CN109626012B - Continuous feeding device and feeding method based on turret - Google Patents

Abstract

The invention provides a continuous feeding device based on a turret, which comprises a round tower seat used for providing a fixed mounting position, a turret arranged on the tower seat and capable of rotating along the circumferential direction of the tower seat, a power mechanism arranged on one side of the tower seat far away from the turret, and a discharging mechanism arranged on one side of the turret far away from the tower seat, wherein a plurality of vertical material storage channels used for storing materials are circumferentially arranged on the turret, a discharging hole is further arranged below the tower seat, the discharging mechanism is used for pushing the materials downwards from the material storage channels, and the discharging hole is used for outputting the materials in the material storage channels. Compared with the prior art, the continuous feeding device based on the turret has the advantages of small and simple power, space saving, convenient maintenance and accurate indexing and positioning.

Description

Continuous feeding device and feeding method based on turret

Technical Field

The invention belongs to the field of automatic assembly and conveying, and particularly relates to a continuous feeding device and a feeding method based on a turret.

Background

In the automobile part production industry, silicon steel occupies an extremely important position in electrification construction, so that the electrification degree of a country can be measured in a certain sense by using the amount of silicon steel sheets, an armature of a starter mainly comprises the silicon steel sheets and a central shaft, the silicon steel sheets are in bulk, the materials are thin and the amount of the materials is large, a large amount of silicon steel sheets are required to be stored for achieving the aim of quick armature production, and the armature is quickly assembled without interrupting blanking of the silicon steel sheets.

Accordingly, there is a need for a new type of turret-based continuous feeder that overcomes the above-described drawbacks.

Disclosure of Invention

The invention aims to provide a novel continuous feeding device based on a turret, which has the advantages of small and simple power, space saving, convenient maintenance and accurate indexing and positioning.

In order to achieve the above purpose, the invention provides a continuous feeding device based on a turret, which comprises a round tower seat for providing a fixed installation position, a turret arranged on the tower seat and capable of rotating along the circumferential direction of the tower seat, a power mechanism arranged on one side of the tower seat far away from the turret, and a discharging mechanism arranged on one side of the turret far away from the tower seat, wherein a plurality of vertical material storage channels for storing materials are arranged on the turret along the circumferential direction, a discharging hole is further arranged below the tower seat, the discharging mechanism is used for pushing the materials downwards from the material storage channels, and the discharging hole is used for outputting the materials in the material storage channels;

the turret comprises a rotating top disc, a rotating bottom disc coaxially arranged with the rotating top disc, a central fixed shaft arranged at the central axis position of the rotating top disc and the central axis position of the rotating bottom disc, a rotating shaft sleeved on the outer circumferential surface of the central fixed shaft, and a plurality of clamping plates arranged between the rotating top disc and the rotating bottom disc, wherein the clamping plates are arranged at equal intervals along the outer circumferences of the rotating top disc and the rotating bottom disc.

Further, the outer circumference of the rotary top disc and the rotary bottom disc is provided with a plurality of arc grooves which are uniformly arranged at intervals, an arc groove forming storage channel is clamped between every two clamping plates, and a plurality of positioning pin holes which are arranged in one-to-one correspondence with the arc grooves are arranged at positions of the rotary bottom disc, which are close to the arc grooves.

Further, a roller bearing and a thrust ball bearing are arranged between the central fixed shaft and the rotating shaft in a clamping manner.

Further, the tower base comprises a fixed chassis connected with the turret and a supporting column fixedly connected with the fixed chassis, wherein an opening part, a T-shaped window arranged at an opposite interval with the opening part, an arc-shaped guide groove clamped between the opening part and the T-shaped window, and a discharging opening arranged close to the T-shaped window are arranged on the fixed chassis, the discharging opening is arranged opposite to the material storage channel, and the arc-shaped guide groove is arranged at a parallel interval with the position where the positioning pin hole is.

Further, the power unit is in including setting up fixed chassis keeps away from power cylinder, rocking arm and two cushioning parts on the surface of capstan head one side, power cylinder sets up one side of arc guide slot, power cylinder with rocking arm fixed connection, the one end of rocking arm sets up the drive cylinder, the other end with center dead axle is connected, the drive cylinder corresponds the arc guide slot sets up, and can extend to inlay in the location pinhole, two cushioning parts are followed the direction interval setting of arc guide slot, the rocking arm presss from both sides to establish between two cushioning parts, the cushioning part is used for right the rocking arm is spacing, the arc guide slot is used for leading book drive cylinder, the rocking arm is used for driving the drive cylinder is in the motion of arc guide slot.

Further, the power mechanism further comprises a locking cylinder arranged close to the power cylinder, and the locking cylinder is used for limiting the turret.

Further, the blanking mechanism comprises a fixing seat fixed on the turret, a fixing arm fixedly connected with the fixing seat, a telescopic cylinder arranged at the opposite end of the fixing arm away from the fixing seat, and a positioning table arranged at one side of the fixing arm close to the turret, wherein the positioning table is opposite to the telescopic cylinder.

Further, the telescopic cylinder comprises a cylinder body and a piston rod arranged in the cylinder body, a pressing block is arranged at the opposite end, away from the cylinder body, of the piston rod, a groove is formed in one side, close to the turret, of the pressing block, the groove is of a T-shaped structure, and a push rod matched with the groove in shape is arranged in the groove.

Further, the number of the support columns is three, and the three support columns are arranged at intervals in a pair of two opposite directions.

The invention also provides a feeding method based on the turret, which adopts the continuous feeding device based on the turret and comprises the following steps:

step 1, filling; placing materials in a material storage channel on a turret to form a material string;

step 2, transferring materials; the positioning pin on the transmission cylinder penetrates through the arc-shaped guide groove to extend out and is inserted into the rotating chassis, the power cylinder drives the rocker arm to move, and the buffer on two sides of the arc-shaped guide groove limits the rocker arm, so that the turret rotates to convey materials;

step 3, pushing; the piston rod of the telescopic cylinder extends out to be abutted with the material, the piston rod pushes the animal downwards to a discharge hole, and the discharge hole is opened for discharging;

step 4, preparing for next discharging; the locating pin on the transmission cylinder is retracted, the power cylinder drives the rocker arm to the next station to prepare for the next discharging, and thus the reciprocating cycle forms uninterrupted feeding.

Compared with the related art, the turret-based continuous feeding device has the following beneficial effects;

1. arc grooves are formed in the rotary top plate and the rotary bottom plate, clamping plates are arranged on two sides of the arc grooves, a large number of silicon steel sheets can be stored, and space is saved;

2. the power cylinder, the rocker arm and the transmission cylinder are adopted, the power structure is simple and easy to realize, the buffer pieces are arranged on the two sides of the rocker arm to limit the movement of the rocker arm, and the rotation of the rotating chassis by 10 degrees can be realized, so that the indexing positioning is accurate.

Drawings

For a clearer description of the technical solutions of the embodiments of the present invention, the drawings that are needed in the description of the embodiments are briefly introduced below, the drawings in the following description are only some embodiments of the present invention, and other drawings can be obtained according to these drawings without inventive effort for a person skilled in the art, wherein:

FIG. 1 is a perspective view of a turret-based continuous feeder of the present invention;

FIG. 2 is a cross-sectional view of the turret-based continuous feeder of the present invention;

FIG. 3 is a schematic view of the structure of the rotating chassis of the present invention;

FIG. 4 is a perspective view of the power mechanism of the present invention;

fig. 5 is a schematic diagram of the motion of the power mechanism of the present invention.

Detailed Description

The following description of the technical solutions in the embodiments of the present invention will be clear and complete, and it is obvious that the described embodiments are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

Referring to fig. 1, the turret-based continuous feeding apparatus 100 includes a turret 1, a turret seat 2, a power mechanism 3, and a discharging mechanism 4.

The tower seat 2 is used for providing a fixed installation position, the turret 1 is arranged on the tower seat 2 and can rotate along the circumferential direction of the tower seat 2, the power mechanism 3 is arranged on one side of the tower seat away from the turret and is used for providing a rotating driving force for the turret 1, and the blanking mechanism 4 is arranged on one side of the turret away from the tower seat and is used for conveying materials to a next station. The vertical storage channel that is used for storing the material is equipped with a plurality of along circumference on the capstan head, and the below of tower seat still is equipped with the discharge gate, and feed mechanism is used for pushing down the material from the storage channel, and the discharge gate is used for exporting the material in the storage channel.

Referring to fig. 2 and 3, the turret 1 includes a rotary top plate 11, a rotary bottom plate 12 disposed opposite to the rotary top plate 11 along a central axis at intervals, a central fixed shaft 13 disposed at the central axis of the rotary top plate 11 and the rotary bottom plate 12, a rotary shaft 14 sleeved on the outer circumferential surface of the central fixed shaft 13, and a plurality of clamping plates 15 disposed between the rotary top plate 11 and the rotary bottom plate 12, wherein the plurality of clamping plates 15 are disposed at equal intervals along the outer circumferences of the rotary top plate 11 and the rotary bottom plate 12, a plurality of arc grooves 16 disposed at intervals uniformly are disposed at the outer circumferences of the rotary top plate 11 and the rotary bottom plate 12, and a plurality of positioning pin holes 17 disposed in one-to-one correspondence with the arc grooves 16 are disposed at positions of the rotary bottom plate 12 close to the arc grooves 16.

The rotary top plate 11 and the rotary bottom plate 12 are connected into a rigid integral body through the rotary shaft 14, the rotary top plate and the rotary bottom plate can freely rotate around the central fixed shaft 13 through a roller bearing 18 and a thrust ball bearing 19 which are clamped between the central fixed shaft 13 and the rotary shaft 14, and the central fixed shaft 13 is fixed with the tower base 2.

An arc-shaped groove 16 is clamped between every two clamping plates 15 to form a containing groove for placing materials, wherein the materials are silicon steel sheets which belong to bulk materials and are thin and large in quantity, the arc-shaped groove is formed between every two clamping plates 15, the armature is made of 30 silicon steel sheets, and the thickness of each silicon steel sheet is 1mm. Specifically, 36 arc grooves 16 and 72 clamping plates are adopted, so that 36 small stations can be divided to store a large number of silicon steel sheets, and the turret 1 can realize uninterrupted feeding.

The tower seat 2 comprises a fixed chassis 21 connected with the turret 1 and a support column 22 fixedly connected with the fixed chassis 21, wherein an opening 211, T-shaped grooves 212 opposite to the opening 211 at intervals, and arc-shaped guide grooves 213 clamped between the opening 211 and the T-shaped windows 212 are arranged on the fixed chassis 21, and the arc-shaped guide grooves 213 are arranged at positions corresponding to the positioning pin holes 17. The fixed chassis 21 is fixedly connected with the central dead axle 13. The number of the support columns 22 is three, and the three support columns 22 are arranged at intervals in pairs. The fixed chassis 21 is provided with a feed opening 214 near the T-shaped window 212, and the feed opening 214 is used for feeding materials.

Referring to fig. 4 and 5, the power mechanism 3 includes a power cylinder 31, a locking cylinder 32, a rocker arm 33 and two buffering members 34, wherein the power cylinder 31, the locking cylinder 32, the rocker arm 33 and the two buffering members 34 are disposed on a surface of the fixed chassis 21, which is far away from the turret 1, the power cylinder 31 is disposed on one side of the arc-shaped guide slot 213, the power cylinder 31 is fixedly connected with the rocker arm 33, the locking cylinder 32 is disposed near the power cylinder 31, a distance from the locking cylinder 32 to the center fixed shaft 13 is equal to a distance from the arc-shaped guide slot 213 to the center fixed shaft 13, one end of the rocker arm 33 is provided with a driving cylinder 35, the other end is connected with the center fixed shaft 13, the driving cylinder 35 is disposed corresponding to the arc-shaped guide slot 213 and is extendably embedded in the positioning pin hole 17, the two buffering members 34 are disposed at intervals along a guiding direction of the arc-shaped guide slot 213, the rocker arm 33 is sandwiched between the two buffering members 34, and the buffering members 34 are used for limiting the rocker arm 33.

The rocker arm is provided with a transmission cylinder, a locating pin on the transmission cylinder penetrates through the arc-shaped guide groove to extend out and is inserted into a locating pin hole on the rotating chassis, which is opposite to the arc-shaped guide groove, a piston rod of the power cylinder is retracted, the rotating chassis can rotate for 10 degrees by adjusting buffers on two sides of the arc-shaped guide groove to limit the position, then the locking cylinder extends out of the locating pin, one locking turret inserted into a plurality of locating pin holes of the rotating chassis rotates, the turntable completes accurate positioning, and the silicon steel sheet strings are fed from the silicon steel sheet feed opening.

And after feeding is completed, the locating pin on the transmission cylinder descends, the piston rod of the power cylinder extends out, then the locating pin of the transmission cylinder ascends again and is clamped into the locating pin hole of the rotary chassis, at the moment, the locating pin on the locking cylinder descends, the piston rod of the power cylinder retracts, and the rotary chassis can rotate for 10 degrees, so that the process is repeated, and the uninterrupted blanking is realized.

The blanking mechanism 4 comprises a fixed seat 41 fixed on the turret 1, a fixed arm 42 fixedly connected with the fixed seat 41, a telescopic cylinder 43 arranged at the opposite end of the fixed arm 42 away from the fixed seat 41, and a positioning table 44 arranged at one side of the fixed arm 42 close to the turret 1, wherein the positioning table 44 is opposite to the telescopic cylinder 43 and is arranged at intervals.

The telescopic cylinder 43 comprises a cylinder body 431 and a piston rod 432 arranged in the cylinder body 431, a pressing block 4321 is arranged at the opposite end of the piston rod 432 away from the cylinder body 431, a groove is formed in one side of the pressing block 4321, which is close to the turret 1, the groove is of a T-shaped structure, and a push rod 4322 matched with the groove in shape is arranged in the groove.

The telescopic cylinder 43 adopts a double-acting force cylinder, so that the piston rod 432 can reciprocate in a single direction in the cylinder body 431, when blanking is performed, the telescopic cylinder works, the piston rod moves downwards to pass through the positioning table, the positioning table is used for guaranteeing the accuracy and consistency of the piston rod and improving the stability of the piston rod, the pressing block of the piston rod is used for supporting and receiving materials contained in the storage channel, the pressing block starts to press down to discharge the materials from the blanking hole, the pressing block extends to the blanking hole, and the pushing rod in the pressing block pushes the materials in the blanking hole to the next station.

The invention also provides a feeding method based on the turret, which adopts the continuous feeding device based on the turret and comprises the following steps:

step 1, filling; placing materials in a material storage channel on a turret to form a material string;

step 2, transferring materials; the positioning pin on the transmission cylinder penetrates through the arc-shaped guide groove to extend out and is inserted into the rotating chassis, the power cylinder drives the rocker arm to move, and the buffer on two sides of the arc-shaped guide groove limits the rocker arm, so that the turret rotates to convey materials;

step 3, pushing; the piston rod of the telescopic cylinder extends out to be abutted with the material, the piston rod pushes the animal downwards to a discharge hole, and the discharge hole is opened for discharging;

step 4, preparing for next discharging; the locating pin on the transmission cylinder is retracted, the power cylinder drives the rocker arm to the next station to prepare for the next discharging, and thus the reciprocating cycle forms uninterrupted feeding.

Compared with the related art, the turret-based continuous feeding device has the following beneficial effects;

1. arc grooves are formed in the rotary top plate and the rotary bottom plate, clamping plates are arranged on two sides of the arc grooves, a large number of silicon steel sheets can be stored, and space is saved;

2. the power cylinder, the rocker arm and the transmission cylinder are adopted, the power structure is simple and easy to realize, the buffer pieces are arranged on the two sides of the rocker arm to limit the movement of the rocker arm, and the rotation of the rotating chassis by 10 degrees can be realized, so that the indexing positioning is accurate.

The foregoing description is only illustrative of the present invention and is not intended to limit the scope of the invention, and all equivalent structures or equivalent processes or direct or indirect application in other related technical fields are included in the scope of the present invention.

Claims (9)

1. Continuous feeding device based on turret, its characterized in that: the device comprises a round tower seat used for providing a fixed installation position, a turret arranged on the tower seat and capable of rotating along the circumferential direction of the tower seat, a power mechanism arranged on one side of the tower seat away from the turret, and a discharging mechanism arranged on one side of the turret away from the tower seat, wherein a plurality of vertical material storage channels used for storing materials are circumferentially arranged on the turret, a discharging hole is further formed below the tower seat, the discharging mechanism is used for pushing the materials downwards from the material storage channels, and the discharging hole is used for outputting the materials in the material storage channels;

the turret comprises a rotating top disc, a rotating bottom disc coaxially arranged with the rotating top disc, a central fixed shaft arranged at the central axis position of the rotating top disc and the rotating bottom disc, a rotating shaft sleeved on the outer circumferential surface of the central fixed shaft, and a plurality of clamping plates arranged between the rotating top disc and the rotating bottom disc, wherein the clamping plates are arranged at equal intervals along the outer circumferences of the rotating top disc and the rotating bottom disc, the outer circumferences of the rotating top disc and the rotating bottom disc are respectively provided with a plurality of arc grooves uniformly arranged at intervals, an arc groove storage channel is clamped between every two clamping plates, and a plurality of positioning pin holes which are arranged in one-to-one correspondence with the arc grooves are arranged at the position of the rotating bottom disc close to the arc grooves.

2. The turret-based continuous feeding device of claim 1, wherein: and a roller bearing and a thrust ball bearing are arranged between the central dead axle and the rotating axle in a clamping way.

3. The turret-based continuous feeding device of claim 1, wherein: the tower base comprises a fixed chassis connected with the turret and a supporting column fixedly connected with the fixed chassis, wherein an opening part, a T-shaped window arranged at an opposite interval with the opening part, an arc-shaped guide groove clamped between the opening part and the T-shaped window, and a discharging opening arranged close to the T-shaped window are arranged on the fixed chassis, the discharging opening is arranged opposite to the material storage channel, and the arc-shaped guide groove is arranged at a parallel interval with the position where the positioning pin hole is located.

4. A turret-based continuous feeding apparatus according to claim 3, wherein: the power mechanism comprises a power cylinder, a rocker arm and two buffer parts, wherein the power cylinder, the rocker arm and the two buffer parts are arranged on the surface of one side of the fixed chassis, the power cylinder is arranged on one side of the arc-shaped guide groove, the power cylinder is fixedly connected with the rocker arm, one end of the rocker arm is provided with a transmission cylinder, the other end of the rocker arm is connected with the central fixed shaft, the transmission cylinder corresponds to the arc-shaped guide groove, the transmission cylinder is arranged in the positioning pin hole in an extensible manner, the two buffer parts are arranged along the guide direction of the arc-shaped guide groove at intervals, the rocker arm is clamped between the two buffer parts, the buffer parts are used for limiting the rocker arm, the arc-shaped guide groove is used for guiding the transmission cylinder, and the rocker arm is used for driving the transmission cylinder to move in the arc-shaped guide groove.

5. The turret-based continuous feeding apparatus of claim 4, wherein: the power mechanism further comprises a locking cylinder arranged close to the power cylinder, and the locking cylinder is used for limiting the turret.

6. The turret-based continuous feeding device of claim 1, wherein: the blanking mechanism comprises a fixing seat fixed on the turret, a fixing arm fixedly connected with the fixing seat, a telescopic cylinder arranged at the opposite end of the fixing arm away from the fixing seat, and a positioning table arranged on one side of the fixing arm close to the turret, wherein the positioning table is opposite to the telescopic cylinder.

7. The turret-based continuous feeding apparatus of claim 6, wherein: the telescopic cylinder comprises a cylinder body and a piston rod arranged in the cylinder body, wherein a pressing block is arranged at one end, opposite to the cylinder body, of the piston rod, a groove is arranged on one side, close to the turret, of the pressing block, the groove is of a T-shaped structure, and a push rod matched with the groove in shape is arranged in the groove.

8. A turret-based continuous feeding apparatus according to claim 3, wherein: the number of the support columns is three, and the three support columns are arranged at intervals in a pair of opposite directions.

9. Turret-based feeding method, characterized in that a turret-based continuous feeding device according to any one of claims 1-8 is used, comprising the steps of:

step 1, filling; placing materials in a material storage channel on a turret to form a material string;

step 2, transferring materials; the positioning pin on the transmission cylinder penetrates through the arc-shaped guide groove to extend out and is inserted into the rotating chassis, the power cylinder drives the rocker arm to move, and the buffer on two sides of the arc-shaped guide groove limits the rocker arm, so that the turret rotates to convey materials;

step 3, pushing; the piston rod of the telescopic cylinder extends out to be abutted with the material, the piston rod pushes the animal downwards to a discharge hole, and the discharge hole is opened for discharging;

step 4, preparing for next discharging; the locating pin on the transmission cylinder is retracted, the power cylinder drives the rocker arm to the next station to prepare for the next discharging, and thus the reciprocating cycle forms uninterrupted feeding.