CN221335193U - Ceramic ball sphericity sorting and screening device - Google Patents

Abstract

The utility model relates to a ceramic ball sphericity sorting and screening device, which comprises: ball feeding device, ball rolling slope, sorting bed, rotating electrical machines, vibrating motor, fixed bolster, useless ball collecting chamber, finished product ball slope and switch board. The beneficial effects of the utility model are as follows: the angle between the diamond-shaped rollers is adjustable, a clamping groove can be formed between the diamond-shaped rollers, and kinetic energy of the big ball is consumed in a hysteresis mode; the upper side and the lower side of each group of roller gears are respectively provided with a worm, and the worm can rotate and drive the roller gears to rotate at the same time, so that the effect of adjusting the sizes of the clamping grooves is achieved, and the retention of balls with poor sphericity and exposed sections can be completely realized; the tail support rod is a telescopic rod and is connected with the air cylinder, so that the whole inclination angle of the sorting bed can be adjusted; and a control cabinet is also arranged for adjusting the frequency of the vibrating motor, so that the ball with better sphericity can smoothly roll over the sorting bed.

Description

Ceramic ball sphericity sorting and screening device

Technical Field

The utility model belongs to the technical field of ceramic ball sorting, and particularly relates to a ceramic ball sphericity sorting and screening device.

Background

The ceramic ball has the advantages of high temperature resistance, grinding resistance and corrosion resistance, and is widely used in the fields of superfine crushing, bearing connection and the like. In the use process, the roundness and the surface state (whether obvious gaps exist) of the ceramic ball have great influence on the service life of the ceramic, and the wear resistance of the ceramic ball is greatly reduced due to poor roundness and surface state, so that the working efficiency is sharply reduced and even mechanical faults are caused.

The existing method for screening the ceramic roundness starts from a rolling method, and the balls with better roundness are compared with the difference of the balls which are out of round and broken in the rolling state, so that the balls are separated from products. The specific implementation method is an artificial rolling ball method, and is greatly influenced by human factors.

CN107716317a reports a sorting system for irregular ceramic balls, which uses the difference of rolling speed and morphology of the out-of-round, broken balls and normal balls, and amplifies the rolling capability difference of the normal balls and the abnormal balls through a belt conveyor, thereby sieving out better balls. CN203803801U reports a triangle disc ball sorting machine, which improves the rolling property of the ball by vibration, and uses different motion specifications of the lost ball, broken ball and normal ball to collect and screen balls with different rounding degrees.

The above methods have better effect in sorting balls with smaller particle sizes, but when the particle sizes of the balls are larger, the balls have larger momentum, the above methods can not well sort out the partial loss of round balls or broken balls in the large balls completely, and the large balls easily bring the balls with poor roundness and partial broken slag into a collecting place, so that the sorting efficiency is greatly reduced.

Disclosure of utility model

The utility model aims to overcome the defects in the prior art and provides a ceramic ball sphericity sorting and screening device.

This kind of ceramic ball sphericity selects separately screening device includes: the ball feeding device, the ball rolling slope, the sorting bed, the rotating motor, the vibrating motor, the fixed support, the waste ball collecting chamber, the finished ball slope and the control cabinet; the ball feeding device consists of a ball feeding bucket, a flashboard and a ball feeding groove;

the whole ball inlet hopper is funnel-shaped, an opening is arranged at the lower part of the ball inlet hopper, a ball inlet groove is arranged below the opening of the ball inlet hopper, the bottom of the ball inlet groove is arranged on a ball rolling slope, and a flashboard capable of being opened and closed is arranged on the side wall of the ball inlet groove, which is close to the downhill direction of the ball rolling slope;

the sorting bed consists of a plurality of groups of diamond-shaped roller rods, a worm bracket vertical to the diamond-shaped roller rods and a square tray positioned below the diamond-shaped roller rods; roller gears are arranged at the two ends of each group of diamond roller; the worm support is fixed on the square tray; the fixed support comprises a head support rod and a tail support rod;

The device is also provided with an air cylinder bracket and an air cylinder; the length of the head supporting rod is not adjustable, the lower part of the head supporting rod is fixed on the base, and the upper part of the head supporting rod is connected with one end part of the square tray through a bearing; the length of the tail support rod is adjustable, the lower part of the tail support rod is also fixed on the base, and the upper part of the tail support rod is connected with the other end part of the square tray through a bearing, so that the worm and the bracket are prevented from relative movement; the tail support rod is a telescopic rod and is connected with an air cylinder, the air cylinder is used for adjusting the length of the tail support rod, and the air cylinder is arranged on the air cylinder bracket;

The head support rod and the tail support rod are used for supporting the square tray; the top end of the ball slope is connected with a ball feeding groove, the tail part of the other end of the ball slope is provided with a separation bed, and the ball slope is used as a channel between the ball feeding device and the separation bed;

As shown in fig. 5 and 6, the diamond-shaped roller consists of a roller body and two groups of roller gears positioned at two sides of the roller body; the upper side and the lower side of each group of roller gears are respectively provided with a worm, and the total number of the two worms is four, and the worm rotates and drives the roller gears to rotate;

As shown in fig. 7, the top of the worm support is provided with two holes, a bearing is sleeved through the holes, and the worm passes through the holes and is in sliding connection with the top of the worm support through the bearing;

As shown in fig. 5, one of the four worms positioned on two sides of the rod body is a worm driving side, and as shown in fig. 1 to 4, one end of the worm driving side is connected with a rotating motor, so that the worm can rotate around the axis of a cylinder of the worm, the sorting bed has a certain vibration effect, and the remaining three worms are worm driven sides; the worm driven edge and the worm driving edge are respectively provided with a worm gear surface, and the two worm gear surfaces positioned on the same side are meshed with the roller rod gear;

the square tray is externally connected with a vibrating motor;

The front and the back of the sorting bed are respectively provided with a waste ball collecting chamber, wherein the waste ball collecting chamber at the front end is used for collecting waste balls or scraps on a plurality of groups of diamond roller surfaces, and the waste ball collecting chamber at the back end is used for collecting waste balls or scraps on a square tray;

The finished ball slope is arranged at the tail end of the sorting bed and is used for collecting balls with no problem in sphericity;

The roller gears at the two ends of the diamond roller and the head support rod are electrically connected with a rotating motor; the control cabinet is electrically connected with the openable flashboard, the rotary motor, the air cylinder and the vibration motor and is used for controlling ball feeding, adjusting the angle of the diamond roller rod, the angle of the sorting bed and the frequency of the vibration motor; the gap formed in the rotating process of the diamond roller can allow part of smaller slag and small balls to pass through, so that a certain screening effect is realized.

As preferable: the whole bar body is diamond-shaped.

As preferable: the rotating motor is arranged at the position of one side of the sorting bed, which is close to the rolling ball slope.

As preferable: the side surface of the square tray is provided with a vertical plate with a certain height, and the vertical plate is connected with the worm bracket and the vibration motor to provide a vibration function for the sorting bed; the square tray is a straight plate channel in the front-back direction, and small particles can pass through the square tray.

As preferable: the diamond vertex angle of each diamond roller is 60 degrees or 120 degrees, the distance length between every two adjacent diamond rollers is equal to the length of one side edge of each diamond, when the diagonals of the short sides of the diamond surfaces of all the diamond rollers are parallel to the square tray below, the adjacent two diamond rollers are in point contact, and when the side surfaces of the diamond rollers are parallel to the square tray below, the adjacent two diamond rollers are mutually attached.

As preferable: the angular range interval that the diamond-shaped rollers can be adjusted through the worm is 60 degrees, and the clamping grooves are formed among the diamond-shaped rollers by adjusting the moving angle of the rollers, so that the size of grooves among the diamond-shaped rollers can be adjusted, and the width of the grooves among the diamond-shaped rollers is 0.13 times of the side length of the diamond at most; when the angle is determined, the roller gear is locked through the worm, so that the roller is ensured not to move in the rolling ball process.

The beneficial effects of the utility model are as follows:

In the device, the angle between the diamond-shaped rollers is adjustable, so that a clamping groove can be formed between the diamond-shaped rollers, and the kinetic energy of the big ball per se is consumed in a hysteresis way; the upper side and the lower side of each group of roller gears are respectively provided with a worm, and the worm can drive the roller gears to rotate while rotating, so that the effect of adjusting the sizes of the clamping grooves is achieved, and the retention of balls with poor sphericity and exposed sections can be completely realized.

The upper part of the head supporting rod is connected with one end part of the square tray through a bearing; the upper part of the tail support rod is connected with the other end part of the square tray through a bearing; the tail support rod is a telescopic rod and is connected with the air cylinder, so that the whole inclination angle of the sorting bed can be adjusted; and a control cabinet is also arranged for adjusting the frequency of the vibrating motor, so that the ball with better sphericity can smoothly roll over the sorting bed.

The ball screening device can adjust and screen the sphericity and the particle size of the balls, is simple to operate, can effectively optimize the production process and reduces the screening cost.

Drawings

FIG. 1 is a side view of a ceramic ball sphericity sorting screen;

FIG. 2 is a diagram of the ceramic ball sphericity sorting and screening device;

FIG. 3 is a ceramic ball sphericity sorting screen cleaning mode;

FIG. 4 is a top view of a ceramic ball sphericity sorting screen;

FIG. 5 is a detailed side view of a worm roll;

FIG. 6 is a front view of a detail of a worm roll;

FIG. 7 is a diagram of a support for a sorting bed;

Fig. 8 is a schematic diagram of a control cabinet.

Reference numerals illustrate: the ball feeding device 1, a ball feeding hopper 1.1, a flashboard 1.2, a ball feeding groove 1.3, a ball rolling slope 2, a sorting bed 3, a diamond roller 3.1, a bar body 3.1.1, a roller gear 3.1.2, a worm 3.2, a worm gear face 3.2.1, a worm driving side 3.2.2, a worm driven side 3.2.3, a square tray 3.3, a worm bracket 3.4, a bearing 3.4.1, a rotating motor 4, a vibrating motor 5, a head support rod 6, a tail support rod 7, a waste ball collecting chamber 8, a finished ball slope 9 and a control cabinet 10.

Detailed Description

The utility model is further described below with reference to examples. The following examples are presented only to aid in the understanding of the utility model. It should be noted that it will be apparent to those skilled in the art that modifications can be made to the present utility model without departing from the principles of the utility model, and such modifications and adaptations are intended to be within the scope of the utility model as defined in the following claims.

As an embodiment, a ceramic ball sphericity sorting and screening device includes: the ball feeding device, the ball rolling slope, the sorting bed, the rotating motor, the vibrating motor, the fixed support, the waste ball collecting chamber, the finished ball slope and the control cabinet; the ball feeding device consists of a ball feeding bucket, a flashboard and a ball feeding groove;

the whole ball inlet hopper is funnel-shaped, an opening is arranged at the lower part of the ball inlet hopper, a ball inlet groove is arranged below the opening of the ball inlet hopper, the bottom of the ball inlet groove is arranged on a ball rolling slope, and a flashboard capable of being opened and closed is arranged on the side wall of the ball inlet groove, which is close to the downhill direction of the ball rolling slope;

The sorting bed consists of a plurality of groups of diamond-shaped roller rods, a worm bracket vertical to the diamond-shaped roller rods and a square tray positioned below the diamond-shaped roller rods; roller gears are arranged at the two ends of each group of diamond roller; the worm support is fixed on the square tray; the fixed support comprises a head support rod and a tail support rod; the side surface of the square tray is provided with a vertical plate with a certain height, and the vertical plate is connected with the worm bracket and the vibration motor to provide a vibration function for the sorting bed; the square tray is a straight plate channel in the front-back direction, and small particles can pass through the square tray.

The device is also provided with an air cylinder bracket and an air cylinder; the length of the head supporting rod is not adjustable, the lower part of the head supporting rod is fixed on the base, and the upper part of the head supporting rod is connected with one end part of the square tray through a bearing; the length of the tail support rod is adjustable, the lower part of the tail support rod is also fixed on the base, and the upper part of the tail support rod is connected with the other end part of the square tray through a bearing, so that the worm and the bracket are prevented from relative movement; the tail support rod is a telescopic rod and is connected with an air cylinder, the air cylinder is used for adjusting the length of the tail support rod, and the air cylinder is arranged on the air cylinder bracket;

The head support rod and the tail support rod are used for supporting the square tray; the top end of the ball slope is connected with a ball feeding groove, the tail part of the other end of the ball slope is provided with a separation bed, and the ball slope is used as a channel between the ball feeding device and the separation bed;

as shown in fig. 5 and 6, the diamond-shaped roller consists of a roller body and two groups of roller gears positioned at two sides of the roller body; the upper side and the lower side of each group of roller gears are respectively provided with a worm, and the total number of the two worms is four, and the worm rotates and drives the roller gears to rotate; the whole bar body is diamond-shaped; the diamond vertex angle of each diamond roller is 60 degrees or 120 degrees, the distance length between two adjacent diamond rollers is equal to the length of one side edge of each diamond, when the diagonals of the short sides of the diamond surfaces of all the diamond rollers are parallel to the square tray below, the two adjacent diamond rollers are in point contact, and when the side surfaces of the diamond rollers are parallel to the square tray below, the two adjacent diamond rollers are mutually attached; the angular range interval that the diamond-shaped rollers can be adjusted through the worm is 60 degrees, and the clamping grooves are formed among the diamond-shaped rollers by adjusting the moving angle of the rollers, so that the size of grooves among the diamond-shaped rollers can be adjusted, and the width of the grooves among the diamond-shaped rollers is 0.13 times of the side length of the diamond at most; when the angle is determined, the roller gear is locked through the worm, so that the roller is ensured not to move in the rolling ball process.

As shown in fig. 7, the top of the worm support is provided with two holes, a bearing is sleeved through the holes, and the worm passes through the holes and is in sliding connection with the top of the worm support through the bearing;

As shown in fig. 5, one of the four worms positioned on two sides of the rod body is a worm driving side, and as shown in fig. 1 to 4, one end of the worm driving side is connected with a rotating motor, so that the worm can rotate around the axis of a cylinder of the worm, the sorting bed has a certain vibration effect, and the remaining three worms are worm driven sides; the worm driven edge and the worm driving edge are respectively provided with a worm gear surface, and the two worm gear surfaces positioned on the same side are meshed with the roller rod gear;

the square tray is externally connected with a vibrating motor;

The front and the back of the sorting bed are respectively provided with a waste ball collecting chamber, wherein the waste ball collecting chamber at the front end is used for collecting waste balls or scraps on a plurality of groups of diamond roller surfaces, and the waste ball collecting chamber at the back end is used for collecting waste balls or scraps on a square tray;

The finished ball slope is arranged at the tail end of the sorting bed and is used for collecting balls with no problem in sphericity;

The roller gears at the two ends of the diamond roller and the head support rod are electrically connected with a rotating motor, and the rotating motor is arranged at the position, close to the rolling ball slope, of one side of the sorting bed; the control cabinet is electrically connected with the openable flashboard, the rotary motor, the air cylinder and the vibration motor and is used for controlling ball feeding, adjusting the angle of the diamond roller rod, the angle of the sorting bed and the frequency of the vibration motor; the gap formed in the rotating process of the diamond roller can allow part of smaller slag and small balls to pass through, so that a certain screening effect is realized.

The device for sorting and screening the sphericity of the ceramic balls works:

In the initial starting-up stage, the device state is shown in figure 1, and the table surface of the diamond-shaped roller rod 3.1 of the sorting bed 3 is parallel to the square tray 3.3; after the roller angle, the vibration motor frequency and the sorting bed angle are set on the control cabinet 10, the angle of the diamond roller 3.1 and the height of the tail support rod 7 are adjusted; grooves and small gaps appear among the plurality of diamond-shaped roller rods 3.1 after adjustment is completed, and the roller rod gears 3.1.2 are locked through the worm 3.2 to fix the roller table shape;

As shown in fig. 2 and 8, after confirming that the parameters are correct, turning on the ball adding switch on the control cabinet 10, clicking the sorting start, starting the ball feeding sorting and screening by the machine, and vibrating the sorting bed 3. The control cabinet 10 is used for controlling the ball feeding, adjusting the angle of the diamond-shaped roller, the angle of the sorting bed and the frequency of the vibrating motor.

In the whole process, the ball feeding is intermittent, the ball feeding hopper 1.1 is added with balls, and after the ball feeding hopper 1.1 is filled with balls into the ball feeding groove 1.3, the ball feeding is stopped; the flashboard 1.2 is opened, the ball in the ball inlet groove 1.3 naturally rolls down along the ball rolling slope 2, and the purpose is to ensure that the balls are dispersed sufficiently at the initial starting position of the whole device, so that excessive momentum transfer between the balls is avoided;

the ball passes through the ball rolling slope 2 and enters the sorting bed 3, the worm rotates and drives the roller gear to rotate, and meanwhile, the worm on two sides can fix and support the roller; the angle of the diamond-shaped roller 3.1 and the roller gap are adjusted through the worm 3.2; the front and the back of the separation bed 3 are respectively provided with a waste ball collecting chamber 8, wherein the waste ball collecting chamber 8 at the front end is used for collecting waste balls or crushed slag on the surfaces of a plurality of groups of diamond-shaped roller rods 3.1 and is used for collecting small balls, lost balls and even crushed balls clamped in grooves of the separation bed; the waste ball collecting chamber 8 at the rear end is used for collecting waste balls or scraps on the square tray 3.3; balls with no problem in sphericity (roundness) can roll by themselves through the sorting bed 3 into the finished ball ramp 9 to be collected; balls with poor rolling performance (out of round and broken) can stay on grooves among the diamond-shaped rollers 3.1, and some small scraps can permeate through gaps and enter the square trays 3.3 of the sorting bed 3 and flow into the waste ball collecting chamber 8 at the tail part.

Over time, the grooves on the diamond shaped roller 3.1 will gradually fill up, at which time the goal stops, opening the cleaning mode on the control cabinet 10. The vibrating motor 5 enables the sorting bed 3 to have a certain vibrating effect, and the length of the tail support rod 7 is adjusted through the air cylinder, so that the inclination angle of the sorting bed 3 is adjusted; as shown in fig. 3, the tail support rod 7 is automatically lifted, the vibration motor 5 continuously works, the diamond-shaped roller rod 3.1 is gradually folded, and broken balls can fall into the front waste ball collecting chamber 8 from the diamond-shaped roller rod;

After a period of time, the tail support rod 7 returns to the height set previously, the roller angle is changed back to the size set previously, the ball is rolled continuously, and the steps are repeated until the ball sorting and screening are finished.

Claims (6)

1. A ceramic ball sphericity sorting and screening device, comprising: the ball feeding device (1), a ball rolling slope (2), a sorting bed (3), a rotating motor (4), a vibrating motor (5), a fixed bracket, a waste ball collecting chamber (8), a finished ball slope (9) and a control cabinet (10); the ball feeding device (1) consists of a ball feeding hopper (1.1), a flashboard (1.2) and a ball feeding groove (1.3);

The whole ball feeding hopper (1.1) is funnel-shaped, an opening is arranged at the lower part, a ball feeding groove (1.3) is arranged below the opening of the ball feeding hopper (1.1), the bottom of the ball feeding groove (1.3) is arranged on the ball rolling slope (2), and a flashboard (1.2) capable of being opened and closed is arranged on the side wall of the ball feeding groove (1.3) close to the downhill direction of the ball rolling slope (2);

The sorting bed (3) consists of a plurality of groups of diamond-shaped roller rods (3.1), a worm bracket (3.4) perpendicular to the diamond-shaped roller rods (3.1) and a square tray (3.3) positioned below the diamond-shaped roller rods (3.1); both ends of each group of diamond-shaped roller rods (3.1) are provided with roller rod gears (3.1.2); the worm support (3.4) is fixed on the square tray (3.3); the fixed bracket comprises a head supporting rod (6) and a tail supporting rod (7);

The device is also provided with an air cylinder bracket and an air cylinder; the length of the head supporting rod (6) is not adjustable, the lower part of the head supporting rod (6) is fixed on the base, and the upper part of the head supporting rod (6) is connected with one end part of the square tray (3.3) through a bearing; the length of the tail support rod (7) is adjustable, the lower part of the tail support rod (7) is also fixed on the base, and the upper part of the tail support rod (7) is connected with the other end part of the square tray (3.3) through a bearing; the tail support rod (7) is a telescopic rod, the tail support rod (7) is connected with an air cylinder, the air cylinder is used for adjusting the length of the tail support rod (7), and the air cylinder is arranged on the air cylinder bracket;

The head support rod (6) and the tail support rod (7) are used for supporting the square tray (3.3); the top end of the ball rolling slope (2) is connected with a ball feeding groove (1.3), the tail part of the other end is provided with a separation bed (3), and the ball rolling slope (2) is used as a channel between the ball feeding device (1) and the separation bed (3);

The diamond-shaped roller (3.1) consists of a roller body (3.1.1) and two groups of roller gears (3.1.2) positioned on two sides of the roller body (3.1.1); the upper side and the lower side of each group of roller gears (3.1.2) are respectively provided with a worm (3.2), and the total number of the two worm (3.2) is four;

The top of the worm support (3.4) is provided with two holes, a bearing (3.4.1) is sleeved on the penetrating holes, and the worm (3.2) penetrates through the holes and is in sliding connection with the top of the worm support (3.4) through the bearing (3.4.1);

One of four worms (3.2) positioned on two sides of the rod body (3.1.1) is a worm driving side (3.2.2), one end of the worm driving side (3.2.2) is connected with a rotating motor (4), and the remaining three worms (3.2) are worm driven sides (3.2.3); the worm driven edge (3.2.3) and the worm driving edge (3.2.2) are respectively provided with a worm gear surface (3.2.1), and the two worm gear surfaces (3.2.1) positioned on the same side are meshed with the roller gear (3.1.2);

the square tray (3.3) is externally connected with a vibration motor (5);

The front and the back of the sorting bed are respectively provided with a waste ball collecting chamber (8), wherein the waste ball collecting chamber (8) at the front end is used for collecting waste balls or scraps on the surfaces of a plurality of groups of diamond-shaped roller rods (3.1), and the waste ball collecting chamber (8) at the back end is used for collecting waste balls or scraps on a square tray (3.3);

The finished ball slope (9) is arranged at the tail end of the separation bed (3) and is used for collecting balls with no problem in sphericity;

Roller gears (3.1.2) and head support rods (6) at two ends of the diamond roller (3.1) are electrically connected with a rotating motor (4); the control cabinet (10) is electrically connected with the openable flashboard (1.2), the rotating motor (4), the air cylinder and the vibrating motor (5).

2. The ceramic ball sphericity sorting and screening device of claim 1, wherein: the whole bar body (3.1.1) is diamond-shaped.

3. The ceramic ball sphericity sorting and screening device of claim 1, wherein: the rotating motor (4) is arranged at the position of one side of the sorting bed (3) close to the rolling ball slope (2).

4. The ceramic ball sphericity sorting and screening device of claim 1, wherein: a vertical plate with a certain height is arranged on the side surface of the square tray (3.3), and the vertical plate is connected with the worm bracket (3.4) and the vibration motor (5); the square tray (3.3) is a straight plate channel in the front-back direction.

5. The ceramic ball sphericity sorting and screening device of claim 1, wherein: the diamond vertex angle of each diamond-shaped roller (3.1) is 60 degrees or 120 degrees, the distance length between every two adjacent diamond-shaped rollers (3.1) is equal to one side edge of each diamond, when the short side diagonal line of the diamond surface of each diamond-shaped roller (3.1) is parallel to the square tray (3.3) below, the two adjacent diamond-shaped rollers (3.1) are in point contact, and when the side surface of each diamond-shaped roller (3.1) is parallel to the square tray (3.3) below, the two adjacent diamond-shaped rollers (3.1) are mutually attached.

6. The ceramic ball sphericity sorting and screening device according to claim 5, wherein: the angular range spacing of the diamond-shaped roller rods (3.1) which can be adjusted by the worm (3.2) is 60 degrees; when the angle is determined, the roller gear (3.1.2) is locked by the worm (3.2).