CN220239975U - Multidirectional conveying mechanism for forging blanks - Google Patents

Abstract

A multidirectional conveying mechanism for forging blanks belongs to the technical field of forging equipment; through setting up rotatory mounting panel, the setting of rotatory mounting panel can utilize the rotating electrical machines to drive rotatory mounting panel, and the cooperation conveying motor drives the conveyer belt and rotates to realize passing through the conveyer belt with the bar of different specifications and conveying to different directions, remove the work of manual screening transportation from, reduce personnel's danger; the two sides of the conveyor belt are respectively provided with the limiting plates, and the limiting plates can prevent bars from sliding out of the conveyor belt when moving on the conveyor belt; the setting of first guide clamp can make things convenient for the bar after the heating more accurate smooth to the conveyer belt on, and the setting of second guide frame can be more accurate with the bar guide to the conveyer belt that different directions correspond on.

Description

Multidirectional conveying mechanism for forging blanks

Technical Field

The utility model belongs to the technical field of forging equipment, and particularly relates to a multidirectional conveying mechanism for forging blanks.

Background

In the forging field, products are from bar to blank, the bar generally need carry out punching press molding many times, just can obtain the blank of required product, and in hot forging course of working, need heat the bar in advance, thereby make the bar soften and conveniently carry out punching press molding it, in actual production process, in order to increase manufacturing efficiency, bar of different specifications can put into the heating furnace together and heat, and the bar generally need the manual work to carry the bar to different punching press mechanical positions through the conveyer belt after heating, but because the bar temperature after heating is higher, the manual work is categorised and is probably caused danger to personnel, therefore, the problem of material conveying is solved to the conveying mechanism that can multi-direction conveying material of urgent need design.

Disclosure of Invention

The utility model mainly solves the technical problems in the prior art and provides a multidirectional conveying mechanism for forging blanks.

The technical problems of the utility model are mainly solved by the following technical proposal: the utility model provides a multidirectional transport mechanism of forging blank, includes fixed mounting panel and rotatory mounting panel, the intermediate position of rotatory mounting panel lower surface is equipped with a pivot, pivot and rotatory mounting panel fixed connection, the lower extreme of pivot rotates to be connected on the fixed mounting panel, the cover is equipped with a first driven pulley in the pivot between fixed mounting panel and the rotatory mounting panel, first driven pulley and pivot fixed connection, the pivot right side be equipped with a rotating electrical machines on the fixed mounting panel lower surface, be connected with a first driving pulley in the drive shaft of rotating electrical machines, first driving pulley and rotating electrical machines's first driving pulley fixed connection, be connected with first driving belt between first driving pulley and the first driven pulley, the intermediate position of rotatory mounting panel upper surface is controlled and is equipped with two axle seats side by side, two all be equipped with a transmission shaft in the axle seat, two in the transmission shaft all rotates to be connected in corresponding axle seat, two be connected with the conveyer belt between the transmission shaft, be connected with a second driven pulley on the transmission shaft in the left side in the axle seat, second driving pulley corresponds with second driving pulley fixed connection with the first driving pulley, be equipped with first driving pulley and second driving pulley on the corresponding to the second driving pulley fixed connection.

Preferably, the rotary mounting plates on the front side and the rear side of the conveyor belt are respectively provided with a limiting plate, and the upper ends of the two limiting plates are respectively provided with an inwards turned flanging.

Preferably, a first material guiding frame is arranged on the rotary mounting plate on the left side of the shaft seat on the left side, and a second material guiding frame is arranged on the rotary mounting plate on the right side of the shaft seat on the right side.

Preferably, the first material guiding frame is higher than the conveyor belt, the second material guiding frame is lower than the conveyor belt, the right end of the first material guiding frame is positioned on the conveyor belt between the two limiting plates, and the left end of the second material guiding frame is positioned on the lower side of the right end of the conveyor belt.

The utility model has the beneficial effects that: through setting up rotatory mounting panel, the setting of rotatory mounting panel can utilize the rotating electrical machines to drive rotatory mounting panel, and the cooperation conveying motor drives the conveyer belt and rotates to realize passing through the conveyer belt with the bar of different specifications and conveying to different directions, remove the work of manual screening transportation from, reduce personnel's danger; the two sides of the conveyor belt are respectively provided with the limiting plates, and the limiting plates can prevent bars from sliding out of the conveyor belt when moving on the conveyor belt; the setting of first guide clamp can make things convenient for the bar after the heating more accurate smooth to the conveyer belt on, and the setting of second guide frame can be more accurate with the bar guide to the conveyer belt that different directions correspond on.

Drawings

FIG. 1 is a schematic view of a construction of the present utility model;

fig. 2 is a schematic structural view of the first driven pulley, the first driving pulley and the rotating shaft according to the present utility model.

In the figure: 1. a fixed mounting plate; 2. rotating the mounting plate; 3. a rotating shaft; 4. a first driven pulley; 5. a rotating electric machine; 6. a first driving pulley; 7. a first drive belt; 8. a shaft seat; 9. a transmission shaft; 10. a conveyor belt; 11. a second driven pulley; 12. a conveying motor; 13. a second driving pulley; 14. a second drive belt; 15. a limiting plate; 16. flanging; 17. a first material guide frame; 18. and the second material guiding frame.

Detailed Description

The technical scheme of the utility model is further specifically described below through examples and with reference to the accompanying drawings.

Examples: the utility model provides a multidirectional transport mechanism of forging blank, shown in fig. 1-2, including fixed mounting panel 1 and rotatory mounting panel 2, the intermediate position of rotatory mounting panel 2 lower surface is equipped with a pivot 3, pivot 3 and rotatory mounting panel 2 fixed connection, the lower extreme rotation of pivot 3 is connected on fixed mounting panel 1, the cover is equipped with a first driven pulley 4 on the pivot 3 between fixed mounting panel 1 and the rotatory mounting panel 2, first driven pulley 4 and pivot 3 fixed connection, be equipped with a rotating electrical machines 5 on the fixed mounting panel 1 lower surface on the right side of pivot 3 be connected with a first driving pulley 6 on the drive shaft of rotating electrical machines 5, be connected with first driving pulley 6 and rotatory electrical machines 5's first driving pulley 6 fixed connection, be connected with first driving belt 7 between first driving pulley 6 and the first driven pulley 4, the intermediate position of rotatory mounting panel 2 upper surface is left and right sides is equipped with two axle bed 8, all is equipped with a transmission shaft 9 in the axle bed 8, two transmission shaft 9 all rotate and are connected with in the motor corresponding to the axle bed 3 in the pivot axle bed, be connected with a driving pulley 9 on the drive shaft bed 8, be connected with a second driving pulley 13 on the side of the drive shaft 13 on the drive shaft bed 9, be connected with a driven pulley 13 on the second driving pulley 13 on the drive shaft bed 8, the side is connected with a second driving pulley 13 on the drive shaft 13.

The rotary mounting plates 2 on the front side and the rear side of the conveyor belt 10 are respectively provided with a limiting plate 15, and the upper ends of the two limiting plates 15 are respectively provided with inwards turned flanges 16; a first material guiding frame 17 is arranged on the rotary mounting plate 2 on the left side of the shaft seat 8 on the left side, and a second material guiding frame 18 is arranged on the rotary mounting plate 2 on the right side of the shaft seat 8 on the right side; the first material guiding frame 17 is higher than the conveyor belt 10, the second material guiding frame 18 is lower than the conveyor belt 10, the right end of the first material guiding frame 17 is located on the conveyor belt 10 between the two limiting plates 15, and the left end of the second material guiding frame 18 is located on the lower side of the right end of the conveyor belt 10.

Finally, it should be noted that the above embodiments are merely representative examples of the present utility model. Obviously, the utility model is not limited to the above-described embodiments, but many variations are possible. Any simple modification, equivalent variation and modification of the above embodiments according to the technical substance of the present utility model should be considered to be within the scope of the present utility model.

Claims (4)

1. Multidirectional conveying mechanism of forging blank, including fixed mounting panel (1) and rotatory mounting panel (2), its characterized in that: the utility model discloses a transmission shaft, including fixed mounting plate (2), rotary mounting plate (2), first driven pulley (4) are equipped with to the intermediate position of lower extreme rotation connection of rotary mounting plate (3), cover on rotary mounting plate (3) between fixed mounting plate (1) and rotary mounting plate (2), first driven pulley (4) and rotary mounting plate (3) fixed connection, be equipped with a rotating electrical machines (5) on fixed mounting plate (1) lower surface on rotary mounting plate (3) right side, be connected with a first driving pulley (6) in the drive shaft of rotating electrical machines (5), first driving pulley (6) and rotating electrical machines (5) first driving pulley (6) fixed connection, be connected with first driving belt (7) between first driving pulley (6) and the first driven pulley (4), be equipped with two axle bed (8) about the intermediate position of rotary mounting plate (2) upper surface, be equipped with one in two axle bed (8) and be equipped with in parallel transmission shaft (9) respectively between two transmission shafts (9) are connected in transmission shaft (9) respectively, the left side be connected with a second driven pulley (11) on transmission shaft (9) in axle bed (8), second driven pulley (11) and transmission shaft (9) fixed connection that correspond, the left side rotatory mounting panel (2) lower surface that axle bed (8) corresponds is equipped with one and conveys motor (12), be equipped with a second driving pulley (13) in the drive shaft of conveying motor (12), second driving pulley (13) and the drive shaft fixed connection of conveying motor (12), be connected with second driving belt (14) between second driven pulley (11) and second driving pulley (13).

2. The multi-directional transfer mechanism of a forging blank as set forth in claim 1, wherein: the rotary mounting plates (2) on the front side and the rear side of the conveyor belt (10) are respectively provided with a limiting plate (15), and the upper ends of the two limiting plates (15) are respectively provided with inwards turned flanges (16).

3. The forging blank multidirectional transmission mechanism as recited in claim 2, wherein: the left rotary mounting plate (2) of the shaft seat (8) on the left side is provided with a first material guiding frame (17), and the right rotary mounting plate (2) of the shaft seat (8) on the right side is provided with a second material guiding frame (18).

4. A multi-directional transfer mechanism for forging blanks as recited in claim 3, wherein: the first material guiding frame (17) is higher than the conveyor belt (10), the second material guiding frame (18) is lower than the conveyor belt (10), the right end of the first material guiding frame (17) is located on the conveyor belt (10) between the two limiting plates (15), and the left end of the second material guiding frame (18) is located on the lower side of the right end of the conveyor belt (10).