CN211160041U

CN211160041U - High-efficiency energy-saving grinding machine

Info

Publication number: CN211160041U
Application number: CN201922089223.0U
Authority: CN
Inventors: 王宇航
Original assignee: Individual
Current assignee: Individual
Priority date: 2019-11-28
Filing date: 2019-11-28
Publication date: 2020-08-04
Anticipated expiration: 2029-11-28

Abstract

The utility model discloses a high-efficiency energy-saving grinding machine, which is characterized by comprising an installation bracket, a cylinder body, a motor and a grinding disc; the mounting bracket is provided with a plurality of connecting rods; the mounting bracket is provided with a motor fixing plate; the motor fixing plate is provided with a motor; a driving belt wheel is arranged on the motor; a discharge chute is arranged outside the cylinder body; a discharge hole is arranged in the discharge chute; a material port is formed on the cylinder body; a screen is arranged on the material port; a plurality of connecting rods are arranged outside the barrel; the connecting rod is fixedly connected with the connecting rod through a bolt; a grinding disc is arranged in the cylinder body; the grinding disc comprises a rotating shaft and a disc body; the rotating shaft is provided with a disc body, a bearing seat and a driven belt wheel; a connecting piece is arranged outside the bearing seat; the connecting piece is connected with the connecting rod through a bolt. The utility model discloses simple structure, convenient to use, ejection of compact is effectual, and is energy-efficient, can also protect the belt fracture, prevents to harm the manual work.

Description

High-efficiency energy-saving grinding machine

[ technical field ] A method for producing a semiconductor device

The utility model relates to a machining technology field specifically indicates energy-efficient machine that grinds.

[ background of the invention ]

The grinding machine is necessary production equipment for chemical production, and mainly ensures that liquid chemical raw materials pass through grinding media with specific diameters, so that the sizes of particles contained in the liquid chemical raw materials are reduced to set specifications, and further the subsequent process requirements are met; the stirring mode can only enable the slurry to have the effect of chasing each other, but cannot enable the slurry to have the effect of mutual butt joint and collision, the grinding beads can only perform grinding along with regular circular motion of the disc body, the grinding beads can move upwards along with chemical raw materials during grinding, but the disc body is not arranged at the top of the cylinder body for stirring, so that the stirring effect is poor, and the grinding beads at the top are fewer due to the gravity of the grinding beads, so that the slurry at the top of the cylinder body cannot have the grinding effect; the grinding beads at the bottom of the cylinder body move upwards along with the slurry and are reduced, so that the slurry grinding effect at the bottom of the cylinder body is reduced; among the prior art can use big grinding pearl (density is big) to grind when grinding the effect is not good, can aggravate the weight of grinding pearl itself in the barrel like this to make the start-up load of motor increase, make the motor damage easily, increase the number of times of cost and maintenance, thereby also can accelerate the wearing and tearing emergence fracture of belt, get rid of and hinder the workman, some also can adopt many grinders to grind repeatedly, thereby reach the effect of grinding, the extravagant energy. To this end, efficient energy-saving grinders are proposed.

[ summary of the invention ]

The utility model aims at providing a high-efficient energy-saving grinder in order to solve the above problems.

In order to achieve the above purpose, the utility model provides a following technical scheme: the high-efficiency energy-saving grinding machine comprises a mounting bracket, a cylinder, a motor, a disc body and a rotating shaft; the mounting bracket is provided with a plurality of connecting rods; the mounting bracket is provided with a motor fixing plate; the motor fixing plate is provided with a motor; a driving belt wheel is arranged on the motor; a discharge chute is arranged outside the cylinder body; a discharge hole is arranged in the discharge chute; a material port is formed on the cylinder body; a screen is arranged on the material port; a plurality of connecting rods are arranged outside the barrel; the connecting rod is fixedly connected with the connecting rod through a bolt; the method is characterized in that: a rotational flow rib is arranged in the cylinder body; the swirl ribs are uniformly distributed in the cylinder body; the tray body is provided with through holes and ribs; a material rotational flow channel is formed between the ribs; a slotted hole is formed in the through hole; and a positive cross and a negative cross of the plate body are fixedly arranged on the rotating shaft.

Preferably, the rotating shaft is provided with a disc body, a bearing seat and a driven belt wheel; a connecting piece is arranged outside the bearing seat; the connecting piece is connected with the connecting rod through a bolt; the driven belt wheel is connected with the driving belt wheel through a belt; a protective cover is arranged below the driven belt wheel; a crosspiece is arranged on the driven belt wheel; the crosspieces are all of hollow structures; the protective cover is fixedly connected to the barrel body through welding.

Preferably, a boss is arranged on the rotating shaft; the slotted hole is matched with the boss for installation.

Preferably, grinding beads are placed in the cylinder; the mounting height of the tray body accounts for 10% -90% of the total height of the barrel body; the grinding beads account for 90% -150% of the mounting height of the disc body.

The utility model has the advantages that: the grinding machine is simple in structure, convenient to use, good in discharging effect, efficient, energy-saving, capable of protecting belt breakage and preventing manual damage.

[ description of the drawings ]

Fig. 1 is a schematic structural diagram of the present invention.

Fig. 2 is a schematic structural diagram of the tray body of the present invention.

Fig. 3 is a schematic structural view of the rotating shaft of the present invention.

Fig. 4 is a schematic structural view of another rotating shaft according to the present invention.

Fig. 5 is a schematic structural diagram of the reverse disk body of the present invention.

Illustration of the drawings: 1, a motor; 2, a driving belt wheel; 3, a belt; 4, fixing a motor plate; 5 connecting rods; 6, a tray body; 601 slotted holes; 602 ribs; 603 through holes; 7 rotating the shaft; 701, a boss; 8, a cylinder body; 9, a material port; 10 discharging grooves; 11 a screen mesh; 12, discharging a material outlet; 13 a protective cover; 14 a driven pulley; 1401 a rung; 15 connecting pieces; 16 bearing seats; 17 mounting a bracket; 18 swirl ribs; 19 grinding the beads.

Detailed Description

The following describes a high-efficiency energy-saving grinder according to the present invention with reference to the accompanying drawings.

Referring to fig. 1-5, the high efficiency grinder of the present embodiment includes a mounting bracket 14, a drum 8, a motor 1, a disc 6, and a rotating shaft 7; the mounting bracket 17 is provided with a plurality of connecting rods 5; the mounting bracket 17 is provided with a motor fixing part 4; the motor fixing plate 4 is provided with a motor 1; a driving belt wheel 2 is arranged on the motor 1; a discharge chute 10 is arranged outside the cylinder 8; a discharge hole 12 is arranged in the discharge groove 10; a material port 9 is formed on the cylinder 8; a screen 11 is arranged on the material port 9; a plurality of connecting rods 5 are arranged outside the barrel 8; the connecting rod 5 is fixedly connected with the connecting rod 5 through a bolt; the method is characterized in that: a swirl rib 18 is arranged in the cylinder 8; the swirl ribs 18 are uniformly distributed in the cylinder 8; a through hole 603 and ribs 602 are arranged on the tray body 6, and material rotational flow channels are formed between the ribs; a slotted hole 601 is formed in the through hole 603; a positive cross and a negative cross of the tray body are fixedly arranged on the rotating shaft 7; the rotating shaft 7 is provided with a disc body 6, a bearing seat 16 and a driven belt wheel 14; a connecting piece 15 is arranged outside the bearing seat 16; the connecting piece 15 is connected with the connecting rod 5 through a bolt; the driven pulley 14 is connected to the driving pulley 2 via a belt 3. A protective cover 13 is arranged below the driven belt wheel 14; a crosspiece 201 is arranged on the driving belt wheel 2; the crosspieces 201 are all hollow structures; the protective cover 13 is fixedly connected to the cylinder 8 by welding.

The utility model is used, firstly, the belt 3 is adjusted with the tension degree by the moving motor 1, the motor 1 is fixed after adjusting the proper tension degree, then the disk body 6 is installed on the rotating shaft 7 in a positive-negative crossing way, the installation height of the disk body 6 accounts for 10% -90% of the total height of the cylinder body 8, then the grinding beads 19 are added in the cylinder body 8, the height of the grinding beads 19 accounts for 100% -150% of the installation height of the disk body 6, then the motor 1 is started to rotate, the motor 1 rotates to drive the driving belt wheel 2 to rotate, the driving belt wheel 2 drives the driven belt wheel 14 to rotate by the belt 3, the driven belt wheel 14 drives the rotating shaft 7 to rotate, finally, the disk body 6 installed on the rotating shaft 7 is driven to rotate to grind, the disk body 6 and the grinding beads 19 grind the chemical raw materials in the cylinder body 8, the chemical raw materials and the grinding beads 19 move upwards along with the rotation of, when grinding bead 19 reachd the position of whirl muscle 18, whirl muscle 18 can down press the grinding bead and make grinding bead 19 downstream, and the industrial chemicals upward movement of grinding gets into the blown down tank 10 through feed inlet 9 and screen cloth 11 on the barrel 8 in, so block the grinding bead in the barrel 8 because of there being screen cloth 11, and the industrial chemicals that gets into in the blown down tank 10 gets into the body of connecting through the discharge gate 12 that is equipped with in the blown down tank 10, gets into in the middle of the equipment of back.

The beneficial effects of the utility model are that 1, the grinder has simple structure and convenient use, through the ribs 602 which are arranged on the disk body 6 and are arranged on the rotating shaft 7 in a positive-negative crossing way, the disk body 6 which is opposite up and down can lead the motion directions of the chemical raw materials and the grinding beads 19 to be opposite when the disk body 6 is used for grinding, and the chemical raw materials and the chemical meeting raw materials can be simultaneously ground when colliding, thus leading the grinding effect to be better and reducing the resistance when grinding;

2. By adding the protective cover 13 below the driven belt wheel 14, when the belt 3 is broken, the belt 3 can be prevented from being thrown out to hurt the manpower;

3. By installing the screen 11 and the discharge chute 10 at the material port 9 of the cylinder 8, when the ground chemical raw materials enter the discharge chute 10, the screen 11 can prevent the grinding beads 19 from entering the discharge chute 10, and the chemical raw materials can conveniently flow out to enter a subsequent device;

4. By installing the rotational flow ribs 18 in the cylinder 8, in the stirring process, the rotational flow ribs can generate downward pressing force on chemical raw materials which move upwards due to the rotation stirring of the disc body, when the grinding beads are in contact with the rotational flow ribs, the rotational flow ribs can generate downward pressing force on the grinding beads, and the weight of the grinding beads is added to enable the grinding beads 19 to move downwards, so that the grinding beads 19 with small density can replace the grinding beads 19 with large density, the grinding effect of the grinding beads with large density is achieved, the weight of the grinding beads in the cylinder can be reduced, and the cost is saved; 5. the motor 1 is protected by using a lightweight pulley and the swirl ribs 18 described above using a small density of grinding beads 19 instead of a large density of grinding beads 19 so that the starting load of the motor 1 is reduced.

The above-mentioned embodiment is right the utility model discloses an explanation, it is not right the utility model discloses a limited, any right the scheme after the simple transform of the utility model all belongs to the protection scope of the utility model.

Claims

1. The high-efficiency energy-saving grinding machine comprises a mounting bracket (17), a cylinder (8), a motor (1), a disc body (6) and a rotating shaft (7); the mounting bracket (17) is provided with a plurality of connecting rods (5); the mounting bracket (17) is provided with a motor fixing plate (4); the motor fixing plate (4) is provided with a motor (1); a driving belt wheel (2) is arranged on the motor (1); a discharge chute (10) is arranged outside the cylinder body (8); a discharge hole (12) is formed in the feed trough (10); a material port (9) is formed in the cylinder body (8); a screen (11) is arranged on the material port (9); a plurality of connecting rods (5) are arranged outside the barrel (8); the connecting rod (5) is fixedly connected with the connecting rod (5) through a bolt; the method is characterized in that: a rotational flow rib (18) is arranged in the cylinder body (8); the swirl ribs (18) are uniformly distributed in the cylinder body (8); through holes (603) and ribs (602) are arranged on the tray body (6), and material rotational flow channels are formed between the ribs; a slotted hole (601) is formed in the through hole (603); and a positive cross and a negative cross of the plate body are fixedly arranged on the rotating shaft (7).

2. The energy efficient mill of claim 1, wherein: the rotating shaft (7) is provided with a disc body (6), a bearing seat (16) and a driven belt wheel (14); a connecting piece (15) is arranged outside the bearing seat (16); the connecting piece (15) is connected with the connecting rod (5) through a bolt; the driven belt wheel (14) is connected with the driving belt wheel (2) through a belt (3); a protective cover (13) is arranged below the driven belt wheel (14); a crosspiece (201) is arranged on the driven belt wheel (14); the crosspieces (201) are all of hollow structures; the protective cover (13) is fixedly connected to the cylinder body (8) through welding.

3. The energy efficient mill of claim 1, wherein: a boss (701) is arranged on the rotating shaft (7); the slotted hole (601) is matched with the boss (701) for installation.

4. The energy efficient mill of claim 1, wherein: grinding beads (19) are arranged in the cylinder body (8); the mounting height of the tray body (6) accounts for 10% -90% of the total height of the barrel body (8); the grinding beads (19) account for 90% -150% of the installation height of the disc body (6).