CN116277861A

CN116277861A - Intelligent adjustment batch head structure

Info

Publication number: CN116277861A
Application number: CN202310037313.3A
Authority: CN
Inventors: 杨友林
Original assignee: Guangdong Henghuilong Machinery Co ltd
Current assignee: Guangdong Henghuilong Machinery Co ltd
Priority date: 2023-01-08
Filing date: 2023-01-08
Publication date: 2023-06-23

Abstract

The invention discloses an intelligent adjusting head-batching structure which comprises a movable mounting plate, wherein a pushing mechanism is arranged on one side of the front surface of the movable mounting plate, the pushing mechanism comprises two guide rail mounting plates and a motor mounting seat which are symmetrically arranged on the movable mounting plate, a screw rod bearing seat is arranged on the side edge of the motor mounting seat, a bearing cover is arranged on the screw rod bearing seat, a second servo motor is arranged on the motor mounting seat, the bottom output end of the second servo motor is connected with a ball screw through a reed type coupler, and a fine tooth round nut, a second angular contact ball bearing, a second inner spacer, a first inner spacer and a first angular contact ball bearing are arranged on the ball screw. The beneficial effects are that: through the design of this device to can drive outer hexagonal spanner sleeve can with bolt assorted, can drive the bolt rotation and go deep, and then adjust the degree of depth of inserting of spiral, and then replaced the mode of purely manual adjusting bolt, and then reduced intensity of labour, and promoted work efficiency.

Description

Intelligent adjustment batch head structure

Technical Field

The invention relates to the technical field of automation equipment, in particular to an intelligent adjustment batch head structure.

Background

In the plastic film production process, the thickness of a film product is mainly controlled by controlling the gap of a die head in a plastic film forming machine, and a plurality of bolts are arranged at intervals along the extending direction of the gap, so that the size of the gap at the corresponding position is adjusted by adjusting the bolts at the corresponding position, and the thickness of different positions of the film product is adjusted.

At present, the size of the gap is mainly adjusted by adjusting the screwing depth of the bolt in a purely manual mode, wherein an operator can observe the thickness of different positions of a product from a display screen of the thickness gauge or feel the thickness of different positions of the product by touching the product, so that the operator can adjust the size of the gap corresponding to the position according to the thickness of the different positions of the product, but the method has high requirement on experience of the operator, and has high labor intensity and low working efficiency.

For the problems in the related art, no effective solution has been proposed at present.

Disclosure of Invention

Aiming at the problems in the related art, the invention provides an intelligent adjustment batch head structure to overcome the technical problems in the prior art.

For this purpose, the invention adopts the following specific technical scheme:

the utility model provides an intelligent regulation is criticized first structure, includes the movable mounting panel, positive one side of movable mounting panel is equipped with pushing mechanism, pushing mechanism includes two symmetries and sets up guide rail mounting panel and motor mount pad on the movable mounting panel, motor mount pad side is equipped with the lead screw bearing frame, be equipped with the bearing cap on the lead screw bearing frame, install servo motor second on the motor mount pad, servo motor second's bottom output passes through reed formula shaft coupling and ball screw connection, be equipped with thin tooth round nut, angular contact ball bearing second, interior spacer first, angular contact ball bearing first on the ball screw, reed formula shaft coupling thin tooth round nut angular contact ball bearing second interior spacer first and all overlaps to be established on the lead screw bearing frame, ball screw goes up the cover and is equipped with the lead screw nut, ball screw's bottom is equipped with nut seat and retaining ring, the ball screw is located two between the guide rail mounting panel, be equipped with the linear slide rail on the guide rail, be equipped with on the linear slide rail, two on the linear slide rail have the fixed plate, two on the fixed surface has the movable mounting panel, the movable mounting panel has the floating plate.

Preferably, the rotating mechanism comprises a planetary reducer arranged on the floating plate, the top of the planetary reducer is connected with a first servo motor, the bottom output end of the planetary reducer is connected with a floating head through a connecting sleeve, and the bottom of the floating head is connected with an outer hexagonal wrench socket.

Preferably, the horizontal moving mechanism comprises a servo motor III arranged on the moving mounting plate, the servo motor III is connected with the moving mounting plate through the mounting plate, a motor casing is arranged on the servo motor III, an output end of the servo motor III penetrates through to the other side of the moving mounting plate to be connected with a coupling, the other end of the coupling is connected with a transmission gear, and a guide rail connecting seat and a limiting plate are arranged on the rear side of the moving mounting plate.

Preferably, the outer surface of the servo motor III is connected with a plurality of fixing seats through a first connecting bolt, a second connecting bolt and a third connecting bolt, and the first connecting bolt, the second connecting bolt and the third connecting bolt are respectively provided with a first gasket, a second gasket, a third gasket, an elastic gasket, a second elastic gasket and a third elastic gasket.

Preferably, a guide rail limiting plate is arranged at the top of the guide rail mounting plate, and a sealing gasket is arranged between the motor casing and the servo motor III.

Preferably, the movable mounting plate is provided with a limit column and an induction block which are matched with the screw rod nut, and the side edge of the guide rail mounting plate is provided with a proximity switch.

The beneficial effects of the invention are as follows:

through the design of the pushing mechanism, the second servo motor drives the ball screw to rotate, the ball screw drives the screw nut to vertically move while rotating, and then the floating plate is driven by the screw nut to move, and the floating plate drives the rotating mechanism to synchronously descend, so that the outer hexagonal wrench socket can be matched with the bolt;

through the design of the rotating mechanism, after the pushing mechanism pushes the outer hexagonal wrench socket to be connected with the bolt, the first servo motor and the planetary reducer drive the connecting sleeve to rotate, and the connecting sleeve drives the floating head and the outer hexagonal wrench socket to rotate, so that the bolt is driven to rotate, the insertion depth of the bolt is adjusted, the size of a gap at the corresponding position of the bolt is adjusted, a mode of purely manual bolt adjustment is replaced, the labor intensity is reduced, and the working efficiency is improved;

through horizontal movement mechanism's design to can place this device on horizontal rack, through the meshing of horizontal rack and drive gear, guide rail connecting seat and guide rail sliding connection, thereby when servo motor three drive gear, guide rail connecting seat and guide rail slip improve the stability of device, and then drive the device through drive gear walking on horizontal rack and carry out the displacement of settlement within range.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings that are needed in the embodiments will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

FIG. 1 is a schematic diagram of an assembled structure of an intelligent adjustment batch head structure according to an embodiment of the present invention;

FIG. 2 is an explosion effect diagram of an intelligent adjustment batch head structure according to an embodiment of the present invention;

FIG. 3 is a schematic diagram of a pushing mechanism for intelligently adjusting a batch head structure according to an embodiment of the invention;

fig. 4 is a schematic structural diagram of a rotating mechanism of an intelligent adjustment batch head structure according to an embodiment of the invention.

In the figure:

1. moving the mounting plate; 2. a planetary reducer; 3. a servo motor I; 4. a guide rail slide block; 5. a floating plate; 6. a ball screw; 7. a screw nut; 8. a nut seat; 9. angular contact ball bearing I; 10. angular contact ball bearing II; 11. an inner spacer bush I; 12. an inner spacer bush II; 13. a screw rod bearing seat; 14. a motor mounting seat; 15. a bearing cap; 16. a fine tooth round nut; 17. a retainer ring; 18. a limit column; 19. reed type coupling; 20. a servo motor II; 21. an induction block; 22. a floating head; 23. an outer hexagonal wrench socket; 24. a coupling sleeve; 25. a guide rail mounting plate; 26. a motor housing; 27. a mounting plate; 28. a sealing gasket; 29. a servo motor III; 30. a third gasket; 31. a first gasket; 32. a first connecting bolt; 33. an elastic gasket II; 34. an elastic gasket I; 35. a second connecting bolt; 36. an elastic gasket III; 37. a third connecting bolt; 38. a second gasket; 39. a coupling; 40. a transmission gear; 41. a guide rail connecting seat; 42. a limiting plate; 43. a guide rail limiting plate; 44. a proximity switch; 45. a fixing seat.

Detailed Description

For the purpose of further illustrating the various embodiments, the present invention provides the accompanying drawings, which are a part of the disclosure of the present invention, and which are mainly used to illustrate the embodiments and, together with the description, serve to explain the principles of the embodiments, and with reference to these descriptions, one skilled in the art will recognize other possible implementations and advantages of the present invention, wherein elements are not drawn to scale, and like reference numerals are generally used to designate like elements.

According to an embodiment of the invention, an intelligent adjustment batch head structure is provided.

1-4, an intelligent adjusting head-batching structure according to the embodiment of the invention comprises a movable mounting plate 1, wherein one side of the front surface of the movable mounting plate 1 is provided with a pushing mechanism, the pushing mechanism comprises two guide rail mounting plates 25 symmetrically arranged on the movable mounting plate 1 and a motor mounting seat 14, a screw bearing seat 13 is arranged on the side edge of the motor mounting seat 14, a bearing cover 15 is arranged on the screw bearing seat 13, a second servo motor 20 is arranged on the motor mounting seat 14, the bottom output end of the second servo motor 20 is connected with a ball screw 6 through a reed type coupler 19, the ball screw 6 is provided with a fine tooth round nut 16, an angular contact ball bearing 10, an inner spacer 12, an inner spacer 11 and an angular contact ball bearing 9, the reed type coupler 19 and the fine tooth round nut 16, the inner spacer 12 and the first angular contact ball bearing 9 are sleeved on the screw bearing seat 13, the ball screw 6 is sleeved with a floating screw 6, the ball screw is provided with a sliding block 5, the sliding rail 4 is provided with a sliding block 5, and the sliding rail 4 is provided with a sliding block 5;

through the design of pushing mechanism to can drive ball screw 6 rotation through servo motor two 20, drive the vertical removal of screw nut 7 when ball screw 6 is rotatory, and then drive floating plate 5 through screw nut 7 and remove, floating plate 5 drives rotary mechanism and descends in step, and then makes outer hexagonal wrench socket 23 can with bolt assorted.

In the second embodiment, as shown in fig. 1-4, the device comprises a mobile mounting plate 1, a pushing mechanism is arranged on one side of the front surface of the mobile mounting plate 1, the pushing mechanism comprises two guide rail mounting plates 25 and a motor mounting seat 14 which are symmetrically arranged on the mobile mounting plate 1, a screw bearing seat 13 is arranged on the side edge of the motor mounting seat 14, a bearing cover 15 is arranged on the screw bearing seat 13, a second servo motor 20 is arranged on the motor mounting seat 14, the bottom output end of the second servo motor 20 is connected with a ball screw 6 through a reed type coupling 19, a fine tooth round nut 16, an angular contact ball bearing II 10, an inner spacer II 12, an inner spacer II 11 and an angular contact ball bearing II 9 are arranged on the mobile mounting plate 1, the reed type coupling 19, the fine tooth round nut 16, the inner spacer II 10, the inner spacer II 12, the inner spacer II 11 and the angular contact ball bearing II 9 are sleeved on the screw bearing seat 13, a ball screw nut 7 is sleeved on the ball screw 6, a floating motor 8 is arranged at the bottom end of the ball screw 6 and is connected with a ball screw 6 through a reed type coupling 19, a speed reducer 5 is arranged on a planetary gear box 2, a speed reducer 2 is arranged on the top of the mobile mounting plate 2, a speed reducer 2 is connected with a planetary gear 2, a speed reducer 2 is arranged on the top of the mobile mounting plate 2, a speed reducer 2 is connected with a speed reducer 2, a speed reducer 2 is arranged on the top surface of the speed reducer 2, and a speed reducer 2 is provided with a speed reducer 2, a speed reducer is provided. The bottom of the floating head 22 is connected with an outer hexagonal wrench socket 23. It is apparent from the above design that through the design of rotary mechanism to after pushing mechanism promotes outer hexagonal spanner sleeve 23 and bolt to being connected, drive the rotation of coupling cover 24 through servo motor one 3 and planetary reducer 2, coupling cover 24 drives floating head 22 and outer hexagonal spanner sleeve 23 rotation, thereby drive the bolt rotation, thereby adjust the depth of insertion of bolt, and then adjust the clearance size of this bolt corresponding position department, and then replaced the mode of purely manual adjusting bolt, and then reduced intensity of labour, and promoted work efficiency.

An embodiment III, as shown in figures 1-4, comprises a movable mounting plate 1, wherein a pushing mechanism is arranged on one side of the front surface of the movable mounting plate 1, the pushing mechanism comprises two guide rail mounting plates 25 symmetrically arranged on the movable mounting plate 1 and a motor mounting seat 14, a screw rod bearing seat 13 is arranged on the side edge of the motor mounting seat 14, a bearing cover 15 is arranged on the screw rod bearing seat 13, a servo motor II 20 is arranged on the motor mounting seat 14, the bottom output end of the servo motor II 20 is connected with a ball screw 6 through a reed type coupling 19, a fine tooth round nut 16, a second angular contact ball bearing 10, a second inner spacer 12, a first angular contact ball bearing 11 and a first angular contact ball bearing 9 are arranged on the ball screw 6, the reed type coupling 19, the fine tooth round nut 16, the second angular contact ball bearing 10, the second inner spacer 12, the first angular contact ball bearing 11 and the first angular contact ball bearing 9 are sleeved on the screw rod bearing seat 13, the ball screw 6 is sleeved with a screw nut 7, the bottom end of the ball screw 6 is provided with a nut seat 8 and a retainer ring 17, the ball screw 6 is positioned between two guide rail mounting plates 25, the guide rail mounting plates 25 are provided with ball linear sliding rails, the ball linear sliding rails are provided with guide rail sliding blocks 4, two guide rail sliding blocks 4 are fixedly provided with floating plates 5, the outer surfaces of the floating plates 5 are fixedly connected with the screw nut 7, the floating plates 5 are provided with rotating mechanisms, the movable mounting plates 1 are also provided with horizontal moving mechanisms, the horizontal moving mechanisms comprise servo motors three 29 positioned on the movable mounting plates 1, the servo motors three 29 are connected with the movable mounting plates 1 through mounting plates 27, the motor casing 26 is arranged on the third servo motor 29, the output end of the third servo motor 29 penetrates through the other side of the movable mounting plate 1 to be connected with the coupler 48, the other end of the coupler 39 is connected with the transmission gear 40, and the rear side of the movable mounting plate 1 is provided with the guide rail connecting seat 41 and the limiting plate 42. From the above design, it is easy to see that the device can be placed on the horizontal rack through the design of the horizontal moving mechanism, and the guide rail connecting seat 41 is in sliding connection with the guide rail through the engagement of the horizontal rack and the transmission gear 40, so that when the servo motor III 29 drives the transmission gear 40, the stability of the device is improved through the sliding of the guide rail connecting seat 41 and the guide rail, and then the device is driven to displace within a set range through the walking of the transmission gear 40 on the horizontal rack.

In the fourth embodiment, as shown in fig. 1-4, the device comprises a mobile mounting plate 1, wherein a pushing mechanism is arranged on one side of the front surface of the mobile mounting plate 1, the pushing mechanism comprises two guide rail mounting plates 25 and a motor mounting seat 14 which are symmetrically arranged on the mobile mounting plate 1, a screw rod bearing seat 13 is arranged on one side of the motor mounting seat 14, a bearing cover 15 is arranged on the screw rod bearing seat 13, a second servo motor 20 is arranged on the motor mounting seat 14, the bottom output end of the second servo motor 20 is connected with a ball screw 6 through a reed type coupling 19, a fine tooth round nut 16, a second angular contact ball bearing 10, a second inner spacer 12, a first angular contact ball bearing 11 and a first angular contact ball bearing 9 are arranged on the ball screw 6, the reed type coupling 19, the fine tooth round nut 16, the second angular contact ball bearing 10, the second inner spacer 12, the first angular contact ball bearing 11 and the first angular contact ball bearing 9 are sleeved on the screw rod bearing seat 13, the ball screw 6 is sleeved with a screw nut 7, the bottom end of the ball screw 6 is provided with a nut seat 8 and a retainer ring 17, the ball screw 6 is positioned between the two guide rail mounting plates 25, the guide rail mounting plates 25 are provided with ball linear sliding rails, the ball linear sliding rails are provided with guide rail sliding blocks 4, two guide rail sliding blocks 4 are fixedly provided with floating plates 5, the outer surfaces of the floating plates 5 are fixedly connected with the screw nut 7, the floating plates 5 are provided with rotating mechanisms, the movable mounting plates 1 are also provided with horizontal moving mechanisms, the outer surfaces of the servo motors III 29 are connected with a plurality of fixing seats 45 through connecting bolts I32, connecting bolts II 35, connecting bolts III 37, connecting bolts I32, connecting bolts II 35, the three connecting bolts III 37 are respectively provided with a first gasket 31, a second gasket 38, a third gasket 30, a first elastic gasket 34, a second elastic gasket 33 and a third elastic gasket 36, the top of the guide rail mounting plate 25 is provided with a guide rail limiting plate 43, a sealing gasket 28 is arranged between the motor casing 26 and the servo motor III 29, the movable mounting plate 1 is provided with a limiting column 18 and an induction block 21 which are matched with the screw nut 7, and the side edge of the guide rail mounting plate 25 is provided with a proximity switch 44. As can be seen from the above design, the movement range of the screw nut 7 can be limited and prevented from excessive movement by the design of the limit post 18 and the sensing block 21.

In summary, by means of the above technical solution of the present invention, first, the transmission gear 40 and the guide rail connecting seat 41 of the present device are engaged with the horizontal rack and the guide rail set in advance, then, the transmission gear 40 is driven by the third servo motor 29, and then, the device is driven to displace within a set range by the transmission gear 40 walking on the horizontal rack, after moving to a specified position, the second servo motor 20 on the pushing mechanism drives the ball screw 6 to rotate, and drives the screw nut 7 to vertically move, and then drives the floating plate 5 to move, and the floating plate 5 drives the rotating mechanism to synchronously descend, and then, the first servo motor 3 on the rotating mechanism and the planetary reducer 2 drive the coupling sleeve 24 to rotate, and the coupling sleeve 24 drives the floating head 22 and the outer hexagonal wrench sleeve 23 to rotate, so as to drive the bolt to rotate, thereby, adjust the insertion depth of the bolt, and further, adjust the gap size at the corresponding position of the bolt, and further replace the mode of purely manual adjusting the bolt, and further reduce the labor intensity and improve the working efficiency.

The foregoing description of the preferred embodiments of the invention is not intended to be limiting, but rather is intended to cover all modifications, equivalents, alternatives, and improvements that fall within the spirit and scope of the invention.

Claims

1. The utility model provides an intelligent regulation batchs first structure, its characterized in that, including moving mounting panel (1), positive one side of moving mounting panel (1) is equipped with pushing mechanism, pushing mechanism includes two symmetries setting guide rail mounting panel (25) and motor mount pad (14) on moving mounting panel (1), motor mount pad (14) side is equipped with lead screw bearing frame (13), be equipped with on lead screw bearing frame (13) bearing cap (15), install servo motor second (20) on motor mount pad (14), the bottom output of servo motor second (20) is connected with ball screw (6) through reed formula shaft coupling (19), be equipped with thin tooth round nut (16), angular contact ball bearing second (10), interior spacer second (12), interior spacer first (11), angular contact ball bearing first (9) on ball screw (6), reed formula shaft coupling (19) thin round nut (16) interior spacer second (10), interior spacer second (11) and one end ball bearing (6) are equipped with ball bearing seat first (9) and ball screw nut (6) are equipped with on ball screw (6), the ball screw (6) is located two between the guide rail mounting plates (25), a ball linear slide rail is arranged on the guide rail mounting plates (25), guide rail sliding blocks (4) are arranged on the ball linear slide rail, floating plates (5) are fixed on the guide rail sliding blocks (4), the outer surfaces of the floating plates (5) are fixedly connected with screw nuts (7), a rotating mechanism is arranged on the floating plates (5), and a horizontal moving mechanism is further arranged on the movable mounting plate (1).

2. The intelligent adjustment batch head structure according to claim 1, wherein the rotating mechanism comprises a planetary reducer (2) arranged on the floating plate (5), the top of the planetary reducer (2) is connected with a first servo motor (3), the bottom output end of the planetary reducer (2) is connected with a floating head (22) through a connecting sleeve (24), and the bottom of the floating head (22) is connected with an outer hexagonal wrench socket (23).

3. The intelligent adjustment batch head structure according to claim 2, wherein the horizontal moving mechanism comprises a servo motor III (29) arranged on the moving mounting plate (1), the servo motor III (29) is connected with the moving mounting plate (1) through a mounting plate (27), a motor shell (26) is arranged on the servo motor III (29), an output end of the servo motor III (29) penetrates through the other side of the moving mounting plate (1) to be connected with a coupler (48), the other end of the coupler (39) is connected with a transmission gear (40), and a guide rail connecting seat (41) and a limiting plate (42) are arranged on the rear side of the moving mounting plate (1).

4. The intelligent adjusting screwdriver head structure according to claim 3, wherein the outer surface of the servo motor III (29) is connected with a plurality of fixing seats (45) through a first connecting bolt (32), a second connecting bolt (35) and a third connecting bolt (37), and a first gasket (31), a second gasket (38), a third gasket (30), an elastic gasket (34), a second elastic gasket (33) and a third elastic gasket (36) are respectively arranged on the first connecting bolt (32), the second connecting bolt (35) and the third connecting bolt (37).

5. The intelligent adjusting screwdriver head structure according to claim 4, wherein a guide rail limiting plate (43) is arranged at the top of the guide rail mounting plate (25), and a sealing gasket (28) is arranged between the motor casing (26) and the servo motor III (29).

6. The intelligent adjusting head structure according to claim 5, wherein the movable mounting plate (1) is provided with a limit column (18) and an induction block (21) which are matched with the screw nut (7), and the side edge of the guide rail mounting plate (25) is provided with a proximity switch (44).