CN223917548U - Efficient polishing device for mechanical part production - Google Patents

Abstract

This utility model belongs to the field of mechanical parts manufacturing technology, specifically disclosing a high-efficiency grinding device for mechanical parts manufacturing. It includes a platform with a fixed platform fixedly mounted on its top. A first through-tube and a second through-tube are rotatably connected to both ends of the fixed platform. A connecting frame is fixedly connected to the adjacent ends of the first and second through-tubes. A retaining bracket is provided inside the connecting frame, and three sets of retaining brackets are provided. Each of the three sets of retaining brackets has a screw threadedly connected to its top. This high-efficiency grinding device for mechanical parts manufacturing can simultaneously grind both ends of a pipe through a double-end grinding mechanism and a pipe rotation mechanism. Furthermore, the pipe continuously changes its contact position with the grinding wheel during rotation, making the entire grinding process more efficient. Compared to the traditional method of grinding both ends of the pipe one by one and manually flipping it, this significantly shortens the grinding cycle and achieves high-efficiency grinding.

Description

Efficient polishing device for mechanical part production

Technical Field

The application relates to the technical field of mechanical part production, in particular to a high-efficiency polishing device for mechanical part production.

Background

The machine part is also called a machine element, which is a basic element constituting the machine, and is a single piece which is not detachable and constitutes the machine, and in the machining process of the machine part, in order to improve the surface flatness and subsequent assembly accuracy of the machine part, a polishing device is used to process the surface of the machine part, including polishing the tubular part.

The existing polishing device is used for polishing the edges of two ends of a tubular part (hereinafter called a pipe fitting), the positions of the pipe fitting are required to be manually adjusted in the polishing process, polishing treatment is carried out on different parts of the edges of the end head of the pipe fitting by adjusting the positions, the pipe fitting is turned over after one end of the pipe fitting is polished, the other end of the pipe fitting is subjected to polishing, the polishing operation efficiency is low, manual intervention is excessive, and polishing quality is unstable.

Disclosure of utility model

In view of the above, the present utility model aims to solve the drawbacks of the prior art, and provides a high-efficiency polishing device for machine part production, so as to solve the problems of the prior art.

In order to achieve the above purpose, the utility model provides a high-efficiency polishing device for producing mechanical parts, which comprises a device table, wherein a fixed table is fixedly arranged at the top of the device table, two ends of the fixed table are respectively and rotatably connected with a first penetrating cylinder and a second penetrating cylinder, one ends of the first penetrating cylinder, which are close to the second penetrating cylinder, are fixedly connected with a connecting frame together, the inner sides of the connecting frames are provided with retaining frames, the number of the retaining frames is three, the top of each retaining frame is in threaded connection with a screw rod, the top of each screw rod is in fixed connection with a knob, the bottom of each screw rod is in rotatable connection with a clamping plate, a double-end polishing mechanism is arranged on the device table, and a pipe fitting autorotation mechanism is arranged on the device table.

Preferably, the double-end polishing mechanism comprises a first motor fixedly mounted on the device table, the output end of the first motor is fixedly connected with a first driving wheel, the outer surface of the first driving wheel is slidably connected with a first conveyor belt, and the double-end polishing mechanism can utilize two groups of polishing wheels rotating at a high speed to polish two ends of a pipe simultaneously.

Preferably, the inner surface of the device table is rotatably connected with a first penetrating shaft, one end of the first penetrating shaft is fixedly connected with a first driving wheel, and the outer surface of the first driving wheel is in sliding connection with one end of the first conveying belt, which is far away from the first driving wheel.

Preferably, one end of the first penetrating shaft far away from the first driving wheel is fixedly connected with a lower rotating wheel, the outer surface of the lower rotating wheel is connected with a triangular conveyor belt in a sliding manner, and the top of the device table is fixedly connected with a fixing plate.

Preferably, the inner surface of the fixed plate is rotationally connected with a second penetrating shaft, one end of the second penetrating shaft is fixedly connected with an upper rotating wheel, the outer surface of the upper rotating wheel is in sliding connection with the inner side of the triangular conveyor belt, and one end of the second penetrating shaft, far away from the upper rotating wheel, is fixedly connected with a polishing wheel.

Preferably, the pipe fitting rotation mechanism comprises a second motor fixedly mounted on the device table, the output end of the second motor is fixedly connected with a second driving wheel, the outer surface of the second driving wheel is slidably connected with a second conveying belt, the pipe fitting rotation mechanism can continuously enable the pipe fitting to rotate, the polishing position of the end head can be continuously changed in the pipe fitting rotation process, and therefore the effect of rapidly and efficiently polishing the edge position of the end head of the pipe fitting is achieved.

Preferably, a second driving wheel is fixedly sleeved at one end of the second penetrating cylinder far away from the connecting frame, and the outer surface of the second driving wheel is in sliding connection with one end, far away from the second driving wheel, of the inner side of the second conveying belt.

Compared with the prior art, the utility model has the following beneficial effects:

1. This high-efficient grinding device is used in mechanical part production can polish both ends of pipe fitting simultaneously through bi-polar grinding machanism and pipe fitting rotation mechanism to the pipe fitting can constantly change the contact position with the grinding wheel at the rotation in-process, makes whole process of polishing more high-efficient, compares the operation that needs the pipe fitting both ends of polishing one by one and manual upset in the traditional mode, is showing and has shortened the cycle of polishing, realizes high-efficient polishing.

2. This high-efficient grinding device is used in mechanical parts production has realized automatic centre gripping, the rotation of pipe fitting and the synchronous rotation of grinding wheel through motor drive and transmission system, has abandoned the operation that needs artifical frequent adjustment pipe fitting position in the traditional mode, and this change has not only alleviateed workman's intensity of labour, has still avoided the inhomogeneous, the offset scheduling problem of polishing that leads to because of the human factor, has reduced manual intervention when having guaranteed the quality of polishing.

Drawings

FIG. 1 is a schematic diagram of the overall structure of the present application;

FIG. 2 is a schematic view of the back structure of the device of the present application;

FIG. 3 is a schematic view of the surface structure of the fixing table according to the present application;

Fig. 4 is a schematic view showing the internal structure of the retainer of the present application.

1, An apparatus table; 2, a fixed table, 3, a first penetrating cylinder, 4, a second penetrating cylinder, 5, a connecting frame, 6, a fixing frame, 7, a screw, 8, a knob, 9, a clamping plate, 10, a first motor, 11, a first driving wheel, 12, a first conveying belt, 13, a first penetrating shaft, 14, a first driving wheel, 15, a lower rotating wheel, 16, a triangular conveying belt, 17, a fixed plate, 18, a second penetrating shaft, 19, an upper rotating wheel, 20, a polishing wheel, 21, a second motor, 22, a second driving wheel, 23, a second conveying belt and 24, a second driving wheel.

Detailed Description

The following description of the embodiments of the present application will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present application, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the application without making any inventive effort, are intended to be within the scope of the application.

Referring to fig. 1-4, a high-efficiency polishing device for machine part production comprises a device table 1, wherein a fixing table 2 is fixedly arranged at the top of the device table 1, two ends of the fixing table 2 are respectively connected with a first penetrating cylinder 3 and a second penetrating cylinder 4 in a rotating manner, the first penetrating cylinder 3 and the second penetrating cylinder 4 are respectively arranged at two ends of a connecting frame 5 in a penetrating manner, the connecting frame 5 can be driven to synchronously rotate, one ends, close to the first penetrating cylinder 3 and the second penetrating cylinder 4, of the connecting frame 5 are fixedly connected together, a retaining frame 6 is arranged at the inner side of the connecting frame 5, three groups of retaining frames 6 are arranged, screws 7 are connected at the tops of the three groups of retaining frames 6 in a threaded manner, knobs 8 are fixedly connected at the tops of the three groups of screws 7, clamping plates 9 are respectively connected at the bottoms of the three groups of screws 7 in a rotating manner, the bottoms of the clamping plates 9 are of a concave-like design and are respectively connected with the inner sides of the retaining frames 6 in a sliding manner so as to stably clamp pipes, the outer surfaces of the clamping plates 9 and the inner sides of the retaining frames 6 are in a sliding manner, the retaining frames 6 play a relative limiting role, the retaining frames 6 are correspondingly limited, three groups are respectively, three groups are arranged on the clamping plates 1, a rotation mechanism is arranged on the polishing table 1, and a rotation mechanism is arranged.

Through above-mentioned technical scheme, the device is at the in-process of polishing to the pipe fitting, need with this first section of thick bamboo 3 of wearing of passing simultaneously with the pipe fitting, even frame 5 and second wear a section of thick bamboo 4, hold it steadily through splint 9, later can polish the both ends edge of pipe fitting simultaneously through bi-polar grinding machanism, and during this time cooperation pipe fitting autorotation mechanism can let the pipe fitting continuously autorotate in the in-process of polishing to constantly change the position of polishing.

Specifically, the double-end polishing mechanism comprises a first motor 10 fixedly installed on the device table 1, the output end of the first motor 10 is fixedly connected with a first driving wheel 11, and the outer surface of the first driving wheel 11 is slidably connected with a first conveying belt 12.

Through the technical scheme, the first motor 10 can drive the first driving wheel 11 to rotate after being started, and the first driving wheel 14 can be linked to rotate by matching with the transmission function of the first conveyor belt 12.

Specifically, the inner surface of the device table 1 is rotatably connected with a first penetrating shaft 13, one end of the first penetrating shaft 13 is fixedly connected with a first driving wheel 14, and the outer surface of the first driving wheel 14 is slidably connected with one end of the first conveying belt 12 far away from the first driving wheel 11.

Through the above technical scheme, the first driving wheel 14 is connected with the lower rotating wheel 15 through the first penetrating shaft 13, and the first driving wheel 14 and the lower rotating wheel 15 synchronously rotate in the rotation process of the first penetrating shaft 13.

Specifically, one end of the first through shaft 13 far away from the first driving wheel 14 is fixedly connected with a lower rotating wheel 15, the outer surface of the lower rotating wheel 15 is slidably connected with a triangular conveyor belt 16, and the top of the device table 1 is fixedly connected with a fixing plate 17.

Through the above technical scheme, the triangular conveyor 16 can convert the rotation of the lower rotating wheel 15 into the rotation of the two groups of upper rotating wheels 19, and then the corresponding grinding wheels 20 rotate at high speed synchronously with the rotation of the upper rotating wheels through the second penetrating shaft 18.

Specifically, the inner surface of the fixed plate 17 is rotatably connected with a second penetrating shaft 18, one end of the second penetrating shaft 18 is fixedly connected with an upper rotating wheel 19, the outer surface of the upper rotating wheel 19 is slidably connected with the inner side of the triangular conveyor belt 16, and one end of the second penetrating shaft 18, which is far away from the upper rotating wheel 19, is fixedly connected with a polishing wheel 20.

Through the above technical scheme, the second through shaft 18 and the upper rotating wheels 19 are provided with two groups, wherein the two groups of upper rotating wheels 19 and one lower rotating wheel 15 are matched to form a triangle shape, and are respectively connected with the triangle conveyor belt 16 in a sliding manner, so that the triangle conveyor belt 16 forms the triangle shape.

Specifically, the pipe fitting rotation mechanism comprises a second motor 21 fixedly installed on the device table 1, the output end of the second motor 21 is fixedly connected with a second driving wheel 22, and the outer surface of the second driving wheel 22 is slidably connected with a second conveying belt 23.

Through the technical scheme, the second driving wheel 22 can drive the second driving wheel 24 to synchronously rotate through the second conveying belt 23 in the rotating process, so that the second penetrating cylinder 4 is driven to rotate.

Specifically, a second driving wheel 24 is fixedly sleeved at one end of the second penetrating cylinder 4 far away from the connecting frame 5, and the outer surface of the second driving wheel 24 is in sliding connection with one end of the inner side of the second conveying belt 23 far away from the second driving wheel 22.

Through the above technical scheme, in the process that the second penetrating cylinder 4 rotates synchronously along with the second driving wheel 24, the first penetrating cylinder 3 rotates synchronously along with the second penetrating cylinder, and the connecting frame 5 can be driven to turn over in the rotation process through the first penetrating cylinder 3 and the second penetrating cylinder 4, namely, the pipe fitting is driven to rotate synchronously.

Working principle: in the process of polishing the pipe fitting, the pipe fitting is required to pass through the first penetrating cylinder 3, the connecting frame 5 and the second penetrating cylinder 4 at the same time, two ends of the pipe fitting are just contacted with two groups of polishing wheels 20, after the position of the pipe fitting is correctly adjusted, the knob 8 can be screwed to drive the screw rod 7 to rotate, the screw rod 7 can synchronously rotate along with the retention frame 6 because the retention frame 6 plays a certain relative limit on the clamping plate 9 in the rotating process, the clamping plate 9 synchronously moves downwards along with the downward movement of the screw rod 7 until the clamping plate 9 clamps the surface of the pipe fitting, the three groups of clamping plates 9 can stably clamp the pipe fitting in the mutually matched process, so that the pipe fitting and the connecting frame 5 are in the same motion state in the polishing process, then the first motor 10 can be started to drive the first driving wheel 11 to rotate, the transmission function of the first transmission belt 12 can be linked, and the first transmission wheel 14 can be rotated, the lower rotating wheel 15 connected with the first driving wheel 14 through the first penetrating shaft 13 can synchronously rotate along with the lower rotating wheel, the two groups of upper rotating wheels 19 can be linked to rotate along with the lower rotating wheel 19 according to the transmission effect of the triangular conveyor belt 16 in the rotating process of the lower rotating wheel 15, and finally the corresponding grinding wheels 20 are driven to rotate at high speed through the second penetrating shaft 18, the two groups of grinding wheels 20 can synchronously grind the edges of the two ends of the pipe fitting respectively in the high-speed rotating process without turning over and adjusting the position of the pipe fitting after grinding one end, meanwhile, the second motor 21 can be started to drive the second driving wheel 22 to rotate in the grinding process, the second driving wheel 24 can be driven to rotate along with the rotation through the transmission effect of the second conveyor belt 23, the second penetrating cylinder 4 fixedly penetrating through the axle center of the second driving wheel 24 can be driven to rotate along with the first penetrating cylinder 3 in the synchronous rotating of the connecting frame 5, that is, the pipe fitting is driven to rotate, and the contact position between the end edge of the pipe fitting and the polishing wheel 20 can be continuously changed in the rotation process, so that the edge of the two ends of the whole pipe fitting is sufficiently and thoroughly polished, the polishing efficiency is effectively improved, excessive manual intervention is not needed, and the polishing quality is ensured.

Although embodiments of the present application have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the application, the scope of which is defined in the appended claims and their equivalents.

Claims (7)

1. The efficient polishing device for the production of the mechanical parts comprises a device table (1) and is characterized in that a fixed table (2) is fixedly arranged at the top of the device table (1), a first penetrating cylinder (3) and a second penetrating cylinder (4) are respectively connected at two ends of the fixed table (2) in a rotating mode, a connecting frame (5) is fixedly connected at one end, close to the first penetrating cylinder (3) and the second penetrating cylinder (4), of the first penetrating cylinder, a retaining frame (6) is arranged on the inner side of the connecting frame (5), screws (7) are connected with the tops of the retaining frames (6) in a threaded mode, knobs (8) are fixedly connected at the tops of the screws (7), clamping plates (9) are respectively connected at the bottoms of the screws (7) in a rotating mode, polishing mechanisms are arranged on the device table (1), and rotation mechanisms are arranged on the device table (1).

2. The efficient grinding device for machine part production according to claim 1, wherein the double-end grinding mechanism comprises a first motor (10) fixedly installed on the device table (1), the output end of the first motor (10) is fixedly connected with a first driving wheel (11), and the outer surface of the first driving wheel (11) is slidably connected with a first conveying belt (12).

3. The efficient grinding device for machine part production according to claim 2, wherein the inner surface of the device table (1) is rotatably connected with a first penetrating shaft (13), one end of the first penetrating shaft (13) is fixedly connected with a first driving wheel (14), and the outer surface of the first driving wheel (14) is in sliding connection with one end, far away from the first driving wheel (11), of the first conveying belt (12).

4. The efficient grinding device for machine part production according to claim 3, wherein one end, far away from the first driving wheel (14), of the first penetrating shaft (13) is fixedly connected with a lower rotating wheel (15), the outer surface of the lower rotating wheel (15) is slidably connected with a triangular conveying belt (16), and the top of the device table (1) is fixedly connected with a fixing plate (17).

5. The efficient grinding device for machine part production according to claim 4, wherein the inner surface of the fixing plate (17) is rotatably connected with a second penetrating shaft (18), one end of the second penetrating shaft (18) is fixedly connected with an upper rotating wheel (19), the outer surface of the upper rotating wheel (19) is slidably connected with the inner side of the triangular conveyor belt (16), and one end, far away from the upper rotating wheel (19), of the second penetrating shaft (18) is fixedly connected with a grinding wheel (20).

6. The efficient grinding device for machine part production according to claim 1, wherein the pipe fitting autorotation mechanism comprises a second motor (21) fixedly installed on the device table (1), the output end of the second motor (21) is fixedly connected with a second driving wheel (22), and the outer surface of the second driving wheel (22) is slidably connected with a second conveying belt (23).

7. The efficient grinding device for machine part production according to claim 6, wherein a second driving wheel (24) is fixedly sleeved at one end of the second penetrating cylinder (4) far away from the connecting frame (5), and the outer surface of the second driving wheel (24) is in sliding connection with one end, far away from the second driving wheel (22), of the inner side of the second conveying belt (23).