CN110668090B

CN110668090B - Bearing socket sleeve type lifting device

Info

Publication number: CN110668090B
Application number: CN201910968621.1A
Authority: CN
Inventors: 蔡盼
Original assignee: Taizhou Long Da Science And Technology Ltd S
Current assignee: Taizhou Long Da Science And Technology Ltd S
Priority date: 2019-10-12
Filing date: 2019-10-12
Publication date: 2020-09-04
Anticipated expiration: 2039-10-12
Also published as: CN110668090A

Abstract

The invention discloses a shaft socket sleeve type lifting device.A pair of vertically distributed conveying belt pulleys is formed on the front side wall and the rear side wall of a conveying cavity; the upper conveying belt wheel is positioned on the left side of the lower conveying belt wheel; the pair of conveying belt wheels are connected through a synchronous belt; the synchronous belt is conveyed intermittently in reverse direction; a plurality of uniformly distributed supporting seats are fixed on the outer surface of the synchronous belt; a central support inserted bar is detachably fixed on the end surface of the support seat far away from the synchronous belt; a left supporting seat is formed on the left end surface of the lifting box; a feeding seat in a shape like a Chinese character 'ji' with an opening facing to the right is arranged on the left supporting seat in a left-right moving manner; the driving blocks are respectively formed on the end surfaces of the pair of transverse parts of the blanking seat, which are close to each other; a lower supporting block is arranged at the lower part of the left supporting seat in a lifting way; the lower supporting block is positioned at the lower side of the blanking seat; the end surfaces of the pair of driving blocks close to are respectively flush with the front end surface and the rear end surface of the supporting seat. The bearing conveying device is simple in structure, the conveying and lifting efficiency of the bearing is improved, and the bearing cannot fall down accidentally in the conveying process.

Description

Bearing socket sleeve type lifting device

Technical Field

The invention relates to the technical field of bearing production, in particular to a bearing socket sleeve type lifting device.

Background

The bearing is a light-weight component in modern mechanical equipment, and has the main function of supporting a mechanical rotator to reduce the mechanical load friction coefficient of the equipment in the transmission process. In the bearing production process, because the heights of the equipment in the front and rear processing procedures are possibly inconsistent, bearing parts are often required to be transported from a low rail to a high rail and then processed in the next step. At present, the bearing position lifting mode generally adopts artifical transport among the prior art, and this not only causes bearing machining inefficiency, has increased the production cycle of product moreover, has increaseed manufacturing cost. Therefore, it is desired to develop a hoisting machine for bearing production to solve the above problems.

Disclosure of Invention

The invention aims to solve the technical problem of low lifting efficiency of the existing bearing and provides a bearing socket sleeve type lifting device.

The technical scheme for solving the technical problems is as follows: a bearing sleeve type lifting device comprises a cuboid lifting box, a bearing sleeve type lifting box and a lifting mechanism, wherein a rectangular groove-shaped conveying cavity is formed inside the cuboid lifting box; a discharge hole is formed at the upper end of the left side wall of the conveying cavity, and a feed hole is formed at the lower end of the right side wall; the automatic feeding device also comprises a conveying device and a discharging device; the conveying device comprises a pair of conveying belt wheels; the pair of conveying belt wheels are rotatably arranged on the front side wall and the rear side wall of the conveying cavity, and one conveying belt wheel is positioned on the left upper side of the other conveying belt wheel; the pair of conveying belt wheels are connected through a synchronous belt; the synchronous belt is conveyed intermittently in reverse direction; a plurality of uniformly distributed supporting seats are fixed on the outer surface of the synchronous belt; the end surface of the supporting seat far away from the synchronous belt is detachably fixed with a central supporting inserted rod; the diameter of the central support plug is the same as the inner diameter of the bearing; the central support inserted bar at the upper left end is horizontally arranged and is opposite to the discharge hole; a left supporting seat is formed on the left end surface of the lifting box; the left supporting seat is in a hollow rectangular frame shape with an opening at the right end; the right end opening of the left supporting seat is opposite to the discharge hole; a material taking hole which penetrates through the left support seat from top to bottom is formed at the right end of the upper side wall of the left support seat; the blanking device comprises a blanking seat with a shape like the Chinese character 'ji' and an opening facing to the right; the blanking seat moves left and right and is arranged at the upper part of the left supporting seat and penetrates through the discharge hole; the right ends of the end surfaces close to the pair of transverse parts of the blanking seat are respectively formed with a driving block; a lower supporting block is arranged at the lower part of the left supporting seat in a lifting way; the end surfaces of the pair of driving blocks close to are respectively flush with the front end surface and the rear end surface of the supporting seat; when the blanking seat is positioned at the rightmost end, the supporting seat where the central support inserted bar horizontally arranged at the left upper end and the right upper end is positioned between the pair of driving blocks, and the bearing is positioned at the left side of the pair of driving blocks; the right end of the lower supporting block is positioned in the conveying cavity, and an avoidance hole for the central supporting inserted rod to pass through is formed in the right end face of the lower supporting block; the left side wall of the avoidance hole is flush with the left end surface of the central support inserted bar horizontally arranged at the left upper end and the right upper end; the right end surface of the lower supporting block is flush with the left end surface of a supporting seat where a central supporting inserted bar horizontally arranged at the left upper end and the right upper end is positioned; the center support pins have a variety of sizes and the different sizes of center support pins differ by the diameter of the center support pin.

Preferably, a connecting threaded hole is formed in the center of the end face, far away from the synchronous belt, of the supporting seat; and a connecting screw rod matched with the connecting threaded hole is formed at the corresponding end of the central support inserted rod.

Preferably, a rectangular vertical supporting plate is formed in the middle of the upper side wall of the left supporting seat; gaps for the left and right movement of the transverse parts of the corresponding sides of the blanking seat are formed between the front end surface and the rear end surface of the vertical supporting plate and the front inner side wall and the rear inner side wall of the left supporting seat respectively; the longitudinal part of the blanking seat is positioned between the left side wall of the left supporting seat and the vertical supporting plate; an upper driving threaded rod arranged in the left-right direction is pivoted between the left side wall of the left supporting seat and the vertical supporting plate; an upper driving motor is fixed on the left end surface of the left supporting seat; the left end of the upper driving threaded rod is fixedly connected with the right end of an output shaft of the upper driving motor; the longitudinal part of the blanking seat is screwed on the upper driving threaded rod.

Preferably, a horizontal support plate is formed in the middle of the front side wall and the rear side wall of the left support seat; the horizontal supporting plate is positioned at the lower side of the blanking seat; a lower driving threaded rod is pivoted between the horizontal supporting plate and the lower side wall of the left supporting seat; a lower driving motor is fixed on the lower end surface of the left supporting seat; the lower end of the lower driving threaded rod is fixedly connected with an output shaft of a lower driving motor; the lower supporting block is in threaded connection with the lower driving threaded rod; a pair of vertical guide grooves which are symmetrically arranged left and right are respectively formed on the front side wall and the rear side wall of the conveying cavity; and a pair of vertical guide blocks matched with the vertical guide grooves are respectively formed on the front end surface and the rear end surface of the lower support block.

Preferably, the lower part of the left side wall of the left supporting seat is provided with a left-right through observation hole; a position marking block matched with the observation hole is formed on the left end face of the lower supporting block; an observation ruler in the vertical direction is arranged at the lower part of the left end face of the left supporting seat; the observation ruler is used for determining the distance between the upper end surface of the lower supporting block and the rotating central shaft of the central supporting inserted bar horizontally arranged at the left upper end and the right upper end.

Preferably, the upper right corner of the lifting box is formed into an inclined surface; the inclined surface is flush with the synchronous belt and is arranged in a transparent mode.

The invention has the beneficial effects that: simple structure improves the transport lifting efficiency of bearing, can not fall by accident among the transportation process.

Drawings

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

In the figure, 10, the lift box; 100. a delivery lumen; 101. a feed inlet; 102. a discharge port; 11. a left support seat; 111. a material taking hole; 112. a vertical support plate; 113. an observation hole; 114. a vertical guide groove; 20. a conveying device; 21. a conveyor belt pulley; 22. a synchronous belt; 23. a supporting seat; 24. a central support inserted rod; 30. a blanking device; 31. an upper drive motor; 32. an upper drive threaded rod; 33. a blanking seat; 34. a lower drive motor; 35. a lower drive threaded rod; 36. a lower support block; 360. avoiding the hole.

Detailed Description

As shown in fig. 1, a bearing sleeve type lifting device includes a rectangular parallelepiped lifting box 10 in which a rectangular groove-shaped conveying chamber 100 is formed; a discharge hole 102 is formed at the upper end of the left side wall of the conveying cavity 100, and a feed hole 101 is formed at the lower end of the right side wall; the device also comprises a conveying device 20 and a blanking device 30; the transfer device 20 includes a pair of conveyor pulleys 21; a pair of conveyor pulleys 21 are rotatably provided on the front and rear side walls of the conveying chamber 100 and one conveyor pulley 21 is positioned on the upper left side of the other conveyor pulley 21; the pair of conveying pulleys 21 are connected by a timing belt 22; the synchronous belt 22 is conveyed intermittently in reverse direction; a plurality of uniformly distributed supporting seats 23 are fixed on the outer surface of the synchronous belt 22; the end surface of the supporting seat 23 far away from the synchronous belt 22 is detachably fixed with a central supporting inserted rod 24; the diameter of the central support plunger 24 is the same as the inner diameter of the bearing; the central support inserted bar 24 at the upper left end is horizontally arranged and is opposite to the discharge hole 102; a left supporting seat 11 is formed on the left end surface of the lifting box 10; the left support seat 11 is in a rectangular frame shape with an opening at the right end and a hollow interior; the right end opening of the left support seat 11 is opposite to the discharge hole 102; a material taking hole 111 which penetrates through the left support seat 11 from top to bottom is formed at the right end of the upper side wall of the left support seat; the blanking device 30 comprises a blanking seat 33 with a shape like the Chinese character 'ji' and an opening facing to the right; the blanking seat 33 moves left and right and is arranged at the upper part of the left support seat 11 and passes through the discharge hole 102; the right ends of the end surfaces close to the pair of transverse parts of the blanking seat 33 are respectively formed with a driving block; a lower supporting block 36 is arranged at the lower part of the left supporting seat 11 in a lifting way; the end surfaces close to the pair of driving blocks are respectively flush with the front end surface and the rear end surface of the supporting seat 23; when the blanking seat 33 is at the rightmost end, the supporting seat 23 where the central supporting inserted bar 24 horizontally arranged at the upper left end is located is positioned between the pair of driving blocks, and the bearing is positioned at the left side of the pair of driving blocks; the right end of the lower supporting block 36 is positioned in the conveying cavity 100, and an avoidance hole 360 for the central supporting inserted rod 24 to pass through is formed in the right end face of the lower supporting block 36; the left side wall of the avoidance hole 360 is flush with the left end face of the central support inserted rod 24 horizontally arranged at the left upper end and the right upper end; the right end surface of the lower supporting block 36 is flush with the left end surface of the supporting seat 23 where the central supporting inserted bar 24 horizontally arranged at the left upper end and the right upper end is positioned; the center support plunger 24 has a variety of sizes and different sizes of center support plungers 24 differ by the diameter of the center support plunger 24.

As shown in fig. 1, a connection threaded hole is formed in the center of the end face of the support seat 23 away from the synchronous belt 22; the corresponding end of the central support insert rod 24 is formed with a connecting screw rod which is matched with the connecting threaded hole.

As shown in fig. 1, a rectangular vertical support plate 112 is formed in the middle of the upper side wall of the left support seat 11; gaps for left and right movement of the transverse part of the corresponding side of the blanking seat 33 are respectively arranged between the front end surface and the rear end surface of the vertical supporting plate 112 and the front inner side wall and the rear inner side wall of the left supporting seat 11; the longitudinal part of the blanking seat 33 is positioned between the left side wall of the left support seat 11 and the vertical support plate 112; an upper driving threaded rod 32 arranged in the left-right direction is pivoted between the left side wall of the left supporting seat 11 and the vertical supporting plate 112; an upper driving motor 31 is fixed on the left end surface of the left supporting seat 11; the left end of the upper driving threaded rod 32 is fixedly connected with the right end of the output shaft of the upper driving motor 31; a longitudinal portion of the blanking seat 33 is screwed on the upper drive threaded rod 32.

As shown in fig. 1, a horizontal support plate is formed in the middle of the front and rear side walls of the left support seat 11; the horizontal supporting plate is positioned at the lower side of the blanking seat 33; a lower driving threaded rod 35 is pivoted between the horizontal supporting plate and the lower side wall of the left supporting seat 11; a lower driving motor 34 is fixed on the lower end surface of the left supporting seat 11; the lower end of the lower driving threaded rod 35 is fixedly connected with an output shaft of the lower driving motor 34; the lower supporting block 36 is screwed on the lower driving threaded rod 35; a pair of vertical guide grooves 114 which are symmetrically arranged left and right are respectively formed on the front side wall and the rear side wall of the conveying cavity 100; a pair of vertical guide blocks are formed at front and rear end surfaces of the lower support block 36 to be engaged with the vertical guide grooves 114, respectively.

As shown in fig. 1, a left side wall lower portion of the left support seat 11 is formed with a left-right through observation hole 113; a position marking block matched with the observation hole 113 is formed on the left end surface of the lower supporting block 36; an observation ruler in the vertical direction is arranged at the lower part of the left end face of the left supporting seat 11; the observation ruler is used for determining the distance between the upper end surface of the lower supporting block 36 and the rotating central axis of the central supporting inserted rod 24 horizontally arranged left and right at the left upper end.

As shown in fig. 1, the upper right corner of the lift box 10 is formed as an inclined surface; the inclined surface is flush with the timing belt 22 and is provided transparently.

The working principle of the bearing inserting type lifting device is that;

firstly, rotating a central support inserted bar 24 with proper size through the outer diameter and the inner diameter of the bearing, and adjusting the gap between the upper end surface of the lower support block 36 and the rotating central shaft of the central support inserted bar 24 at the upper left end to ensure that the gap is equal to the outer diameter of the bearing; then put into the bearing and make the bearing housing establish on right lower extreme center support inserted bar 24 from feed inlet 101, then hold-in range 22 intermittent type drive bearing anticlockwise conveying, when this center support inserted bar 24 is in the level left and right sides setting and just to discharge gate 102 when the top, the bearing is located the left side of a pair of drive block this moment, then the seat 33 of unloading moves left, and like this a pair of drive block drive bearing move left and break away from center support inserted bar 24 and fall into under support block 36, and the bearing is located the hole 111 that fetches material at this moment, makes things convenient for follow-up to get the material.

The above description is only a preferred embodiment of the present invention, and for those skilled in the art, the present invention should not be limited by the description herein, since various changes and modifications can be made in the details of the embodiment and the application range according to the spirit of the present invention.

Claims

1. A bearing sleeve type lifting device comprises a cuboid lifting box (10) with a rectangular groove-shaped conveying cavity (100) formed inside; a discharge hole (102) is formed at the upper end of the left side wall of the conveying cavity (100), and a feed hole (101) is formed at the lower end of the right side wall; the method is characterized in that: the device also comprises a conveying device (20) and a blanking device (30); the transfer device (20) comprises a pair of conveyor pulleys (21); a pair of conveying belt wheels (21) are rotatably arranged on the front side wall and the rear side wall of the conveying cavity (100), and one conveying belt wheel (21) is positioned at the left upper side of the other conveying belt wheel (21); the pair of conveying belt wheels (21) are connected through a synchronous belt (22); the synchronous belt (22) is conveyed intermittently in reverse direction; a plurality of uniformly distributed supporting seats (23) are fixed on the outer surface of the synchronous belt (22); the end surface of the supporting seat (23) far away from the synchronous belt (22) is detachably fixed with a central supporting inserted rod (24); the diameter of the central support inserted rod (24) is the same as the inner diameter of the bearing; the central support inserted bar (24) at the upper left end is horizontally arranged and is opposite to the discharge hole (102); a left supporting seat (11) is formed on the left end surface of the lifting box (10); the left supporting seat (11) is in a hollow rectangular frame shape with an opening at the right end; the right end opening of the left supporting seat (11) is opposite to the discharge hole (102); a material taking hole (111) which penetrates through the left support seat (11) up and down is formed at the right end of the upper side wall of the left support seat; the blanking device (30) comprises a blanking seat (33) which is arranged with an opening facing to the right and is shaped like a Chinese character 'ji'; the blanking seat (33) moves left and right and is arranged at the upper part of the left supporting seat (11) and passes through the discharge hole (102); the right ends of the end surfaces close to the pair of transverse parts of the blanking seat (33) are respectively formed with a driving block; a lower supporting block (36) is arranged at the lower part of the left supporting seat (11) in a lifting way; the end surfaces of the pair of driving blocks close to are respectively flush with the front end surface and the rear end surface of the supporting seat (23); when the blanking seat (33) is positioned at the rightmost end, the supporting seat (23) where the central support inserted bar (24) horizontally arranged at the left upper end and the right upper end is positioned between the pair of driving blocks, and the bearing is positioned at the left side of the pair of driving blocks; the right end of the lower supporting block (36) is positioned in the conveying cavity (100), and an avoidance hole (360) for the central supporting inserted bar (24) to pass through is formed in the right end face of the lower supporting block (36); the left side wall of the avoidance hole (360) is flush with the left end surface of the central support inserted bar (24) horizontally arranged at the left upper end and the right upper end; the right end face of the lower supporting block (36) is flush with the left end face of a supporting seat (23) where a central supporting inserted bar (24) horizontally arranged at the left upper end and the right upper end is located; the center support plunger (24) has a variety of sizes and different sizes of center support plungers (24) differ by the diameter of the center support plunger (24).

2. The bearing sleeve type lifting device according to claim 1, wherein: a connecting threaded hole is formed in the center of the end face of the supporting seat (23) far away from the synchronous belt (22); and a connecting screw rod matched with the connecting threaded hole is formed at the corresponding end of the central support inserted rod (24).

3. The bearing sleeve type lifting device according to claim 1, wherein: a rectangular vertical supporting plate (112) is formed in the middle of the upper side wall of the left supporting seat (11); gaps for the left and right movement of the transverse part of the corresponding side of the blanking seat (33) are respectively arranged between the front and rear end surfaces of the vertical supporting plate (112) and the front and rear inner side walls of the left supporting seat (11); the longitudinal part of the blanking seat (33) is positioned between the left side wall of the left supporting seat (11) and the vertical supporting plate (112); an upper driving threaded rod (32) arranged in the left-right direction is pivoted between the left side wall of the left supporting seat (11) and the vertical supporting plate (112); an upper driving motor (31) is fixed on the left end surface of the left supporting seat (11); the left end of the upper driving threaded rod (32) is fixedly connected with the right end of an output shaft of the upper driving motor (31); the longitudinal part of the blanking seat (33) is screwed on the upper driving threaded rod (32).

4. The bearing sleeve type lifting device according to claim 1, wherein: a horizontal supporting plate is formed in the middle of the front side wall and the rear side wall of the left supporting seat (11); the horizontal supporting plate is positioned at the lower side of the blanking seat (33); a lower driving threaded rod (35) is pivoted between the horizontal supporting plate and the lower side wall of the left supporting seat (11); a lower driving motor (34) is fixed on the lower end surface of the left supporting seat (11); the lower end of the lower driving threaded rod (35) is fixedly connected with an output shaft of a lower driving motor (34); the lower supporting block (36) is in threaded connection with the lower driving threaded rod (35); a pair of vertical guide grooves (114) which are symmetrically arranged left and right are respectively formed on the front side wall and the rear side wall of the conveying cavity (100); the front end surface and the rear end surface of the lower supporting block (36) are respectively provided with a pair of vertical guiding blocks matched with the vertical guiding grooves (114).

5. The bearing sleeve type lifting device according to claim 4, wherein: an observation hole (113) which penetrates through the left side and the right side is formed at the lower part of the left side wall of the left support seat (11); a position marking block matched with the observation hole (113) is formed on the left end surface of the lower supporting block (36); an observation ruler in the vertical direction is arranged at the lower part of the left end face of the left supporting seat (11); the observation ruler is used for determining the distance between the upper end surface of the lower supporting block (36) and the rotating central shaft of the central supporting inserted bar (24) horizontally arranged at the left upper end and the right upper end.

6. The bearing sleeve type lifting device according to claim 1, wherein: the upper right corner of the lifting box (10) is formed into an inclined surface; the inclined surface is flush with the synchronous belt (22) and is arranged transparently.