CN112792602B

CN112792602B - Novel automatic pay-off of lathe device

Info

Publication number: CN112792602B
Application number: CN202110056517.2A
Authority: CN
Inventors: 钱军
Original assignee: Changzhou Vocational Institute of Mechatronic Technology
Current assignee: Changzhou Vocational Institute of Mechatronic Technology
Priority date: 2021-01-15
Filing date: 2021-01-15
Publication date: 2022-02-11
Anticipated expiration: 2041-01-15
Also published as: CN112792602A

Abstract

The invention provides a feeding device of a novel automatic machine tool, which comprises a feeding section, an interval feeding component, a discharging section and a discharging bin, wherein the interval feeding component is arranged between the feeding section and the discharging section; a temporary storage assembly is arranged on the horizontal plane, a material blocking assembly is arranged at a position, close to the horizontal plane, of the first inclined plane, and interval feeding with adjustable intervals is realized through the matching of the temporary storage assembly and the material blocking assembly; and the pipe bodies to be processed on the temporary storage assembly are driven by the interval feeding assembly to feed. The feeding device of the novel automatic machine tool has multiple functions, the feeding speed and the feeding interval can be adjusted, and dust and impurities on the surface of a material can be cleaned.

Description

Novel automatic pay-off of lathe device

Technical Field

The invention belongs to the technical field of feeding devices, and particularly relates to a feeding device of a novel automatic machine tool.

Background

Along with the progress of industrial automation is advanced, the automatic machine tool is further developed, the automatic machine tool can automatically process the same product for a long time after certain setting and teaching, the production efficiency and the product quality can be improved, meanwhile, the labor condition is improved, the manual participation is reduced, and in order to further reduce the workload of workers and improve the working efficiency, an automatic feeding device is usually arranged.

When using material feeding unit to pay-off to the lathe, because partial raw materials have accumulated the dust at the in-process surface of transportation or storage, and material feeding unit function is comparatively single, is difficult to clear up these dust impurity, makes the dust impurity cause inconvenience to subsequent raw materials course of working easily, in addition, the interval of pay-off, the speed of pay-off is difficult to adjust.

Therefore, there is a need to provide a new feeding device for automatic machine tool to solve the above problems in the background art.

Disclosure of Invention

In view of this, the invention aims to provide a novel feeding device of an automatic machine tool, which has multiple functions, is adjustable in feeding speed and feeding distance and can clean dust and impurities on the surface of a material.

In order to achieve the purpose, the technical scheme of the invention is realized as follows:

a feeding device of a novel automatic machine tool comprises a feeding section, an interval feeding component, a discharging section and a discharging bin, wherein the interval feeding component is arranged between the feeding section and the discharging section, the discharging bin is arranged at the end part of the discharging section, the bottom surface of the feeding section is an inclined surface I, the bottom surface of the discharging section is an inclined surface II, and a horizontal plane below the interval feeding component is arranged between the inclined surface I and the inclined surface II;

a temporary storage assembly is arranged on the horizontal plane, a material blocking assembly is arranged at a position, close to the horizontal plane, of the first inclined plane, and interval feeding with adjustable intervals is achieved through the matching of the temporary storage assembly and the material blocking assembly;

and the pipe bodies to be processed on the temporary storage assembly are driven by the interval feeding assembly to feed.

Furthermore, the interval feeding assembly comprises an installation sleeve bin, a wedge-shaped supporting block, a bearing seat, a supporting arm and a preprocessing assembly, the installation sleeve bin is fixedly sleeved at the joint of the feeding section and the discharging section, the wedge-shaped supporting block is fixedly arranged at the upper part inside the installation sleeve bin, a through groove is formed in the wedge-shaped supporting block, the supporting arm vertically penetrates through the through groove, the top of the supporting arm is hinged with the bearing seat, the bearing seat is slidably arranged on the inclined surface of the wedge-shaped supporting block, and the bottom of the supporting arm is fixedly connected with the preprocessing assembly.

Furthermore, one end of the bearing seat is hinged to one end of the connecting rod, the other end of the connecting rod is hinged to the output end of the driving rod, and the driving rod is fixed to the top of the mounting sleeve bin.

Further, the inclination degree of the second inclined plane is greater than that of the first inclined plane.

Further, the temporary storage assembly comprises a first mounting groove seat, a first abutting claw and a first telescopic rod, the first mounting groove seat is fixedly embedded in the horizontal plane, and the notch of the first mounting groove seat is 0.5-2.5cm higher than the horizontal plane;

the abutting claw is arranged in the first mounting groove seat in a sliding mode, and the vertical sliding action of the abutting claw is driven by a first telescopic rod fixed to the bottom of the first mounting groove seat.

Furthermore, the material blocking assembly comprises a mounting groove seat II, a material blocking head, a telescopic rod II and a suction pipe, the mounting groove seat II is fixed at the bottom of the inclined surface I, a groove body used for collecting the scraps on the inclined surface I into the mounting groove seat II is formed in the position, opposite to the mounting groove seat II, on the inclined surface I, the suction pipe is embedded into the mounting groove seat II, and the suction pipe is communicated with the dust suction end of an external dust collection device;

the material blocking head capable of penetrating through the groove body is arranged in the second mounting seat in a sliding mode, and the sliding action of the material blocking head is driven by a second telescopic rod fixed to the bottom of the second mounting seat.

Further, the preliminary treatment subassembly includes mounting groove, thumb wheel, processing wheel and hold-in range, processing wheel and thumb wheel all rotate set up in the mounting groove, and adopt synchronizing wheel and hold-in range to carry out synchronous rotation between the two, the processing wheel is driven by the motor that sets up in the mounting groove outside.

Further, the circle center distance between the processing wheel and the shifting wheel is the same as the circle center distance between two groups of pipes to be processed, which are positioned on the temporary storage assembly and on one side of the material stopping assembly.

Further, the processing wheel comprises a shaft body, a fixed sleeve, roughening claws, an elastic sleeve and a brush, wherein the fixed sleeve is coaxially and fixedly sleeved at one end of the shaft body, and the roughening claws are uniformly distributed on the outer surface of the fixed sleeve;

the coaxial fixed cover of elastic sleeve is established at the middle part of axis body and is leaned on with the fixed sleeve counterbalance, just elastic sleeve's surface equipartition has the brush.

Furthermore, the processing wheel further comprises an annular bin, a plurality of driving levers and a plurality of third telescopic rods, the annular bin is coaxially and fixedly sleeved at the other end of the shaft body, the third telescopic rods which are uniformly arranged in a circumferential mode are embedded into the annular bin, the output end of each third telescopic rod extends out of the annular bin, and one driving lever is fixed at the output end of each third telescopic rod.

Compared with the prior art, the feeding device of the novel automatic machine tool has the following advantages:

1. according to the pipe body machining device, after the pipe body to be machined is stopped by the stopping assembly, the pipe body to be machined rolls to a horizontal plane through the inclined plane, and then the pipe body can enter the first mounting groove seat to be temporarily stored after passing through the notch of the first mounting groove seat, waiting for releasing, when the pipe body is released, the telescopic rod drives the abutting claw to move upwards in a propping mode, so that the pipe body to be machined on the pipe body to be machined is in contact with the shifting wheel, initial power for continuous movement is provided by the shifting wheel, then the pipe body to be machined is driven by the inclined plane, and therefore the continuity of movement is achieved, and through the matching of the temporary storing assembly and the stopping assembly, interval feeding with adjustable intervals can be achieved.

2. According to the pipe body pre-processing device, the material blocking action of the material blocking assembly can ensure that only one pipe body to be processed enters the temporary storage assembly each time, and the other hand is used for pre-processing of the pre-processing assembly.

3. According to the pipe body processing device, the circle center distance between the processing wheel and the shifting wheel is the same as the circle center distance between the two groups of pipe bodies to be processed, which are positioned on the temporary storage assembly and on one side of the material blocking assembly, so that after the processing wheel processes the pipe bodies to be processed, which are positioned on one side of the material blocking assembly, the shifting wheel is directly matched with the temporary storage assembly, the pipe bodies to be processed on the temporary storage assembly are released, the moving action of the pretreatment assembly is reduced, the working efficiency is improved, the energy utilization rate is increased, and the pipe body processing device is more prominent in batch operation.

Drawings

The accompanying drawings, which are incorporated in and constitute a part of this specification, illustrate an embodiment of the invention and, together with the description, serve to explain the invention and not to limit the invention. In the drawings:

fig. 1 is a schematic perspective view of a feeding device of a novel automatic machine tool according to an embodiment of the invention;

fig. 2 is a cross-sectional view of a feeding device of a novel automatic machine tool according to an embodiment of the invention;

FIG. 3 is an enlarged view of FIG. 2 at A;

fig. 4 is a schematic structural view of the processing wheel.

Description of reference numerals:

1. a feeding section; 2. an interval feeding component; 21. installing a sleeve bin; 22. a wedge-shaped support block; 23. a through groove; 24. a bearing seat; 25. a drive rod; 26. a support arm; 27. a pre-processing assembly; 271. mounting grooves; 272. a thumb wheel; 273. processing a wheel; 2731. a shaft body; 2732. fixing the sleeve; 2733. roughening claws; 2734. an elastic sleeve; 2735. a brush; 2736. an annular bin; 2737. a deflector rod; 2738. a third telescopic rod; 274. a synchronous belt; 3. a discharging section; 4. a discharging bin; 5. a first inclined plane; 6. a horizontal plane; 7. a second inclined plane; 8. a temporary storage component; 81. mounting a first groove seat; 82. an abutting claw; 83. a first telescopic rod; 9. the material blocking component; 91. mounting a groove seat II; 92. blocking a material head; 93. a second telescopic rod; 94. a suction pipe.

Detailed Description

It should be noted that the embodiments and features of the embodiments may be combined with each other without conflict.

The present invention will be described in detail below with reference to the embodiments with reference to the attached drawings.

As shown in fig. 1-4, a feeding device of a novel automatic machine tool comprises a feeding section 1, spaced feeding assemblies 2, a discharging section 3 and a discharging bin 4, wherein the spaced feeding assemblies 2 are arranged between the feeding section 1 and the discharging section 3, the discharging bin 4 is arranged at the end part of the discharging section 3, the bottom surface of the feeding section 1 is a first inclined surface 5, the bottom surface of the discharging section 3 is a second inclined surface 7, and a horizontal surface 6 located below the spaced feeding assemblies 2 is arranged between the first inclined surface and the second inclined surface 7;

a temporary storage assembly 8 is arranged on the horizontal plane 6, a material blocking assembly 9 is arranged at a position, close to the horizontal plane 6, of the inclined plane I5, and interval feeding with adjustable intervals is achieved through the matching of the temporary storage assembly 8 and the material blocking assembly 9;

and the pipe bodies to be processed on the temporary storage assembly 8 are driven by the interval feeding assembly 2 to feed materials.

The interval feeding assembly 2 comprises an installation sleeve bin 21, a wedge-shaped supporting block 22, a bearing seat 24, a supporting arm 26 and a preprocessing assembly 27, the installation sleeve bin 21 is fixedly sleeved at the joint of the feeding section 1 and the discharging section 3, the wedge-shaped supporting block 22 is fixed at the upper part inside the installation sleeve bin 21, a through groove 23 is formed in the wedge-shaped supporting block 22, the supporting arm 26 vertically penetrates through the through groove 23, the top of the supporting arm 26 is hinged with the bearing seat 24, the bearing seat 24 is arranged on the inclined surface of the wedge-shaped supporting block 22 in a sliding mode, and the bottom of the supporting arm 26 is fixedly connected with the preprocessing assembly 27; when the carrier block 24 slides rightward along the wedge-shaped support block, the entire preprocessing unit 27 is displaced rightward and downward, and when the carrier block 24 slides leftward along the wedge-shaped support block, the entire preprocessing unit 27 is displaced leftward and upward.

One end of the bearing seat 24 is hinged with one end of a connecting rod, the other end of the connecting rod is hinged with the output end of a driving rod 25, and the driving rod 25 is fixed at the top of the interior of the installation sleeve bin 21.

The inclination degree of the second inclined plane 7 is greater than that of the first inclined plane 5, the inclination degree of the first inclined plane 5 is smaller, the material blocking component 9 is convenient to block materials, and the inclination degree of the second inclined plane 7 is larger, so that the blanking is convenient.

The temporary storage assembly 8 comprises a first mounting groove seat 81, a leaning claw 82 and a first telescopic rod 83, the first mounting groove seat 81 is fixedly embedded in the horizontal plane 6, the notch of the first mounting groove seat 81 is 0.5-2.5cm higher than the horizontal plane, after the material blocking assembly 9 blocks the material, a pipe body to be processed rolls to the horizontal plane through the inclined plane, and after passing through the notch of the first mounting groove seat 81, the pipe body can enter the first mounting groove seat 81 for temporary storage and waiting for release;

the abutting claw 82 is arranged in the first mounting groove seat 81 in a sliding mode, and the up-and-down sliding motion of the abutting claw 82 is driven by a first telescopic rod 83 fixed at the bottom of the first mounting groove seat 81.

The material blocking assembly 9 comprises a mounting groove seat II 91, a material blocking head 92, a telescopic rod II 93 and a suction pipe 94, the mounting groove seat II 91 is fixed at the bottom of the inclined plane I5, a groove body used for collecting scraps on the inclined plane I5 into the mounting groove seat II 91 is formed in the position, opposite to the mounting groove seat II 91, on the inclined plane I5, the suction pipe 94 is embedded into the mounting groove seat II 91, and the suction pipe 94 is communicated with a dust suction end of an external dust collecting device;

the material blocking head 92 capable of penetrating through the groove body is arranged in the second mounting seat 91 in a sliding mode, the sliding action of the material blocking head 92 is driven by the second telescopic rod 93 fixed to the bottom of the second mounting seat 91, it needs to be noted that the material blocking action of the material blocking assembly can ensure that only one to-be-processed pipe body enters the temporary storage assembly 8 at each time, and the other hand is used for preprocessing the preprocessing assembly 27.

The pretreatment assembly 27 comprises a mounting groove 271, a dial wheel 272, a processing wheel 273 and a synchronous belt 274, wherein the processing wheel 273 and the dial wheel 272 are both rotatably arranged in the mounting groove 271, the synchronous wheel and the synchronous belt 274 are adopted between the processing wheel 273 and the dial wheel 272 for synchronous rotation, and the processing wheel 273 is driven by a motor arranged outside the mounting groove 271.

The circle center distance between the processing wheel 273 and the dial wheel 272 is the same as the circle center distance between two groups of tubes to be processed on the temporary storage assembly 8 and on one side of the material stop assembly 9. Thereby make, after the processing wheel 273 processes the body to treating that is located keeping off material subassembly one side, thumb wheel 272 cooperatees with the subassembly 8 of keeping in, can realize letting pass the body of treating processing on the subassembly 8 of keeping in, the removal action of preliminary treatment subassembly 27 has been reduced, in addition, when letting pass, drive by a telescopic link 83 and lean on claw 82 rebound, make the body of treating processing on it contact with thumb wheel 272, provide the initial power that continues the removal by the drive of thumb wheel 272, its removal is driven by two 7 on inclined planes afterwards.

The processing wheel 273 comprises a shaft body 2731, a fixed sleeve 2732, roughening claws 2733, an elastic sleeve 2734 and a brush 2735, wherein the fixed sleeve 2732 is coaxially and fixedly arranged at one end of the shaft body 2731, and the roughening claws 2733 are uniformly distributed on the outer surface of the fixed sleeve 2732;

elastic sleeve 2734 coaxial fixed cover is established at axis body 2731 middle part and is leaned on with fixed sleeve 2732 counterbalance, just elastic sleeve 2734's surface equipartition has brush 2735, and the claw 2733 that roughens realizes the roughening treatment to treating the processing body tip, the centre gripping of the follow-up automatic lathe of being convenient for, and the clearance of treating the processing body then can be realized to the brush.

Processing wheel 273 still includes annular storehouse 2736, a plurality of driving lever 2737 and three 2738 of a plurality of telescopic links, the coaxial fixed cover in annular storehouse 2736 is established at the other end of axis body 2731 the embedding has a plurality of three 2738 of telescopic links that are circumference align to grid in the annular storehouse 2736, every three 2738's of telescopic link output all stretches out annular storehouse, and all be fixed with a driving lever 2737 at three 2738's of every telescopic link output, can drive the body of treating that is located and keeps off material subassembly 9 one side through driving lever 2737 and rotate, be convenient for defeat claw and brush and handle it comprehensively.

The application discloses during novel automatic feeding of lathe device's use: the pipe to be processed stacked on the first inclined plane 5 is stopped by the stopping assembly 9, the stopping action of the stopping assembly 9 can ensure that only one pipe to be processed enters the temporary storage assembly 8 each time, and the other hand is used for the pretreatment of the pretreatment assembly 27, wherein after the pipe to be processed positioned on one side of the stopping assembly 9 is processed by the processing wheel 273, the shifting wheel 272 is firstly matched with the temporary storage assembly 8 to realize the release of the pipe to be processed on the temporary storage assembly 8, and then the stopping head 92 is driven to move downwards to ensure that one pipe to be processed enters the temporary storage assembly 8, when the pipe to be processed positioned on one side of the stopping assembly 9 is pretreated, the roughening treatment on the end part of the pipe to be processed is realized by the roughening claw 2733, so that the subsequent automatic machine tool can be clamped, the cleaning of the pipe to be processed can be realized by the brush, and the pipe to be processed positioned on one side of the stopping assembly 9 can be driven to rotate by the shifting rod 2737, be convenient for claw and brush of beating hair handle its comprehensively, it slides right along the wedge supporting shoe to drive through actuating lever 25 and bear seat 24, whole displacement right thereupon and displacement down of preliminary treatment subassembly 27, realize keeping off the clearance of material subassembly 9 department treating the processing body and treating the clearance of processing the body and keeping in subassembly 8 department and treating the clearance of processing the body, when sliding left along the wedge supporting shoe through actuating lever 25 drive and bear seat 24, whole displacement left thereupon and upwards displacement of preliminary treatment subassembly 27, the realization will keep off waiting of material subassembly 9 department to process the body and stir to keeping in subassembly 8 department.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the invention, and any modifications, equivalents, improvements and the like that fall within the spirit and principle of the present invention are intended to be included therein.

Claims

1. The utility model provides a novel automatic feeding of lathe device which characterized in that: the material feeding device comprises a feeding section (1), an interval feeding component (2), a discharging section (3) and a discharging bin (4), wherein the interval feeding component (2) is arranged between the feeding section (1) and the discharging section (3), the discharging bin (4) is arranged at the end part of the discharging section (3), the bottom surface of the feeding section (1) is a first inclined surface (5), the bottom surface of the discharging section (3) is a second inclined surface (7), and a horizontal plane (6) located below the interval feeding component (2) is arranged between the first inclined surface and the second inclined surface (7);

a temporary storage assembly (8) is arranged on the horizontal plane (6), a material blocking assembly (9) is arranged at a position, close to the horizontal plane (6), of the inclined plane I (5), and interval feeding with adjustable intervals is achieved through the cooperation of the temporary storage assembly (8) and the material blocking assembly (9);

the pipe bodies to be processed on the temporary storage component (8) are driven by the interval feeding component (2) to feed materials;

the interval feeding assembly (2) comprises an installation sleeve bin (21), a wedge-shaped supporting block (22), a bearing seat (24), a supporting arm (26) and a pretreatment assembly (27), the installation sleeve bin (21) is fixedly sleeved at the joint of the feeding section (1) and the discharging section (3), the wedge-shaped supporting block (22) is fixed at the upper part inside the installation sleeve bin (21), a through groove (23) is formed in the wedge-shaped supporting block (22), the supporting arm (26) vertically penetrates through the through groove (23), the top of the supporting arm (26) is hinged with the bearing seat (24), the bearing seat (24) is arranged on the inclined plane of the wedge-shaped supporting block (22) in a sliding mode, and the bottom of the supporting arm (26) is fixedly connected with the pretreatment assembly (27);

the temporary storage assembly (8) comprises a first mounting groove seat (81), a first abutting claw (82) and a first telescopic rod (83), the first mounting groove seat (81) is fixedly embedded in the horizontal plane (6), and the notch of the first mounting groove seat (81) is 0.5-2.5cm higher than the horizontal plane;

the abutting claw (82) is arranged in the first mounting groove seat (81) in a sliding mode, and the vertical sliding motion of the abutting claw (82) is driven by a first telescopic rod (83) fixed at the bottom of the first mounting groove seat (81);

the material blocking assembly (9) comprises a mounting groove seat II (91), a material blocking head (92), a telescopic rod II (93) and a suction pipe (94), the mounting groove seat II (91) is fixed at the bottom of the inclined plane I (5), a groove body used for collecting scraps on the inclined plane I (5) into the mounting groove seat II (91) is formed in the position, opposite to the mounting groove seat II (91), on the inclined plane I (5), the suction pipe (94) is embedded into the mounting groove seat II (91), and the suction pipe (94) is communicated with a dust suction end of an external dust collecting device;

a material blocking head (92) capable of penetrating through the groove body is arranged in the second mounting groove seat (91) in a sliding mode, and the sliding action of the material blocking head (92) is driven by a second telescopic rod (93) fixed at the bottom of the second mounting groove seat (91);

one end of the bearing seat (24) is hinged with one end of a connecting rod, the other end of the connecting rod is hinged with the output end of a driving rod (25), and the driving rod (25) is fixed at the top of the interior of the mounting sleeve bin (21);

the pretreatment assembly (27) comprises a mounting groove (271), a dial wheel (272), a processing wheel (273) and a synchronous belt (274), the processing wheel (273) and the dial wheel (272) are rotatably arranged in the mounting groove (271), the synchronous wheel and the synchronous belt (274) are adopted between the processing wheel (273) and the dial wheel (272) to synchronously rotate, and the processing wheel (273) is driven by a motor arranged outside the mounting groove (271);

the circle center distance between the processing wheel (273) and the shifting wheel (272) is the same as the circle center distance between two groups of to-be-processed pipe bodies on the temporary storage assembly (8) and on one side of the material stopping assembly (9);

the processing wheel (273) comprises a shaft body (2731), a fixed sleeve (2732), roughening claws (2733), an elastic sleeve (2734) and a brush (2735), wherein the fixed sleeve (2732) is coaxially and fixedly sleeved at one end of the shaft body (2731), and the roughening claws (2733) are uniformly distributed on the outer surface of the fixed sleeve (2732);

the elastic sleeve (2734) is coaxially and fixedly sleeved in the middle of the shaft body (2731) and abuts against the fixed sleeve (2732), and brushes (2735) are uniformly distributed on the outer surface of the elastic sleeve (2734);

the processing wheel (273) still includes annular storehouse (2736), a plurality of driving lever (2737) and a plurality of three (2738) telescopic links, the coaxial fixed cover in annular storehouse (2736) is established at the other end of axis body (2731) three (2738) telescopic links that are circumference align to grid are embedded in annular storehouse (2736), every the output of three (2738) telescopic links all stretches out annular storehouse, and all is fixed with a driving lever (2737) at the output of three (2738) telescopic links.

2. The feeding device of the novel automatic machine tool according to claim 1, characterized in that: the inclination degree of the second inclined plane (7) is greater than that of the first inclined plane (5).