CN215469454U - Tooth case oiling kludge - Google Patents

Abstract

The utility model discloses a tooth box oiling and assembling machine, which relates to the technical field of household appliance industry and comprises the following components: the outer frame comprises an aluminum profile outer frame and a chassis group, the chassis group consists of a chassis, a large plate and a main control cabinet, the big plate is provided with an eight-station divider turntable mechanism, a first station feeding group mechanism, a second station oil-pumping mechanism, a third station pinion assembling group mechanism, a third station gearwheel feeding conveying belt mechanism, a third station pinion guiding assembling group mechanism, a fourth station oil-pumping mechanism, a fifth station middle gear assembling group mechanism, a fifth station middle gear feeding conveying belt mechanism and a sixth station oil-pumping mechanism, the manual oiling is uneven through cooperation among all stations, the use amount is not standard, the problem of dirty oiling is solved, the standardized operation of assembled products is guaranteed, and the quality is improved stably.

Description

Tooth case oiling kludge

Technical Field

The utility model relates to the technical field of household appliance industry, in particular to a tooth box oil injection assembling machine.

Background

Tooth case accessory plays important structure motion effect in the fan, and it can make the fan sway from side to side and fixed certain horizontal angle, and tooth case equipment generally includes frame, drive mechanism, feeding mechanism and feeding mechanism, and the current tooth case equipment is manual assembly line operation, and gear lubrication is inhomogeneous for the control of manual applying foam, oil, and the quantity is nonstandard, extravagant oil mass, assembles nonstandard, the on-the-spot dirty and disorderly problem of station.

SUMMERY OF THE UTILITY MODEL

The utility model provides a tooth box oil injection assembling machine, which solves the technical problems that the existing tooth box assembly is manual assembly line operation, gear lubrication is not uniform in manual foam and oil application control, the using amount is not standard, the oil quantity is wasted, the assembly is not standard, and the station site is dirty and disorderly.

In order to solve the technical problem, the utility model provides a tooth box oiling and assembling machine, which comprises:

the outer frame comprises an aluminum profile outer frame and a chassis group, the chassis group consists of a chassis, a large plate and a main control cabinet, and an eight-station divider turntable mechanism, a first station feeding group mechanism, a second station oil-spraying mechanism, a third station pinion assembling group mechanism, a third station bull gear feeding and conveying mechanism, a third station pinion guiding and assembling group mechanism, a fourth station oil-spraying mechanism, a fifth station middle gear assembling group mechanism, a fifth station middle gear feeding and conveying mechanism, a sixth station oil-spraying mechanism, a seventh station upper cover assembling group mechanism, a seventh station upper cover conveying mechanism, an eighth station discharging group mechanism and an eighth station discharging and conveying mechanism are arranged on the large plate.

Preferably, the eight-station divider turntable mechanism comprises a product positioning clamp, a turntable and a divider, the turntable is rotatably connected with the large plate, the positioning clamp is arranged at the top of the turntable, and the divider is arranged at the bottom of the turntable and plays a role in station rotation.

Preferably, the second station oil pumping mechanism consists of a movable cylinder A, three groups of oil pumping needle valves A and a support A, and the support A is fixedly connected with the large plate and plays a role in moving oil pumping.

Preferably, the third station pinion assembling mechanism consists of a servo motor module A, a lifting cylinder A, a clamping cylinder A and a support B, and the support B is fixedly connected with the large plate and plays a role in pinion assembling;

the third station pinion feeding and conveying belt mechanism consists of a servo motor A, a clamp synchronous belt A and a support C, and the support C is fixedly connected with a large plate and plays a role in positioning and conveying the pinion;

the third station large gear assembling group mechanism consists of a servo motor module B, a lifting cylinder B, a clamping cylinder B and a support D, and the support D is fixedly connected with a large plate and plays a role in large gear assembling;

the third station large gear feeding and conveying belt mechanism consists of a servo motor B, a clamp synchronous belt B and a support E, and the support E is fixedly connected with a large plate and plays a role in positioning and conveying large gears;

and the third station pinion guide assembly mechanism consists of a telescopic cylinder A, a guide cylinder clamp A and a support F, wherein the support F is fixedly connected with the large plate and plays a role in pinion guide assembly.

Preferably, the fourth station oil pumping mechanism is composed of a moving cylinder B, two groups of oil pumping needle valves B, a lifting cylinder C, a rotor wheel power motor A, a large gear power motor and a support G, wherein the support G is fixedly connected with a large plate and plays roles of moving oil pumping, large gear rotating oil pumping and small gear rotating oil pumping.

Preferably, the fifth station middle gear assembly mechanism consists of a servo motor module C, a lifting cylinder D, a clamping cylinder C, a telescopic cylinder B, a pilot cylinder clamp B and a support H, and the support H is fixedly connected with a large plate and plays a role in pilot assembly of a middle gear;

and the gear feeding and conveying belt mechanism in the fifth station consists of a servo motor C, a clamp synchronous belt C and a support I, and the support I is fixedly connected with a large plate and plays a role in positioning and conveying the middle teeth.

Preferably, the sixth station oil pumping mechanism consists of a moving cylinder C, a group of oil pumping needle valves C, a lifting cylinder E, a rotor wheel power motor B, a middle gear power motor and a support J, wherein the support J is fixedly connected with the large plate and plays roles in moving oil pumping and rotating and oiling of the middle gear.

Preferably, the seventh station upper cover assembling mechanism consists of a servo motor module D, a lifting cylinder F, a clamping cylinder D and a support K, is fixedly connected with the large plate and plays a role in upper cover assembling;

the seventh station upper cover conveyer belt mechanism consists of a servo motor D, a clamp synchronous belt D and a mounting seat, and plays an assembling role;

the eighth station blanking group mechanism consists of a servo motor module E, a lifting cylinder G, a material clamping cylinder E and a fixed seat, and plays a role in blanking finished products;

and the eighth station blanking conveying belt mechanism consists of a conveying motor, a blanking conveying belt and an anti-twisting deflector rod cylinder and plays a role in finished product blanking conveying.

Compared with the prior art, the tooth box oiling and assembling machine provided by the utility model has the following beneficial effects:

according to the utility model, through the cooperation among stations, the problems of uneven manual oil coating and nonstandard use amount are solved, the problem of messy oil coating is solved, the standardized operation of assembled products is ensured, and the quality stability is improved.

Drawings

FIG. 1 is a schematic structural view of a tooth box oiling and assembling machine;

FIG. 2 is a schematic structural view of a chassis set in the gearbox oiling and assembling machine;

FIG. 3 is a schematic structural diagram of a station in the tooth box oiling and assembling machine;

FIG. 4 is a schematic structural diagram of an eight-station divider turntable in the gearbox oiling and assembling machine;

FIG. 5 is a schematic view of a second station oil-dispensing unit of the tooth box oil-dispensing assembly machine;

FIG. 6 is a schematic view of a third station pinion assembly set in the gearbox oiling assembly machine;

FIG. 7 is a schematic structural view of a third station gearwheel assembly group in the gearbox oil injection assembly machine;

FIG. 8 is a schematic view of a pinion feeding conveyor belt of a third station in the tooth box oiling and assembling machine;

FIG. 9 is a schematic structural view of a large gear feeding conveyor belt at a third station in the gear box oiling and assembling machine;

FIG. 10 is a schematic view of a third station pinion pilot assembly set in the gearbox oiling assembly machine;

FIG. 11 is a schematic view of a fourth station oil-filling unit of the tooth box oil-filling assembly machine;

FIG. 12 is a schematic view of a gear assembly set in a fifth station of the gear box oiling and assembling machine;

FIG. 13 is a schematic view of a gear feeding conveyor belt in five stations of the gearbox oiling and assembling machine;

FIG. 14 is a schematic view of a sixth station oil-dispensing unit of the tooth box oil-dispensing assembly machine;

FIG. 15 is a schematic structural view of a seventh station upper cover assembling group in the tooth box oil injecting and assembling machine;

FIG. 16 is a schematic view of the structure of the upper cover conveyer belt at the seventh station of the tooth box oiling and assembling machine;

FIG. 17 is a schematic structural view of an eighth station blanking group in the tooth box oiling and assembling machine;

fig. 18 is a schematic structural diagram of an eighth station blanking conveying belt in the tooth box oiling and assembling machine.

Reference numbers in the figures: 1. a chassis; 2. a large plate; 3. a main control cabinet; 4. an eight-station divider turntable mechanism; 5. a first station feeding group mechanism; 6. a second station oil-spreading mechanism; 7. a third station pinion assembling group mechanism; 8. a third station large gear assembling group mechanism; 9. a third station large gear feeding and conveying belt mechanism; 10. a third station pinion feeding conveyer belt mechanism; 11. a third station pinion guide assembly mechanism; 12. a fourth station oil-spreading mechanism; 13. a gear assembling group mechanism in a fifth station; 14. a gear feeding and conveying belt mechanism in a fifth station; 15. a sixth station oil-spreading mechanism; 16. a seventh station upper cover assembling mechanism; 17. a seventh station is provided with a conveyor belt mechanism; 18. an eighth station blanking group mechanism; 19. an eighth station blanking conveying belt mechanism; 20. positioning a fixture for a product; 21. a turntable; 22. a divider; 23. a moving cylinder A; 24. an oil pumping needle valve A; 25. a support A; 26. a lifting cylinder A; 27. a material clamping cylinder A; 28. a support B; 29. a servo motor module A; 30. a servo motor A; 31. a clamp synchronous belt A; 32. a support C; 33. a servo motor module B; 34. a lifting cylinder B; 35. a material clamping cylinder B; 36. a support D; 37. a servo motor B; 38. a clamp synchronous belt B; 39. a support E; 40. a telescopic cylinder A; 41. a guide cylinder clamp A; 42. a support F; 43. a moving cylinder B; 44. an oil pumping needle valve B; 45. a lifting cylinder C; 46. a rotor wheel power motor A; 47. a bull gear power motor; 48. a support G; 49. a servo motor module C; 50. a lifting cylinder D; 51. a material clamping cylinder C; 52. a telescopic cylinder B; 53. a guide cylinder clamp B; 54. a support H; 55. a servo motor C; 56. a clamp synchronous belt C; 57. a support I; 58. a moving cylinder C; 59. an oiling needle valve C; 60. a lifting cylinder E; 61. a rotor wheel power motor B; 62. a medium gear power motor; 63. a support J; 64. a servo motor module D; 65. a lifting cylinder F; 66. a material clamping cylinder D; 67. a support K; 68. a servo motor D; 69. a clamp synchronous belt D; 70. a mounting seat; 71. a servo motor module E; 72. a lifting cylinder G; 73. a material clamping cylinder E; 74. a fixed seat; 75. a conveying motor; 76. blanking a conveying belt; 77. and the anti-twisting deflector rod cylinder.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments; all other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

First embodiment, as shown in fig. 1-18, a dental kit filling assembly machine includes:

the outer frame comprises an aluminum profile outer frame and a chassis group, the chassis group consists of a chassis 1, a large plate 2 and a main control cabinet 3, an eight-station divider turntable mechanism 4, a first station feeding group mechanism 5, a second station oil-spraying mechanism 6, a third station pinion assembling group mechanism 7, a third station bull gear assembling group mechanism 8, a third station bull gear feeding and conveying belt mechanism 9, a third station pinion feeding and conveying belt mechanism 10, a third station pinion guiding and assembling group mechanism 11, a fourth station oil-spraying mechanism 12, a fifth station middle gear assembling group mechanism 13, a fifth station middle gear feeding and conveying belt mechanism 14, a sixth station oil-spraying mechanism 15, a seventh station upper cover assembling group mechanism 16, a seventh station upper cover conveying belt mechanism 17, an eighth station discharging group mechanism 18 and an eighth station discharging and conveying belt mechanism 19 are arranged on the large plate 2, the aluminum profile outer frame is composed of an aluminum profile, a three-color lamp, a lamp box, a touch screen, a safety grating and a transparent door window.

In the second embodiment, on the basis of the first embodiment, the eight-station divider rotary table mechanism 4 is composed of a product positioning clamp 20, a rotary table 21 and a divider 22, the rotary table 21 is rotatably connected with the large plate 2, the positioning clamp 20 is arranged at the top of the rotary table 21, and the divider 22 is arranged at the bottom of the rotary table 21 and plays a role in station rotation.

In the third embodiment, on the basis of the first embodiment, the second station oil pumping mechanism 6 is composed of a moving cylinder a23, three groups of oil pumping needle valves a24 and a support a25, and the support a25 is fixedly connected with the large plate 2 and plays a role in moving oil pumping.

Fourth embodiment, on the basis of the first embodiment, the third station pinion assembling mechanism 7 is composed of a servo motor module A29, a lifting cylinder A26, a material clamping cylinder A27 and a support B28, wherein the support B28 is fixedly connected with the large plate 2 and plays a role in pinion assembling;

the third station pinion feeding and conveying belt mechanism 10 consists of a servo motor A30, a clamp synchronous belt A31 and a support C32, wherein the support C32 is fixedly connected with the large plate 2 and plays a role in positioning and conveying the small teeth;

the third station large gear assembling group mechanism 8 consists of a servo motor module B33, a lifting cylinder B34, a clamping cylinder B35 and a support D36, and the support D36 is fixedly connected with the large plate 2 to play a large gear assembling role;

the third station large gear feeding and conveying belt mechanism 9 consists of a servo motor B37, a clamp synchronous belt B38 and a support E39, and the support E39 is fixedly connected with the large plate 2 to play a role in positioning and conveying large teeth;

the third station pinion guide assembly mechanism 11 consists of a telescopic cylinder A40, a guide cylinder clamp A41 and a support F42, wherein the support F42 is fixedly connected with the large plate 2 and plays a role in pinion guide assembly.

Fifth embodiment, on the basis of the first embodiment, the fourth station oil pumping mechanism 12 is composed of a moving cylinder B43, two sets of oil pumping needle valves B44, a lifting cylinder C45, a rotor wheel power motor a46, a large gear power motor 47 and a support G48, wherein the support G48 is fixedly connected with the large plate 2, and plays roles of moving oil pumping, large gear rotating oil pumping, and small gear rotating oil pumping.

Sixth embodiment, on the basis of the first embodiment, the gear assembling group mechanism 13 in the fifth station is composed of a servo motor module C49, a lifting cylinder D50, a material clamping cylinder C51, a telescopic cylinder B52, a guide cylinder clamp B53 and a support H54, and the support H54 is fixedly connected with the large plate 2 to play a role in guiding and assembling the middle gear;

the gear feeding and conveying belt mechanism 14 in the fifth station consists of a servo motor C55, a clamp synchronous belt C56 and a support I57, and the support I57 is fixedly connected with the large plate 2 and plays a role in positioning and conveying the middle teeth.

Seventh embodiment, on the basis of the first embodiment, the sixth station oil pumping mechanism 15 is composed of a moving cylinder C58, a group of oil pumping needle valves C59, a lifting cylinder E60, a rotor wheel power motor B61, a middle gear power motor 62 and a support J63, wherein the support J63 is fixedly connected with the large plate 2 to perform functions of moving oil pumping and rotating and oiling of the middle gear.

Eighth embodiment, on the basis of the first embodiment, the seventh station upper cover assembling mechanism 16 is composed of a servo motor module D64, a lifting cylinder F65, a clamping cylinder D66 and a support K67, is fixedly connected with the large plate 2, and plays a role in upper cover assembling;

the seventh station upper cover conveying belt mechanism 17 consists of a servo motor D68, a clamp synchronous belt D69 and a mounting seat 70, and plays an assembling role;

the eighth station blanking group mechanism 18 consists of a servo motor module E71, a lifting cylinder G72, a material clamping cylinder E73 and a fixed seat 74, and plays a role in blanking finished products;

the eighth station blanking conveyer belt mechanism 19 is composed of a conveyer motor 75, a blanking conveyer belt 76 and an anti-twisting deflector rod cylinder 77, and plays a role in finished product blanking conveying.

The working principle is as follows:

oil injection assembly implementation steps:

an eight-station divider turntable mechanism 4, a first station feeding group mechanism 5, a second station oiling group mechanism 6, a third station pinion assembling group mechanism 7, a third station gearwheel assembling group mechanism 8, a third station gearwheel feeding conveying belt mechanism 9, a third station pinion feeding conveying belt mechanism 10, a third station pinion guiding assembling group mechanism 11, a fourth station oiling group mechanism 12, a fifth station gearwheel assembling group mechanism 13, a fifth station gearwheel feeding conveying belt mechanism 14, a sixth station oiling group mechanism 15, a seventh station upper cover assembling group mechanism 16, a seventh station upper cover conveying belt mechanism 17, an eighth station discharging group mechanism 18 and an eighth station discharging conveying belt mechanism 19 are arranged on a chassis group large plate 2, and are combined with an aluminum profile outer frame into a piece of equipment, so that automatic assembly oiling operation is realized through programming control, realize artifical material loading, automatic equipment, automatic skidding.

It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

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

Claims (8)

1. Tooth case oiling kludge, its characterized in that includes:

the outer frame comprises an aluminum profile outer frame and a chassis group, the chassis group comprises a chassis (1), a large plate (2) and a main control cabinet (3), an eight-station divider turntable mechanism (4), a first station feeding group mechanism (5), a second station oil-beating mechanism (6), a third station pinion assembling group mechanism (7), a third station bull gear assembling group mechanism (8), a third station bull gear feeding conveying belt mechanism (9), a third station pinion feeding conveying belt mechanism (10), a third station pinion guide assembling group mechanism (11), a fourth station oil-beating mechanism (12), a fifth station middle gear assembling group mechanism (13), a fifth station middle gear feeding conveying belt mechanism (14), a sixth station oil-beating mechanism (15), a seventh station upper cover assembling group mechanism (16), A seventh station upper cover conveyer belt mechanism (17), an eighth station blanking group mechanism (18) and an eighth station blanking conveyer belt mechanism (19).

2. The tooth box oil injecting and assembling machine according to claim 1, characterized in that the eight-station divider turntable mechanism (4) is composed of a product positioning clamp (20), a turntable (21) and a divider (22), the turntable (21) is rotatably connected with the large plate (2), the positioning clamp (20) is arranged at the top of the turntable (21), and the divider (22) is arranged at the bottom of the turntable (21).

3. The tooth box oil injecting and assembling machine according to claim 1, wherein the second station oil injecting mechanism (6) is composed of a moving cylinder A (23), three groups of oil injecting needle valves A (24) and a support A (25), and the support A (25) is fixedly connected with the large plate (2).

4. The tooth box oil injecting and assembling machine according to claim 1, wherein the third station pinion assembling mechanism (7) is composed of a servo motor module A (29), a lifting cylinder A (26), a material clamping cylinder A (27) and a support B (28), and the support B (28) is fixedly connected with the large plate (2);

the third station pinion feeding and conveying belt mechanism (10) is composed of a servo motor A (30), a clamp synchronous belt A (31) and a support C (32), and the support C (32) is fixedly connected with the large plate (2);

the third station large gear assembling group mechanism (8) consists of a servo motor module B (33), a lifting cylinder B (34), a clamping cylinder B (35) and a support D (36), and the support D (36) is fixedly connected with the large plate (2);

the third station large gear feeding and conveying belt mechanism (9) consists of a servo motor B (37), a clamp synchronous belt B (38) and a support E (39), and the support E (39) is fixedly connected with the large plate (2);

and the third station pinion guide assembly mechanism (11) consists of a telescopic cylinder A (40), a guide cylinder clamp A (41) and a support F (42), and the support F (42) is fixedly connected with the large plate (2).

5. The tooth box oil injecting and assembling machine according to claim 1, wherein the fourth station oil injecting mechanism (12) is composed of a moving cylinder B (43), two groups of oil injecting needle valves B (44), a lifting cylinder C (45), a rotor wheel power motor A (46), a large gear power motor (47) and a support G (48), and the support G (48) is fixedly connected with the large plate (2).

6. The tooth box oil injecting and assembling machine according to claim 1, wherein the gear assembling mechanism (13) in the fifth station is composed of a servo motor module C (49), a lifting cylinder D (50), a material clamping cylinder C (51), a telescopic cylinder B (52), a guide cylinder clamp B (53) and a support H (54), and the support H (54) is fixedly connected with the large plate (2);

and the gear feeding and conveying belt mechanism (14) in the fifth station consists of a servo motor C (55), a clamp synchronous belt C (56) and a support I (57), and the support I (57) is fixedly connected with the large plate (2).

7. The tooth box oil injecting and assembling machine according to claim 1, wherein the sixth station oil injecting mechanism (15) is composed of a moving cylinder C (58), a group of oil injecting needle valves C (59), a lifting cylinder E (60), a rotor wheel power motor B (61), a middle gear power motor (62) and a support J (63), and the support J (63) is fixedly connected with the large plate (2).

8. The tooth box oil injecting and assembling machine according to claim 1, wherein the seventh station upper cover assembling mechanism (16) is composed of a servo motor module D (64), a lifting cylinder F (65), a material clamping cylinder D (66) and a support K (67), and is fixedly connected with the large plate (2);

the seventh station upper cover conveying belt mechanism (17) consists of a servo motor D (68), a clamp synchronous belt D (69) and a mounting seat (70);

the eighth station blanking group mechanism (18) consists of a servo motor module E (71), a lifting cylinder G (72), a clamping cylinder E (73) and a fixed seat (74);

and the eighth station blanking conveying belt mechanism (19) consists of a conveying motor (75), a blanking conveying belt (76) and an anti-twisting deflector rod cylinder (77).

Images