CN215478140U - Efficient nut loading attachment - Google Patents

Abstract

The utility model discloses a high-efficiency nut feeding device, which aims at the problem of low nut feeding efficiency and provides the following technical scheme, wherein the nut feeding device comprises a nut feeding mechanism for orderly taking out nuts and a feeding mechanism connected with the nut feeding mechanism, wherein the feeding mechanism comprises a sliding feeding assembly, is connected with the nut feeding mechanism and is used for conveying the nuts; the feeding platform is arranged below the sliding feeding assembly and used for receiving the nuts; the first pushing assembly and the second pushing assembly are connected to the feeding platform in a sliding mode and used for limiting the nut and pushing the nut to a machining station; the transmission assembly is arranged on the feeding platform and connected with the first pushing assembly and the second pushing assembly; and the driving assembly is fixed on the feeding platform and used for driving the first pushing assembly and the second pushing assembly to move. The driving assembly can drive the first pushing assembly and the second pushing assembly to move alternately to convey the nut to the machining station.

Description

Efficient nut loading attachment

Technical Field

The utility model relates to the technical field of technological equipment, in particular to a high-efficiency nut feeding device.

Background

But vibration dish automatic feed among the current prior art, nevertheless do not have the automation equipment of nut feed and material loading that corresponds with vibration dish, the material loading of nut generally is through artifical material loading, and the shortcoming of manual feeding operation is that intensity of labour is big, produce fatigue, production efficiency low easily.

At present, chinese patent application No. 201210115451.0 discloses a nut feeding mechanism, which includes a nut feeding device having a feeding passage extending in a first direction; a pusher apparatus, comprising: the material pushing channel comprises a first material pushing channel section extending along the second direction, and the first end of the first material pushing channel section is communicated with the feeding channel; the pushing component is matched with the first pushing channel section so as to push the nut positioned in the first pushing channel section along the second direction; the pushing driving device is in driving connection with the pushing component; the magazine is arranged at the second end of the first material pushing channel section, a nut accommodating groove is formed in the magazine, and the nut accommodating groove is provided with a position communicated with the second end of the first material pushing channel section. The nut feeding device conveys the nuts to the first end of the material pushing channel through the feeding channel, the material pushing component pushes the nuts in place to the material box at the second end of the material pushing channel, and the material pushing component returns to the original position to wait for the next nut to be in place.

Although the conventional manual feeding mode is replaced by the nut feeding mechanism, the number of the conveyed nuts is small, the pushing component can operate only by waiting for the nut feeding device to push the nuts to the pushing channel, the pushing component pushes the nuts to the material box and then returns to the initial position to be ready for pushing the next nut, and only one nut can be pushed by the pushing component once in a reciprocating mode, so that the problem of low working efficiency exists.

SUMMERY OF THE UTILITY MODEL

Aiming at the defects in the prior art, the utility model aims to provide a high-efficiency nut feeding device which has the advantage of high working efficiency.

In order to achieve the purpose, the utility model provides the following technical scheme:

the utility model provides an efficient nut loading attachment, including be used for with the nut feed mechanism that the nut takes out in order, with nut feed mechanism connects the feeding mechanism who is used for transporting nut to processing station, feeding mechanism includes

The sliding feeding assembly is connected to the nut feeding mechanism and used for conveying the nuts;

the feeding platform is arranged below the sliding feeding assembly and used for receiving the nuts;

the first pushing assembly and the second pushing assembly are connected to the feeding platform in a sliding mode and used for pushing the nuts to the machining station;

the transmission assembly is arranged on the feeding platform, is connected with the first pushing assembly and the second pushing assembly and is linked with the first pushing assembly and the second pushing assembly to push the nuts alternately;

and the driving assembly is fixed on the feeding platform and used for driving the first pushing assembly and the second pushing assembly to move.

Adopt above-mentioned technical scheme, nut feed mechanism can be with orderly the taking out of nut, slip pay-off subassembly coupling nut feed mechanism is used for transporting the nut, the pay-off platform sets up and is used for accepting the nut that is transported by the slip pay-off subassembly in slip pay-off subassembly below, first promotion subassembly and second promote the subassembly and can carry out spacing and propelling movement nut to processing station with the nut, the transmission assembly who connects first promotion subassembly and second promotion subassembly can link first promotion subassembly and second promotion subassembly and transport the nut in turn, make the nut in proper order and continuous transport processing station, every round trip movement of promotion subassembly once can push away two nuts to processing station, the efficiency of nut material loading has been improved, the drive assembly can drive first promotion subassembly and second promotion subassembly and remove.

Further, the transmission assembly comprises a transmission gear which is rotatably connected to the feeding platform and meshed with the first pushing assembly and the second pushing assembly.

By adopting the technical scheme, the transmission gear is connected with the first pushing assembly and the second pushing assembly and can be linked with the first pushing assembly and the second pushing assembly to alternately push the nut to the machining station.

Furthermore, the first pushing assembly comprises a first nut pushing channel and a first push rod, the first nut pushing channel is fixed on the feeding platform and connected with the sliding feeding assembly, the first push rod is connected with the first nut pushing channel in a sliding mode and used for pushing nuts to a machining station, and the first push rod is provided with a rack and meshed with the transmission gear.

By adopting the technical scheme, the first nut pushing channel can limit the nuts conveyed by the sliding feeding assembly, the first push rod is connected with the first nut pushing channel in a sliding mode, and the first push rod can convey the nuts of the first nut pushing channel to the machining station.

Furthermore, the second pushing assembly comprises a second nut pushing channel and a second push rod, the second nut pushing channel is fixed on the feeding platform and connected with the sliding feeding assembly, the second push rod is connected with the second nut pushing channel in a sliding mode and used for pushing nuts to the machining station, and the second push rod is provided with a rack and is meshed with the transmission gear.

By adopting the technical scheme, the second nut pushing channel can limit the nuts conveyed by the sliding feeding assembly, the second push rod is connected with the second nut pushing channel in a sliding mode, and the second push rod can convey the nuts of the second nut pushing channel to the machining station.

Furthermore, the sliding feeding assembly comprises a nut sliding channel connected with the nut feeding mechanism and a blowing assembly arranged on the nut sliding channel and used for blowing the nuts to slide rapidly.

By adopting the technical scheme, the nut sliding channel is connected with the nut feeding mechanism, the nuts in the nut feeding mechanism can be conveyed to the feeding platform, the blowing assembly is arranged on the nut sliding channel, and the nuts in the nut sliding channel can be blown to the feeding platform.

Further, the air blowing assembly comprises a bracket fixed on the nut sliding channel and an air blowing gun fixed on the bracket and used for blowing the nut to slide rapidly.

By adopting the technical scheme, the air blow gun is fixed on the bracket fixed on the nut sliding channel, so that the air blow gun can work stably, and the accurate blowing nut moves along the nut sliding channel.

Furthermore, the top of the side wall of the nut sliding channel is provided with a limit baffle plate for preventing the nut from separating from the slideway.

By adopting the technical scheme, the limiting baffle can prevent the nut from falling off along the sliding process of the nut sliding channel.

Further, the driving assembly is a cylinder connected with the first pushing assembly.

By adopting the technical scheme, the cylinder is connected with the first pushing assembly and drives the second pushing assembly to alternately push the nut through the transmission assembly, the cylinder is simple to operate, the installation is convenient, and the work operation is stable.

In conclusion, the utility model has the following beneficial effects:

1. the transmission assembly is connected with the first pushing assembly and the second pushing assembly and is linked with the first pushing assembly and the second pushing assembly to alternately push the nuts to the machining station, so that the nut feeding efficiency is improved, and the nuts can be quickly conveyed to the machining station;

2. the blowing assembly is arranged on the nut sliding channel and can rapidly slide the blowing nut to the feeding platform along the nut sliding channel, so that the nut feeding efficiency is improved;

3. the cylinder is connected first promotion subassembly, and every round trip movement cycle of cylinder can transport two nuts through first propelling movement subassembly and second propelling movement subassembly, and cylinder easy operation, job stabilization.

Drawings

FIG. 1 is a schematic view of the overall structure of the embodiment;

FIG. 2 is a schematic structural view of a nut feeding mechanism in the embodiment;

FIG. 3 is a schematic structural view of a feeding structure in this embodiment;

fig. 4 is an operation diagram of this embodiment.

In the figure: 1. a nut feeding mechanism; 11. a cylindrical bin; 12. a double feed rail; 13. a vibrating device; 2. a feeding mechanism; 21. a sliding feeding component; 211. a nut sliding channel; 2111. a first nut sliding channel; 2112. a second nut sliding channel; 212. a blowing assembly; 2121. a support; 2122. an air blow gun; 213. a limit baffle; 22. a feeding platform; 23. a first pushing assembly; 231. a first nut pushing channel; 232. a first push rod; 24. a second pushing assembly; 241. a second nut pushing channel; 242. a second push rod; 25. a transmission assembly; 251. a gear shaft; 252. a transmission gear; 26. a drive assembly; 3. and a processing table.

Detailed Description

The present invention will be described in detail below with reference to the accompanying drawings and examples.

The present embodiment is only for explaining the present invention, and it is not limited to the present invention, and those skilled in the art can make modifications of the present embodiment without inventive contribution as needed after reading the present specification, but all of them are protected by patent law within the scope of the claims of the present invention.

The utility model provides an efficient nut loading attachment, as shown in figure 1 for the nut is transported to the processing station to carry out nut processing to the high efficiency is quick, including be used for carrying out nut feed mechanism 1 that takes out in order to the nut and with nut feed mechanism 1 is connected and is used for transporting nut to the feeding mechanism 2 of processing station, connects feeding mechanism 2 and is used for processing platform 3 of nut.

Specifically, as shown in fig. 2, the nut feeding mechanism 1 in this embodiment is a dual-rail vibrating tray, and includes a cylindrical bin 11 for storing nuts, a dual feeding rail 12 connected to the cylindrical bin 11 and installed spirally upward along the cylindrical bin 11, and a powered vibrating device 13, where the vibrating device 13 is located at the bottom of the cylindrical bin 11, so that the nuts are moved spirally upward along the dual feeding rail 12 by the cylindrical bin 11 under the action of the vibrating device 13.

As shown in fig. 3, the feeding mechanism 2 includes a sliding feeding assembly 21 connected to the dual feeding rail 12 (see fig. 2) for conveying the nuts, a feeding platform 22 installed below the sliding feeding assembly 21 for receiving the nuts, a first pushing assembly 23 and a second pushing assembly 24 slidably connected to the feeding platform 22 for limiting the nuts and pushing the nuts to the processing station, a transmission assembly 25 installed on the feeding platform 22 and connected to the first pushing assembly 23 and the second pushing assembly 24 for linking the first pushing assembly 23 and the second pushing assembly 24 to push the nuts alternately, and a driving assembly 26 fixed to the feeding platform 22 for driving the first pushing assembly 23 and the second pushing assembly 24 to move.

As shown in fig. 3, the sliding feed assembly 21 includes a nut sliding channel 211 connected to the dual feeding rail 12 for conveying nuts, and a blowing assembly 212 connected to the nut sliding channel 211 for blowing nuts to slide rapidly, the other end of the nut sliding channel 211 is connected to the pushing feed assembly and is lower than the end connected to the dual feeding rail 12, so that nuts can slide from the end connected to the dual feeding rail 12 to the pushing feed assembly through the nut sliding channel 211 under the action of gravity, a limit baffle 213 is installed on the top of the sidewall of the nut sliding channel 211 along the nut sliding channel 211, the limit baffle 213 is attached to the upper surface of the nuts to prevent the nuts from falling off the slide track when sliding along the nut sliding channel 211, the nut sliding channels 211 are divided into two groups, including a first nut runner 2111 coupled to first pusher assembly 23 for carrying nuts, and a second nut runner 2112 coupled to second pusher assembly 24 for carrying nuts.

As shown in fig. 3, the air blowing assembly 212 includes a bracket 2121 fixed to the nut sliding passage 211, and an air blower 2122 fixedly connected to the bracket 2121 and capable of blowing the nut to slide along the nut sliding passage 211 rapidly by controlling the air blowing size through an air valve, wherein the air blower 2122 passes through the bracket 2121, and the muzzle faces the direction in which the nut slides along the nut sliding passage 211, so as to ensure that the nut can slide on the nut sliding passage 211 rapidly by the air blower 2122.

As shown in fig. 3, the feeding platform 22 is a square platform fixed on the ground, the first pushing assembly 23 includes a first nut pushing slideway and a first pushing rod 232, the first nut pushing channel 231 is installed on the feeding platform 22 and extends to the processing station, the width of the first nut pushing channel 231 is the same as that of the nut to ensure that just one nut is accommodated, the first nut sliding channel 2111 is perpendicular to the first nut pushing channel 231, the first nut sliding channel 2111 penetrates through a through hole on the side wall of the first nut pushing channel 231 to connect with the first nut pushing channel 231, the first pushing rod 232 is slidably connected to the first nut pushing channel 231 for pushing the nut to the processing station, and the first pushing rod 232 is provided with a rack and connected with the transmission assembly 25.

As shown in fig. 3, the second pushing assembly 24 includes a second nut pushing slideway and a second push rod 242, the second nut pushing channel 241 is installed on the feeding platform 22 and extends to the processing station, the width of the second nut pushing channel 241 is the same as the width of the nut to ensure that just one nut is accommodated, the second nut sliding channel 2112 is perpendicular to the second nut pushing channel 241, the second nut sliding channel 2112 passes through the through hole on the side wall of the second nut pushing channel 241 and is connected to the second nut pushing channel 241, the second push rod 242 is slidably connected to the second nut pushing channel 241 and is used for pushing the nut to the processing station, and the second push rod 242 is installed with the rack and is connected to the transmission assembly 25.

As shown in fig. 3, the transmission assembly 25 includes a gear rotating shaft 251 fixed to the feeding platform 22 between the first push rod 232 and the second push rod 242, and a transmission gear 252 rotatably connected to the gear rotating shaft 251, wherein the transmission gear 252 is engaged with the first push rod 232 and the second push rod 242.

As shown in fig. 3, the driving assembly 26 includes an air cylinder fixed to the feeding platform 22 and connected to the first push rod 232, and the air cylinder drives the first push rod 232 and drives the second push rod 242 to alternately push the nut to the processing station through a transmission gear 252.

The working process and principle of the embodiment are as follows:

as shown in fig. 4, nuts are placed in the cylindrical bin 11, under the action of the vibrating device 13, the nuts move upwards through the cylindrical bin 11 along the dual feeding rails 12 and arrange the nuts in order, the dual feeding rails 12 connect the first nut sliding channel 2111 and the second nut sliding channel 2112, when the nuts move to the nut sliding channel 211, the nuts slide along the nut sliding channel 211 under the action of gravity, at the same time, the air blowing gun 2122 exhausts air to push the nuts to slide out of the nut sliding channel 211 and convey the nuts to the first nut pushing channel 231, at this time, the air cylinder 26 is started, the air cylinder 26 drives the first push rod 232 to push the nuts to slide along the first nut pushing channel 231 to the processing station of the processing station 3, and at the same time, the transmission gear 252 drives the second push rod 242 to move reversely along the second nut pushing channel 241 until the nuts of the second nut sliding channel 2112 slide to the second nut pushing channel 241, the cylinder 26 drives the first push rod 232 to move towards the initial position, the transmission gear 252 drives the second push rod 242 to push the nuts to slide to the processing stations of the processing table 3 along the second nut pushing channel 241, and the cylinder 26 can push two nuts to the processing stations once when moving back and forth, so that the nut feeding efficiency is improved.

The above description is only a preferred embodiment of the present invention, and the protection scope of the present invention is not limited to the above embodiments, and all technical solutions belonging to the idea of the present invention belong to the protection scope of the present invention. It should be noted that modifications and embellishments within the scope of the utility model may occur to those skilled in the art without departing from the principle of the utility model, and are considered to be within the scope of the utility model.

Claims (8)

1. The utility model provides an efficient nut loading attachment, including be used for with nut feed mechanism (1) that the nut took out in order, with nut feed mechanism (1) is connected and is used for transporting feeding mechanism (2) of nut to processing station, its characterized in that: the feeding mechanism (2) comprises

The sliding feeding assembly (21) is connected to the nut feeding mechanism (1) and is used for conveying nuts;

the feeding platform (22) is arranged below the sliding feeding assembly (21) and is used for receiving the nuts;

the first pushing assembly (23) and the second pushing assembly (24) are connected to the feeding platform (22) in a sliding mode and used for pushing the nuts to the machining station;

the transmission component (25) is arranged on the feeding platform (22) and connected with the first pushing component (23) and the second pushing component (24) to link the first pushing component (23) and the second pushing component (24) to push the nuts alternately;

and the driving component (26) is fixed on the feeding platform (22) and is used for driving the first pushing component (23) and the second pushing component (24) to move.

2. The high efficiency nut feeding apparatus of claim 1, wherein: the transmission assembly (25) comprises a transmission gear (252) which is rotatably connected to the feeding platform (22) and meshed with the first pushing assembly (23) and the second pushing assembly (24).

3. The high efficiency nut feeding apparatus of claim 2, wherein: the first pushing assembly (23) comprises a first nut pushing channel (231) fixed on the feeding platform (22) and connected with the sliding feeding assembly (21), and a first push rod (232) connected with the first nut pushing channel (231) in a sliding mode and used for pushing nuts to a machining station, and the first push rod (232) is provided with a rack and meshed with the transmission gear (252).

4. The high efficiency nut feeding apparatus of claim 3, wherein: the second pushing assembly (24) comprises a second nut pushing channel (241) fixed on the feeding platform (22) and connected with the sliding feeding assembly (21), and a second push rod (242) connected to the second nut pushing channel (241) in a sliding mode and used for pushing nuts to a machining station, and the second push rod (242) is provided with a rack and meshed with the transmission gear (252).

5. The high efficiency nut feeding apparatus as claimed in any one of claims 1 to 4, wherein: the sliding feeding assembly (21) comprises a nut sliding channel (211) connected with the nut feeding mechanism (1) and a blowing assembly (212) connected to the nut sliding channel (211) and used for blowing nuts to slide rapidly.

6. The high efficiency nut feeding apparatus of claim 5, wherein: the blowing assembly (212) includes a bracket (2121) fixed to the nut sliding passage (211), and a blowing gun (2122) fixed to the bracket (2121) for blowing the nut to slide rapidly.

7. The high efficiency nut feeding apparatus of claim 5, wherein: and a limiting baffle (213) for preventing the nut from being separated from the slide way is arranged at the top of the side wall of the nut sliding channel (211).

8. The high efficiency nut feeding apparatus of claim 2, wherein: the driving assembly (26) is a cylinder connected with the first pushing assembly (23).

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