting cylinder 43.

When the mounting station 41 with the stop wheels is transferred to the position of the air nozzle 53, the ejection cylinder 43 can drive the ejection rod 42 to extend upwards, the ejection rod 42 drives the stop wheels to be separated from the placing groove 411, and then the air nozzle 53 can blow air to the stop wheels, so that the obstruction of the groove walls of the placing groove 411 to the collection of the stop wheels is reduced.

With continued reference to fig. 2 and 4, the lower end of the ejector rod 42 is sleeved with the limiting rope ring 44, and the outer diameter of the limiting rope ring 44 is larger than the aperture of the sliding hole 412, so that when the ejector cylinder 43 drives the ejector rod 42 to eject upwards, the limiting rope ring 44 can limit the movement of the ejector rod 42, thereby reducing the possibility that the ejector rod 42 is completely separated from the sliding hole 412.

The outer peripheral face of the upper end of ejector rod 42 is provided with a plurality of stopper 45, and a plurality of spacing grooves 413 have been seted up to the tank bottom of standing groove 411, and spacing groove 413 and the hole 412 of sliding communicate with each other, and stopper 45 slides all the time and connects in spacing groove 413 to when ejecting cylinder 43 draws in, ejector rod 42 can not break away from the hole 412 of sliding downwards completely yet.

In order to reduce the possibility that the ejector rod 42 is completely separated from the sliding hole 412 downward, in the present embodiment, the limiting groove 413 is disposed through, and the lower end surface of the installation station 41 is fixedly connected with the spring seat 46. A spring 47 is arranged in the spring seat 46, one end of the spring 47 abuts against the spring seat 46 at one side close to the installation station 41, and the other end of the spring 47 is fixedly connected with the limiting block 45.

When the ejecting cylinder 43 is closed, the spring 47 drives the ejecting rod 42 to slide downwards through the limiting block 45, and then the ejecting rod 42 is reset. Meanwhile, the spring 47 can also limit the downward movement of the ejection rod 42, thereby effectively reducing the possibility that the ejection rod 42 is completely separated from the sliding hole 412.

In other embodiments, the limiting groove 413 may be provided without penetrating through the limiting groove, and when the ejecting cylinder 43 is folded, the ejecting rod 42 automatically slides downwards under the action of gravity, so as to complete the resetting of the ejecting rod 42. The bottom of the limiting groove 413 limits the downward movement of the ejector rod 42 through the limiting block 45, so that the possibility that the ejector rod 42 is completely separated from the sliding hole 412 is effectively reduced.

In this embodiment, the fixing connection may be implemented by a conventional fixing connection manner such as integral molding, welding, bolt fixing, screw thread connection, and clamping.

The implementation principle of the stop wheel discharging device in the embodiment of the application is as follows:

when the mounting station 41 with the detent wheel is transferred to the position of the sensor 52 by the driving turntable 4, the ejecting cylinder 43 first drives the ejecting rod 42 to eject upward, thereby disengaging the detent wheel from the placement slot 411. The sensor 52 then drives the air nozzle 53 to blow air to the stopping wheel, and the stopping wheel is transferred to the guide plate 512 under the guiding action of the limit plate 513, and the guide plate 512 collects and finally transfers the stopping wheel to a designated position.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (10)

1. A stop wheel discharging device is characterized in that: the automatic locking device is characterized by comprising a base (3), a driving turntable (4) connected to the base (3) in a rotating mode and a blowing device (5) fixedly connected to the base (3), wherein a plurality of installation stations (41) used for assembling locking wheels are arranged on the driving turntable (4), and the blowing device (5) always forces the locking wheels on the installation stations (41) to blow to an appointed position.

2. The stop wheel outfeed device of claim 1, wherein: and a placing groove (411) for accommodating the stop wheel is formed in the mounting station (41).

3. The stop wheel outfeed device of claim 2, wherein: the tank bottom of standing groove (411) slides and is connected with knock-out pole (42), the upper end of knock-out pole (42) all the time with the locking wheel butt.

4. The stop wheel outfeed device of claim 3, wherein: the base (3) is fixedly connected with an ejection cylinder (43), and the output end of the ejection cylinder (43) is always abutted against the lower end of the ejection rod (42).

5. The stop wheel outfeed device of claim 3, wherein: a sliding hole (412) penetrates through the bottom of the placing groove (411), and the ejector rod (42) is connected in the sliding hole (412) in a sliding manner; the lower end of the ejection rod (42) is provided with a limiting rope ring (44), and the outer diameter of the limiting rope ring (44) is larger than the aperture of the sliding hole (412).

6. The stop wheel outfeed device of claim 5, wherein: the outer peripheral face of ejector rod (42) is provided with a plurality of stopper (45), a plurality of spacing grooves (413) have been seted up to the tank bottom of standing groove (411), spacing groove (413) with hole (412) intercommunication slides each other, stopper (45) slide all the time connect in spacing groove (413).

7. The stop wheel outfeed device of claim 1, wherein: the blowing device (5) comprises a rack (51), an inductor (52) and an air nozzle (53), wherein the rack (51) is fixedly connected to the base (3), the inductor (52) and the air nozzle (53) are fixedly connected to the rack (51), and when the inductor (52) induces the stopping wheel, the inductor (52) drives the air nozzle (53) to blow air to the stopping wheel.

8. The stop wheel outfeed device of claim 7, wherein: frame (51) are including mutual fixed response frame (511) and guide board (512), guide board (512) fixed connection is on base (3), inductor (52) and the equal fixed connection of air nozzle (53) are on response frame (511), air nozzle (53) will stop the wheel blow to guide board (512), guide board (512) will stop the wheel and guide to assigned position.

9. The stop wheel outfeed device of claim 8, wherein: limiting plates (513) are symmetrically arranged on two sides of the guide plate (512), and the two limiting plates (513) gradually incline to two sides in the direction close to the air nozzle (53).

10. The stop wheel outfeed device of claim 8, wherein: the induction frame (511) is provided with a long waist hole (5111) in a penetrating manner, an adjusting bolt (5112) is arranged in the long waist hole (5111), and the adjusting bolt (5112) penetrates through the long waist hole (5111) and is fixedly connected with the inductor (52).

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