CN212947218U - Grinding disc structure for grinding equipment - Google Patents

Abstract

The utility model provides a grinding disc structure for grinding equipment applied to the technical field of grinding equipment, wherein a support frame (5) is arranged on an upper disc (1) of the grinding disc structure for grinding equipment, the support frame (5) comprises a connecting rod (6) and a support frame body (7), a telescopic cylinder (8) passes through the support frame body (7), an upper disc center hole (3) and a lower disc center hole (4), a support plate (9) is arranged below the support frame body (7) on the telescopic cylinder (8), a positioning bearing (10) is arranged on the telescopic cylinder (8) above the support plate (9), and a plurality of steel ball rollers (11) are arranged on the lower surface of the support frame body (7). The grinding product is continuously and stably pressurized, and the grinding quality of the product is improved.

Description

Grinding disc structure for grinding equipment

Technical Field

The utility model belongs to the technical field of the grinding device, more specifically say, relate to a grinding miller structure for grinding device.

Background

In high-precision grinding, the upper disc and the lower disc are required to be controlled to be attached and then rotate mutually, so that the product is precisely ground. In the prior art, the movement of the upper disc, namely the control of the attachment and separation of the upper disc and the lower disc, is directly controlled by the expansion and contraction of the cylinder. However, the upper disc is controlled to move by the telescopic cylinder, pressure can be provided, but the cylinder is controlled by closed loop, pressure fluctuation is obvious, grinding quality is adversely affected, and the requirement of high-precision grinding cannot be met.

SUMMERY OF THE UTILITY MODEL

The utility model discloses the technical problem that will solve is: the grinding disc structure for the grinding equipment is simple in structure, can conveniently and quickly realize the attachment and separation control of the upper disc and the lower disc, continuously and stably pressurizes a grinding product through the self weight of the upper disc during the attachment work of the upper disc and the lower disc, eliminates the influence of pressure fluctuation in the prior art, and improves the grinding quality of the product.

To solve the technical problem, the utility model discloses the technical scheme who takes does:

the utility model relates to a grinding disk structure for grinding device, including hanging wall, lower wall, set up the hanging wall centre bore on the hanging wall, set up the lower wall centre bore on the lower wall, set up the support frame on the hanging wall, the support frame includes connecting rod and support frame body, telescopic cylinder passes support frame body, hanging wall centre bore, lower wall centre bore, the last support frame body below position that lies in of telescopic cylinder sets up the backup pad, the backup pad upper surface sets up to the conical surface structure, sets up location bearing on the telescopic cylinder of backup pad top, support frame body lower surface sets up a plurality of steel ball gyro wheels, the lower wall is connected with lower wall driving motor.

The telescopic cylinder of the grinding disc structure for the grinding equipment comprises a cylinder body and a cylinder rod, wherein the cylinder rod penetrates through the support frame body, the upper disc center hole and the lower disc center hole, a support plate is arranged below the support frame body on the cylinder rod, and a roller is arranged on the cylinder rod above the support plate.

The support frame body is arranged to be of a cross-shaped structure, a support frame center hole is formed in the center of the support frame body, and each support frame protruding plate of the support frame body is fixedly connected with the corresponding position of the upper plate through a connecting rod.

The grinding device is characterized in that a cylinder body of a telescopic cylinder of a grinding disc structure is arranged on a cylinder positioning plate, and the cylinder positioning plate is connected with a grinding device frame.

The grinding device is characterized in that a telescopic cylinder of a grinding disc structure is connected with a control component capable of controlling the expansion of a cylinder rod of the telescopic cylinder, and a lower disc is connected with a control component capable of controlling the starting and stopping of a lower disc driving motor and the adjustment of the rotating speed.

The upper disc and the lower disc are both arranged into annular structures.

When the control component of the grinding disc structure for the grinding equipment controls the cylinder rod of the telescopic cylinder to move downwards, the upper disc and the support frame body are arranged into a structure which can move downwards synchronously along with the cylinder rod and is attached to the lower disc.

When the control component of the grinding disc structure for the grinding equipment controls the cylinder rod of the telescopic cylinder to move upwards, the support plate is set to be a structure capable of driving the upper disc and the support frame body to synchronously move upwards along with the cylinder rod.

When the cylinder rod of the telescopic cylinder moves downwards to drive the upper disc and the support frame body to move downwards synchronously along with the cylinder rod and be attached to the lower disc, the control part is arranged into a structure capable of driving the cylinder rod of the telescopic cylinder to move downwards again.

The positioning bearing is of a horizontal and vertical structure, the steel ball rollers are of a horizontally arranged structure, the supporting plate drives the upper plate and the supporting frame body to synchronously move downwards or upwards along with the cylinder rod, and the side surface of each steel ball roller is of a structure capable of being respectively attached to the side surface of the positioning bearing.

Adopt the technical scheme of the utility model, can obtain following beneficial effect:

grinding miller for equipment structure, carry out institutional advancement to grinding miller for equipment structure, stretch out the in-process at telescopic cylinder, utilize the dead weight of hanging wall, realize that the hanging wall moves down, until laminating with the lower wall. After the upper disc and the lower disc are matched to grind products, the upper disc is moved upwards through contraction of the telescopic cylinder. When the control component of the grinding disc structure for the grinding equipment controls the cylinder rod of the telescopic cylinder to move downwards, the upper disc and the support frame body can synchronously move downwards along with the cylinder rod to be attached to the lower disc. When the cylinder rod of the telescopic cylinder moves downwards to drive the upper disc and the support frame body to move downwards synchronously along with the cylinder rod and be attached to the lower disc, the control part can drive the cylinder rod of the telescopic cylinder to move downwards again. At the moment, the steel ball roller is completely separated from the supporting plate, the rotation of the upper disc and the lower disc cannot be influenced any more, the purpose of applying pressure to a product between the upper disc and the lower disc is achieved completely through the dead weight of the upper disc, and then the lower disc and the upper disc rotate relatively to achieve grinding. When the control component of the grinding disc structure for the grinding equipment controls the cylinder rod of the telescopic cylinder to move upwards, the support plate is set to be a structure capable of driving the upper disc and the support frame body to synchronously move upwards along with the cylinder rod. Like this, can conveniently realize laminating and the separation control of hanging wall and lower wall, easy operation, the reliability is high. Grinding disc structure for grinding device, simple structure can convenient and fast realize hanging wall and lower wall laminating and separation control to hanging wall and lower wall laminating during operation are through hanging wall dead weight pressurization, realize lasting stable pressurization to the grinding product, eliminate the pressure fluctuation influence that exists among the prior art, improve product grinding quality.

Drawings

The contents of the description and the references in the drawings are briefly described as follows:

fig. 1 is a schematic structural view of a grinding disc structure for a grinding apparatus according to the present invention;

fig. 2 is a schematic view of a partial axial view structure of a grinding disc structure for a grinding apparatus according to the present invention;

fig. 3 is a schematic structural view of the grinding disc structure for a grinding apparatus according to the present invention when the upper disc and the lower disc are separated;

fig. 4 is a schematic structural view of the upper disc and the lower disc of the grinding disc structure for the grinding device according to the present invention when they are attached to each other;

in the drawings, the reference numbers are respectively: 1. hanging the plate; 2. a bottom wall; 3. a central hole of the upper disc; 4. a central hole of the lower disc; 5. a support frame; 6. a connecting rod; 7. a support frame body; 8. a telescopic cylinder; 9. a support plate; 10. positioning the bearing; 11. steel ball rollers; 12. a cylinder body; 13. a cylinder rod; 14. a central hole of the support frame; 15. a support frame protruding plate; 16. and a cylinder positioning plate.

Detailed Description

The following description of the embodiments of the present invention will be made in detail with reference to the accompanying drawings, wherein the embodiments of the present invention are described in detail with reference to the accompanying drawings, for example, the shapes, structures, mutual positions and connection relations of the components, the functions and operation principles of the components, and the like:

as shown in the attached drawing 1, the utility model relates to a grinding disk structure for grinding device, including hanging wall 1, lower wall 2, set up hanging wall centre bore 3 on the hanging wall 1, set up lower wall centre bore 4 on the lower wall 2, set up support frame 5 on the hanging wall 1, support frame 5 includes connecting rod 6 and support frame body 7, telescopic cylinder 8 passes support frame body 7, hanging wall centre bore 3, lower wall centre bore 4, it sets up backup pad 9 to lie in support frame body 7 below on the telescopic cylinder 8, the upper surface of backup pad 9 sets up to the conical surface structure, set up positioning bearing 10 on the telescopic cylinder 8 of backup pad 9 top, support frame body 7 lower surface sets up a plurality of steel ball gyro wheels 11, lower wall 2 is connected with lower wall driving motor. Above-mentioned structure carries out institutional advancement to the abrasive disc structure for the grinding equipment, stretches out the in-process at telescopic cylinder, utilizes the dead weight of hanging wall, realizes that the hanging wall moves down until with the lower wall laminating. After the grinding is finished, the upper disc is moved upwards through the contraction of the telescopic cylinder. When the control component of the grinding disc structure for the grinding equipment controls the cylinder rod 13 of the telescopic cylinder 8 to move downwards, the upper disc 1 and the support frame body 7 can synchronously move downwards along with the cylinder rod 13 to be attached to the lower disc 2. When the cylinder rod 13 of the telescopic cylinder 8 moves downwards to drive the upper disc 1 and the support frame body 7 to synchronously move downwards along with the cylinder rod 13 and be attached to the lower disc 2, the control part can drive the cylinder rod 13 of the telescopic cylinder 8 to move downwards again. At the moment, the steel ball roller 11 is completely separated from the supporting plate 9, the rotation of the upper disc 1 and the lower disc 2 cannot be influenced any more, the purpose of applying pressure to the product with the grinding function between the upper disc 1 and the lower disc 2 is realized completely through the dead weight of the upper disc 1, and then the lower disc 2 and the upper disc 1 rotate relatively to realize the grinding of the product. When the control component of the grinding disc structure for the grinding equipment controls the cylinder rod 13 of the telescopic cylinder 8 to move upwards, the support plate 9 is set to be a structure capable of driving the upper disc 1 and the support frame body 7 to synchronously move upwards along with the cylinder rod 13. Therefore, the upper disc 1 and the lower disc 2 can be conveniently attached and separated, the operation is simple, and the reliability is high. Grinding disc structure for grinding device, simple structure can convenient and fast realize hanging wall 1 and 2 laminating of lower wall and separation control to hanging wall 1 and the 2 laminating during operation of lower wall are through hanging wall dead weight pressurization, realize lasting stable pressurization to grinding the product, eliminate the pressure oscillation influence that exists among the prior art, improve product grinding quality.

The telescopic cylinder 8 of the grinding disc structure for the grinding equipment comprises a cylinder body 12 and a cylinder rod 13, wherein the cylinder rod 13 penetrates through a support frame body 7, an upper disc center hole 3 and a lower disc center hole 4, a support plate 9 is arranged on the cylinder rod 13 and below the support frame body 7, and a positioning bearing 10 is arranged on the cylinder rod 13 above the support plate 9. Above-mentioned structure, there is not the relation of connection between telescopic cylinder's cylinder pole and the support frame, and the existence of supporting disk for when the cylinder pole moved down, the lower wall was through the dead weight, realized the lower wall along with the purpose that the cylinder moved down, and when needing hanging wall and lower wall separation, through the cylinder shrink, drove the backup pad and move up, and the backup pad is used in on the support frame body, thereby drive and support frame body coupling's hanging wall and move up, realize hanging wall and lower wall separation.

The support frame body 7 is arranged to be of a cross-shaped structure, a support frame center hole 14 is formed in the center of the support frame body 7, and each support frame protruding plate 15 of the support frame body 7 is fixedly connected with the corresponding position of the upper disc 1 through a connecting rod 6. Above-mentioned structure, the support frame centre bore is passed in the activity of cylinder pole, and the support frame body passes through the connecting rod and realizes fixed connection with the lower wall. The support frame body and the upper disc are arranged in parallel, and the lower disc and the upper disc are arranged in parallel.

The cylinder body 12 of the telescopic cylinder 8 of the grinding disc structure for the grinding equipment is arranged on the cylinder positioning plate 16, and the cylinder positioning plate 16 is connected with the grinding equipment frame. Above-mentioned structure, cylinder locating lever fixed connection cylinder body for the cylinder body is in the stationary state, and the cylinder pole can realize stretching out and drawing back, thereby realizes the purpose of controlling hanging wall rebound and lapse.

The grinding device is characterized in that a telescopic cylinder 8 of a grinding disc structure is connected with a control component capable of controlling the stretching of a cylinder rod 13 of the telescopic cylinder 8, and a lower disc 2 is connected with a control component capable of controlling the starting and stopping of a lower disc driving motor and the adjustment of the rotating speed. Above-mentioned structure, telescopic cylinder and control unit all adopt prior art finished product can, telescopic cylinder and control unit itself are not the improvement point.

The upper disc 1 and the lower disc 2 are both arranged into a ring-shaped structure. According to the structure, the upper disc and the lower disc are of the structures with the same shape and size, so that when the upper disc and the lower disc are attached to each other, the attachment surfaces are overlapped.

The positioning bearing 10 is of a horizontal and vertical structure, the steel ball rollers 11 are of a horizontally arranged structure, the supporting plate 9 drives the upper disc 1 and the supporting frame body 7 to synchronously move down or synchronously move up along with the cylinder rod 13, and the side surface of each steel ball roller 11 is of a structure which can be respectively attached to the side surface of the positioning bearing 10. Above-mentioned structure, the telescopic link at telescopic cylinder is flexible and drive the support frame and shift up or move down the in-process down, and every steel ball gyro wheel 11 side sets up to laminating respectively at the structure of location bearing 10 side position, like this, realizes spacing between telescopic link and the support frame, ensures that support frame body, hanging wall are in the vertical state with the cylinder pole respectively all the time, avoids the cylinder pole to change for support frame body and hanging wall angle.

Grinding miller for equipment structure, carry out institutional advancement to grinding miller for equipment structure, stretch out the in-process at telescopic cylinder, utilize the dead weight of hanging wall, realize that the hanging wall moves down, until laminating with the lower wall. After the upper disc and the lower disc are matched to grind products, the upper disc is moved upwards through contraction of the telescopic cylinder. When the control component of the grinding disc structure for the grinding equipment controls the cylinder rod of the telescopic cylinder to move downwards, the upper disc and the support frame body can synchronously move downwards along with the cylinder rod to be attached to the lower disc. When the cylinder rod of the telescopic cylinder moves downwards to drive the upper disc and the support frame body to move downwards synchronously along with the cylinder rod and be attached to the lower disc, the control part can drive the cylinder rod of the telescopic cylinder to move downwards again. At the moment, the steel ball roller is completely separated from the supporting plate, the rotation of the upper disc and the lower disc cannot be influenced any more, the purpose of applying pressure to a product between the upper disc and the lower disc is achieved completely through the dead weight of the upper disc, and then the lower disc and the upper disc rotate relatively to achieve grinding. When the control component of the grinding disc structure for the grinding equipment controls the cylinder rod of the telescopic cylinder to move upwards, the support plate is set to be a structure capable of driving the upper disc and the support frame body to synchronously move upwards along with the cylinder rod. Like this, can conveniently realize laminating and the separation control of hanging wall and lower wall, easy operation, the reliability is high. Grinding disc structure for grinding device, simple structure can convenient and fast realize hanging wall and lower wall laminating and separation control to hanging wall and lower wall laminating during operation are through hanging wall dead weight pressurization, realize lasting stable pressurization to the grinding product, eliminate the pressure fluctuation influence that exists among the prior art, improve product grinding quality.

The present invention has been described in detail with reference to the accompanying drawings, and it is obvious that the present invention is not limited by the above embodiments, and the present invention can be implemented in various ways without modification, and the present invention is not limited by the above embodiments.

Claims (10)

1. The utility model provides a grinding disk structure for grinding device which characterized in that: including hanging wall (1), lower wall (2), set up hanging wall centre bore (3) on hanging wall (1), set up lower wall centre bore (4) on lower wall (2), set up support frame (5) on hanging wall (1), support frame (5) are including connecting rod (6) and support frame body (7), support frame body (7) are passed in telescopic cylinder (8), hanging wall centre bore (3), lower wall centre bore (4), it sets up backup pad (9) to lie in support frame body (7) below position on telescopic cylinder (8), backup pad (9) upper surface sets up to the toper surface structure, set up locating bearing (10) on telescopic cylinder (8) of backup pad (9) top, support frame body (7) lower surface sets up a plurality of steel ball gyro wheels (11), lower wall (2) are connected with lower wall driving motor.

2. The abrasive disk structure for abrasive equipment according to claim 1, wherein: the telescopic cylinder (8) of the grinding disc structure for the grinding equipment comprises a cylinder body (12) and a cylinder rod (13), wherein the cylinder rod (13) penetrates through a support frame body (7), an upper disc center hole (3) and a lower disc center hole (4), a support plate (9) is arranged below the support frame body (7) on the cylinder rod (13), and a positioning bearing (10) is arranged on the cylinder rod (13) above the support plate (9).

3. A grinding disk structure for a grinding apparatus according to claim 2, wherein: the support frame body (7) is arranged to be of a cross structure, a support frame center hole (14) is formed in the center of the support frame body (7), and each support frame protruding plate (15) of the support frame body (7) is fixedly connected with the corresponding position of the upper disc (1) through one connecting rod (6).

4. A grinding disk structure for a grinding apparatus according to claim 2 or 3, characterized in that: the grinding device is characterized in that a cylinder body (12) of a telescopic cylinder (8) of a grinding disc structure is arranged on a cylinder positioning plate (16), and the cylinder positioning plate (16) is connected with a grinding device frame.

5. A grinding disk structure for a grinding apparatus according to claim 2 or 3, characterized in that: the grinding device is characterized in that a telescopic cylinder (8) of a grinding disc structure is connected with a control component capable of controlling the stretching of a cylinder rod (13) of the telescopic cylinder (8), and a lower disc (2) is connected with a control component capable of controlling the starting and stopping of a lower disc driving motor and the adjustment of the rotating speed.

6. The abrasive disk structure for abrasive equipment according to claim 1, wherein: the upper disc (1) and the lower disc (2) are both arranged to be annular structures.

7. A grinding disk structure for a grinding apparatus according to claim 2 or 3, characterized in that: when the control component of the grinding disc structure for the grinding equipment controls the cylinder rod (13) of the telescopic cylinder (8) to move downwards, the upper disc (1) and the support frame body (7) are arranged into a structure which can move downwards synchronously along with the cylinder rod (13) and is attached to the lower disc (2).

8. The abrasive disk structure for an abrasive machine according to claim 7, wherein: when the control component of the grinding disc structure for the grinding equipment controls the cylinder rod (13) of the telescopic cylinder (8) to move upwards, the support plate (9) is set to be a structure capable of driving the upper disc (1) and the support frame body (7) to synchronously move upwards along with the cylinder rod (13).

9. A grinding disk structure for a grinding apparatus according to claim 8, wherein: when the cylinder rod (13) of the telescopic cylinder (8) moves downwards to drive the upper disc (1) and the support frame body (7) to move downwards synchronously along with the cylinder rod (13) to be attached to the lower disc (2), the control part is set to be of a structure capable of driving the cylinder rod (13) of the telescopic cylinder (8) to move downwards again.

10. A grinding disk structure for a grinding apparatus according to claim 2 or 3, characterized in that: the positioning bearing (10) is of a horizontal vertical structure, the steel ball rollers (11) are of a horizontally arranged structure, the supporting plate (9) drives the upper disc (1) and the supporting frame body (7) to synchronously move down or synchronously move up along with the cylinder rod (13), and the side surface of each steel ball roller (11) is of a structure which can be respectively attached to the side surface of the positioning bearing (10).

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