CN218611701U - Equipment for machining inner hole of bushing - Google Patents

Abstract

The utility model relates to an equipment for processing bush hole, including the material loading conveyer belt, first push away the tile cylinder, turning device, middle conveyer belt, positioner, anchor clamps, lathe tool and unloader, the material loading conveyer belt is used for carrying the work piece, the tip of material loading conveyer belt is equipped with, turning device and, first push away the tile cylinder and be located one side of material loading conveyer belt, turning device is located the opposite side of material loading conveyer belt, first push away the tile cylinder and be used for with work piece propelling movement to turning device on, turning device is used for the upset work piece and carries the work piece to middle conveyer belt, the tip of middle conveyer belt is equipped with positioner, positioner carries the work piece to the anchor clamps in, the lathe tool is located one side of anchor clamps, unloader is located the opposite side of anchor clamps, unloader is used for taking off the work piece from anchor clamps. The whole machining process does not need manual operation, the influence of human factors is reduced, the machining quality of the workpiece is improved, one person can realize multiple machines, and the machining efficiency of the workpiece is improved.

Description

Equipment for machining inner hole of bushing

Technical Field

The utility model relates to a machining technical field, concretely relates to equipment for processing bush hole.

Background

A liner generally refers to a ring that functions as a liner. In the moving parts, parts are abraded due to long-term friction, and the parts need to be replaced when the gap between the shaft and the hole is abraded to a certain degree, so that a shaft sleeve or a bush with lower hardness and better wear resistance is often arranged between the shaft and the hole, the abrasion between the shaft and the hole is reduced, and the replacement cost of the shaft or the hole is reduced.

In the prior art, when an inner hole of a bushing is machined, an operator clamps the bushing on a lathe or a drilling machine, and the inner hole of the bushing is machined by manually controlling the feed amount of a drill bit or a cutter. Because in the course of working, need manual control feed volume, not only processingquality is difficult to control, and an equipment needs an operating personnel processing moreover, and machining efficiency is low, and the security is poor, easily takes place the industrial injury.

SUMMERY OF THE UTILITY MODEL

The utility model discloses a solve among the prior art bush machining efficiency low, processingquality is difficult to control's problem provides an equipment for processing bush hole.

The utility model provides an above-mentioned technical problem's technical scheme as follows: the utility model provides an equipment for processing bush hole, includes material loading conveyer belt, first tile cylinder, turning device, middle conveyer belt, positioner, anchor clamps, lathe tool and unloader that pushes away, the material loading conveyer belt is used for carrying the work piece, the tip of material loading conveyer belt is equipped with turning device with first tile cylinder that pushes away, first tile cylinder that pushes away is located one side of material loading conveyer belt, turning device is located the opposite side of material loading conveyer belt, first tile cylinder that pushes away is used for with the work piece propelling movement extremely on the turning device, turning device is used for the upset the work piece will the work piece is carried extremely middle conveyer belt, middle conveyer belt's tip is equipped with positioner, positioner will the work piece is carried extremely anchor clamps, the lathe tool is located one side of anchor clamps is used for processing the work piece, unloader is located the opposite side of anchor clamps, unloader is used for with the work piece follows anchor clamps take off.

On the basis of the technical scheme, the utility model discloses a reach the convenience of use and the stability of equipment, can also make following improvement to foretell technical scheme:

furthermore, the turnover device comprises a turnover plate, an air pipe, a first clamping cylinder and a swing turnover assembly, the swing turnover assembly comprises a stop block, the first clamping cylinder is arranged on one side of the turnover plate, the other side of the turnover plate is connected with the stop block, and the air pipe is located at the end part of the turnover plate and blows workpieces on the turnover plate to the middle conveying belt.

Further, swing upset subassembly still including driving actuating cylinder, actuating lever, connecting rod and pivot, drive actuating cylinder's output with the actuating lever is connected, the actuating lever with the connecting rod rotates to be connected, the connecting rod with the pivot is connected, the pivot with the dog is connected.

Further, positioner includes that the second pushes away tile cylinder, V type locating piece, mobile device one and material loading push away the tile cylinder, V type locating piece with the material loading pushes away the tile cylinder setting and is in on the mobile device one, the second pushes away the tile cylinder and is located one side of middle conveyer belt, V type locating piece with the material loading pushes away the tile cylinder and is located the opposite side of middle conveyer belt, the second pushes away the tile cylinder and is used for following the work piece middle conveyer belt push away to on the V type locating piece, the material loading pushes away the tile cylinder and is used for with the work piece is followed V type locating piece pushes away to in the anchor clamps.

The V-shaped positioning block is arranged on the upper portion of the V-shaped positioning block, the moving device comprises a first transverse moving module and a first vertical module which are connected, and the second clamping cylinder, the V-shaped positioning block and the feeding tile pushing cylinder are arranged on the first vertical module.

Furthermore, the blanking device comprises a blanking clamping cylinder and a blanking rotating cylinder, the output end of the blanking rotating cylinder is connected with the blanking clamping cylinder, the output end of the blanking clamping cylinder is provided with a blanking clamping jaw, and the blanking clamping jaw is used for clamping the inner hole of the workpiece.

And the discharging device further comprises a second moving device, the second moving device comprises a second transverse moving module and a second vertical moving module which are connected, and the discharging rotary cylinder is arranged on the second vertical moving module.

The automatic feeding device is characterized by further comprising a discharging conveying device, wherein the discharging conveying device comprises a discharging conveying belt, a material stirring cylinder and a material stirring block, the discharging conveying belt is located below the discharging clamping cylinder, the material stirring cylinder is located on one side of the discharging conveying belt, the output end of the material stirring cylinder is connected with the material stirring block, and the material stirring block is located at one end of the discharging conveying belt and pushes the workpiece to the discharging conveying belt.

Furthermore, two sides of the feeding conveyor belt are provided with a first baffle, and two sides of the middle conveyor belt are provided with a second baffle.

Further, the height of the feeding end of the intermediate conveyor belt is larger than that of the discharging end.

The utility model has the advantages that: the workpiece is transmitted through the conveyor belt, manual loading and unloading are not needed, labor intensity is reduced, the workpiece is overturned through the overturning device, so that the workpiece is clamped by the clamp conveniently, the workpiece is not needed to be clamped manually, safety in machining is improved, industrial injury is avoided, an inner hole of the workpiece is machined automatically through the turning tool, the workpiece is taken down from the clamp through the unloading device, manual operation is not needed in the whole machining process, influences of human factors are reduced, machining quality of the workpiece is improved, one person can machine multiple machines, and machining efficiency of the workpiece is improved.

Drawings

Fig. 1 is a schematic structural view of the present invention;

FIG. 2 is an enlarged view of a portion A of FIG. 1;

fig. 3 is a schematic view of the positioning device of the present invention moving to the clamping device;

FIG. 4 is a partial enlarged view of FIG. 3 at B;

FIG. 5 is a schematic view of the blanking device of the present invention during blanking;

fig. 6 is a partially enlarged view of C in fig. 5.

The reference numbers are recorded as follows: 1. a feeding conveyor belt; 2. a first tile pushing cylinder; 3. a first clamping cylinder; 4. a turnover plate; 5. an air tube; 6. a swing overturning component; 6.1, driving a cylinder; 6.2, a driving rod; 6.3, connecting rods; 6.4, a rotating shaft; 6.5, connecting blocks; 6.6, a stop block; 6.7, supporting blocks; 7. an intermediate conveyor belt; 8. a V-shaped positioning block; 9. a second tile pushing cylinder; 10. a second clamping cylinder; 11. a feeding tile pushing cylinder; 12. a clamp; 13. a blanking clamping cylinder; 14. a first transverse moving module; 15. a first vertical module; 16. a blanking rotary cylinder; 17. a material poking cylinder; 18. a blanking conveyor belt; 19. a workpiece; 20. a first baffle plate; 21. a second baffle plate; 22. a second transverse moving module; 23. vertically moving a second module; 24. a material stirring block; 25. turning a tool; 26. a knife bar.

Detailed Description

In the description of the present invention, it is to be understood that the terms "center", "longitudinal", "lateral", "length", "width", "thickness", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", "clockwise", "counterclockwise", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and to simplify the description, but do not indicate or imply that the device or element referred to must have a particular orientation, be constructed and operated in a particular orientation, and therefore should not be construed as limiting the present invention. Furthermore, the terms "first", "second" and "first" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated.

The principles and features of the present invention are described below in conjunction with the following drawings, the examples given are only intended to illustrate the present invention and are not intended to limit the scope of the present invention.

As shown in fig. 1 to 6, the utility model discloses an equipment for processing bush hole, including material loading conveyer belt 1, first tile cylinder 2, turning device, intermediate transport 7, positioner, anchor clamps 12, lathe tool 25 and unloader push away, material loading conveyer belt 1 is used for carrying work piece 19, material loading conveyer belt 1's both sides are equipped with baffle one 20, avoid work piece 19 to fall down, material loading conveyer belt 1's tip is equipped with turning device with first tile cylinder 2 that pushes away, the tip of baffle one 20 is equipped with the recess that supplies first tile cylinder 2 to pass, first tile cylinder 2 that pushes away is located one side of material loading conveyer belt 1, turning device is located material loading conveyer belt 1's opposite side, first tile cylinder 2 that pushes away is used for with work piece 19 propelling movement extremely on the turning device, turning device is used for the upset work piece 19 will work piece 19 carry to intermediate transport 7, intermediate transport 7 both sides of intermediate transport two 21, play the direction, guard action to work piece 19, guarantee work piece 19 along intermediate transport clamp tool 7 normally the lathe tool is equipped with the outer lane the cutter arbor 19, work piece 19 is equipped with the normal rotation from work piece 19 the end of clamp device 19, the unloading clamp device is used for getting the cutter bar 12, the normal unloading clamp device 12, the end is used for getting the work piece 19, the unloading clamp device 26 is used for getting the work piece 19 and the cutter bar 19, the unloading device is used for getting the normal unloading device 12.

The turnover device comprises a turnover plate 4, an air pipe 5, a first clamping cylinder 3 and a swing turnover assembly 6, the swing turnover assembly 6 comprises a stop block 6.6, one side of the turnover plate 4 is provided with the first clamping cylinder 3, the other side of the turnover plate is connected with the stop block 6.6, the first clamping cylinder 3 clamps a workpiece 19 between the stop block 6.6 and the first clamping cylinder 3, the air pipe 5 is positioned at the end part of the turnover plate 4, the air pipe 5 is communicated with an air source and blows the workpiece 19 on the turnover plate 4 to the intermediate conveyor belt 7, the feeding end of the intermediate conveyor belt 7 is higher than the discharging end, the workpiece 19 rolls along the intermediate conveyor belt 7 which is obliquely arranged under the action of gravity, the rotating difficulty of the workpiece 19 along the intermediate conveyor belt 7 is reduced, and the output power of the air pipe 5 is reduced.

Alternatively, the intermediate conveyor 7 may be arranged horizontally, so as to increase the blowing power of the air pipe 5 and also enable the workpiece 19 to roll along the conveyor.

Optionally, the rolling speed of the workpiece 19 can be controlled by controlling the inclination angle of the intermediate conveyor 7, so as to ensure the stability of the rolling of the workpiece 19.

Swing upset subassembly 6 still including driving actuating cylinder 6.1, actuating lever 6.2, connecting rod 6.3 and pivot 6.4, drive actuating cylinder 6.1's output with actuating lever 6.2 is connected, actuating lever 6.2 with connecting rod 6.3 rotates and connects, connecting rod 6.3 with pivot 6.4 is connected, pivot 6.4 passes supporting shoe 6.7 and is connected with connecting block 6.5, and supporting shoe 6.7 plays supporting role to pivot 6.4, connecting block 6.5 with dog 6.6 is connected. Drive actuating cylinder 6.1 and start, drive actuating lever 6.2 and remove to drive connecting rod 6.3 and pivot 6.4 and rotate, pivot 6.4 drives first die clamping cylinder 3, returning face plate 4, trachea 5 and work piece 19 and rotates 90, and first die clamping cylinder 3 compresses tightly work piece 19 when rotating promptly on the dog 6.6, after rotating, first die clamping cylinder 3 loosens work piece 19, and under gaseous blowing in trachea 5, work piece 19 rotates along middle conveyer belt 7, realizes work piece 19's transport.

The positioning device comprises a second tile pushing cylinder 9, a V-shaped positioning block 8, a first moving device and a feeding tile pushing cylinder 11, the V-shaped positioning block 8 and the feeding tile pushing cylinder 11 are arranged on the first moving device, the second tile pushing cylinder 9 is located on one side of the lower end portion of the middle conveying belt 7, the V-shaped positioning block 8 and the feeding tile pushing cylinder 11 are located on the other side of the middle conveying belt 7, the second tile pushing cylinder 9 is used for pushing a workpiece 19 to the V-shaped positioning block 8 from the middle conveying belt 7, the second tile pushing cylinder 9 is connected with a pushing block, a supporting rod is arranged on the pushing block, the supporting rod is inserted into an inner hole of the workpiece 19 and is in contact with the vertical end face of the workpiece 19, the workpiece 19 is pushed to the V-shaped positioning block 8, the V-shaped positioning block 8 plays a role in positioning on the workpiece 19, the workpiece 19 is prevented from being initially dropped, and the feeding tile pushing cylinder 11 is used for pushing the workpiece 19 to the clamp 12 from the V-shaped positioning block 8.

The positioning device further comprises a second clamping cylinder 10, the second clamping cylinder 10 is used for pressing the workpiece 19 on the V-shaped positioning block 8, the positioning firmness of the workpiece 19 is further guaranteed, the workpiece 19 is prevented from falling off, the moving device comprises a first transverse moving module 14 and a first vertical module 15 which are connected, the second clamping cylinder 10, the V-shaped positioning block 8 and the feeding tile pushing cylinder 11 are installed on the first vertical module 15, the position of the V-shaped positioning block 8 can be adjusted in the horizontal direction and the vertical direction, the structure is compact, and the workpiece 19 is conveniently pushed to the clamp 12 by the feeding tile pushing cylinder 11. After the second tile pushing cylinder 9 conveys the workpiece 19 to the V-shaped positioning block 8 from the middle conveyor belt 7, the first transverse moving module 14 and the first vertical module 15 of the first moving device move the V-shaped positioning block 8 and the workpiece 19 to one side of the clamp 12, the feeding tile pushing cylinder 11 pushes the workpiece 19 to the clamp 12 from the V-shaped positioning block 8, the first moving device moves to one side of the middle conveyor belt 7 again to carry out the next workpiece 19, and the turning tool 25 moves towards the workpiece 19 under the driving of the tool bar 26, so that the normal processing of the workpiece 19 is realized, meanwhile, the carrying and the processing of the workpiece 19 are realized, and the processing efficiency is improved.

The blanking device comprises a blanking clamping cylinder 13 and a blanking rotating cylinder 16, the output end of the blanking rotating cylinder 16 is connected with the blanking clamping cylinder 13, the output end of the blanking clamping cylinder 13 is provided with a blanking clamping jaw, the blanking clamping jaw is used for clamping the inner hole of the workpiece 19, the blanking rotating cylinder 16 drives the blanking clamping cylinder 13 to rotate, and the workpiece 19 is conveniently picked and placed by the blanking clamping jaw so as to process the next workpiece 19.

The equipment for processing the inner hole of the bushing further comprises a second moving device, the second moving device comprises a second connected transverse moving module 22 and a second vertical moving module 23, the blanking rotating cylinder 16 is installed on the second vertical moving module 23, the blanking clamping cylinder 13 and the blanking rotating cylinder 16 are conveniently adjusted in the horizontal direction and the vertical direction, and the convenience for taking and placing the workpiece 19 is further improved.

A equipment for processing bush hole still includes unloading conveyor, unloading conveyor includes unloading conveyer belt 18, dials material cylinder 17 and dials material piece 24, unloading conveyer belt 18 is located the below of unloading die clamping cylinder 13, dial material cylinder 17 and be located one side of unloading conveyer belt 18, dial material cylinder 17's output with dial material piece 24 and connect, dial material piece 24 and be located the one end of unloading conveyer belt 18, and will work piece 19 pushes away to on the unloading conveyer belt 18, guarantee work piece 19 steady movement on unloading conveyer belt 18, avoid directly placing work piece 19 the condition that takes place work piece 19 roll or drop on unloading conveyer belt 18. The material stirring block 24 is in a V shape, so that the material stirring block can be attached to the side wall of the workpiece 19 conveniently, and the workpiece 19 can be smoothly pushed onto the blanking conveyor belt 18.

The working process of the utility model is as follows:

conveying the workpiece 19: placing a workpiece 19 on the feeding conveyor belt 1, wherein the end face of the workpiece 19 is in contact with the feeding conveyor belt 1, so that the workpiece 19 is stably conveyed on the feeding conveyor belt 1;

turning over the workpiece 19: when the workpiece 19 reaches the lower end part of the feeding conveyor belt 1, the first tile pushing cylinder 2 is started to push the workpiece 19 to the turnover device, the turnover device drives the workpiece 19 to rotate by 90 degrees and conveys the workpiece 19 to the middle conveyor belt 7, namely, the workpiece 19 is blown by the air pipe 5 to roll onto the middle conveyor belt 7;

the workpiece 19 is conveyed again: the workpiece 19 rolls along the intermediate conveyor 7 to a positioning device, which pushes the workpiece 19 into the fixture 12, specifically: the first moving device drives the V-shaped positioning block 8 to move to one side of a workpiece 19, the second tile pushing cylinder 9 pushes the workpiece 19 to the V-shaped positioning block 8, the second clamping cylinder 10 clamps the workpiece 19 from the upper part, the first moving device drives the V-shaped positioning block 8 to move to the clamp 12, the second clamping cylinder 10 releases the workpiece 19, and the feeding tile pushing cylinder 11 pushes the workpiece 19 to the clamp 12;

machining the workpiece 19: the clamp 12 clamps the outer ring of the workpiece 19, the turning tool 25 is started, and the inner hole of the workpiece 19 is machined;

blanking: after the processing is finished, the workpiece 19 is taken down from the fixture 12 by the blanking device, specifically, the second moving device drives the blanking clamping cylinder 13 and the blanking rotating cylinder 16 to move to the workpiece 19, the blanking clamping jaw of the blanking clamping cylinder 13 clamps the inner hole of the workpiece 19, the second moving device drives the workpiece 19 to move in the horizontal direction so as to separate from the fixture 12, the blanking rotating cylinder 16 drives the blanking clamping cylinder 13 and the workpiece 19 to rotate, the workpiece 19 is placed at one end of the blanking conveyor belt 18, the material stirring cylinder 17 is started to drive the material stirring block 24 to move, the workpiece 19 is pushed onto the blanking conveyor belt 18, and the processing of the workpiece 19 is finished.

The above description is only for the preferred embodiment of the present invention, and is not intended to limit the present invention, and any modifications, equivalent replacements, improvements, etc. made within the spirit and principle of the present invention should be included within the protection scope of the present invention.

Claims (10)

1. The utility model provides an equipment for processing bush hole, characterized in that, includes material loading conveyer belt (1), first tile cylinder (2) of pushing away, turning device, intermediate transport area (7), positioner, anchor clamps (12), lathe tool (25) and unloader, material loading conveyer belt (1) is used for carrying work piece (19), the tip of material loading conveyer belt (1) is equipped with turning device with first tile cylinder (2) of pushing away, first tile cylinder (2) of pushing away is located one side of material loading conveyer belt (1), turning device is located the opposite side of material loading conveyer belt (1), first tile cylinder (2) of pushing away is used for with work piece (19) propelling movement extremely on the turning device, turning device is used for the upset work piece (19) and will work piece (19) carry to intermediate transport area (7), the tip of intermediate transport area (7) is equipped with positioner, positioner will work piece (19) carry to anchor clamps (12), lathe tool (25) are located one side of anchor clamps (12) and are used for processing work piece (19), workpiece (19) is located unloader is used for from the other side of unloading anchor clamps (12), unloader (12) is used for getting down from work piece (12).

2. The equipment for machining the inner hole of the bushing according to claim 1, wherein the turnover device comprises a turnover plate (4), an air pipe (5), a first clamping cylinder (3) and a swinging turnover assembly (6), the swinging turnover assembly (6) comprises a stop block (6.6), the first clamping cylinder (3) is arranged on one side of the turnover plate (4), the other side of the turnover plate is connected with the stop block (6.6), the air pipe (5) is located at the end part of the turnover plate (4) and blows a workpiece (19) on the turnover plate (4) onto the intermediate conveyor belt (7).

3. The apparatus for processing the inner hole of the bushing according to claim 2, wherein the swing-overturning assembly (6) further comprises a driving cylinder (6.1), a driving rod (6.2), a connecting rod (6.3) and a rotating shaft (6.4), the output end of the driving cylinder (6.1) is connected with the driving rod (6.2), the driving rod (6.2) is rotatably connected with the connecting rod (6.3), the connecting rod (6.3) is connected with the rotating shaft (6.4), and the rotating shaft (6.4) is connected with the stopper (6.6).

4. The apparatus for machining liner bores according to claim 1, characterized in that the positioning device comprises a second tile pushing cylinder (9), a V-shaped positioning block (8), a first moving device and a feeding tile pushing cylinder (11), the V-shaped positioning block (8) and the feeding tile pushing cylinder (11) are arranged on the first moving device, the second tile pushing cylinder (9) is located on one side of the intermediate conveyor belt (7), the V-shaped positioning block (8) and the feeding tile pushing cylinder (11) are located on the other side of the intermediate conveyor belt (7), the second tile pushing cylinder (9) is used for pushing a workpiece (19) from the intermediate conveyor belt (7) to the V-shaped positioning block (8), and the feeding tile pushing cylinder (11) is used for pushing the workpiece (19) from the V-shaped positioning block (8) to the fixture (12).

5. The apparatus for machining the inner hole of the bushing as claimed in claim 4, further comprising a second clamping cylinder (10), wherein said second clamping cylinder (10) is used for pressing the workpiece (19) on the V-shaped positioning block (8), said moving device comprises a first traverse module (14) and a first vertical module (15) which are connected, and said second clamping cylinder (10), said V-shaped positioning block (8) and said feeding tile pushing cylinder (11) are installed on said first vertical module (15).

6. The apparatus for machining a bushing bore according to claim 1, characterized in that the blanking device comprises a blanking clamping cylinder (13) and a blanking rotary cylinder (16), an output end of the blanking rotary cylinder (16) is connected with the blanking clamping cylinder (13), and an output end of the blanking clamping cylinder (13) is provided with a blanking clamping jaw for clamping the bore of the workpiece (19).

7. The apparatus for processing the inner bore of the bushing as claimed in claim 6, further comprising a second moving device comprising a second traverse module (22) and a second traverse module (23) connected, wherein the blanking rotary cylinder (16) is mounted on the second traverse module (23).

8. The apparatus for machining bushing inner holes according to claim 6, further comprising a blanking conveying device, wherein the blanking conveying device comprises a blanking conveying belt (18), a material poking cylinder (17) and a material poking block (24), the blanking conveying belt (18) is located below the blanking clamping cylinder (13), the material poking cylinder (17) is located on one side of the blanking conveying belt (18), an output end of the material poking cylinder (17) is connected with the material poking block (24), and the material poking block (24) is located at one end of the blanking conveying belt (18) and pushes the workpiece (19) onto the blanking conveying belt (18).

9. The apparatus for processing the inner hole of the bushing according to the claim 8, characterized in that, the two sides of the feeding conveyor belt (1) are provided with a first baffle (20), and the two sides of the middle conveyor belt (7) are provided with a second baffle (21).

10. An apparatus for machining the inner bore of a bushing according to claim 1, characterized in that the height of the feed end of the intermediate conveyor belt (7) is greater than the height of the discharge end.

Images