CN211768553U - Vibration feeding device for lifting handle - Google Patents

Abstract

The utility model discloses a vibration loading attachment for handle, include: the inner disc is internally provided with a material storage cavity, a first feeding guide plate is arranged around the inner side wall of the inner disc, a second feeding guide plate is arranged around the outer side wall of the inner disc, and the side wall of the inner disc is provided with a communication port so that the first feeding guide plate is communicated with the second feeding guide plate; the device also comprises a material selecting plate, a vibrator and an outer disc; the second feeding guide plate is provided with a material selecting section, the width of the material selecting section is matched with the width of the lifting handle, a first notch and a second notch are arranged at two ends of the material selecting section along the conveying direction, and the length of the first notch is smaller than that of the second notch; the handle is through twice screening, realizes the automatic unified backward ejection of compact of orientation to the handle, and convenient subsequent process assembles the handle, avoids appearing the misloading problem, greatly improves production efficiency and production quality.

Description

Vibration feeding device for lifting handle

Technical Field

The utility model relates to a charging equipment technical field, in particular to a vibration loading attachment for handle.

Background

Some plastic bottles with larger capacity, such as soy sauce bottles, mineral water bottles, oil bottles, etc., have a handle designed to facilitate the use. The two ends of the existing handle are different, and as shown in the figure, the handle needs to be assembled on a plastic bottle in the production process, and the directions of the two ends of the handle need to be distinguished; the handle is often carried out the material loading to the manual work in the production process, and the workman puts the orientation of handle and appears distinguishing the mistake easily among the material loading process, leads to taking place the assembly mistake, seriously influences production quality and production efficiency.

SUMMERY OF THE UTILITY MODEL

The utility model discloses aim at solving one of the technical problem that exists among the prior art at least. Therefore, the utility model provides a vibration loading attachment for handle can unify the handle towards the ejection of compact of same direction automatically.

According to the utility model discloses a vibration loading attachment for handle of first aspect embodiment, include: the inner disc is internally provided with a material storage cavity, a first feeding guide plate is arranged around the inner side wall of the inner disc, a second feeding guide plate is arranged around the outer side wall of the inner disc, and the side wall of the inner disc is provided with a communication port so that the first feeding guide plate is communicated with the second feeding guide plate; the material selecting plate is positioned above the first feeding guide plate, is arranged along the inner side wall of the inner disc in a surrounding and inclined mode, the feeding end of the material selecting plate is connected to the plate surface of the first feeding guide plate along the conveying direction, and is provided with a profiling section with gradually narrowed width; the vibrator is connected with the inner disc; an outer disc installed at the periphery of the inner disc; the second feeding guide plate is provided with a material selecting section, the width of the material selecting section is matched with the width of the lifting handle, a first notch and a second notch are arranged at two ends of the material selecting section along the conveying direction, and the length of the first notch is smaller than that of the second notch.

According to the utility model discloses a vibration loading attachment for handle has following beneficial effect at least: the handle is through twice screening, realizes the automatic unified backward ejection of compact of orientation to the handle, and convenient subsequent process assembles the handle, avoids appearing the misloading problem, greatly improves production efficiency and production quality.

According to some embodiments of the present invention, the front section of the profiling section is set to an arc shape with a gradually decreasing arc degree along the conveying direction, and the rear section of the profiling section is set to a tapered shape.

According to some embodiments of the utility model, be equipped with a plurality of on the selection board the selection section.

According to some embodiments of the utility model, along the direction of transportation second pay-off baffle divide into the feeding section select material section and ejection of compact section, the feeding section with the outside of ejection of compact section is equipped with the baffle.

According to some embodiments of the utility model, go out the material section and be equipped with the selection mouth, follow the direction of transportation the front end of selection mouth is equipped with the flange of backward extension, is located the upper front side of flange be equipped with the thimble on the baffle, the thimble orientation the lateral wall direction bending of inner disc is the arc.

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

Drawings

The above and/or additional aspects and advantages of the present invention will become apparent and readily appreciated from the following description of the embodiments, taken in conjunction with the accompanying drawings of which:

fig. 1 is a schematic structural diagram of the present invention;

fig. 2 is a schematic diagram of the inner plate structure of the present invention;

FIG. 3 is a schematic view of the material selecting plate of the present invention;

fig. 4 is a schematic structural view of a second feeding guide plate of the present invention;

fig. 5 is an enlarged view of a portion of the structure of fig. 4 according to the present invention;

fig. 6 is a schematic structural view of an embodiment of the handle of the present invention.

Detailed Description

Reference will now be made in detail to embodiments of the present invention, examples of which are illustrated in the accompanying drawings, wherein like reference numerals refer to the same or similar elements or elements having the same or similar function throughout. The embodiments described below with reference to the drawings are exemplary and intended to be used for explaining the present invention, and should not be construed as limiting the present invention.

Referring to fig. 1, 2, 3, 4 and 6, a vibratory loading apparatus for a handle includes: the inner disc 100 is internally provided with a material storage cavity 110, a first feeding guide plate 200 is arranged around the inner side wall of the inner disc 100, a second feeding guide plate 300 is arranged around the outer side wall of the inner disc 100, and the side wall of the inner disc 100 is provided with a communication port 120 so that the first feeding guide plate 200 is communicated with the second feeding guide plate 300; the material selecting plate 400 is positioned above the first feeding guide plate 200, is arranged along the inner side wall of the inner disc 100 in a surrounding and inclined manner, the feeding end of the material selecting plate 400 is connected to the plate surface of the first feeding guide plate 200 along the conveying direction, and the material selecting plate 400 is provided with a profiling section 410 with gradually narrowed width; a vibrator 500 connected to the inner tray 100; an outer disc 600 installed at the outer periphery of the inner disc 100; the second feeding guide plate 300 is provided with a material selecting section 310, the width of the material selecting section 310 is matched with the width of the handle 700, a first notch 311 and a second notch 312 are arranged at two ends of the material selecting section 310 along the conveying direction, and the length of the first notch 311 is smaller than that of the second notch 312.

In the handle 700 of this embodiment, as shown in fig. 6, the handle 700 includes a handle portion 710 and a connecting portion 720, a hollow handle cavity 730 is formed between the handle portion 710 and the connecting portion 720, and bayonets 740A and 740B with different opening sizes are formed at the connection positions of the two ends between the handle portion 710 and the connecting portion 720, wherein the opening size of the bayonets 740A is larger than that of the bayonets 740B; the outer side wall of the handle 710 is arc-shaped, and the radius R1 at the outer side surface of the handle 710 opposite to the bayonet 740A is larger than the radius R2 at the outer side surface of the handle 710 opposite to the bayonet 740B; the outer length of the handle portion 710 is greater than the inner length of the connecting portion 720, the center of gravity of the entire handle 700 is biased in the width direction toward the handle portion 710, and the center of gravity of the entire handle 700 is biased in the length direction toward the notch 740A.

When the feeding device works, the plurality of handles 700 are placed in the material storage cavity 110 of the inner disc 100, the vibrator 500 is started, and the vibrator 500 drives the inner disc 100 to vibrate together with the first feeding guide plate 200 and the second feeding guide plate 300; the width of the first feeding guide plate 200 is slightly larger than that of the handle 700, the handle 700 in the storage cavity 110 enters the first feeding guide plate 200 one by one through vibration, and the first feeding guide plate 200, the material selecting plate 400 and the second feeding guide plate 300 are transported in the direction of vibration. When the handle 700 enters the first feeding guide plate 200, the handle 700 is oriented in two ways, namely, the handle part 710 of the handle 700 faces the inner side wall of the inner tray 100, and the connecting part 720 of the handle 700 faces the inner side wall of the inner tray 100; the feeding end of the material selecting plate 400 is connected to the plate surface of the first feeding guide plate 200, the handle 700 is transported from the first feeding guide plate 200 to the material selecting plate 400, the profiling section 410 of the material selecting plate 400 is gradually narrowed in width, wherein the shape of the profiling segment 410 is arranged to follow the shape of the handle portion 710 of the handle 700, and the minimum width thereof is slightly larger than the position of the gravity center of the handle 700 in the width direction, when the handle 700 enters the selector plate 400 and passes through the profiling segment 410, the handle 700 facing the inner side wall of the inner tray 100 of the handle part 710 is supported by the profiling part, through the profiling sections 410 under vibration, the handle 700 facing the inner side wall of the inner tray 100 at the connecting part 720 is not supported by the profiling sections 410 at the center of gravity, such that the oriented handle 700 drops back out of the contoured section 410 into the magazine 110, that is, the material selecting plate 400 is used for the first screening to only allow the handle 700 of the handle part 710 facing the inner side wall of the inner disc 100 to pass through; the material selecting plate 400 is arranged along the inner side wall of the inner disc 100 in an upward surrounding and inclined manner, that is, the discharge end of the material selecting plate 400 is located above the first feeding guide plate 200, the handle 700 screened for the first time by the material selecting plate 400 falls back to the first feeding guide plate 200 from the discharge end of the material selecting plate 400 again, and the handle 700 passes through the communication port 120 and enters the second feeding guide plate 300 from the first feeding guide plate 200.

The handles 700 entering the second feeder guide 300 are all outer sidewalls with the handle portions 710 facing outward and the connecting portions 720 facing inward. In addition, the handle 700 entering the second feeding guide plate 300 is oriented in two ways, namely, the bayonet 740A of the handle 700 faces forward in the transporting direction, and the bayonet 740B of the handle 700 faces forward in the transporting direction. The gap of the material selecting section 310 extends and lacks from the outer side edge of the second feeding guide plate 300 to the outer side wall direction of the inner disc 100, the length of the first gap 311 is smaller than that of the second gap 312, the lengths of the first gap 311 and the second gap 312 are smaller than the protruding length of the handle part 710 at the bayonet 740B and larger than the protruding length of the handle part 710 at the bayonet 740A, and the plate length between the two gaps is slightly smaller than that of the handle holding cavity 730 of the handle 700; when the handle 700 passes through the material selecting section 310, if the current handle 700 is that the bayonet 740A is forward, the bayonet 740A of the handle 700 enters the second notch 312 through the first notch 311 along the transportation direction, and at this time, the support of the second feeding guide plate 300 is lost at one end corresponding to the bayonet 740A of the handle, and meanwhile, the center of gravity of the handle 700 is lost, so that the handle 700 is separated from the material selecting section 310 and falls into the outer tray 600; if the current handle 700 is that the bayonet 740B is forward, in the transportation direction, when the bayonet 740B of the handle 700 passes through the second notch 312, the gravity center of the handle 700 is always supported on the second feeding guide plate 300, so that the handle 700 facing the direction can be smoothly transported to the rear through the material selecting section 310 for discharging; the second sifting of the handle 700 is performed by the sifting section 310, i.e. the handle 700 is discharged with its bayonet 740B facing forward in the transport direction. Handle 700 realizes the automatic unified ejection of compact after orientation to handle 700 through twice screening, and convenient subsequent process assembles handle 700, avoids appearing the misloading problem, greatly improves production efficiency and production quality.

Referring to fig. 3, in some embodiments of the present invention, the front section of the profiling section 410 is set to be an arc shape with gradually decreasing radian along the conveying direction, and the rear section of the profiling section 410 is set to be a tapered shape, so as to profile the handle portion 710 of the handle 700, thereby satisfying the requirement of performing the first screening on the handle 700 with different orientations.

Referring to fig. 1, 2 and 4, in a further embodiment of the present invention, a plurality of material selecting sections 310 are disposed on the material selecting plate 400, and the material selecting sections 310 are screened through multiple sections, so as to ensure that the handle 700 is discharged in the same direction at last.

Referring to fig. 2 and 4, in some embodiments of the present invention, the second feeding guide plate 300 is divided into a feeding section 320, a material selecting section 310 and a discharging section 330 along the transportation direction, the feeding section 320 and the discharging section 330 are provided with a baffle 340 at the outside, and the baffle 340 is used to ensure that the handle 700 does not fall off during transportation of the feeding section 320 and the discharging section 330.

Referring to fig. 4 and 5, in a further embodiment of the present invention, the discharging section 330 is provided with a material selecting opening 350, a protruding plate 351 extending backwards is provided at the front end of the material selecting opening 350 along the transportation direction, a thimble 352 is provided on the baffle 340 located above and in front of the protruding plate 351, and the thimble 352 is curved towards the outer side wall of the inner disc 100 to form an arc shape; when the handle 700 passes through the material selecting port 350, the thimble 352 is connected to the upper end face of the handle 700 in an abutting mode, if the handle 700 with the forward bayonet 740A passes through the material selecting section 310, when the handle 700 enters the material selecting port 350, the thimble 352 loses the abutting mode on the upper end face of the handle section corresponding to the bayonet 740B, the handle 700 falls to the outer tray 600 from the material selecting port 350, the handle 700 is screened for the third time by using the material selecting port 350, and the handle 700 is strictly guaranteed to be discharged in the correct direction.

Although embodiments of the present invention have been shown and described, it is understood that the above embodiments are exemplary and should not be construed as limiting the present invention, and that variations, modifications, substitutions and alterations can be made to the above embodiments by those of ordinary skill in the art without departing from the scope of the present invention.

Claims (5)

1. A vibration loading attachment for a handle, comprising:

the inner disc (100) is internally provided with a material storage cavity (110), a first feeding guide plate (200) is arranged around the inner side wall of the inner disc (100), a second feeding guide plate (300) is arranged around the outer side wall of the inner disc (100), and the side wall of the inner disc (100) is provided with a communication port (120) so that the first feeding guide plate (200) is communicated with the second feeding guide plate (300);

the material selecting plate (400) is positioned above the first feeding guide plate (200), is arranged along the inner side wall of the inner disc (100) in a surrounding and inclined mode, the feeding end of the material selecting plate (400) is connected to the surface of the first feeding guide plate (200) along the conveying direction, and the material selecting plate (400) is provided with a profiling section (410) with gradually narrowed width;

a vibrator (500) connected to the inner tray (100);

an outer disc (600) mounted on the outer periphery of the inner disc (100);

the second feeding guide plate (300) is provided with a material selecting section (310), the width of the material selecting section (310) is matched with the width of the lifting handle (700), a first notch (311) and a second notch (312) are arranged at two ends of the material selecting section (310) along the conveying direction, and the length of the first notch (311) is smaller than that of the second notch (312).

2. A vibratory loading apparatus for a handle as set forth in claim 1 wherein: the front section of the profiling section (410) is set to be in an arc shape with gradually reduced radian along the conveying direction, and the rear section of the profiling section (410) is set to be in a necking shape.

3. A vibratory loading apparatus for a handle as set forth in claim 1 wherein: the material selecting plate (400) is provided with a plurality of material selecting sections (310).

4. A vibratory loading apparatus for a handle as set forth in claim 1 wherein: the second feeding guide plate (300) is divided into a feeding section (320), a material selecting section (310) and a discharging section (330) along the conveying direction, and baffle plates (340) are arranged on the outer sides of the feeding section (320) and the discharging section (330).

5. A vibratory loading device for a handle as set forth in claim 4 wherein: go out material section (330) and be equipped with material selection mouth (350), follow the direction of transportation the front end of material selection mouth (350) is equipped with flange (351) of backward extension, is located the preceding top of flange (351) be equipped with thimble (352) on baffle (340), thimble (352) orientation the lateral wall direction of inner disc (100) is crooked to be the arc.

Images