CN220478717U - Mixer supporting structure - Google Patents

Abstract

The utility model discloses a stirrer support structure, and relates to the technical field of stirrer supports. The utility model comprises a mounting frame, wherein the mounting frame is of a U-shaped plate body structure, through grooves are formed in two side walls of the mounting frame, a sliding block is connected in the through grooves in a sliding mode, a servo motor is mounted at the upper end of one side wall of the mounting frame, and the output end of the servo motor penetrates through the mounting frame through a coupler and is provided with a threaded rod. When the feeding device is used, when the sliding block with the switch button is lifted to the highest position in the through groove, the switch button is started to open the air cylinder, the output end of the air cylinder pushes the storage frame to rotate, the storage frame rotates towards the feeding position of the mixer body, materials of the storage frame can be poured into the mixer body, so that the effect of convenient feeding can be achieved, the feeding problem of powdery materials can be effectively solved through the storage frame, waste caused by feeding of the powdery materials is reduced, and the sweeping difficulty around the device can be reduced through reduction of dropping of the materials.

Description

Mixer supporting structure

Technical Field

The utility model relates to the technical field of stirrer support equipment, in particular to a stirrer support structure.

Background

The stirrer is a machine with a blade shaft rotating in a cylinder or a groove to stir and mix various raw materials into a mixture or a proper consistency, and can be classified into a forced stirrer, a single horizontal shaft stirrer, a double horizontal shaft stirrer and the like, and the stirrer is widely applied to efficient equipment for stirring, dispersing and dissolving paint and solid, and chemical products such as printing ink, pigment, adhesive and the like.

The single horizontal shaft stirrer in the stirrer is generally installed on the support for use, and because of the lack of a feeding device on the support, the feeding mode of the single horizontal shaft stirrer generally adopts a feeding mode of a belt conveyor, materials to be stirred are lifted by the belt conveyor and then poured into the single horizontal shaft stirrer for being stirred, and the feeding mode can cause the situation that the materials fall off from the belt conveyor when the powdery materials are conveyed, so that the waste of the materials is caused, and the trouble is brought to the cleaning of the field.

For this purpose, a stirrer support structure is proposed.

Disclosure of Invention

The utility model adopts the following technical scheme for realizing the purposes:

the utility model provides a mixer supporting structure, includes the mounting bracket, the mounting bracket is "U" plate body structure, logical groove has all been seted up to the both sides wall of mounting bracket, sliding connection has the slider in logical groove, servo motor is installed to a lateral wall upper end of mounting bracket, servo motor's output runs through the mounting bracket through the shaft coupling and installs the threaded rod, the threaded rod is located one of them logical inslot, and threaded rod runs through the slider in the groove, threaded rod and slider threaded connection, the welding has the mounting panel between two sliders, the upper surface of mounting panel is seted up flutedly, recess internal rotation is connected with the cylinder, upper surface one end fixedly connected with connecting block of mounting panel, the connecting block is "U" plate body structure, the connecting block internal rotation is connected with the bull stick, the upper end rotation of bull stick is connected with the storage frame, the output and the lower surface rotation of storage frame of cylinder are connected, install the mixer body in the mounting bracket.

Further, the inside rotation of mixer body is connected with the damping axle, runs through and fixedly connected with on the damping axle has the baffle, and the baffle matches with the opening part of mixer body.

When the stirrer is used, the feeding end of the stirrer body can be blocked by the rotating baffle plate, so that the splashing of materials during the development of stirring work is avoided.

Further, the feed end of the mixer body is close to one side of the storage frame, and when the storage frame is located at the highest position, the lowest position of the storage frame is higher than the feed end of the mixer body.

When the stirring machine is used, when the storage frame is located at the highest position, the lowest position of the storage frame is higher than the feeding end of the stirring machine body, and materials to be stirred can be poured into the stirring machine body through the storage frame.

Further, a switch button is arranged at the upper end of one of the two sliding blocks, and the switch button is electrically connected with the air cylinder.

When the cylinder is used, one of the sliding blocks is lifted to the inner top of the through groove, and the switch button on the sliding block is contacted with the inner top wall of the through groove, so that the effect of starting the cylinder can be achieved.

Further, the connecting block is equipped with a plurality of, and evenly distributed is at the upper surface of mounting panel, and the upper end of the bull stick in every connecting block all rotates with the lower surface of storage frame to be connected.

When the storage frame is used, the firmness of installation of the storage frame can be improved by arranging a plurality of connecting blocks and rotating rods.

Further, two both sides face of slider has all offered a plurality of evenly distributed's mounting groove, and the mounting groove internal rotation is connected with the steering column, and the contact of the inside wall in steering column and logical groove.

When the sliding block is used, the rotating column can move up and down in the mounting groove when the sliding block moves up and down in the through groove, so that the friction force of the sliding block when the sliding block slides in the through groove can be reduced, and the sliding block can conveniently and easily move in the through groove.

The beneficial effects of the utility model are as follows:

1. when the stirring machine is used, the servo motor is started to drive the threaded rod to rotate, the threaded rod can drive the sliding block on the threaded rod to move in the through groove, the height of the mounting plate can be reduced when the sliding block moves downwards, the material to be stirred is poured into the material storage frame on the mounting plate when the mounting plate is regulated to the lowest position, then the servo motor is started again to drive the threaded rod to rotate reversely, so that the effect of lifting the mounting plate and the material storage frame on the mounting plate can be achieved, when the sliding block with the switch button is lifted to the highest position in the through groove, the switch button is started to open the air cylinder, the output end of the air cylinder pushes the material storage frame to rotate, the material storage frame rotates towards the feeding position of the stirring machine body, the material of the material storage frame can be poured into the stirring machine body, the effect of convenient feeding can be achieved by arranging the device for feeding the powder material on the mounting frame, the problem of feeding the powder material can be effectively solved, the waste caused when the powder material is fed is reduced, the difficulty of the periphery of the device can be lowered by reducing dropping of the material, and the working efficiency of the stirring machine body for sweeping feeding work is improved.

2. According to the utility model, when the sliding block moves up and down in the through groove, the rotating column can move up and down in the mounting groove, so that the friction force of the sliding block during sliding in the through groove can be reduced, and the sliding block can conveniently move in the through groove easily.

Drawings

FIG. 1 is a schematic diagram of the structure of the present utility model;

FIG. 2 is a schematic view of the structure of the mounting plate and the storage frame of the present utility model;

FIG. 3 is a schematic diagram of a side structure of the present utility model;

FIG. 4 is a schematic view of the structure of the slider of the present utility model;

reference numerals: 1. a mounting frame; 2. a through groove; 3. a slide block; 4. a servo motor; 5. a threaded rod; 6. a mounting plate; 7. a groove; 8. a cylinder; 9. a connecting block; 10. a rotating rod; 11. a storage frame; 12. a mixer body; 13. a baffle; 14. a switch button; 15. a mounting groove; 16. a rotating column.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present utility model more clear, the technical solutions of the embodiments of the present utility model will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present utility model.

As shown in fig. 1-4, a mixer support structure, which comprises a mounting rack 1, mounting bracket 1 is "U" plate body structure, logical groove 2 has all been seted up to the both sides wall of mounting bracket 1, logical inslot 2 sliding connection has slider 3, servo motor 4 is installed to a lateral wall upper end of mounting bracket 1, servo motor 4's output runs through mounting bracket 1 and installs threaded rod 5 through the shaft coupling, threaded rod 5 is located one of them logical inslot 2, and threaded rod 5 runs through slider 3 among them of logical groove 2, threaded rod 5 and slider 3 threaded connection, the welding has mounting panel 6 between two sliders 3, recess 7 has been seted up to the upper surface of mounting panel 6, recess 7 internal rotation is connected with cylinder 8, the upper surface one end fixedly connected with connecting block 9 of mounting panel 6, connecting block 9 is "U" plate body structure, connecting block 9 internal rotation is connected with bull stick 10, the upper end rotation of bull stick 10 is connected with storage frame 11, the output of cylinder 8 and the lower surface rotation of storage frame 11 are connected, install mixer body 12 in the mounting bracket 1.

As shown in fig. 1-4, in some embodiments, a damping shaft is rotatably connected to the interior of the mixer body 12, and a baffle 13 is fixedly connected to the damping shaft and penetrates through the damping shaft, where the baffle 13 is matched with the opening of the mixer body 12.

When the stirrer is used, the feeding end of the stirrer body 12 can be blocked by rotating the baffle 13, so that the splashing of materials during the development of stirring work is avoided.

As shown in fig. 1-4, in some embodiments, the feed end of the mixer body 12 is adjacent to one side of the storage frame 11, and when the storage frame 11 is located at the highest position, the lowest position of the storage frame 11 is higher than the feed end of the mixer body 12.

When the mixer is used, when the storage frame 11 is positioned at the highest position, the lowest position of the storage frame 11 is higher than the feeding end of the mixer body 12, so that the storage frame 11 can pour materials to be mixed into the mixer body 12.

As shown in fig. 1-4, in some embodiments, a switch button 14 is mounted on the upper end of one of the two sliders 3, the switch button 14 being electrically connected to the cylinder 8.

When in use, one of the sliding blocks 3 is lifted to the inner top of the through groove 2, and the switch button 14 on the sliding block is contacted with the inner top wall of the through groove 2, so that the effect of starting the air cylinder 8 can be achieved.

As shown in fig. 1-4, in some embodiments, the connecting blocks 9 are uniformly distributed on the upper surface of the mounting plate 6, and the upper end of the rotating rod 10 in each connecting block 9 is rotatably connected with the lower surface of the storage frame 11.

When the storage frame is used, the firmness of the installation of the storage frame 11 can be improved by arranging a plurality of connecting blocks 9 and rotating rods 10.

As shown in fig. 1-4, in some embodiments, a plurality of evenly distributed mounting grooves 15 are formed on two sides of two sliding blocks 3, a rotating column 16 is rotatably connected in the mounting grooves 15, and the rotating column 16 is in contact with the inner side wall of the through groove 2.

When the sliding block 3 moves up and down in the through groove 2 in use, the rotary column 16 moves up and down in the mounting groove 15, so that the friction force of the sliding block 3 during sliding in the through groove 2 can be reduced, and the sliding block 3 can conveniently move in the through groove 2 easily.

Embodiments are described below: when the automatic stirring machine is used, the servo motor 4 is started to drive the threaded rod 5 to rotate, the threaded rod 5 rotates to drive the sliding block 3 on the automatic stirring machine to move in the through groove 2, the height of the mounting plate 6 can be reduced when the sliding block 3 moves downwards, materials needing to be stirred are poured into the storage frame 11 on the mounting plate 6 when the mounting plate 6 is regulated to the lowest position, then the servo motor 4 is started again to drive the threaded rod 5 to reversely rotate, so that the effect of lifting the mounting plate 6 and the storage frame 11 on the mounting plate can be achieved, when the sliding block 3 with the switch button 14 ascends to the highest position in the through groove 2, the switch button 14 is started to open the air cylinder 8, the output end of the air cylinder 8 pushes the storage frame 11 to rotate, the storage frame 11 rotates towards the feeding position of the stirring machine body 12, the materials of the storage frame 11 can be poured into the stirring machine body 12, the effect of convenient feeding can be achieved by setting up the device on the mounting frame 1, the feeding problem of powdery materials can be effectively solved, the problem of feeding powdery materials can be solved, the problem of sweeping the powdery materials is solved, the working difficulty of the stirring machine can be reduced, and the working efficiency of the stirring machine can be improved by the device around the stirring machine is improved.

The previous description of the disclosed embodiments is provided to enable any person skilled in the art to make or use the present utility model. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the utility model. Thus, the present utility model is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

Claims (6)

1. The utility model provides a mixer support structure, which comprises a mounting rack (1), a serial communication port, mounting bracket (1) is "U" plate body structure, logical groove (2) have all been seted up to the both sides wall of mounting bracket (1), sliding connection has slider (3) in logical groove (2), servo motor (4) are installed to a lateral wall upper end of mounting bracket (1), the output of servo motor (4) runs through mounting bracket (1) and installs threaded rod (5) through the shaft coupling, threaded rod (5) are located one of them logical groove (2), and slider (3) in threaded rod (5) run through groove (2), threaded rod (5) and slider (3) threaded connection, the welding has mounting panel (6) between two sliders (3), recess (7) are seted up on the upper surface of mounting panel (6), recess (7) internal rotation connection has cylinder (8), connecting block (9) are fixedly connected with to upper surface one end of mounting panel (6), connecting block (9) are "U" plate body structure, internal rotation is connected with bull stick (10), the upper end of bull stick (10) rotates and is connected with slider (11) wherein, the upper end of bull stick (10) rotates and is connected with the output of connecting block (11) of cylinder (8), a stirrer body (12) is arranged in the mounting frame (1).

2. The stirrer support structure according to claim 1, wherein a damping shaft is rotatably connected to the inside of the stirrer body (12), and a baffle plate (13) is fixedly connected to the damping shaft and penetrates through the damping shaft, and the baffle plate (13) is matched with the opening of the stirrer body (12).

3. A mixer stand structure according to claim 1, characterized in that the feed end of the mixer body (12) is close to one side of the storage frame (11), and when the storage frame (11) is located at the highest position, the lowest position of the storage frame (11) is higher than the feed end of the mixer body (12).

4. A mixer bracket structure according to claim 1, characterized in that the upper end of one (3) of the two sliders (3) is provided with a switch button (14), the switch button (14) being electrically connected with the cylinder (8).

5. The stirrer supporting structure according to claim 1, wherein the connecting blocks (9) are provided with a plurality of connecting rods which are uniformly distributed on the upper surface of the mounting plate (6), and the upper end of each rotating rod (10) in each connecting block (9) is rotationally connected with the lower surface of the material storage frame (11).

6. The stirrer support structure according to claim 1, wherein a plurality of evenly distributed mounting grooves (15) are formed in both side surfaces of the two sliding blocks (3), the mounting grooves (15) are rotationally connected with a rotating column (16), and the rotating column (16) is in contact with the inner side wall of the through groove (2).