CN210504747U

CN210504747U - A feed mechanism for producing antifouling sudden strain of a muscle RTV coating

Info

Publication number: CN210504747U
Application number: CN201921489660.5U
Authority: CN
Inventors: 于成杰; 刘小翠; 王艳阳
Original assignee: Beijing Hangkai Electric Co ltd
Current assignee: Beijing Hangkai Electric Co ltd
Priority date: 2019-09-07
Filing date: 2019-09-07
Publication date: 2020-05-12
Anticipated expiration: 2029-09-07

Abstract

The utility model relates to the technical field of feeding mechanisms, in particular to a feeding mechanism for producing anti-pollution flashover RTV coating, which comprises a frame, a turnover device positioned on the frame, and a locking device connected on the turnover device and used for locking a charging basket; turning device connects the roll-over stand in the frame and drives roll-over stand pivoted power component including rotating, and locking device is including welding the spliced pole on the roll-over stand and connecting first spacing subassembly and the spacing subassembly of second at the spliced pole both ends, first spacing subassembly is including welding the first board of supporting on the spliced pole upper end, the welding of first board top of supporting has last extension board, goes up to rotate on the extension board and is connected with the swing board, be equipped with on the swing board along with the second of swing board motion support the board and support the board on the second and support the board cooperation on the first spacing subassembly with swing board location when blocking the protruding edge on the storage bucket. Empty and just can conveniently change new storage bucket through removing spacing subassembly.

Description

A feed mechanism for producing antifouling sudden strain of a muscle RTV coating

Technical Field

The utility model belongs to the technical field of feed mechanism's technique and specifically relates to a feed mechanism for producing antifouling sudden strain of a muscle RTV coating is related to.

Background

Various materials are required to be added in the production process of the anti-pollution flashover RTV coating at present. The traditional way is to carry the charging of the charging basket by manpower. When the charging bucket is manually carried for charging, the charging bucket is inconvenient to carry due to large volume and heavy weight of materials.

The prior patent with the publication number of CN104828567B discloses a charging basket overturning device and a method for overturning the charging basket. After transporting suitable position through the frame in this scheme, hydraulic motor drive worm gear speed reducer drives the axis of rotation and rotates for the material in the storage bucket is emptyd out.

The above prior art solution has the following drawbacks: the barreled materials need to be conveyed into the charging basket firstly, and then the charging basket is turned over through the charging basket turning device. After the barreled material is poured, the barreled material needs to be filled into the material barrel again to perform the next action, and the operation process is complex.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a feed mechanism for producing antifouling sudden strain of a muscle RTV coating, its advantage lies in not needing to empty the material again in order to save process time after the storage bucket with barreled material packing into at every turn.

The above utility model discloses an above-mentioned utility model purpose can realize through following technical scheme: a feeding mechanism for producing an anti-pollution flashover RTV coating comprises a rack, a turnover device positioned on the rack and a locking device connected to the turnover device and used for locking a charging basket; turning device connects the roll-over stand in the frame and drives roll-over stand pivoted power component including rotating, and locking device is including welding the spliced pole on the roll-over stand and connecting first spacing subassembly and the spacing subassembly of second at the spliced pole both ends, first spacing subassembly is including welding the first board of supporting on the spliced pole upper end, the welding of first board top of supporting has last extension board, goes up to rotate on the extension board and is connected with the swing board, be equipped with on the swing board along with the second of swing board motion support the board and support the board on the second and support the board cooperation on the first spacing subassembly with swing board location when blocking the protruding edge on the storage bucket.

By adopting the technical scheme, the second upper abutting plate stops swinging when being matched with the first upper abutting plate to clamp the upper convex edge of the charging bucket through the limiting assembly, so that the upper convex edge of the charging bucket is matched and fixed. The lower extreme of spacing storage bucket is just as well cooperated through the spacing subassembly of second, and the storage bucket is fixed by locking device. The power component drives the roll-over stand to rotate, and when the roll-over stand rotates, the materials in the charging basket are poured out. After the material is dumped, the material barrel can be conveniently disassembled to be replaced by the new material barrel by removing the limiting assembly, and the step of conveying the material into the material barrel at each time is saved.

The utility model discloses further set up to: go up the upper end integrated into one piece of extension board and have the side extension board of upwards up toward keeping away from the slope of storage bucket direction, the swing board is kept away from the one end rotation of connecting block and is connected with last operating handle, goes up the operating handle and respectively rotates in the both sides that are close to the swing board position and be connected with an arc, and the other end of every arc is rotated with the upper end of side extension board and is connected.

Through adopting above-mentioned technical scheme, form four-bar linkage through last extension board, side extension board and last operating handle, arc, swing board. When the operating handle is rotated towards the direction far away from the connecting column, the swinging plate can be driven to swing upwards, and the second upper supporting plate is separated from the upper convex edge of the charging bucket. When the operating handle is rotated towards the direction close to the connecting column, the swinging plate can be driven to swing downwards, and the second upper abutting plate abuts against the upper convex edge.

The utility model discloses further set up to: the limiting assembly comprises a limiting bolt which is connected with the upper operating handle in a threaded manner and is far away from one end of the swinging plate, one end of a limiting chain is fixed between the upper operating handle and the bolt head of the limiting bolt, the limiting chain bypasses the connecting column, and the other end of the limiting chain is sleeved with one end of the upper operating handle which is worn out by the limiting bolt.

Through adopting above-mentioned technical scheme, through spacing chain and spacing bolt cooperation for go up the unable direction motion of keeping away from the spliced pole of operating handle, make on the second to the board can not break away from the protruding edge on the storage bucket.

The utility model discloses further set up to: the two swing plates are connected to two sides of the upper extending plate, one ends of the two swing plates extending to the upper part of the charging bucket are connected with connecting blocks through welding, the connecting blocks are located above the swing plates, adjusting nuts are welded above the connecting blocks, and adjusting bolts in threaded connection with the adjusting nuts penetrate through the adjusting nuts and the connecting blocks from top to bottom and extend to the position between the two swing plates; the rotating plate is rotatably connected between the two swinging plates, the rotating connection point of the rotating plate and the swinging plates is located between the connecting block and the connecting column, the rotating plate extends towards the direction above the charging bucket, the rotating plate exceeds the swinging plates through the lower part of the connecting block and the end part of the connecting block, and the first upper butt plate is welded at one end of the rotating plate penetrating out of the swinging plates.

Through adopting above-mentioned technical scheme, support the board welding on the second on the rotor plate for support the board and can adjust the position along with rotating on the second. The length of the lower end of the adjusting bolt penetrating out of the adjusting nut is changed through the matching of the adjusting bolt and the adjusting nut. The maximum distance of the upward rotation of the rotating plate is limited by the abutting of the lower end of the adjusting bolt and the rotating plate. The second upper abutting plate is adjusted and controlled to be just matched and abutted with the upper flange of the charging bucket.

The utility model discloses further set up to: the rotating plate is located at a position above a rotating connection point of the rotating plate and the swinging plate and is integrally formed with a limiting rod, and the rotating plate stops rotating when rotating to a state that the limiting rod is abutted to the connecting block.

Through adopting above-mentioned technical scheme, through gag lever post and connecting block cooperation restriction rotor plate maximum distance that rotates downwards, avoid the rotor plate to pass through the head downwards and make on the second support the board can't support the protruding edge on the storage bucket when the swing board rotates.

The utility model discloses further set up to: the spliced pole internal forming has the cylindrical cavity along spliced pole length direction, and the through-hole that is linked together with cylindrical cavity is seted up to the lower terminal surface of spliced pole, and the diameter of through-hole is less than the diameter of cylindrical cavity, the spacing subassembly of second is including passing the inserted bar that the through-hole inserted in cylindrical cavity, and the upper end welding of inserted bar has the butt board that the diameter equals cylindrical cavity diameter, the position cover that lies in between butt board and the cylindrical cavity bottom surface on the inserted bar is equipped with powerful spring, and the welding has the lower butt board that extends to the storage bucket below on the terminal surface that the spliced pole lower extreme stretches out the spliced pole.

Through adopting above-mentioned technical scheme, support the lower extreme of storage bucket through supporting the board down, spacing below the storage bucket. Because the lower supporting plate can slide along the direction of the connecting column along with the inserted bar, the lower supporting plate is tightly supported and supports the charging bucket through the strong spring, and the charging buckets with different heights can be adapted through the change of the compression amount of the strong spring.

The utility model discloses further set up to: the upper surface of one end of the lower supporting plate extending to the lower part of the charging bucket is welded with a lower limiting plate.

Through adopting above-mentioned technical scheme, weld down the limiting plate and support the inboard that the charging basket was protruding along down on supporting the board down for the charging basket is difficult to break away from supporting the board down.

The utility model discloses further set up to: the upper side face of one end, far away from the lower limiting plate, of the lower abutting plate is welded with a vertical rod, and the upper end of the vertical rod is bent towards the horizontal direction to form a lower operating handle.

Through adopting above-mentioned technical scheme, make things convenient for operating personnel to push down to support the board through operating the handle.

The utility model discloses further set up to: the power component comprises a worm and gear speed reducer installed on the rack, the input end key of the worm and gear speed reducer is connected with a driving shaft, the roll-over stand comprises a semi-circular arc-shaped supporting plate, two ends of the supporting plate, back to the center of a circle, are respectively welded with a roll-over shaft, the two roll-over shafts share the same axis, the roll-over shaft is connected with the output end key of the worm and gear speed reducer, and the roll-over shaft at the other end is connected with the rack.

Through adopting above-mentioned technical scheme, come input power through worm gear speed reducer and drive the roll-over stand and rotate. The worm gear speed reducer forms the auto-lock for when not shaking the drive shaft in reverse, the roll-over stand can not turn round.

The utility model discloses further set up to: the frame is welded with a rotating seat penetrated by a driving shaft, and one end of the driving shaft penetrating through the rotating seat is connected with an operating panel.

Through adopting above-mentioned technical scheme, make drive shaft steady operation through roating seat and drive shaft cooperation, conveniently rotate the drive shaft through the operation panel.

To sum up, the utility model discloses a beneficial technological effect does:

1. after the materials are poured, the material barrel can be conveniently disassembled to be replaced by a new material barrel by removing the limiting assembly, so that the step of conveying the materials into the material barrel in each time is saved;

2. the powerful spring provides elasticity to enable the lower supporting plate to tightly support and support the charging bucket, and the charging bucket with different heights can be adapted through the change of the compression amount of the powerful spring.

Drawings

FIG. 1 is a schematic structural view of an embodiment;

FIG. 2 is a schematic structural view of a lock device in the embodiment;

FIG. 3 is a schematic structural view of a first stopper member portion in the embodiment;

figure 4 is a cross-sectional schematic view of a portion of a second stop assembly in an embodiment.

Reference numerals: 1. a frame; 2. a turning device; 3. a locking device; 4. a roll-over stand; 5. a power assembly; 6. a worm gear reducer; 7. a drive shaft; 8. a rotating base; 9. an operation panel; 10. a support plate; 11. a turning shaft; 12. connecting columns; 13. a first limit component; 14. a second limiting component; 15. a first upper resisting plate; 16. an upper extension plate; 17. a side extension plate; 18. a swing plate; 19. connecting blocks; 20. adjusting the nut; 21. adjusting the bolt; 22. a rotating plate; 23. a second upper resisting plate; 24. a limiting rod; 25. an upper operating handle; 26. an arc-shaped plate; 27. a limit bolt; 28. a limiting chain; 29. a cylindrical cavity; 30. a through hole; 31. inserting a rod; 32. a butt joint plate; 33. a strong spring; 34. a lower support plate; 35. a lower limiting plate; 36. a vertical rod; 37. the handle is operated.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

As shown in fig. 1, a feeding mechanism for producing an anti-pollution flashover RTV coating comprises a frame 1, a turnover device 2 located on the frame 1, and a locking device 3 connected to the turnover device 2 for locking a bucket.

As shown in fig. 1, the turning device 2 includes a turning frame 4 rotatably connected to the frame 1 and a power assembly 5 for driving the turning frame 4 to rotate. The power assembly 5 comprises a worm and gear speed reducer 6 installed on the rack 1, the input end of the worm and gear speed reducer 6 is in keyed connection with a driving shaft 7, a rotating seat 8 penetrated by the driving shaft 7 is welded on the rack 1, and the rotating seat 8 serves as a positioning point of the driving shaft 7 far away from the worm and gear speed reducer 6. One end of the driving shaft 7 penetrating through the rotating seat 8 is connected with an operation disc 9 to facilitate the operation of the driving shaft 7 by an operator.

As shown in figure 1, the roll-over stand 4 comprises a semi-circular arc-shaped support plate 10, and a roll-over shaft 11 is welded on one side of the two ends of the support plate 10, which faces away from the center of a circle. The two turnover shafts 11 are coaxial, one turnover shaft 11 is connected with the output end key of the worm gear speed reducer 6, and the other turnover shaft 11 is rotatably connected with the rack 1.

As shown in fig. 1 and 2, the locking device 3 includes a connecting column 12, and a first limiting component 13 and a second limiting component 14 connected to two ends of the connecting column 12, wherein the connecting column 12 is welded to a side of the supporting plate 10 opposite to the center of the supporting plate 10. The positions of the two ends of the charging basket are limited by the cooperation of the first limiting assembly 13 and the second limiting assembly 14, so that the charging basket is locked.

As shown in fig. 2 and 3, the first limiting component 13 includes a first upper abutting plate 15 welded to one end of the connecting column 12, and the first upper abutting plate 15 extends toward the charging basket to abut against the lower surface of the upper protruding edge of the charging basket. An upper extending plate 16 extending upwards is welded on the upper side of the first upper abutting plate 15, and a side extending plate 17 inclining upwards and away from the charging basket is integrally formed at the upper end of the upper extending plate 16. Two sides of the upper end of the upper extension plate 16 are respectively connected with a swing plate 18 in a rotating way, and one end of each of the two swing plates 18 extends to the upper part of the charging bucket. The end of the swing plate 18 extending to the upper part of the charging bucket is provided with a connecting block 19, and the connecting block 19 is positioned above the swing plate 18 and is welded with the two swing plates 18 simultaneously. An adjusting nut 20 is welded above the connecting block 19, and an adjusting bolt 21 which is in threaded connection with the adjusting nut 20 penetrates through the adjusting nut 20 and the connecting block 19 from top to bottom and extends to a position between the two swinging plates 18.

As shown in fig. 2 and 3, a rotating plate 22 is rotatably connected between the two swing plates 18, and a rotation connection point of the rotating plate 22 and the swing plate 18 is located between the connecting block 19 and the connecting column 12. The rotating plate 22 extends in the direction above the bucket, the rotating plate 22 passing below the connecting block 19 and the end portion exceeding the swing plate 18. One end of the rotating plate 22, which exceeds the swinging plate 18, is welded with a second upper abutting plate 23 which is perpendicular to the rotating plate 22, and the second upper abutting plate 23 inclines downwards in the direction close to the swinging plate 18. A limiting rod 24 is integrally formed at the position, above the self-rotation connecting point, of the rotating plate 22, and when the rotating plate 22 rotates towards the charging bucket and reaches a state that the limiting rod 24 is abutted against the connecting block 19, the rotating plate cannot rotate continuously.

As shown in fig. 2 and 3, an upper operating handle 25 having one end pivotally connected to the two swing plates 18 is attached to the swing plate 18 at a position between the two swing plates 18 at an end of the swing plate 18 remote from the connecting block 19. An arc plate 26 is rotatably connected to each of two sides of the upper operating handle 25 near the swinging plate 18, and the other end of each arc plate 26 is rotatably connected to the upper end of the side extension plate 17. The end of the upper operating handle 25 far away from the swinging plate 18 is connected with a limiting bolt 27 through a thread, one end of a limiting chain 28 is fixed between the upper operating handle 25 and the bolt head of the limiting bolt 27, and after the limiting chain 28 bypasses the connecting column 12, the other end of the limiting chain passes through the end of the limiting bolt 27 penetrating out of the upper operating handle 25. The upper operating handle 25 is limited by the matching of the limiting chain 28, so that the upper operating handle 25 can not be turned and opened in the direction away from the connecting column 12.

As shown in fig. 4, a cylindrical cavity 29 is formed inside the connecting column 12 along the length direction of the connecting column 12, a through hole 30 communicated with the cylindrical cavity 29 is formed on the lower end surface of the connecting column 12, and the diameter of the through hole 30 is smaller than that of the cylindrical cavity 29.

As shown in fig. 2 and 4, the second stop assembly 14 comprises an insertion rod 31 inserted into the cylindrical cavity 29 through the through hole 30, and an abutment plate 32 having a diameter equal to that of the cylindrical cavity 29 is welded to an upper end of the insertion rod 31. A strong spring 33 is sleeved on the position, between the abutting plate 32 and the lower bottom surface of the cylindrical cavity 29, of the insertion rod 31, and an upward acting force is applied to the abutting plate 32 through the strong spring 33 to drive the insertion rod 31 to move upwards. The lower supporting plate 34 is welded on the end face of the lower end of the inserting rod 31 extending out of the connecting column 12, the lower limiting plate 35 is welded on the upper surface of one end of the lower supporting plate 34 extending to the lower portion of the charging bucket, and the lower limiting plate 35 is matched with the lower flange of the charging bucket to enable the lower end of the charging bucket not to be separated from the second limiting assembly 14. The upper side of the other end of the lower abutting plate 34 is welded with a vertical rod 36, and the upper end of the vertical rod 36 is bent towards the horizontal direction to form a lower operating handle 37.

The specific operation process comprises the following steps:

the barrel is lifted above the lower support plate 34, and the barrel is supported by the lower support plate 34. The upper operating handle 25 is rotated in a direction away from the connecting column 12, so that the end of the swing plate 18 above the bucket is tilted upward. Then, after the lower surface of the upper convex edge of the charging bucket is abutted against the upper part of the first upper abutting plate 15, the upper operating handle 25 is rotated towards the direction close to the connecting column 12, so that the end of the swinging plate 18 above the charging bucket is pressed downwards, and the second upper abutting plate 23 is abutted against the inner side surface of the upper convex edge of the charging bucket. The material barrel is positioned by the matching of the lower abutting plate 34, the first upper abutting plate 15 and the second upper abutting plate 23. Then the rotating disc is rotated, the driving shaft 7 is driven to rotate through the rotating disc, the turning frame 4 is driven to rotate after power is transmitted through the worm and gear speed reducer 6, and the material barrel is enabled to rotate to dump materials along with the turning frame 4. The worm gear and worm speed reducer 6 forms self-locking, so that the roll-over stand 4 can not rotate when the rotating disk is not shaken reversely.

The embodiment of this specific implementation mode is the preferred embodiment of the present invention, not limit according to this the utility model discloses a protection scope, so: all equivalent changes made according to the structure, shape and principle of the utility model are covered within the protection scope of the utility model.

Claims

1. The utility model provides a feed mechanism for producing antifouling sudden strain of a muscle RTV coating, includes frame (1), is located turning device (2) on frame (1), characterized by: the charging basket turning device also comprises a locking device (3) which is connected to the turning device (2) and used for locking the charging basket; the turnover device (2) comprises a turnover frame (4) rotationally connected to the rack (1) and a power component (5) driving the turnover frame (4) to rotate, the locking device (3) comprises a connecting column (12) welded on the turnover frame (4) and a first limiting component (13) and a second limiting component (14) connected to two ends of the connecting column (12), the first limiting component (13) comprises a first upper butt plate (15) welded at the upper end of the connecting column (12), an upper extension plate (16) is welded above the first upper butt plate (15), a swinging plate (18) is rotatably connected on the upper extension plate (16), the swing plate (18) is provided with a second upper abutting plate (23) moving along with the swing plate (18) and a limiting component which is used for positioning the swing plate (18) when the second upper abutting plate (23) and the first upper abutting plate (15) are matched to clamp the upper convex edge of the charging bucket.

2. The loading mechanism for producing anti-pollution flashover RTV coating according to claim 1, wherein: go up the upper end integrated into one piece of extension board (16) and have side extension board (17) of upwards up keeping away from the slope of storage bucket direction, swing board (18) keep away from the one end rotation of connecting block (19) and be connected with last operating handle (25), go up operating handle (25) and go up each rotation of both sides that are close to swing board (18) position and be connected with an arc (26), the other end of every arc (26) is rotated with the upper end of side extension board (17) and is connected.

3. The loading mechanism for producing anti-pollution flashover RTV coating according to claim 2, characterized in that: the limiting assembly comprises a limiting bolt (27) which is connected with the upper operating handle (25) in a threaded mode and is far away from one end of the swinging plate (18), one end of a limiting chain (28) is fixed between the bolt head of the upper operating handle (25) and the limiting bolt (27), the connecting column (12) is wound around the limiting chain (28), and the other end of the limiting chain is sleeved with one end of the upper operating handle (25) which penetrates out of the limiting bolt (27).

4. The loading mechanism for producing anti-pollution flashover RTV coating according to claim 3, wherein: the two swing plates (18) are connected to two sides of the upper extension plate (16), one ends of the two swing plates (18) extending to the upper part of the charging bucket are connected with connecting blocks (19) in a welding mode, the connecting blocks (19) are located above the swing plates (18) and are welded with adjusting nuts (20) above the connecting blocks (19), and adjusting bolts (21) in threaded connection with the adjusting nuts (20) penetrate through the adjusting nuts (20) and the connecting blocks (19) from top to bottom and extend to the position between the two swing plates (18); rotating plate (22) is connected with between two swing board (18) in the rotation, and the rotation tie point of rotating plate (22) and swing board (18) is located between connecting block (19) and spliced pole (12), and rotating plate (22) extend to the direction of storage bucket top, and rotating plate (22) surpass swing board (18) through connecting block (19) below and tip, and first upper support board (15) weld in rotating plate (22) wear out the one end of swing board (18).

5. The loading mechanism for producing anti-pollution flashover RTV coating according to claim 4, wherein: the limiting rod (24) is integrally formed at the position, above the rotating connection point of the rotating plate (22) and the swinging plate (18), of the rotating plate, and the rotating plate (22) stops rotating when rotating to the state that the limiting rod (24) is abutted to the connecting block (19).

6. The loading mechanism for producing anti-pollution flashover RTV coating according to claim 1, wherein: the utility model discloses a material bucket, including spliced pole (12), spliced pole (12) internal forming has cylindrical cavity (29) along spliced pole (12) length direction, and through-hole (30) that are linked together with cylindrical cavity (29) are seted up to the lower terminal surface of spliced pole (12), and the diameter of through-hole (30) is less than the diameter of cylindrical cavity (29), the inserted bar (31) that insert in cylindrical cavity (29) including passing through-hole (30) are inserted in second spacing subassembly (14), and the upper end welding of inserted bar (31) has butt plate (32) that the diameter equals cylindrical cavity (29) diameter, the position cover that lies in under butt plate (32) and cylindrical cavity (29) on inserted bar (31) is equipped with powerful spring (33), and the welding has lower butt plate (34) that extend to the storage bucket below on the terminal surface that spliced pole (31) lower extreme stretches out spliced pole (.

7. The loading mechanism for producing anti-pollution flashover RTV coating according to claim 6, wherein: the upper surface of one end of the lower abutting plate (34) extending to the lower part of the charging bucket is welded with a lower limiting plate (35).

8. The loading mechanism for producing anti-pollution flashover RTV coating according to claim 7, wherein: the upper side face of one end, far away from the lower limiting plate (35), of the lower abutting plate (34) is welded with a vertical rod (36), and the upper end of the vertical rod (36) is bent towards the horizontal direction to form a lower operating handle (37).

9. The loading mechanism for producing anti-pollution flashover RTV coating according to claim 1, wherein: power component (5) are including installing worm gear speed reducer (6) in frame (1), and the input end key of worm gear speed reducer (6) is connected with drive shaft (7), roll-over stand (4) are including semi-circular arc's backup pad (10), and one side in the centre of a circle is respectively welded dorsad at backup pad (10) both ends has a trip shaft (11), and two trip shafts (11) are with the axle center, and the output key-type connection of a trip shaft (11) and worm gear speed reducer (6), and other end trip shaft (11) rotate with frame (1) and are connected.

10. The loading mechanism for producing anti-pollution flashover RTV coating according to claim 9, wherein: a rotating seat (8) penetrated by a driving shaft (7) is welded on the rack (1), and one end of the driving shaft (7) penetrating through the rotating seat (8) is connected with an operating panel (9).