CN211198022U - Double-material-belt feeding mechanism - Google Patents

Abstract

The utility model relates to a feeding mechanism technical field provides a two material areas feeding mechanism, including first pay-off area and second pay-off area, first pay-off area and second pay-off area are all installed in bi-terminal track, all be provided with photoelectric switch on first pay-off area, second pay-off area and the bi-terminal track, the orbital back fixedly connected with fixed plate of bi-terminal, the back of fixed plate is provided with the delivery terminal motor, the delivery terminal motor includes upper feed end motor and lower feed end motor, the front of fixed plate is provided with gear structure. This two material area feeding mechanism through the first pay-off area and the second pay-off area that set up, makes this feeding mechanism can promote production efficiency greatly, has reduced manufacturing cost, through the bi-terminal track that sets up, makes first pay-off area and second pay-off area can be orderly reciprocal pay-off, through the gear structure that sets up, makes the terminal material area move through gear structure rotation.

Description

Double-material-belt feeding mechanism

Technical Field

The utility model relates to a feeding mechanism technical field specifically is a two material area feeding mechanism.

Background

The feeder is specially used for conveying products such as granular materials, powder materials, flaky materials, strip materials and the like, and is widely applied to various industries. In the current society, more and more manufacturers adopt mechanical conveying, the mode of replacing manpower labor becomes inevitable, the precision is higher, the labor intensity is greatly reduced due to time and labor conservation, the labor cost is reduced, the manpower resource is saved, and the low cost and the high return are really realized. Most of the existing feeding mechanisms adopt a single feeding belt structure, the continuous feeding performance is not high, manual material changing is needed, and the automation efficiency is not high.

SUMMERY OF THE UTILITY MODEL

Technical problem to be solved

The utility model provides a not enough to prior art, the utility model provides a two material areas feeding mechanism possesses two material areas pay-off, can realize automatically that switching pay-off, work in different material areas are whole to be controlled advantages such as by photoelectric switch, has solved the most single pay-off area structure that adopts of current feeding mechanism, and the continuous feeding nature is not high, needs the manual work to carry out the reloading, problem that automation efficiency is not high.

(II) technical scheme

In order to achieve the above object, the utility model provides a following technical scheme: the utility model provides a two material area feeding mechanism, includes first pay-off area and second pay-off area, first pay-off area and second pay-off area are all installed in the bi-terminal track, all be provided with photoelectric switch on first pay-off area, second pay-off area and the bi-terminal track, the orbital back fixedly connected with fixed plate of bi-terminal, the back of fixed plate is provided with the send terminal motor, the send terminal motor includes upper feed end motor and lower feed end motor, the front of fixed plate is provided with gear structure, gear structure includes upper feed end gear and lower feed end gear, the output and the upper feed end gear transmission of upper feed end motor are connected, the output and the lower feed end gear transmission of lower feed end motor are connected, the bottom of fixed plate is connected with the base connecting plate, the bottom of base connecting plate is provided with switches over the material area cylinder.

The base connecting plate is connected with a cam mechanism base, a cam group is installed in the cam mechanism base, the top of the base connecting plate is connected with a cam inserting end cutting mechanism, a transmission shaft is arranged on the cam mechanism base, and the transmission shaft is in transmission connection with the output end of a cam motor.

Preferably, the upper feeding end gear and the lower feeding end gear are symmetrically distributed at the top and the bottom of the double-terminal track.

Preferably, the photoelectric switch comprises an inductor A, an inductor B, an inductor C, an inductor D, an inductor E and an inductor F, wherein the inductor A, the inductor B, the inductor D and the inductor E are all installed on the two terminal rails, the inductor C is installed in the first feeding belt, and the inductor F is installed in the second feeding belt.

Preferably, the first feeding belt and the second feeding belt are both provided with a feeding groove.

Preferably, a heat dissipation dust cover structure is arranged outside the terminal feeding motor.

Preferably, the cam group is fixedly connected with a limiting groove in the cam mechanism base through a screw at the top.

Compared with the prior art, the utility model provides a two material areas feeding mechanism possesses following beneficial effect:

1. this double material area feeding mechanism, first pay-off area and second pay-off area through setting up, make this feeding mechanism can promote production efficiency greatly, the production cost is reduced, through the bi-terminal track that sets up, make first pay-off area and second pay-off area can be orderly reciprocal pay-off, gear structure through setting up, make the terminal material area move through gear structure rotation, through the terminal motor that sends that sets up, make gear structure's rotation power can obtain the assurance, brake through electric power, the manpower is practiced thrift.

2. This two material area feeding mechanism cuts the mechanism through the cam spigot that sets up, makes the material tape head can carry out same cutting before carrying out fixed mounting, through the cam motor that sets up, makes the power source that the cam spigot cut the mechanism obtain guaranteeing, through the cam mechanism base that sets up, makes the cam spigot cut the mechanism can be stable fix on the cam mechanism base, through the photoelectric switch that sets up, makes this two material area feeding mechanism's operating condition can be by fine automatic monitoring.

Drawings

FIG. 1 is a schematic view of the feeding structure and the base connecting plate of the present invention;

FIG. 2 is a schematic view of the feeding structure of the present invention;

fig. 3 is a schematic structural view of the cutting mechanism for the cam spigot of the present invention.

Wherein: 1. a first feeding belt; 2. a second feeding belt; 3. a two-terminal track; 4. a fixing plate; 5. an upper feed end motor; 6. a lower feed end motor; 7. an upper feeding end gear; 8. a lower delivery end gear; 9. a base connection plate; 10. a material belt switching cylinder; 11. an inductor A; 12. an inductor B; 13. an inductor C; 14. a sensor D; 15. an inductor E; 16. an inductor F; 17. a feeding trough; 18. a photoelectric switch; 19. a terminal feeding motor; 20. a gear structure; 21. a cam mechanism base; 22. a cam spigot cutting mechanism; 23. a cam group; 24. a cam motor.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Referring to fig. 1-3, a double-material-belt feeding mechanism includes a first feeding belt 1 and a second feeding belt 2, the first feeding belt 1 and the second feeding belt 2 are arranged to greatly improve the production efficiency and reduce the production cost, the first feeding belt 1 and the second feeding belt 2 are both installed in a double-terminal rail 3, the first feeding belt 1 and the second feeding belt 2 can feed materials in an orderly and reciprocating manner through the arranged double-terminal rail 3, a feeding trough 17 is arranged in each of the first feeding belt 1 and the second feeding belt 2, a photoelectric switch 18 is arranged on each of the first feeding belt 1, the second feeding belt 2 and the double-terminal rail 3, the working state of the double-material-belt feeding mechanism can be well and automatically monitored through the arranged photoelectric switch 18, and the photoelectric switch 18 includes an inductor a11, an inductor B12, an inductor C13, an inductor D14, an inductor B12, an inductor B353926, Inductor E15 and inductor F16, inductor A11, inductor B12, inductor D14 and inductor E15 are all installed on two-terminal track 3, inductor C13 is installed in first feeding belt 1, inductor F16 is installed in second feeding belt 2, fixed plate 4 is fixedly connected to the back of two-terminal track 3, terminal feeding motor 19 is arranged on the back of fixed plate 4, through the arranged terminal feeding motor 19, the rotation power of gear structure 20 can be ensured, braking is performed through electric power, manpower is saved, a dust cover heat dissipation structure is arranged outside terminal feeding motor 19, terminal feeding motor 19 comprises upper terminal feeding motor 5 and lower terminal feeding motor 6, gear structure 20 is arranged on the front surface of fixed plate 4, through the arranged gear structure 20, terminal material belt can move through the rotation of gear structure 20, gear structure 20 comprises upper terminal feeding gear 7 and lower terminal feeding gear 8, go up send end gear 7 and send end gear 8 symmetric distribution in the top and the bottom of two terminal track 3 down, the output of going up send end motor 5 is connected with last send end gear 7 transmission, and the output of sending end motor 6 down is connected with sending end gear 8 transmission down, and the bottom of fixed plate 4 is connected with base connection board 9, and the bottom of base connection board 9 is provided with switches material and takes cylinder 10.

Base connecting plate 9 is connected with cam mechanism base 21, cam mechanism base 21 through setting up, make the cam spigot cut mechanism 22 can be stable fix on cam mechanism base 21, install cam group 23 in the cam mechanism base 21, cam group 23 carries out fixed connection through the screw at top and the inside spacing groove of cam mechanism base 21, the top of base connecting plate 9 is connected with the cam spigot and cuts mechanism 22, cut mechanism 22 through the cam spigot that sets up, make the material belt head can carry out same cutting before carrying out fixed mounting, be provided with the transmission shaft on the cam mechanism base 21, this transmission shaft is connected with cam motor 24's output transmission, cam motor 24 through setting up, make the cam spigot cut the power source that mechanism 22 obtained the assurance.

When the device is used, an upper row of terminals cut by a small jig uniformly penetrates into the gear of the first feeding belt 1 to be hung, the feeding machine is started, the terminal material belt is automatically fed to a detection position of a sensor A11, a signal is sent to the feeding machine by the sensor A11, the feeding machine normally works, the sensor C13 detects the feeding belt, the material cutting head is connected in a burst mode, the material belt is severely deformed, the detection stopping function is realized, the sensor B12 detects the tail end of the material, if the material belt is used up, the detection signal is sent to a terminal motor 19, the terminal motor 19 is reversely rotated to pour the material belt, the tail end is conveniently poured out to replace another material disc belt, when the upper row of terminals are used up, the second feeding belt 2 is automatically switched to ascend, the feeding machine continuously works, the lower row of terminals are operated in the working process of the upper row of terminals, the lower row of terminals are assembled, when the joints are overlapped in the working process, the sensor F16 detects, the inductor E15 detects that the tail end of the lower row of terminals is used up, the terminal motor 19 is reversely fed, the material belt is withdrawn, another material belt is conveniently replaced, the upper row of terminals is arranged, the machine platform works continuously, the up-down conversion is repeated, and the feeder continues to work for a long time under the condition of no fault.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (6)

1. The utility model provides a two material areas feeding mechanism, includes first pay-off area (1) and second pay-off area (2), its characterized in that: the first feeding belt (1) and the second feeding belt (2) are installed in a double-terminal track (3), photoelectric switches (18) are arranged on the first feeding belt (1), the second feeding belt (2) and the double-terminal track (3), a fixed plate (4) is fixedly connected to the back of the double-terminal track (3), a terminal feeding motor (19) is arranged on the back of the fixed plate (4), the terminal feeding motor (19) comprises an upper terminal feeding motor (5) and a lower terminal feeding motor (6), a gear structure (20) is arranged on the front of the fixed plate (4), the gear structure (20) comprises an upper terminal feeding gear (7) and a lower terminal feeding gear (8), the output end of the upper terminal feeding motor (5) is in transmission connection with the upper terminal feeding gear (7), the output end of the lower terminal feeding motor (6) is in transmission connection with the lower terminal feeding gear (8), the bottom end of the fixed plate (4) is connected with a base connecting plate (9), and the bottom of the base connecting plate (9) is provided with a material belt switching cylinder (10);

the base connecting plate (9) is connected with cam mechanism base (21), install cam group (23) in cam mechanism base (21), the top of base connecting plate (9) is connected with cam spigot and cuts mechanism (22), be provided with the transmission shaft on cam mechanism base (21), this transmission shaft is connected with the output transmission of cam motor (24).

2. The double-material-tape feeding mechanism of claim 1, wherein: the upper feeding end gear (7) and the lower feeding end gear (8) are symmetrically distributed at the top and the bottom of the double-terminal track (3).

3. The double-material-tape feeding mechanism of claim 1, wherein: the photoelectric switch (18) comprises an inductor A (11), an inductor B (12), an inductor C (13), an inductor D (14), an inductor E (15) and an inductor F (16), wherein the inductor A (11), the inductor B (12), the inductor D (14) and the inductor E (15) are all installed on the two terminal rails (3), the inductor C (13) is installed in the first feeding belt (1), and the inductor F (16) is installed in the second feeding belt (2).

4. The double-material-tape feeding mechanism of claim 1, wherein: and the first feeding belt (1) and the second feeding belt (2) are internally provided with feeding grooves (17).

5. The double-material-tape feeding mechanism of claim 1, wherein: and a heat dissipation and dust prevention cover structure is arranged outside the terminal sending motor (19).

6. The double-material-tape feeding mechanism of claim 1, wherein: the cam group (23) is fixedly connected with a limiting groove in the cam mechanism base (21) through a screw at the top.

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