CN210593863U - Conveying rail device - Google Patents

Abstract

The utility model discloses a conveying track device, which comprises a plurality of parallel feeding mechanisms arranged at intervals and a feeding conveying mechanism arranged in one-to-one correspondence with the feeding mechanisms; each feeding and conveying mechanism comprises a plurality of conveying track mechanisms, each conveying track mechanism comprises an L-shaped track body, a plurality of air blowing modules arranged at the top of the L-shaped track body and used for driving materials to slide along the track body, a limiting module arranged at the end part of the L-shaped transverse end of the track body and a buffering module; the L-shaped vertical end of each track body is arranged close to the corresponding feeding mechanism, and the L-shaped transverse ends of each track body are arranged in parallel at intervals. The utility model relates to a rationally, compact structure is equipped with a plurality of transfer rail mechanisms, and then improves material transfer efficiency, and simultaneously, transfer rail mechanism adopts L type structure, and area is little, and the operation of being convenient for, in addition, still set up a plurality of modules of blowing, solved the card problem of duning in the material transfer process, the practicality is strong.

Description

Conveying rail device

Technical Field

The utility model relates to a delivery track technical field especially relates to a delivery track device.

Background

With the continuous development of technology, factories and equipment have been fully developed into the automatic era. In various industrial fields, apparatuses for automatically conveying materials are widely used, such as scissors foot conveying devices for conveying scissors feet in the technical field of keyboard assembly.

And current scissors foot conveyer adopts the monorail transport material mostly, and transfer efficiency is low, and adopts straight line track transport material more, leads to whole equipment not compact, area is big, difficult operation, simultaneously, does not set up the mechanism of blowing and blows the drive material conveying, leads to the easy phenomenon that the card went to appear of material conveying, needs the manual work to go to maintain, complex operation, is unfavorable for the batchization conveying.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a delivery track device, the device reasonable in design, compact structure are equipped with a plurality of transfer track mechanisms, and then improve material transfer efficiency, and simultaneously, transfer track mechanism adopts L type structure, and area is little, the operation of being convenient for, in addition, has still set up a plurality of modules of blowing, has solved the card problem of duning in the material transfer process, and the practicality is strong.

In order to realize the purpose, the following technical scheme is adopted:

a conveying track device comprises a plurality of feeding mechanisms arranged in parallel at intervals and feeding conveying mechanisms arranged in one-to-one correspondence with the feeding mechanisms, wherein the feeding conveying mechanisms are used for receiving materials supplied by the feeding mechanisms; each feeding and conveying mechanism comprises a plurality of conveying track mechanisms, each conveying track mechanism comprises an L-shaped track body, a plurality of air blowing modules arranged at the top of the L-shaped track body and used for driving materials to slide along the track body, a limiting module arranged at the end part of the L-shaped transverse end of the track body and a buffering module; the L-shaped vertical end of each track body is arranged close to the corresponding feeding mechanism, and the L-shaped transverse ends of each track body are arranged in parallel at intervals; the limiting module is used for limiting and fixing the materials so that the external transfer device can transfer the materials conveniently, and the buffering module is used for buffering the pressure generated when the external transfer device transfers the materials.

Further, the track spout that is used for conveying the material that is L type structure is seted up at the top of track body, and the spacing clamp plate that is L type structure is still arranged to track spout top both sides, and extends to the top of track spout on one side of the spacing clamp plate, and spacing clamp plate is used for spacing the material in the track spout.

Further, a plurality of modules of blowing are arranged in its top one side at the interval in the length direction of track body, and the module of blowing includes that the perpendicular track spout arranges in the section of thick bamboo of blowing of its top, and the section of thick bamboo of blowing is close to the one end of track spout and is equipped with the blowing nozzle, and the section of thick bamboo other end intercommunication of blowing has the gas valve.

Furthermore, a buffer groove communicated with the rail sliding groove is formed in the top of the end part of the L-shaped transverse end of the rail body, and the buffer module is arranged in the buffer groove; the buffer module comprises a buffer plate, a support column arranged in the buffer groove, a plurality of guide pins and a plurality of buffer springs; the support columns are positioned in the middle of the buffer tank and are arranged close to the end parts of the track sliding chutes, and the support columns are used for receiving materials which slide to the buffer tank through the track sliding chutes; the buffer board is arranged at the opening of the buffer groove, the middle part and the two ends of the buffer board are respectively sleeved on the outer sides of the support column and the guide pin, and the bottom of the buffer board is also abutted to the buffer spring.

Furthermore, the limiting module comprises a limiting transverse plate arranged above the track body and a limiting air cylinder in driving connection with the limiting transverse plate; the limiting transverse plate is of an L-shaped structure, the L-shaped transverse end of the limiting transverse plate extends to the upper part of the buffer plate, and a limiting hole is formed in the position, corresponding to the top of the support column, of the L-shaped transverse end of the limiting transverse plate; the L-shaped vertical end of the limiting transverse plate is in driving connection with a limiting cylinder, and the limiting cylinder is used for driving the limiting transverse plate to move.

Further, the feeding mechanism comprises a vibrating disk and a linear vibrator communicated with the vibrating disk; the top of the linear vibrator is provided with a plurality of feeding rails, each feeding rail is arranged corresponding to the rail sliding groove of each conveying rail mechanism, and the linear vibrator is used for conveying materials to the rail sliding grooves of the corresponding conveying rail mechanisms through the feeding rails.

Adopt above-mentioned scheme, the beneficial effects of the utility model are that:

1) the conveying track mechanism is of an L-shaped structure, occupies a small area and is convenient to operate;

2) the blowing module can drive the materials to slide along the conveying track mechanism, so that the problem of blockage in the material conveying process is solved, and the practicability is high;

3) the limiting pressing plate can ensure that the material is limited in the track sliding chute in the conveying process and is not easy to fall off, so that the conveying stability of the material is enhanced;

4) the buffer module is arranged, so that the pressure generated on the conveying track mechanism when the external transfer device transfers materials can be relieved, the risk of damage to the conveying track mechanism is reduced, and the safety of equipment is enhanced;

5) the device adopts the modularized design, only needs to reform transform a little, can be applicable to other fields that need convey the material, and general nature is strong.

Drawings

Fig. 1 is a perspective view of the present invention;

fig. 2 is a perspective view of the feeding mechanism of the present invention;

fig. 3 is a perspective view of the feeding and conveying mechanism of the present invention;

FIG. 4 is an enlarged fragmentary exploded view taken at A of FIG. 3;

fig. 5 is a perspective view of the air blowing module of the present invention;

wherein the figures identify the description:

1-a feeding mechanism; 2, a feeding conveying mechanism;

11-a vibrating disk; 12-a linear vibrator;

13-a feeding track; 21-a transfer rail mechanism;

211-a track body; 212-a blowing module;

213-a limit module; 214-a buffer module;

215-track runner; 216-a limit pressure plate;

2121-air blower; 2122-blowing nozzle;

2123-air blowing valve; 2131-a limit transverse plate;

2132-a limit cylinder; 2133 limiting holes;

2141-a buffer plate; 2142-support column;

2143 — a guide pin; 2144-buffer spring.

Detailed Description

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

Referring to fig. 1 to 5, the present invention provides a conveying track device, which includes a plurality of parallel feeding mechanisms 1 arranged at intervals, and a plurality of feeding conveying mechanisms 2 arranged corresponding to the feeding mechanisms 1 one by one, wherein the feeding conveying mechanisms 2 are used for receiving materials supplied by the feeding mechanisms 1; each feeding conveying mechanism 2 comprises a plurality of conveying track mechanisms 21 in an L-shaped structure, the L-shaped vertical end of each conveying track mechanism 21 is arranged close to the corresponding feeding mechanism 1, and the L-shaped transverse ends of each conveying track mechanism 21 are arranged in parallel at intervals; each conveying track mechanism 21 comprises a track body 211 in an L-shaped structure, a plurality of air blowing modules 212 arranged at the top of the track body 211 and used for driving materials to slide along the track body 211, a limiting module 213 arranged at the end part of the L-shaped transverse end of the track body 211 and a buffering module 214; the limiting module 213 is used for limiting and fixing the materials so that the external transfer device can transfer the materials, and the buffering module 214 is used for buffering the pressure generated when the external transfer device transfers the materials.

The top of the track body 211 is provided with a track chute 215 which is in an L-shaped structure and used for conveying materials, two sides of the top of the track chute 215 are also provided with a limit pressing plate 216 which is in an L-shaped structure, one side of the limit pressing plate 216 extends to the upper part of the track chute 215, and the limit pressing plate 216 is used for limiting the materials in the track chute 215; the plurality of air blowing modules 212 are arranged at one side of the top of the rail body 211 at intervals in the length direction of the rail body, each air blowing module 212 comprises an air blowing cylinder 2121 which is arranged above the rail body in a vertical manner, an air blowing nozzle 2122 is arranged at one end of the air blowing cylinder 2121 close to the rail body 215, and an air blowing valve 2123 is communicated with the other end of the air blowing cylinder 2121; the top of the end part of the L-shaped transverse end of the track body 211 is provided with a buffer slot communicated with the track sliding slot 215, and the buffer module 214 is arranged in the buffer slot; the buffer module 214 includes a buffer plate 2141, a support post 2142 disposed in the buffer slot, a plurality of guide pins 2143, and a plurality of buffer springs 2144; the support columns 2142 are located in the middle of the buffer tank and are arranged close to the end parts of the track sliding chutes 215, and the support columns 2142 are used for receiving materials which slide to the buffer tank through the track sliding chutes 215; the buffer plate 2141 is disposed at the opening of the buffer slot, the middle portion and the two ends of the buffer plate are respectively sleeved on the outer sides of the support column 2142 and the guide pin 2143, and the bottom of the buffer plate 2141 is further abutted against the buffer spring 2144.

The limiting module 213 comprises a limiting transverse plate 2131 arranged above the track body 211 and a limiting cylinder 2132 in driving connection with the limiting transverse plate 2131; the limiting transverse plate 2131 is of an L-shaped structure, the L-shaped transverse end of the limiting transverse plate 2131 extends to the upper side of the buffer plate 2141, and a limiting hole 2133 is formed in the position, corresponding to the top of the support column 2142, of the L-shaped transverse end of the limiting transverse plate 2131; the L-shaped vertical end of the limiting transverse plate 2131 is in driving connection with a limiting cylinder 2132, and the limiting cylinder 2132 is used for driving the limiting transverse plate 2131 to move; the feeding mechanism 1 comprises a vibrating disk 11 and a linear vibrator 12 communicated with the vibrating disk 11; the top of the linear vibrator 12 is provided with a plurality of feeding rails 13, each feeding rail 13 is arranged corresponding to the rail chute 215 of each conveying rail mechanism 21, and the linear vibrator 12 is used for conveying the material to the rail chute 215 of the corresponding conveying rail mechanism 21 through the feeding rail 13.

The utility model discloses the theory of operation:

as shown in the drawings, in this embodiment, two feeding mechanisms 1 and two feeding conveying mechanisms 2 are provided, and each feeding conveying mechanism 2 includes two conveying track mechanisms 21 (in this embodiment, there are four conveying track mechanisms 21, and more conveying track mechanisms 21 can be provided according to the actual installation environment, so as to improve the conveying efficiency of the material (in this embodiment, the material is a scissor-leg body)), that is, each feeding mechanism 1 can simultaneously feed two conveying track mechanisms 21; the feeding mechanism 1 comprises a vibrating disk 11 and a linear vibrator 12 communicated with the vibrating disk 11, two feeding rails 13 are arranged at the top of the linear vibrator 12, and each feeding rail 13 is arranged corresponding to a rail sliding groove 215 of a conveying rail mechanism 21; during operation, the scattered materials are poured into the vibration tray 11, the vibration tray 11 vibrates the materials one by one onto the two feeding rails 13 of the linear vibrator 12, and then the linear vibrator 12 vibrates the materials in the feeding rails 13 one by one into the rail chutes 215 of the corresponding conveying rail mechanism 21.

Each feeding and conveying mechanism 2 comprises two conveying track mechanisms 21, and after the materials are conveyed into the track sliding groove 215 at the top of the track body 211, the materials are driven by the blowing module 212 to continuously move along the track sliding groove 215; the track sliding chute 215 is of an L-shaped structure and comprises a first sliding chute arranged at the L-shaped vertical end of the track body 211 and a second sliding chute arranged at the L-shaped transverse end of the track body 211; the first chute is slightly higher than the second chute, the material can directly slide into the second chute (driven by the blowing module 212) through the first chute, the tail end of the second chute is communicated with the buffer slot of the buffer module 214, and the material can directly slide into the top of the support column 2142 (driven by the blowing module 212) in the buffer slot through the second chute; the two sides of the top of the track sliding chute 215 are provided with limiting pressing plates 216, one side of each limiting pressing plate 216 extends to the upper side of the track sliding chute 215, and when the materials are driven by the blowing module 212 to slide along the track sliding chute 215, the materials can be limited in the track sliding chute 215, so that the materials are prevented from falling off from the track sliding chute 215; the plurality of air blowing modules 212 are disposed at a top side of the track chute 215 along a length direction of the track body 211, and air blowing nozzles 2122 of an air blowing barrel 2121 of the air blowing modules are disposed opposite to the track chute 215, and air is blown into the air blowing barrel 2121 through an air blowing valve 2123, and the air flows through the air blowing nozzles 2122 and is blown to the material, so that the material is driven to slide along the track chute 215.

The tail end of the second chute of the track chute 215 is communicated with the buffer groove of the buffer module 214, the buffer groove is formed in a direction perpendicular to the length direction of the second chute, the material slides to the top of the support post 2142 in the buffer groove through the second chute, the limiting transverse plate 2131 of the limiting module 213 is positioned above the buffer groove and has the same height as the limiting pressing plate 216, and the material can be guaranteed to be limited to the top of the support post 2142; the limiting transverse plate 2131 is of an L-shaped structure, the L-shaped transverse end of the limiting transverse plate 2131 extends to the upper part of the buffer slot, a limiting hole 2133 is formed in the position, corresponding to the support column 2142, of the top of the end, and the L-shaped vertical end of the limiting transverse plate 2131 is in driving connection with the limiting cylinder 2132; when the external transfer device works, the external transfer device penetrates through the limiting hole 2133 of the limiting transverse plate 2131 to clamp materials, when the external transfer device works, downward pressure is applied to the buffer plate 2141 of the buffer module 214, the buffer plate 2141 extrudes the buffer spring 2144 along the guide pin 2143 under the pressure, the pressure of the external transfer device on the buffer plate 2141 can be further relieved, the materials on the support columns 2142 can be conveniently taken away, and the track body 211 is prevented from being damaged; meanwhile, the limiting transverse plate 2131 can be driven to move through the limiting cylinder 2132, so that the position of the limiting hole 2133 is adjusted, and adjustment according to different installation environments is facilitated.

The above description is only exemplary of the present invention and should not be construed as limiting the present invention, and any modifications, equivalents and improvements made within the spirit and principles of the present invention are intended to be included within the scope of the present invention.

Claims (6)

1. A conveying rail device is characterized by comprising a plurality of parallel feeding mechanisms arranged at intervals and a feeding conveying mechanism arranged in one-to-one correspondence with the feeding mechanisms, wherein the feeding conveying mechanism is used for receiving materials supplied by the feeding mechanisms; each feeding and conveying mechanism comprises a plurality of conveying track mechanisms, each conveying track mechanism comprises an L-shaped track body, a plurality of air blowing modules arranged at the top of the L-shaped track body and used for driving materials to slide along the track body, a limiting module arranged at the end part of the L-shaped transverse end of the track body and a buffering module; the L-shaped vertical end of each track body is arranged close to the corresponding feeding mechanism, and the L-shaped transverse ends of each track body are arranged in parallel at intervals; the limiting module is used for limiting and fixing the materials so that the external transfer device can transfer the materials conveniently, and the buffering module is used for buffering the pressure generated when the external transfer device transfers the materials.

2. The conveying rail device according to claim 1, wherein the top of the rail body is provided with an L-shaped rail chute for conveying the material, two sides of the top of the rail chute are further provided with an L-shaped limiting pressing plate, one side of the limiting pressing plate extends to the upper side of the rail chute, and the limiting pressing plate is used for limiting the material in the rail chute.

3. The conveying rail device according to claim 2, wherein the plurality of air blowing modules are arranged on one side of the top of the rail body at intervals in the length direction of the rail body, each air blowing module comprises an air blowing cylinder arranged above the rail body and perpendicular to the rail sliding groove, an air blowing nozzle is arranged at one end, close to the rail sliding groove, of the air blowing cylinder, and the other end of the air blowing cylinder is communicated with an air blowing valve.

4. The conveying rail device according to claim 3, wherein a buffer groove communicated with the rail sliding groove is formed in the top of the end part of the L-shaped transverse end of the rail body, and the buffer module is arranged in the buffer groove; the buffer module comprises a buffer plate, a support column arranged in the buffer groove, a plurality of guide pins and a plurality of buffer springs; the support columns are positioned in the middle of the buffer tank and are arranged close to the end parts of the track sliding chutes, and the support columns are used for receiving materials which slide to the buffer tank through the track sliding chutes; the buffer board is arranged at the opening of the buffer groove, the middle part and the two ends of the buffer board are respectively sleeved on the outer sides of the support column and the guide pin, and the bottom of the buffer board is also abutted to the buffer spring.

5. The conveying rail device according to claim 4, wherein the limiting module comprises a limiting transverse plate arranged above the rail body and a limiting cylinder in driving connection with the limiting transverse plate; the limiting transverse plate is of an L-shaped structure, the L-shaped transverse end of the limiting transverse plate extends to the upper part of the buffer plate, and a limiting hole is formed in the position, corresponding to the top of the support column, of the L-shaped transverse end of the limiting transverse plate; the L-shaped vertical end of the limiting transverse plate is in driving connection with a limiting cylinder, and the limiting cylinder is used for driving the limiting transverse plate to move.

6. The conveyor track assembly of claim 2 wherein said feed mechanism includes a vibratory pan, a linear vibrator in communication with the vibratory pan; the top of the linear vibrator is provided with a plurality of feeding rails, each feeding rail is arranged corresponding to the rail sliding groove of each conveying rail mechanism, and the linear vibrator is used for conveying materials to the rail sliding grooves of the corresponding conveying rail mechanisms through the feeding rails.

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