CN-224229625-U - Adjustable intelligent controller and cross-vehicle conveying system

Abstract

The utility model discloses an adjustable intelligent controller and a vehicle-crossing conveying system, relates to the technical field of controllers, and aims to solve the technical problem that the steering adjustment of the current intelligent controller is not stable and rapid enough. According to the steering mechanism, the steering mechanism is formed by the mounting tube, the sleeve, the first spring, the mounting rod, the gear positioning structure and the like, so that when the steering mechanism is used for steering and adjusting the controller main body, a person can pull down the sleeve through stepping on the pedal, then the first gear at the bottom end of the mounting rod can be separated from the first tooth socket of the mounting sleeve, at the moment, the person can directly hold the controller main body to rotate to adjust the direction of the controller main body, after adjustment is completed, the stepping on the pedal is released, under the reset of the first spring, the sleeve and other structures are reset, at the moment, the first gear at the bottom end of the mounting rod can be clamped into the first tooth socket again, at the moment, the fixing of the mounting rod is realized, and the fixing of the sleeve and the controller main body is realized.

Inventors

• LIN FENG

Assignees

• 施朗智能科技(江苏)有限公司

Dates

Publication Date

20260512

Application Date

20250630

Claims (8)

1. 1. The utility model provides an intelligent control ware with adjustable, its characterized in that, includes base (1), steering structure (2) have been arranged at base (1) top, steering structure (2) are last to have arranged controller main part (3), steering structure (2) are including installation pipe (4), sleeve pipe (5), first spring (6) and installation pole (7), sleeve pipe (5) cover is on installation pipe (4), first spring (6) are located sleeve pipe (5) inner top, and first spring (6) bottom is connected with installation pipe (4) top, installation pole (7) are arranged in sleeve pipe (5) inner top central authorities, and installation pole (7) stretch into in installation pipe (4), gear positioning structure (8) have been arranged in installation pipe (4) inside department that is located installation pole (7) bottom. A rotating structure (9) is arranged below the gear positioning structure (8) in the installation tube (4).
2. 2. An adjustable intelligent controller according to claim 1, characterized in that a connecting rod (501) is arranged at the bottom of the sleeve (5) in a circle, a sleeve ring (502) is arranged at the bottom of the connecting rod (501), the sleeve ring (502) is sleeved on the mounting pipe (4), and a pedal (503) is rotatably arranged on the sleeve ring (502).
3. 3. An adjustable intelligent controller according to claim 2, characterized in that the second balls (13) are arranged on the inner wall of the sleeve (5) in a rolling way, and the third balls (14) are arranged on the inner wall of the sleeve (502) in a rolling way.
4. 4. The adjustable intelligent controller according to claim 1, wherein the gear positioning structure (8) comprises a mounting sleeve (801) and a first gear (803), the first gear (803) is arranged at the bottom end of the mounting rod (7), the mounting sleeve (801) is arranged in the mounting tube (4), the inner hole of the mounting sleeve (801) is a first tooth slot (802), and the first tooth slot (802) is matched with the first gear (803).
5. 5. The adjustable intelligent controller according to claim 4, wherein the rotating structure (9) comprises a mounting seat (901), a rotating seat (904) and a second gear (907), the mounting seat (901) is arranged in the mounting tube (4), the rotating seat (904) is movably arranged in the mounting seat (901), a spiral groove (903) is arranged on the inner wall of the mounting seat (901), a plurality of groups of equidistant fourth balls (905) are arranged on the rotating seat (904) in a rolling way, the fourth balls (905) are positioned in the spiral groove (903), a second spring (902) is arranged inside the mounting seat (901), the top end of the second spring (902) is connected with the bottom of the rotating seat (904), a second tooth groove (906) is arranged on the top of the rotating seat (904), the second gear (907) is arranged on the bottom of the first gear (803), and the second gear (907) is matched with the second tooth groove (906).
6. 6. The adjustable intelligent controller according to claim 5, wherein the top of the second spring (902) and the top of the first spring (6) are provided with a circular ring (10), a plurality of groups of equidistant first balls (11) are arranged on the top of the circular ring (10) in a rolling way, and the inner top of the sleeve (5) and the bottom of the rotating seat (904) are provided with matching grooves (12) corresponding to the first balls (11).
7. 7. The intelligent controller according to claim 5, wherein the first tooth slot (802), the first gear (803), the second tooth slot (906) and the second gear (907) are all of conical design, the first tooth slot (802) and the first gear (803) are big-end down and the lower head is up, and the second tooth slot (906) and the second gear (907) are big-end up and the lower head is down.
8. 8. A straddle carrier transmission system comprising an adjustable intelligent controller according to any one of claims 1 to 7.

Description

Adjustable intelligent controller and cross-vehicle conveying system Technical Field The utility model relates to the technical field of controllers, in particular to an adjustable intelligent controller and a cross-car conveying system. Background The cross-vehicle conveying system is mainly used for conveying materials in a cross-workshop or cross-region in industrial production, is widely applied to the fields of metallurgy, machine manufacturing, warehouse logistics and the like, and is generally required to realize accurate control of movement, start-stop, positioning and other actions of a vehicle body through a controller so as to ensure the efficiency and safety of material conveying, and when the intelligent controller is used, a rotating structure is generally required to be arranged to realize steering adjustment of the intelligent controller in order to facilitate personnel to adjust parameters, conveying states and the like of various devices, so that the personnel can visually observe the running states and conditions of the various devices when operating the intelligent controller. The rotating structure in the existing intelligent controller is usually the rotating structure of a motor screw rod or the rotating structure of a rotating seat and a fixing piece, the rotating structure of the motor screw rod is required to consume power, the structure is complex, the intelligent controller cannot be turned and adjusted when the rotating structure of the rotating seat and the fixing piece is used, the fixing piece is required to be taken out firstly, then the intelligent controller is rotated through the rotating seat, after the direction of the intelligent controller is adjusted, the intelligent controller is required to be fixed through the fixing piece again, the operation is troublesome, and the intelligent controller is inconvenient to use, and in view of the fact, the intelligent controller and the straddle carrier conveying system are provided. Disclosure of utility model The utility model aims to overcome the defects of the prior art, adapt to the actual needs, and provide an adjustable intelligent controller so as to solve the technical problem that the steering adjustment of the current intelligent controller is not stable and rapid enough. In order to solve the technical problems, the utility model provides an adjustable intelligent controller and a cross-car conveying system, which comprises a base, wherein a steering structure is arranged at the top of the base, a controller main body is arranged on the steering structure, the steering structure comprises a mounting pipe, a sleeve, a first spring and a mounting rod, the sleeve is sleeved on the mounting pipe, the first spring is positioned at the inner top of the sleeve, the bottom of the first spring is connected with the top of the mounting pipe, the mounting rod is arranged at the center of the inner top of the sleeve, the mounting rod extends into the mounting pipe, and a gear positioning structure is arranged at the bottom of the mounting rod inside the mounting pipe; and a rotating structure is arranged below the gear positioning structure in the installation pipe. Preferably, a connecting rod is arranged at the periphery of the bottom of the sleeve, a sleeve ring is arranged at the bottom of the connecting rod, the sleeve ring is sleeved on the mounting tube, and a pedal is rotatably arranged on the sleeve ring. Preferably, the sleeve inner wall is rollingly arranged with second balls, and the collar inner wall is rollingly arranged with third balls. Preferably, the gear positioning structure comprises a mounting sleeve and a first gear, the first gear is arranged at the bottom end of the mounting rod, the mounting sleeve is arranged in the mounting pipe, an inner hole of the mounting sleeve is a first tooth slot, and the first tooth slot is matched with the first gear. Preferably, the rotating structure comprises a mounting seat, a rotating seat and a second gear, wherein the mounting seat is arranged in a mounting pipe, the rotating seat is movably arranged in the mounting seat, a spiral groove is arranged on the inner wall of the mounting seat, a plurality of groups of equidistant fourth balls are arranged on the rotating seat in a rolling way, the fourth balls are positioned in the spiral groove, a second spring is arranged inside the mounting seat, the top end of the second spring is connected with the bottom of the rotating seat, a second tooth groove is arranged at the top of the rotating seat, the second gear is arranged at the bottom of the first gear, and the second gear is matched with the second tooth groove. Preferably, the second spring and the top of the first spring are provided with circular rings, a plurality of groups of equidistant first balls are arranged on the top of each circular ring in a rolling way, and matching grooves corresponding to the first balls are formed in the inner top of the sleeve and th