CN220094028U - Automatic feeding mechanism of double-end-face mill for machining shaft workpieces - Google Patents

Abstract

The utility model relates to an automatic feeding mechanism of a double-end-face mill for machining shaft workpieces, which comprises a tool frame, a feeding mechanism, a clamping mechanism, a polishing mechanism and a pressure sensing plate, wherein the feeding mechanism, the clamping mechanism, the polishing mechanism and the pressure sensing plate are arranged on the tool frame, the feeding mechanism is arranged on the tool frame, the clamping mechanism is arranged on one side of an output end of the feeding mechanism, the polishing mechanism is provided with two sides which are respectively arranged on the tool frame, the two polishing mechanisms are respectively arranged on two sides of the clamping mechanism, and the pressure sensing plate is arranged on the clamping mechanism.

Description

Automatic feeding mechanism of double-end-face mill for machining shaft workpieces

Technical Field

The utility model relates to the technical field of machining of shaft workpieces, in particular to an automatic double-end-face mill feeding mechanism for machining of shaft workpieces.

Background

In the production and processing process of shaft workpieces, the shaft body is required to be cut to a fixed length, so that the shaft body reaches the specified length, the existing shaft workpieces are cut, the shaft workpieces are firstly required to be placed in a feeding machine in sequence manually, then the shaft workpieces are conveyed into a processing machine through the feeding machine, and then the two end faces of the shaft workpieces are cut in a friction cutting mode through a polishing device.

However, the existing feeding mode is usually to put the shaft workpieces to be processed on the feeding machine in order by manual operation, and the manual operation is used for feeding, so that the labor force of operators is increased, the working efficiency is reduced, and meanwhile, the existing feeding device cannot feed the shaft workpieces with different sizes.

Chinese patent CN202222937597.5 discloses a miniature shaft double-end-face mill automatic feeding mechanism, comprising: the tool comprises a tool frame, wherein a turntable is arranged on the tool frame in a circumferential rotation manner, and an accommodating space for accommodating the shaft body is axially formed in the turntable; the tool rack is also provided with a feeder, the feeder is provided with a through hole, the periphery of the through hole is connected with a high-pressure air source through a channel, one end of the through hole is arranged corresponding to one end face of the rotary table, the rotary table is circumferentially rotated to have a position enabling an opening of the accommodating space to be opposite to one end of the through hole, the other end of the through hole is connected with a feeding mechanism, and the feeding mechanism is used for feeding a shaft body to be processed into the through hole; one end of the accommodating space is opposite to the through hole, a high-pressure air source sends high-pressure air into the air tap, and the high-pressure air passes through the channel to act on the end face of the shaft body so as to push the shaft body into the accommodating space from the through hole.

The prior art solutions described above have the following drawbacks: the device is when polishing to axle type part, can not fix a position to axle type part when getting into the carousel in, the distance difference between the rod of polishing of both sides and the both ends face of axle type part can appear, makes the rod of polishing of both sides when removing to the terminal surface of axle type part, because the distance is not right and bump, part break away from the phenomenon probably appears in the course of working simultaneously.

Disclosure of Invention

According to the automatic feeding mechanism of the double-end-face mill for machining the shaft workpiece, through the arrangement of the feeding mechanism, workpieces can be sequentially and orderly fed automatically, the workpieces with different lengths can be positioned and fixed through the clamping mechanism, and then the two end faces of the workpieces are polished through the polishing mechanism.

In order to solve the problems in the prior art, the utility model adopts the following technical scheme:

the automatic feeding mechanism comprises a tool frame, a feeding mechanism, a clamping mechanism, a polishing mechanism and a pressure sensing plate, wherein the feeding mechanism, the clamping mechanism, the polishing mechanism and the pressure sensing plate are arranged on the tool frame;

the feeding mechanism is arranged on the tool frame;

the clamping mechanism is arranged on the tool frame and is arranged at one side of the output end of the feeding mechanism;

the polishing mechanisms are respectively arranged on two sides of the clamping mechanism;

the pressure sensing plate is arranged on the clamping mechanism.

Preferably, the feeding mechanism comprises a conveyor, a limiting assembly and a guide plate;

the conveyor is arranged on the tool frame, and a plurality of equidistant and linearly arranged partition boards are arranged on the working surface of the conveyor;

the limiting component is arranged on the conveyed working surface;

the guide board is arranged at the output end of the conveying mechanism, one end of the guide board is connected with the output end of the conveyor, and the other end of the guide board is positioned on the clamping mechanism.

Preferably, the limiting assembly comprises a transmission motor, a limiting plate, a fixed block, a bearing seat and a transmission screw rod;

the transmission motor is arranged at one side of the conveyor, and the output end of the transmission motor is arranged towards the direction of the conveyor;

the bearing seat is provided with two sides which are respectively arranged on the conveying surface of the conveyor;

the transmission screw rod is arranged between the two bearing seats, two ends of the transmission screw rod are respectively in rotary connection with the two bearing seats, and one end of the transmission screw rod is in rotary connection with the output end of the transmission motor;

the limiting plates are provided with two sides which are respectively arranged on the conveying surface of the conveyor;

the quantity of fixed blocks is the same and the one-to-one with the quantity of limiting plate, and two fixed blocks are the symmetry and set up in the both ends of transmission lead screw, and two fixed blocks are threaded connection setting with the transmission lead screw, and two fixed blocks are rather than the top fixed connection of corresponding limiting plate respectively.

Preferably, the clamping mechanism comprises a placing table, a pressing component and a positioning component;

the placing table is arranged on the tool frame and is positioned at one side of the output end of the conveyor, and a V-shaped groove for installing the pressure sensing plate is formed in the placing end of the placing table;

the pressing component is arranged on the tool frame, the pressing component is positioned on one side of the placing table, and the pressing end of the pressing component is positioned above the placing surface of the placing table;

the locating component is arranged on the tool frame.

Preferably, the pressing component comprises a pressing cylinder, a connecting rod and a pressing plate;

the lower air cylinder is arranged on the tool frame, the output end of the lower air cylinder is upwards arranged, and the lower air cylinder is positioned on the side surface of the placing table;

the connecting rod is arranged at the output end of the lower pressing cylinder, and one end of the connecting rod, which is far away from the lower pressing cylinder, extends upwards the machined part in the placing table;

the holding down plate sets up on the connecting rod is kept away from the one end of holding down cylinder, and the arc wall of laminating with the machined part surface has been seted up to the bottom of holding down plate.

Preferably, the positioning assembly comprises a lifting cylinder, a limiting baffle and a connecting frame;

the lifting cylinder is arranged in the middle of the bottom of the placing table, and the output end of the lifting cylinder is upwards arranged;

the connecting frame is horizontally arranged at the output end of the lifting cylinder, and two ends of the connecting frame extend to two sides of the outer part of the placing table respectively;

the limit baffle is provided with two vertical limit baffles which are respectively arranged at two ends of the connecting frame and are positioned at two sides of the outer part of the placing table.

Preferably, the polishing mechanism comprises an electric guide rail, a sliding plate, a polishing motor and a polishing disc;

the electric guide rail is arranged on the tool frame and is arranged on the side surface of the clamping mechanism;

the sliding plate can be horizontally and slidably arranged on the electric guide rail;

the polishing motor is arranged on the sliding plate, and the output end of the polishing motor is arranged towards the end face of a machined piece in the clamping mechanism;

the polishing disc is arranged at the output end of the polishing motor.

Compared with the prior art, the utility model has the beneficial effects that: according to the utility model, through the arrangement of the feeding mechanism, the workpieces can be automatically fed orderly, the workpieces with different lengths can be positioned and fixed through the clamping mechanism, and then the two end surfaces of the workpieces are polished through the polishing mechanism.

Drawings

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

FIG. 2 is a schematic diagram of the overall structure of the present utility model;

FIG. 3 is a schematic structural view of the feeding mechanism of the present utility model;

FIG. 4 is a side view of the entirety of the present utility model;

fig. 5 is a schematic structural view of the clamping mechanism of the present utility model.

The reference numerals in the figures are:

1-a tool rack;

2-a feeding mechanism; 21-a conveyor; 211-a separator; 22-a limiting assembly; 221-a drive motor; 222-limiting plates; 223-fixing block; 224-bearing blocks; 225-driving a screw rod; 23-guiding plates;

3-a clamping mechanism; 31-placing a table; 311-V-shaped groove; 32-pressing down the assembly; 321-a pressing cylinder; 322-connecting rod; 323-lower plate; 3231-an arcuate slot; 33-positioning assembly; 331-lifting cylinder; 332-a limit baffle; 333-a connecting rack;

4-a polishing mechanism; 41-an electric rail; 42-sliding plate; 43-a polishing motor; 44-grinding disc;

5-machining a workpiece;

6-pressure sensing plate.

Detailed Description

The utility model will be further described in detail with reference to the drawings and the detailed description below, in order to further understand the features and technical means of the utility model and the specific objects and functions achieved.

Referring to fig. 1 to 5, an automatic double-end-face mill feeding mechanism for machining shaft workpieces comprises a tool frame 1, a feeding mechanism 2, a clamping mechanism 3, a polishing mechanism 4 and a pressure sensing plate 6, wherein the feeding mechanism 2, the clamping mechanism 3, the polishing mechanism 4 and the pressure sensing plate 6 are arranged on the tool frame 1;

the feeding mechanism 2 is arranged on the tool frame 1;

the clamping mechanism 3 is arranged on the tool frame 1, and the clamping mechanism 3 is arranged on one side of the output end of the feeding mechanism 2;

the polishing mechanisms 4 are provided with two sides which are respectively arranged on the tool frame 1, and the two polishing mechanisms 4 are respectively arranged on two sides of the clamping mechanism 3;

the pressure sensing plate 6 is arranged on the clamping mechanism 3.

When using this equipment, place feed mechanism 2 with machined part 5 on, carry the fixture 3 with machined part 5 orderly in proper order through feed mechanism 2 on, when machined part 5 removes the pressure sensing board 6 of the installation on the fixture 3 on, after pressure sensing board 6 and machined part 5 contact, will control feed mechanism 2 for feed mechanism 2 stops carrying on machined part 5, when feed mechanism 2 stops carrying on machined part 5, fix a position machined part 5 through the centre gripping frame, after machined part 5 accomplishes the location and is fixed, start the grinding machanism 4 of fixture 3 both sides and polish both ends face of machined part 5 simultaneously, after the both ends face of machined part 5 is polished and is accomplished, grinding machanism 4 stops polishing, fixture 3 loosen the fixing of machined part 5, the machined part 5 that the operating personnel will accomplish is taken out, then begin to circulate the operation, realized can be automatic carry machined part 5 on fixture 3, then carry on the both ends face of machined part 5 through grinding machanism 4.

Referring to fig. 2, the feeding mechanism 2 includes a conveyor 21, a limiting assembly 22 and a guide plate 23;

the conveyor 21 is arranged on the tool frame 1, and a plurality of equally spaced and linearly arranged partition plates 211 are arranged on the working surface of the conveyor 21;

the limiting assembly 22 is arranged on the conveyed working surface;

the guide plate 23 is provided at the output end of the conveyor 21 mechanism, one end of the guide plate 23 is connected with the output end of the conveyor 21, and the other end of the guide plate 23 is located on the clamping mechanism 3.

Through a plurality of baffles 211 that set up on conveyer 21 for can be used to place the space of machined part 5 between every two adjacent baffles 211, and then prevent conveyer 21 when carrying a plurality of machined parts 5, collide each other, through adjusting spacing subassembly 22, thereby change the width of the transport face of conveyer 21, and then be convenient for conveyer 21 carries the machined part 5 of different length.

Referring to fig. 3, the limiting assembly 22 includes a driving motor 221, a limiting plate 222, a fixing block 223, a bearing seat 224 and a driving screw 225;

the transmission motor 221 is arranged at one side of the conveyor 21, and the output end of the transmission motor 221 is arranged towards the direction of the conveyor 21;

the bearing housing 224 has two sides respectively provided on the conveying surface of the conveyor 21;

the transmission screw rod 225 is arranged between the two bearing seats 224, two ends of the transmission screw rod 225 are respectively in rotary connection with the two bearing seats 224, and one end of the transmission screw rod 225 is in rotary connection with the output end of the transmission motor 221;

the limiting plates 222 have two sides respectively provided on the conveying surface of the conveyor 21;

the number of the fixing blocks 223 is the same as that of the limiting plates 222 and corresponds to the limiting plates 222 one by one, the two fixing blocks 223 are symmetrically arranged at two ends of the transmission screw rod 225, the two fixing blocks 223 are in threaded connection with the transmission screw rod 225, and the two fixing blocks 223 are fixedly connected with the tops of the corresponding limiting plates 222 respectively.

Through starting drive motor 221, drive transmission lead screw 225 rotates on two bearing frames 224, and further drive two fixed blocks 223 are close to each other or keep away from each other, and then drive two limiting plates 222 and be close to each other or keep away from each other, and then adjust the width of the conveying face of conveyer 21 through two limiting plates 222, and then can make the driving machine carry the machined part 5 of different size width, improved the device's suitability.

Referring to fig. 4, the clamping mechanism 3 includes a placement table 31, a pressing component 32, and a positioning component 33;

the placing table 31 is arranged on the tool rack 1, the placing table 31 is positioned at one side of the output end of the conveyor 21, and the placing end of the placing table 31 is provided with a V-shaped groove 311 for installing the pressure sensing plate 6;

the pressing component 32 is arranged on the tool frame 1, the pressing component 32 is positioned on one side of the placing table 31, and the pressing end of the pressing component 32 is positioned above the placing surface of the placing table 31;

the positioning assembly 33 is arranged on the tool frame 1.

Through setting up of locating component 33 for when work piece 5 was carried to the V type groove 311 of placing the platform 31 and offered, fix a position work piece 5, prevent that work piece 5 from appearing the skew condition after getting into placing the platform 31, thereby, lead to work piece 5's both ends face can't be polished to by the operating end of grinding machanism 4 simultaneously, after work piece 5 accomplishes the location in placing the platform 31, through starting the subassembly 32 that pushes down, fix work piece 5 on placing the platform 31, avoid work piece 5 break away from when being polished, the security of the device has been improved.

Referring to fig. 5, the pressing assembly 32 includes a pressing cylinder 321, a connecting rod 322, and a pressing plate 323;

the lower air cylinder 321 is arranged on the tool frame 1, the output end of the lower air cylinder 321 is upwards arranged, and the lower air cylinder 321 is positioned on the side surface of the placing table 31;

the connecting rod 322 is arranged on the output end of the lower pressing cylinder 321, and one end of the connecting rod 322 far away from the lower pressing cylinder 321 extends upwards the workpiece 5 in the placing table 31;

the lower pressure plate 323 is arranged at one end of the connecting rod 322 far away from the lower pressure cylinder 321, and an arc-shaped groove 3231 attached to the outer surface of the workpiece 5 is formed in the bottom of the lower pressure plate 323.

After the workpiece 5 is placed on the placing table 31, the connecting rod 322 is driven to be pressed down through the pressing cylinder 321, the pressing plate 323 is driven to be pressed down synchronously, and the arc-shaped groove 3231 formed by the pressing plate 323 enables the pressing plate 323 to be attached to the outer surface of the workpiece 5, so that the workpiece 5 is fixed on the placing table 31, and the workpiece 5 is prevented from being separated in the processing process.

Referring to fig. 5, the positioning assembly 33 includes a lifting cylinder 331, a limit baffle 332 and a connecting frame 333;

the lifting cylinder 331 is arranged in the middle of the bottom of the placing table 31, and the output end of the lifting cylinder 331 is arranged upwards;

the connecting frame 333 is horizontally arranged at the output end of the lifting cylinder 331, and two ends of the connecting frame 333 extend to two sides outside the placing table 31 respectively;

the limiting baffles 332 are vertical and are respectively arranged at two ends of the connecting frame 333, and the limiting baffles 332 are positioned at two outer sides of the placing table 31.

The lifting cylinder 331 is started to drive the connecting frame 333 to lift, and then the two limiting baffles 332 on the connecting frame 333 are driven to lift synchronously, when no workpiece 5 is placed on the table 31, the limiting baffles 332 lift, and then two sides of the table 31 are blocked, a space is formed between the two limiting baffles 332, and then the workpiece 5 conveyed to the table 31 is positioned, so that the workpiece 5 is prevented from being different in length of two end faces when entering the table 31, and the processing of the two end faces of the polishing mechanism 4 is affected.

Referring to fig. 2, the polishing mechanism 4 includes an electric guide rail 41, a slide plate 42, a polishing motor 43 and a polishing plate 44;

the electric guide rail 41 is arranged on the tool frame 1, and the electric guide rail 41 is arranged on the side surface of the clamping mechanism 3;

the slide plate 42 is provided on the electric rail 41 so as to be horizontally slidable;

the polishing motor 43 is arranged on the sliding plate 42, and the output end of the polishing motor 43 is arranged towards the end face of the workpiece 5 in the clamping mechanism 3;

the grinding disc 44 is provided at the output of the grinding motor 43.

After the machined part 5 is fixed by the clamping mechanism 3, the electric guide rail 41 drives the sliding plate 42 to move towards the end face of the machined part 5, and then drives the polishing motor 43 to synchronously move, after the polishing motor 43 moves to a specified position, the electric guide rail 41 stops working, then starts polishing to be electric, drives the polishing disc 44 to rotate, and then polishes the end face of the machined part 5 through the polishing disc 44, after the machined part 5 finishes polishing, the polishing motor 43 stops working, then resets the polishing motor 43 through the electric guide rail 41, waits for the next polishing, after the machined part 5 finishes polishing, the clamping mechanism 3 loosens the fixing of the machined part 5, and an operator takes out the workpiece.

The foregoing examples merely illustrate one or more embodiments of the utility model, which are described in greater detail and are not to be construed as limiting the scope of the utility model. It should be noted that it will be apparent to those skilled in the art that several variations and modifications can be made without departing from the spirit of the utility model, which are all within the scope of the utility model. Accordingly, the scope of protection of the present utility model is to be determined by the appended claims.

Claims (7)

1. The double-end-face grinding automatic feeding mechanism for machining the shaft workpieces is characterized by comprising a tool frame (1), a feeding mechanism (2), a clamping mechanism (3), a polishing mechanism (4) and a pressure sensing plate (6), wherein the feeding mechanism (2), the clamping mechanism (3), the polishing mechanism (4) and the pressure sensing plate (6) are arranged on the tool frame (1);

the feeding mechanism (2) is arranged on the tool frame (1);

the clamping mechanism (3) is arranged on the tool frame (1), and the clamping mechanism (3) is arranged at one side of the output end of the feeding mechanism (2);

the polishing mechanisms (4) are provided with two sides which are respectively arranged on the tool frame (1), and the two polishing mechanisms (4) are respectively arranged on two sides of the clamping mechanism (3);

the pressure sensing plate (6) is arranged on the clamping mechanism (3).

2. The automatic double-end-face mill feeding mechanism for machining shaft workpieces according to claim 1, wherein the feeding mechanism (2) comprises a conveyor (21), a limiting assembly (22) and a guide plate (23);

the conveyor (21) is arranged on the tool rack (1), and a plurality of equidistant and linearly arranged partition plates (211) are arranged on the working surface of the conveyor (21);

the limiting component (22) is arranged on the conveyed working surface;

the guide plate (23) is arranged at the output end of the conveyor (21), one end of the guide plate (23) is connected with the output end of the conveyor (21), and the other end of the guide plate (23) is positioned on the clamping mechanism (3).

3. The automatic double-end-face mill feeding mechanism for machining shaft workpieces according to claim 2, wherein the limiting assembly (22) comprises a transmission motor (221), a limiting plate (222), a fixed block (223), a bearing seat (224) and a transmission screw rod (225);

the transmission motor (221) is arranged on one side of the conveyor (21), and the output end of the transmission motor (221) is arranged in the direction of the conveyor (21);

the bearing seat (224) is provided with two sides which are respectively arranged on the conveying surface of the conveyor (21);

the transmission screw rod (225) is arranged between the two bearing seats (224), two ends of the transmission screw rod (225) are respectively in rotary connection with the two bearing seats (224), and one end of the transmission screw rod (225) is in rotary connection with the output end of the transmission motor (221);

the limiting plates (222) are respectively arranged at two sides of the conveying surface of the conveyor (21);

the number of the fixing blocks (223) is the same as the number of the limiting plates (222) and corresponds to the limiting plates one by one, the two fixing blocks (223) are symmetrically arranged at two ends of the transmission screw rod (225), the two fixing blocks (223) are in threaded connection with the transmission screw rod (225), and the two fixing blocks (223) are respectively fixedly connected with the tops of the corresponding limiting plates (222).

4. The automatic double-end-face mill feeding mechanism for machining shaft workpieces according to claim 1, wherein the clamping mechanism (3) comprises a placing table (31), a pressing component (32) and a positioning component (33);

the placing table (31) is arranged on the tool frame (1), the placing table (31) is positioned at one side of the output end of the conveyor (21), and a V-shaped groove (311) for installing the pressure sensing plate (6) is formed in the placing end of the placing table (31);

the pressing component (32) is arranged on the tool frame (1), the pressing component (32) is positioned on one side of the placing table (31), and the pressing end of the pressing component (32) is positioned above the placing surface of the placing table (31);

the positioning component (33) is arranged on the tool frame (1).

5. The automatic double-end-face mill feeding mechanism for machining shaft workpieces according to claim 4, wherein the pressing component (32) comprises a pressing cylinder (321), a connecting rod (322) and a pressing plate (323);

the lower air cylinder (321) is arranged on the tool frame (1), the output end of the lower air cylinder (321) is upwards arranged, and the lower air cylinder (321) is positioned on the side surface of the placing table (31);

the connecting rod (322) is arranged at the output end of the lower pressing cylinder (321), and one end of the connecting rod (322) far away from the lower pressing cylinder (321) extends upwards the workpiece (5) in the placing table (31);

the lower pressure plate (323) is arranged at one end of the connecting rod (322) far away from the lower pressure cylinder (321), and an arc-shaped groove (3231) attached to the outer surface of the workpiece (5) is formed in the bottom of the lower pressure plate (323).

6. The automatic double-end-face mill feeding mechanism for machining shaft workpieces according to claim 4, wherein the positioning assembly (33) comprises a lifting cylinder (331), a limiting baffle (332) and a connecting frame (333);

the lifting cylinder (331) is arranged in the middle of the bottom of the placing table (31), and the output end of the lifting cylinder (331) is upwards arranged;

the connecting frame (333) is horizontally arranged at the output end of the lifting cylinder (331), and two ends of the connecting frame (333) extend to two sides of the outer part of the placing table (31) respectively;

the limit baffle (332) is provided with two vertical limit baffles which are respectively arranged at two ends of the connecting frame (333), and the limit baffles (332) are positioned at two sides of the outer part of the placing table (31).

7. The automatic double-end-face grinding feeding mechanism for machining shaft workpieces according to claim 1, wherein the grinding mechanism (4) comprises an electric guide rail (41), a sliding plate (42), a grinding motor (43) and a grinding disc (44);

the electric guide rail (41) is arranged on the tool frame (1), and the electric guide rail (41) is arranged on the side surface of the clamping mechanism (3);

the sliding plate (42) is arranged on the electric guide rail (41) in a horizontal sliding way;

the polishing motor (43) is arranged on the sliding plate (42), and the output end of the polishing motor (43) is arranged towards the end face of the workpiece (5) in the clamping mechanism (3);

the polishing disc (44) is arranged at the output end of the polishing motor (43).