CN-224226625-U - Container turnover machine

Abstract

The utility model discloses a container turnover machine, which relates to the field of container loading and unloading and comprises two symmetrically arranged supporting seats, wherein lifting hydraulic rods are arranged on the two supporting seats, supporting frames are arranged on the lifting hydraulic rods, a plurality of connecting rods are arranged between the two supporting frames, a turnover frame is arranged on the plurality of connecting rods, one end of the turnover frame is provided with an auxiliary stabilizing mechanism, the auxiliary stabilizing mechanism comprises a stabilizing rod arranged on the turnover frame, a stabilizing seat is fixed on the stabilizing rod, a stabilizing plate is arranged on the stabilizing seat, and a storage adjusting mechanism is arranged between the stabilizing seat and the turnover frame. The utility model uses the stabilizing plate to support the tail of the container, thereby improving the stability of the container in the overturning process, and reducing the possibility of overlarge stress of the fixing buckle and influencing the service life caused by the concentration of the weight on the fixing buckle after the container is filled with goods.

Inventors

• GUO FENG

Assignees

• 安徽徽丰机械科技有限公司

Dates

Publication Date

20260512

Application Date

20250606

Claims (8)

1. 1. The container turnover machine comprises two symmetrically arranged supporting seats (1) and is characterized in that two lifting hydraulic rods (2) are arranged on the supporting seats (1), a supporting frame (3) is arranged on the lifting hydraulic rods (2), a plurality of connecting rods (4) are arranged between the supporting frames (3), a turnover frame (5) is arranged on the connecting rods (4), a turnover hydraulic rod (9) is arranged between one side of the lifting hydraulic rods (2) and one end of the supporting frame (3), four fixing buckles (6) which are symmetrical in pairs are fixed on the turnover frame (5), an auxiliary stabilizing mechanism (7) is arranged at one end of the turnover frame (5), the auxiliary stabilizing mechanism (7) comprises a stabilizing rod (72) arranged on the turnover frame (5), a stabilizing seat (71) is fixed on the stabilizing rod (72), a stabilizing plate (73) is arranged on the stabilizing seat (71), and a storage adjusting mechanism (8) is arranged between the stabilizing seat (71) and the turnover frame (5).
2. 2. The container turnover machine of claim 1, wherein two symmetrical first support rods (74) are arranged between the stabilizing seat (71) and the stabilizing plate (73), one side of each first support rod (74) is provided with a second support rod (75), each first support rod (74) is rotatably connected with the middle part of each second support rod (75), one end of each first support rod (74) is rotatably connected with the stabilizing plate (73), one end of each second support rod (75) is rotatably connected with the stabilizing seat (71), and a driving assembly (76) is arranged between each first support rod (74) and the stabilizing seat (71).
3. 3. The container turnover machine of claim 2, wherein one end of the second supporting rod (75) far away from the stabilizing seat (71) is rotatably connected with a first sliding block (78), the stabilizing plate (73) is provided with a first sliding groove (77), and the first sliding block (78) is positioned in the first sliding groove (77) and is in sliding connection with the stabilizing plate (73).
4. 4. The container turnover machine of claim 3, wherein the driving assembly (76) comprises a moving block (761) arranged on a stabilizing seat (71), driving rods (762) are fixed at two ends of the moving block (761), one end, far away from the stabilizing plate (73), of each supporting rod (74) is rotatably connected with the corresponding driving rod (762), a driving threaded rod (764) is rotatably connected to the stabilizing seat (71), the driving threaded rod (764) penetrates through the moving block (761) and is in threaded connection with the moving block (761), a driving motor (763) is fixed on the stabilizing rod (72), and the output end of the driving motor (763) is fixedly connected with the driving threaded rod (764).
5. 5. The container turnover machine of claim 4, wherein the moving block (761) is fixedly provided with a second sliding block (765), the stabilizing seat (71) is provided with a second sliding groove (766), the second sliding block (765) is positioned in the second sliding block, and the second sliding block (765) is in sliding connection with the stabilizing seat (71).
6. 6. The container turnover machine according to claim 2, wherein the storage adjusting mechanism (8) comprises two supporting rails (81) symmetrically fixed on the turnover frame (5), two supporting rails (81) are slidably connected with adjusting rods (82), one ends of the adjusting rods (82) are fixedly connected with the stabilizing rods (72), the two adjusting rods (82) are located on two sides of the stabilizing seat (71) and are fixedly connected with the stabilizing seat (71), an adjusting component (83) is arranged between one supporting rail (81) and each adjusting rod (82), and a limiting component (84) is arranged between each supporting rail (81) and each adjusting rod (82).
7. 7. The container turnover machine of claim 6, wherein the adjusting assembly (83) comprises an adjusting motor (831) fixed on the turnover frame (5), an output end of the adjusting motor (831) is fixed with an adjusting gear (832), one adjusting rod (82) is provided with evenly distributed tooth grooves (833), and the adjusting gear (832) penetrates through the supporting rail (81) and is meshed with the tooth grooves (833) on the adjusting rod (82).
8. 8. The container turnover machine of claim 7, wherein the limit assembly (84) comprises a limit block (841) fixed on the adjusting rod (82), the limit block (841) is located at one end of the adjusting rod (82) far away from the stabilizing rod (72), the support rail (81) is provided with a limit groove (842), and the limit block (841) corresponds to the limit groove (842).

Description

Container turnover machine Technical Field The utility model relates to the field of container loading and unloading, in particular to a container overturning machine. Background The container turnover machine is a large-scale mechanical device for performing turnover operation on a container, and is widely applied to ports, logistics centers and places where special loading and unloading operations are required on the container, and the main function of the container turnover machine is to quickly and safely turn the container from one placing state to another state, such as from horizontal placing to vertical placing, so that the container door is upwards used for loading granular cargoes. The structure of the container turnover machine mainly comprises a fixed frame, a turnover frame, an adjusting and connecting device, an opening and closing structure, a power system and the like, wherein the fixed frame provides a supporting base, the turnover frame realizes the turnover action of the container, the turnover frame is generally connected with the container by utilizing a fixed buckle, and the adjusting and connecting device ensures the stability of the turnover. In the container loading and unloading process, traditional tipping arrangement generally only relies on fixed knot to be connected with the container, and the container afterbody lacks effective support when overturning, and this not only can lead to the upset process unstable, appears rocking or slope easily, and perhaps concentrate on fixed knot because of cargo weight, makes fixed knot atress too big, influences its life. Disclosure of utility model The utility model mainly aims to provide a container overturning machine which can effectively solve the problems that the tail of a container is lack of effective support during overturning due to the fact that conventional overturning equipment is connected with the container only by virtue of a fixing buckle, the overturning process is unstable and easy to shake or incline, and the weight of goods is concentrated on the fixing buckle, so that the fixing buckle is stressed too much, and the service life of the fixing buckle is influenced. In order to achieve the above purpose, the technical scheme adopted by the utility model is as follows: the utility model provides a container turnover machine, includes the supporting seat that two symmetries set up, two all install the lift hydraulic stem on the supporting seat, install the support frame on the lift hydraulic stem, two install a plurality of connecting rod between the support frame, a plurality of install the roll-over stand on the connecting rod, install the upset hydraulic stem between one side of lift hydraulic stem and the one end of support frame, be fixed with four pairwise symmetrical fixed knot on the roll-over stand, the one end of roll-over stand is provided with auxiliary stabilization mechanism, auxiliary stabilization mechanism is including setting up the stabilizer bar on the roll-over stand, be fixed with the stabilizer bar on the stabilizer bar, be provided with the stabilizer plate on the stabilizer bar, be provided with between stabilizer bar and the roll-over stand and accomodate adjustment mechanism. Through adopting above-mentioned technical scheme, link together the fixed knot on container and the roll-over stand after, utilize the stable seat of auxiliary stabilization mechanism to remove the afterbody of container, then utilize the stabilizer plate to hold the afterbody of container to can improve the stability of container upset in-process, reduce simultaneously that the container fills up the goods after, weight concentrate on fixed knot, cause fixed knot atress too big, influence life's possibility. Further, be provided with two symmetrical bracing pieces first between stable seat and the stable board, one side of bracing piece first is provided with the bracing piece second, the bracing piece first rotates with the middle part of bracing piece second and is connected, the one end and the stable board of bracing piece first rotate to be connected, the one end and the stable seat of bracing piece second rotate to be connected, be provided with drive assembly between bracing piece first and the stable seat. Through adopting above-mentioned technical scheme, utilize bracing piece one and bracing piece two to support the stabilizer plate, the angle change of bracing piece one and bracing piece two drives the stabilizer plate and removes to can conveniently let the stabilizer plate conflict on the container. Further, one end of the second support rod far away from the stabilizing seat is rotationally connected with a first sliding block, a first sliding groove is formed in the stabilizing plate, and the first sliding block is located in the first sliding groove and is in sliding connection with the stabilizing plate. Through adopting above-mentioned technical scheme, let bracing piece two when the angle changes, let the