CN220462471U - Shaft sleeve forming device with double-sided chamfer - Google Patents

Abstract

A shaft sleeve forming device with double-sided chamfer angles comprises a workbench, a mounting rack, a shaft sleeve mounting clamp, a chamfer angle cutting mechanism and a feeding device. The shaft sleeve mounting clamp comprises a first sliding device, a clamp and a clamp driving device. The clamp includes a clamp body and a mounting hole. Each chamfer cutting mechanism comprises a second sliding device and a chamfer cutting device. The extending direction of the second sliding device is perpendicular to the extending direction of the first sliding device. And in the chamfering and forming process of the blank, the shaft sleeve mounting clamp slides between the two chamfering and cutting mechanisms, and the two chamfering and cutting mechanisms synchronously move two sides of the mounting frame so as to realize synchronous chamfering at two ends of the shaft sleeve. This two-sided chamfer's axle sleeve forming device has realized two-sided chamfer, has reached energy-conserving, environmental protection's effect, has improved the chamfer machining efficiency of axle sleeve, and staff's safety guarantee is improved.

Description

Shaft sleeve forming device with double-sided chamfer

Technical Field

The utility model belongs to the technical field of shaft sleeve forming equipment, and particularly relates to a shaft sleeve forming device with double-sided chamfer angles.

Background

The sleeve is a sleeve on the propeller shaft or the stern shaft, and in the moving parts, parts are worn out due to long-term friction, and the parts must be replaced when the clearance between the shaft and the hole is worn out to a certain extent, so that a designer can select a material with lower hardness and better wear resistance as the sleeve or the bushing in design to reduce the wear of the shaft and the seat.

The shaft sleeve is chamfered by a chamfering machine in the machining process so as to facilitate the installation of the shaft sleeve. But current beveler can only chamfer to one side when carrying out chamfer processing to the axle sleeve, when the both ends of axle sleeve all need the chamfer, need place on chamfer processingequipment twice, centre gripping axle sleeve and carry out chamfer processing to one end, increased workman's intensity of labour, reduced the machining efficiency of axle sleeve.

Disclosure of Invention

In view of the above, the present utility model provides a double-sided chamfering shaft sleeve forming device capable of improving production efficiency, so as to meet industrial requirements.

The utility model provides a two-sided chamfer's axle sleeve forming device includes a workstation, a setting is in mounting bracket on the workstation, a sliding connection in axle sleeve mounting fixture on the mounting bracket, two symmetry set up in chamfer cutting mechanism on the mounting bracket both sides, one is used for with stock axle sleeve transmission to loading attachment on the axle sleeve mounting fixture, axle sleeve mounting fixture is including setting up first slider on the mounting bracket, one set up on the slider and be used for installing the anchor clamps of axle sleeve stock, and one connect in anchor clamps drive arrangement of anchor clamps one side, anchor clamps include one set up in anchor clamps main part on the slider, one set up in mounting hole on the anchor clamps main part, every chamfer cutting mechanism all includes one set up the second slider on the workstation, and one set up chamfer cutting device on the second slider, second slider's extending direction with first slider's extending direction is mutually perpendicular, in the stock axle sleeve forming process, axle sleeve mounting fixture slides in between two chamfer cutting mechanism, two chamfer both ends and chamfer cutting mechanism, both sides synchronous movement of chamfer.

Further, the feeding device comprises a feeding unit arranged on the workbench and a feeding driving device arranged on one side of the feeding unit.

Further, the feeding unit comprises a feeding bin and an inclined adjusting plate arranged on one side of the feeding bin.

Further, go up the feed bin and include a feed bin main part, and one set up feed bin main part axial ejection of compact through-hole, one sets up the feed inlet of feed bin main part one side, ejection of compact through-hole with the feed inlet communicates each other, the one end intercommunication of inclined adjustment board the feed inlet.

Further, the feeding driving device comprises a feeding driving device main body arranged on the workbench, and a feeding driving rod arranged on the feeding driving device main body, when the clamp is used for installing the shaft sleeve to be processed, the central shafts of the feeding driving rod, the discharging through hole and the mounting hole are coincident, so that the feeding driving rod can transmit the shaft sleeve to be processed in the feeding bin to the clamp.

Further, the shaft sleeve forming device with the double-sided chamfer also comprises a discharging hopper arranged on the workbench, and when the clamp is used for installing the shaft sleeve to be processed, the discharging hopper is arranged on one side of the clamp.

Further, the mounting frame further comprises a mounting frame main body and an adjusting screw arranged on the mounting frame main body, and the adjusting screw corresponds to the clamp.

Compared with the prior art, the double-sided chamfering shaft sleeve forming device provided by the utility model has the advantages that the chamfering cutting mechanisms are respectively arranged on the two sides of the shaft sleeve mounting clamp, so that the chamfering of the two ends of the shaft sleeve on the shaft sleeve mounting clamp is realized. The first sliding device in the shaft sleeve mounting clamp is arranged on the mounting frame, the clamp is arranged on the first sliding device, one side of the clamp is provided with a clamp driving device, and the clamp driving device drives the clamp to slide along the first sliding device so as to enable the clamp to be close to or far away from the chamfering cutting mechanism. And the second sliding device in each chamfering and cutting mechanism is arranged on the workbench, and the chamfering and cutting device is connected to the second sliding device in a sliding way. The extending direction of the second sliding device is perpendicular to the extending direction of the first sliding device, so that the chamfering cutting mechanism and the shaft sleeve mounting clamp move to the same position, and chamfering processing is carried out on the blank workpiece on the shaft sleeve mounting clamp by the chamfering cutting mechanism. Therefore, the shaft sleeve forming device with the double-sided chamfer achieves double-sided chamfer, achieves the effects of energy conservation and environmental protection, improves the chamfer machining efficiency of the shaft sleeve, and improves the safety guarantee of staff.

Drawings

Fig. 1 is a schematic structural view of a double-sided chamfering shaft sleeve forming device provided by the utility model.

Fig. 2 is a schematic structural view of a sleeve mounting jig in the double-sided chamfer sleeve forming apparatus of fig. 1.

Fig. 3 is a schematic structural view of a chamfer cutting mechanism in the double-sided chamfer shaft sleeve forming device of fig. 1.

Fig. 4 is a schematic structural view of a loading device in the double-sided chamfering shaft sleeve forming device of fig. 1

Detailed Description

Specific embodiments of the present utility model are described in further detail below. It should be understood that the description herein of the embodiments of the utility model is not intended to limit the scope of the utility model.

Fig. 1 to 4 are schematic structural views of a double-sided chamfer shaft sleeve forming device provided by the utility model. The double-sided chamfering shaft sleeve forming device comprises a workbench 1, a mounting frame 2 arranged on the workbench 1, a shaft sleeve mounting clamp 10 connected to the mounting frame 2 in a sliding mode, chamfering cutting mechanisms 20 symmetrically arranged on two sides of the shaft sleeve mounting clamp 10, a feeding device 30 connected to the mounting frame 2 in a sliding mode and a discharging hopper 40 arranged on the workbench 1. The double-sided chamfer sleeve forming device also comprises other functional modules, such as assembly components and the like, which should be known to those skilled in the art and will not be described in detail here.

The workbench 1 is used for installing the shaft sleeve mounting fixture 10, the chamfer cutting mechanism 20, the feeding device 30 and the discharging hopper 40, so that an integral body is formed among the shaft sleeve mounting fixture 10, the chamfer cutting mechanism 20, the feeding device 30 and the discharging hopper 40, and the workbench 1 is a prior art and is not described herein again.

The mounting frame 2 further comprises a mounting frame body 3 and an adjusting screw 4 arranged on the mounting frame body 3, and the adjusting screw 4 corresponds to the clamp 12. The mounting frame body 3 is used for mounting the shaft sleeve mounting fixture 10, so that the shaft sleeve mounting fixture 10 slides on the mounting frame 2, and the position of the shaft sleeve mounting fixture 10 on the mounting frame body 3 is limited by twisting the adjusting screw 4, and the mounting frame body 3 and the adjusting screw 4 can be a prior art, and will not be described herein.

The sleeve mounting jig 10 includes a first sliding means 11 provided on the mounting frame 2, a jig 12 provided on the sliding means 11 for mounting a sleeve blank (not shown), and a jig driving means 13 connected to one side of the jig 12.

The first sliding device 11 is used for guiding the clamp 12 to slide, and the first sliding device 11 is provided with

The clamp driving device 13 drives the clamp 12 to slide along the first sliding device 11, and the first sliding device 11 and the clamp 12 are all of a prior art, which is not described herein.

The jig 12 includes a jig body 121 provided on the slide 11, and a mounting hole 122 provided on the jig body 121. The mounting hole 122 is used for accommodating a shaft sleeve to be processed, and positioning of the shaft sleeve to be processed is realized in the mounting hole 122. The clamp 12 is a prior art and will not be described in detail herein.

Each chamfer cutting mechanism 20 comprises a second slide 21 provided on the table 1, and a chamfer cutting device 22 provided on the second slide 21.

The extending direction of the second sliding device 21 is perpendicular to the extending direction of the first sliding device 11, so that the chamfering cutting mechanism 20 and the shaft sleeve mounting fixture 10 move to the same position, and chamfering processing is performed on the blank workpiece on the shaft sleeve mounting fixture 10 by the chamfering cutting mechanism 20.

The chamfer cutting device 22 is arranged on the second sliding device 21, and the chamfer cutting device 22 is driven to a processing station by the second sliding device 21. The chamfer cutting device 22 drives the rotating shaft to rotate through the motor, so as to drive the cutting tool on the rotating shaft to synchronously rotate, and the chamfer cutting device 22 is a prior art and is not described herein. In this embodiment, the second sliding device 21, the chamfer cutting device 22, and the fixture driving device 13 are all driven by an electric cylinder, and the electric cylinder is a modularized product designed by integrating a servo motor and a screw rod, so that the rotary motion of the servo motor is converted into linear motion, and the device is environment-friendly and energy-saving through the electric cylinder.

The feeding device 30 comprises a feeding unit 31 arranged on the workbench 1, and a feeding driving device 32 arranged on one side of the feeding unit 31.

The feeding unit 31 includes a feeding bin 311, and an inclined adjusting plate 312 disposed at one side of the feeding bin 311. The inclined adjusting plate 312 guides the shaft sleeve to be processed to be conveyed into the feeding bin 311.

The loading bin 311 comprises a bin main body 3111, a discharging through hole 3112 arranged in the axial direction of the bin main body 3111, and a loading opening 3113 arranged at one side of the bin main body 3111. The discharging through hole 3112 is mutually communicated with the feeding hole 3113, one end of the inclined adjusting plate 312 is communicated with the feeding hole 3113, the inclined adjusting plate 312 is used for guiding a shaft sleeve to be processed to enter the feeding hole 3113 and enter the discharging through hole 3112 along the feeding hole 3113, the discharging through hole 3112 is matched with the feeding driving device 32 during feeding or discharging of the feeding unit 31, and therefore the discharging through hole 3112 is described in combination with the feeding driving device 32.

The feeding driving device 32 includes a feeding driving device body 321 disposed on the workbench 1, and a feeding driving rod 322 disposed on the feeding driving device body 321. When the fixture 12 mounts the shaft sleeve to be processed, the central axes of the feeding driving rod 322, the discharging through hole 3112 and the mounting hole 122 are coincident, so that the feeding driving rod 322 transfers the shaft sleeve to be processed in the feeding bin 311 into the fixture 12. In this embodiment, the clamp driving device 13 and the feeding driving device 32 are all electric cylinders, the electric cylinders are modularized products designed by integrating a servo motor and a screw rod, and the rotary motion of the servo motor is converted into linear motion.

The unloading hopper 40 is used for receiving the shaft sleeve formed by chamfering on the shaft sleeve mounting fixture 10, when the fixture 12 is used for mounting the shaft sleeve to be processed, the unloading hopper 40 is arranged on one side of the fixture 12, the loading driving device main body 321 drives the loading driving rod 322 to be inserted into the mounting hole 122, so that the shaft sleeve to be chamfered in the loading bin 31 is inserted into the mounting hole 122 of the fixture 12, and the chamfering forming shaft sleeve in the mounting hole 122 is propped against the unloading hopper 40.

Compared with the prior art, the double-sided chamfering shaft sleeve forming device provided by the utility model realizes the chamfering of two ends of the shaft sleeve on the shaft sleeve mounting clamp 10 by arranging the chamfering cutting mechanisms 20 on two sides of the shaft sleeve mounting clamp 10 respectively. The first sliding device 11 in the shaft sleeve mounting clamp 10 is arranged on the mounting frame 2, the clamp 12 is arranged on the first sliding device 11, a clamp driving device 13 is arranged on one side of the clamp 12, and the clamp driving device 13 drives the clamp 12 to slide along the first sliding device 11 so as to enable the clamp 12 to be close to or far away from the chamfering cutting mechanism 20. Wherein a second slide 21 of each chamfer cutting mechanism 20 is provided on the table 1, and a chamfer cutting device 22 is slidably connected to the second slide 21. The extending direction of the second sliding device 21 is perpendicular to the extending direction of the first sliding device 11, so that the chamfering cutting mechanism 20 and the shaft sleeve mounting fixture 10 move to the same position, and chamfering processing is performed on the blank workpiece on the shaft sleeve mounting fixture 10 by the chamfering cutting mechanism 20. Therefore, the shaft sleeve forming device with the double-sided chamfer achieves double-sided chamfer, achieves the effects of energy conservation and environmental protection, improves the chamfer machining efficiency of the shaft sleeve, and improves the safety guarantee of staff.

The above is only a preferred embodiment of the present utility model and is not intended to limit the scope of the present utility model, and any modifications, equivalent substitutions or improvements within the spirit of the present utility model are intended to be covered by the claims of the present utility model.

Claims (7)

1. The utility model provides a two-sided chamfer axle sleeve forming device, includes a workstation, its characterized in that: the shaft sleeve forming device of the double-sided chamfering comprises a mounting frame arranged on the workbench, a shaft sleeve mounting clamp connected with the mounting frame in a sliding mode, chamfering cutting mechanisms arranged on two sides of the mounting frame, a feeding device used for conveying a blank shaft sleeve to the shaft sleeve mounting clamp, the shaft sleeve mounting clamp comprises a first sliding device arranged on the mounting frame, a clamp arranged on the sliding device and used for mounting a shaft sleeve blank, and a clamp driving device connected with one side of the clamp, the clamp comprises a clamp body arranged on the sliding device, a mounting hole arranged on the clamp body, each chamfering cutting mechanism comprises a second sliding device arranged on the workbench, and a chamfering cutting device arranged on the second sliding device, the extending direction of the second sliding device is mutually perpendicular to the extending direction of the first sliding device, and in the chamfering forming process of the blank shaft sleeve, the shaft sleeve mounting clamp slides between the two chamfering cutting mechanisms, and the two ends of the two chamfering cutting mechanisms are synchronous.

2. The double-sided chamfer sleeve forming device according to claim 1, wherein: the feeding device comprises a feeding unit arranged on the workbench and a feeding driving device arranged on one side of the feeding unit.

3. The double-sided chamfer sleeve forming device according to claim 2, wherein: the feeding unit comprises a feeding bin and an inclined adjusting plate arranged on one side of the feeding bin.

4. A double-sided chamfer sleeve forming device as claimed in claim 3, wherein: the feeding bin comprises a bin main body and a discharging through hole arranged in the axial direction of the bin main body, a feeding hole arranged on one side of the bin main body is communicated with the feeding hole, and one end of the inclined adjusting plate is communicated with the feeding hole.

5. The double-sided chamfer sleeve forming device according to claim 4, wherein: the feeding driving device comprises a feeding driving device main body arranged on the workbench, and a feeding driving rod arranged on the feeding driving device main body, wherein when the clamp is used for installing the shaft sleeve to be processed, the central axes of the feeding driving rod, the discharging through hole and the mounting hole are coincident, so that the feeding driving rod can transmit the shaft sleeve to be processed in the feeding bin into the clamp.

6. The double-sided chamfer sleeve forming device according to claim 1, wherein: the shaft sleeve forming device with the double-sided chamfer also comprises a discharging hopper arranged on the workbench, and when the clamp is used for installing the shaft sleeve to be processed, the discharging hopper is arranged on one side of the clamp.

7. The double-sided chamfer sleeve forming device according to claim 1, wherein: the mounting frame further comprises a mounting frame main body and an adjusting screw arranged on the mounting frame main body, wherein the adjusting screw corresponds to the clamp.