CN220975558U

CN220975558U - Rotary switching platform for conveying pressure tank body

Info

Publication number: CN220975558U
Application number: CN202322657367.8U
Authority: CN
Inventors: 徐发刚; 薛发达; 岳彩立; 曹先胜
Original assignee: Puyang Anno Energy Technology Co ltd
Current assignee: Puyang Anno Energy Technology Co ltd
Priority date: 2023-09-28
Filing date: 2023-09-28
Publication date: 2024-05-17
Anticipated expiration: 2033-09-28

Abstract

The utility model discloses a rotary switching platform for conveying a pressure tank body, which relates to the technical field of pressure tank bodies and comprises a supporting plate, an adjusting structure and a supporting structure, wherein one side of the top end of the supporting plate is provided with an annular chute, the inside of the annular chute is provided with a plurality of sliding blocks, the top end of each sliding block is provided with a bottom plate, the front end and the rear end of the bottom plate, which are far away from one side of the supporting plate, are respectively connected with a movable wheel in a rotating way, one side of the bottom plate is provided with a first servo motor, a first cavity is formed in the bottom plate, the output end of the first servo motor is provided with a unidirectional threaded rod, and the outer wall of the unidirectional threaded rod is connected with two first threaded blocks through threads. According to the utility model, the driving rod is driven to rotate by the second servo motor, the driving gear is driven to rotate by the driving rod, and the driving gear is meshed with the toothed ring, so that the toothed ring can be driven to rotate by the driving gear, and the bottom plate is driven to rotate by the toothed ring.

Description

Rotary switching platform for conveying pressure tank body

Technical Field

The utility model relates to the technical field of pressure tank bodies, in particular to a rotary switching platform for conveying pressure tank bodies.

Background

The pressure tank body is a closed container capable of bearing pressure, has very wide application, has important roles and functions in various departments such as industry, civil use, military industry and the like and various fields of scientific research, and needs to be conveyed in the production process, so that a pressure tank body conveying platform is needed.

The traditional pressure tank conveying platform is used for conveying the pressure tank body through a conveying belt, and the output position of the traditional pressure tank conveying platform is fixed and has certain limitation.

Disclosure of utility model

The utility model aims to provide a rotary switching platform for conveying a pressure tank body, which aims to solve the problem that the output position is fixed and unchanged in the background technology.

In order to achieve the above purpose, the present utility model provides the following technical solutions: the rotary switching platform for conveying the pressure tank body comprises a supporting plate, an adjusting structure and a supporting structure;

The device comprises a supporting plate, a first servo motor, a first cavity, a first threaded rod, a conveying plate, a first supporting structure and a second supporting structure, wherein the first cavity is formed in the bottom plate, the first threaded rod is arranged at the output end of the first servo motor, two first threaded blocks are connected with the outer wall of the first threaded rod through threads, the conveying plate is arranged at the top end of the first threaded block, and the supporting structure is located in the conveying plate;

A pressure tank main body is arranged above the conveying plate, and the adjusting structure is positioned at one side of the top end of the supporting plate far away from the annular chute;

The adjusting structure comprises a second servo motor, the second servo motor is arranged on one side, far away from the annular chute, of the top end of the supporting plate, a driving gear is arranged at the output end of the second servo motor, and a toothed ring is arranged on one side of the bottom end of the bottom plate.

Preferably, the top ends of the sliding blocks penetrate through the annular sliding grooves, and the top ends of the sliding blocks extend to the upper portion of the annular sliding grooves.

Preferably, one end of the unidirectional threaded rod penetrates through the bottom plate to extend to one side of the inside of the first cavity, and the unidirectional threaded rod is installed on one side of the inside of the first cavity through the rotating shaft.

Preferably, the top ends of the first thread blocks penetrate through the bottom plate, and the top ends of the first thread blocks extend to the upper side of the bottom plate.

Preferably, the driving gear is located below the toothed ring, and the driving gear is meshed with the toothed ring.

Preferably, the bearing structure comprises a second thread block, a bearing block, a second cavity, a third servo motor and a bidirectional threaded rod, wherein the second cavity is formed in the conveying plate, the third servo motor is arranged on one side of the conveying plate, the bidirectional threaded rod is arranged at the output end of the third servo motor, the outer wall of the bidirectional threaded rod is connected with two second thread blocks through threads, and the bearing block is arranged at the top end of the second thread block.

Preferably, one end of the bidirectional threaded rod penetrates through the conveying plate to extend to one side of the inside of the second cavity, and the bidirectional threaded rod is installed on one side of the inside of the second cavity through the rotating shaft.

Preferably, the top ends of the second thread blocks penetrate through the conveying plate, and the top ends of the second thread blocks extend to the upper side of the conveying plate.

Compared with the prior art, the utility model has the beneficial effects that: the second servo motor drives the driving rod to rotate, the driving gear is driven to rotate through the driving rod, the driving gear and the toothed ring are meshed with each other, the toothed ring can be driven to rotate through the driving gear, the bottom plate is driven through the toothed ring, the bottom plate drives the sliding block, the sliding block is enabled to do circular motion in the annular sliding groove, the movable wheel is driven to move through the bottom plate, the output position of the platform is changed, and the conveying position of the conveying platform is adjusted through the structure.

Drawings

FIG. 1 is a schematic view of a front cross-sectional structure of the present utility model;

FIG. 2 is a schematic diagram of a front view structure of the present utility model;

FIG. 3 is a schematic side view of the present utility model;

FIG. 4 is an enlarged schematic view of the structure of FIG. 1A according to the present utility model;

fig. 5 is an enlarged schematic view of the structure of fig. 1B according to the present utility model.

In the figure: 1. a support plate; 2. an annular chute; 3. a slide block; 4. a first threaded block; 5. a movable wheel; 6. a bottom plate; 7. a first cavity; 8. a one-way threaded rod; 9. a support structure; 901. a second threaded block; 902. a support block; 903. a second cavity; 904. a third servo motor; 905. a two-way threaded rod; 10. a conveying plate; 11. a pressure tank body; 12. a first servo motor; 13. a second servo motor; 14. a drive gear; 15. a toothed ring; 16. and a driving rod.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

Example 1: referring to fig. 1-5, a rotary switching platform for conveying pressure tanks comprises a supporting plate 1, an adjusting structure and a supporting structure 9;

An annular chute 2 is arranged on one side of the top end of the supporting plate 1, a plurality of sliding blocks 3 are arranged in the annular chute 2, the top ends of the sliding blocks 3 penetrate through the annular chute 2, the top ends of the sliding blocks 3 extend to the upper side of the annular chute 2, a bottom plate 6 is arranged on the top end of the sliding blocks 3, the front ends and the rear ends of the bottom end of the bottom plate 6 far away from one side of the supporting plate 1 are respectively connected with a movable wheel 5 in a rotating mode, a first cavity 7 is formed in the bottom plate 6, a unidirectional threaded rod 8 is arranged at the output end of the first servo motor 12, two first threaded blocks 4 are connected with the outer wall of the unidirectional threaded rod 8 through threads, one end of the unidirectional threaded rod 8 extends to one side of the inside of the first cavity 7 through the bottom plate 6, the top ends of the unidirectional threaded rod 8 are respectively arranged on one side of the inside of the first cavity 7 through a rotating shaft, a conveying plate 10 is arranged on the top ends of the first threaded blocks 4, and a supporting structure 9 is positioned in the conveying plate 10;

A pressure tank main body 11 is arranged above the conveying plate 10, and the adjusting structure is positioned at one side of the top end of the supporting plate 1 far away from the annular chute 2;

Referring to fig. 1-5, a rotary switching platform for conveying a pressure tank body further comprises an adjusting structure, wherein the adjusting structure comprises a second servo motor 13, the second servo motor 13 is installed at one side of the top end of a supporting plate 1 far away from an annular chute 2, a driving gear 14 is installed at the output end of the second servo motor 13, and a toothed ring 15 is installed at one side of the bottom end of a bottom plate 6;

The driving gear 14 is positioned below the toothed ring 15, and the driving gear 14 is meshed with the toothed ring 15;

Specifically, as shown in fig. 1, 2, 3 and 5, when the mechanism is used, the second servo motor 13 drives the driving rod 16 to rotate, the driving rod 16 drives the driving gear 14 to rotate, and the driving gear 14 is meshed with the toothed ring 15, so that the toothed ring 15 can be driven to rotate by the driving gear 14, and the bottom plate 6 is driven to rotate by the toothed ring 15.

Example 2: the bearing structure 9 comprises a second threaded block 901, a bearing block 902, a second cavity 903, a third servo motor 904 and a bidirectional threaded rod 905, wherein the second cavity 903 is formed in the conveying plate 10, the third servo motor 904 is arranged on one side of the conveying plate 10, the bidirectional threaded rod 905 is arranged at the output end of the third servo motor 904, the outer wall of the bidirectional threaded rod 905 is connected with two second threaded blocks 901 through threads, and the bearing blocks 902 are arranged at the top ends of the second threaded blocks 901;

One end of the bidirectional threaded rod 905 extends to one side inside the second cavity 903 through the conveying plate 10, and the bidirectional threaded rod 905 is installed on one side inside the second cavity 903 through a rotating shaft;

The top ends of the second threaded blocks 901 all penetrate through the conveying plate 10, and the top ends of the second threaded blocks 901 all extend above the conveying plate 10;

Specifically, as shown in fig. 1, 2, 3 and 4, when the mechanism is used, the rotation direction of the bidirectional threaded rod 905 is adjusted by the third servo motor 904, so that the second threaded block 901 moves in the direction of approaching to each other on the outer wall of the bidirectional threaded rod 905, and the second threaded block 901 drives the supporting block 902, so that the supporting block 902 supports the pressure tank main body 11.

Working principle: the pressure tank main body 11 to be conveyed is arranged at the top end of the conveying plate 10 by a worker, then the third servo motor 904 is started, the bidirectional threaded rod 905 is driven to rotate by the third servo motor 904, and as the bidirectional threaded rod 905 is in threaded connection with the second threaded block 901 and the second threaded block 901 is respectively positioned at two parts of the outer wall of the bidirectional threaded rod 905, which are opposite in threads, the second threaded block 901 can move along with the threads on the outer wall of the bidirectional threaded rod 905 in the rotating process of the bidirectional threaded rod 905, the moving direction is opposite, the rotating direction of the bidirectional threaded rod 905 is regulated by the third servo motor 904, the second threaded block 901 moves in the direction of approaching to each other on the outer wall of the bidirectional threaded rod 905, and the second threaded block 901 drives the supporting block 902, so that the supporting block 902 supports the pressure tank main body 11;

Then the staff can start second servo motor 13, drive actuating lever 16 rotatory through second servo motor 13, drive actuating gear 14 rotatory through actuating lever 16, because actuating gear 14 and ring gear 15 intermesh, can drive ring gear 15 rotatory through actuating gear 14, drive bottom plate 6 through ring gear 15, make bottom plate 6 drive slider 3, make slider 3 do circular motion in the inside of annular spout 2, drive running wheel 5 through bottom plate 6 and remove, the output position of messenger's platform changes, then the staff can start first servo motor 12, drive the rotation of one-way threaded rod 8 through first servo motor 12, make first thread block 4 along with the screw thread at the outer wall of one-way threaded rod 8, drive delivery plate 10 and overhead tank main part 11 through first thread block 4 and remove, carry it to the assigned position.

It will be evident to those skilled in the art that the utility model is not limited to the details of the foregoing illustrative embodiments, and that the present utility model may be embodied in other specific forms without departing from the spirit or essential characteristics thereof. The present embodiments are, therefore, to be considered in all respects as illustrative and not restrictive, the scope of the utility model being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Claims

1. The utility model provides a rotatory switching platform that pressure tank body was carried, includes backup pad (1), its characterized in that: also comprises an adjusting structure and a bearing structure (9);

The device is characterized in that one side of the top end of the supporting plate (1) is provided with an annular sliding groove (2), the inside of the annular sliding groove (2) is provided with a plurality of sliding blocks (3), the top end of each sliding block (3) is provided with a bottom plate (6), the front end and the rear end of the bottom end of each bottom plate (6) far away from one side of the supporting plate (1) are respectively and rotatably connected with a movable wheel (5), one side of each bottom plate (6) is provided with a first servo motor (12), the inside of each bottom plate (6) is provided with a first cavity (7), the output end of each first servo motor (12) is provided with a unidirectional threaded rod (8), the outer wall of each unidirectional threaded rod (8) is connected with two first threaded blocks (4) through threads, the top end of each first threaded block (4) is provided with a conveying plate (10), and a bearing structure (9) is positioned inside the conveying plate (10);

a pressure tank main body (11) is arranged above the conveying plate (10), and the adjusting structure is positioned at one side of the top end of the supporting plate (1) far away from the annular chute (2);

The adjusting structure comprises a second servo motor (13), the second servo motor (13) is arranged on one side, far away from the annular chute (2), of the top end of the supporting plate (1), a driving gear (14) is arranged at the output end of the second servo motor (13), and a toothed ring (15) is arranged on one side of the bottom end of the bottom plate (6).

2. The rotary switching platform for pressure tank transportation according to claim 1, wherein: the top ends of the sliding blocks (3) all penetrate through the annular sliding groove (2), and the top ends of the sliding blocks (3) all extend to the upper portion of the annular sliding groove (2).

3. The rotary switching platform for pressure tank transportation according to claim 1, wherein: one end of the unidirectional threaded rod (8) penetrates through the bottom plate (6) to extend to one side of the inside of the first cavity (7), and the unidirectional threaded rod (8) is installed on one side of the inside of the first cavity (7) through a rotating shaft.

4. The rotary switching platform for pressure tank transportation according to claim 1, wherein: the top ends of the first thread blocks (4) all penetrate through the bottom plate (6), and the top ends of the first thread blocks (4) all extend to the upper portion of the bottom plate (6).

5. The rotary switching platform for pressure tank transportation according to claim 1, wherein: the driving gear (14) is positioned below the toothed ring (15), and the driving gear (14) is meshed with the toothed ring (15).

6. The rotary switching platform for pressure tank transportation according to claim 1, wherein: bearing structure (9) are including second screw thread piece (901), bearing piece (902), second cavity (903), third servo motor (904) and two-way threaded rod (905), the inside in delivery board (10) is seted up in second cavity (903), and third servo motor (904) are installed in one side of delivery board (10), two-way threaded rod (905) are installed to the output of third servo motor (904), and the outer wall of two-way threaded rod (905) has two second screw thread pieces (901) through threaded connection, bearing piece (902) are all installed on the top of second screw thread piece (901).

7. The rotary switching platform for pressure tank transportation of claim 6, wherein: one end of the bidirectional threaded rod (905) penetrates through the conveying plate (10) to extend to one side of the inside of the second cavity (903), and the bidirectional threaded rod (905) is installed on one side of the inside of the second cavity (903) through a rotating shaft.

8. The rotary switching platform for pressure tank transportation of claim 6, wherein: the top ends of the second threaded blocks (901) penetrate through the conveying plate (10), and the top ends of the second threaded blocks (901) extend to the upper portion of the conveying plate (10).