CN221282550U

CN221282550U - Movable power supply system applied to roller coaster body power supply

Info

Publication number: CN221282550U
Application number: CN202323142255.5U
Authority: CN
Inventors: 李华
Original assignee: BEIJING SHIBAOLAI AMUSEMENT EQUIPMENT CO LTD
Current assignee: BEIJING SHIBAOLAI AMUSEMENT EQUIPMENT CO LTD
Priority date: 2023-11-21
Filing date: 2023-11-21
Publication date: 2024-07-05
Anticipated expiration: 2033-11-21

Abstract

The utility model relates to a movable power supply system applied to power supply of a roller coaster body, which comprises a supporting table and a sliding wire table connected with the supporting table through a driving device, wherein active depth displacement of a conductive contact part of the roller coaster body is realized by adding the movable sliding wire table. When the car body moves relative to the track, the sliding wire table contracts to enable the power supply system not to be in contact with the conductive contact part of the car body; when the car body is stationary at a designated position, the slide wire table extends out to enable the power supply system to be in normal contact connection with the conductive contact part of the car body, so that extra impact on the power supply system caused by movement of the car body is avoided, and the working stability of the power supply system is improved.

Description

Movable power supply system applied to roller coaster body power supply

Technical Field

The utility model relates to the technical field of recreation equipment and power supply devices, in particular to a movable power supply system applied to power supply of a roller coaster body.

Background

The roller coaster body cannot be electrified in the running process, and a power supply system is additionally arranged at a platform position. When the vehicle body stops at a prescribed position of the platform (before and after the vehicle body is operated, the vehicle body stops to be stable), the power supply system is in contact with the vehicle body to supply power, and meanwhile, a data communication channel needs to be established for the vehicle body to perform signal detection, and the vehicle body mounting device is controlled to be started and released.

Under the prior art, the power supply system of the roller coaster adopts a fixed mode to be arranged, and the vehicle body can be contacted with the power supply system when entering a station, and power supply is started after the vehicle body stops at a designated position. However, the contact between the fixed power supply device and the vehicle body in the prior art generates a large impact, so that the power supply device is generally required to be additionally structurally reinforced, but the damage to the power supply device is still easily caused, and the operation efficiency of equipment is affected.

Disclosure of utility model

In order to solve the defects in the prior art, the utility model provides a movable power supply system applied to power supply of a roller coaster body, and active depth displacement of a conductive contact part of the opposite body is realized by adding a movable sliding wire table. When the car body moves relative to the track, the sliding wire table contracts to enable the power supply system not to be in contact with the conductive contact part of the car body; when the car body is stationary at a designated position, the slide wire table extends out to enable the power supply system to be in normal contact connection with the conductive contact part of the car body, so that extra impact on the power supply system caused by movement of the car body is avoided, and the working stability of the power supply system is improved.

In order to achieve the above object, the present utility model adopts the technical scheme that:

The movable power supply system for supplying power to the roller coaster body is characterized by comprising a supporting table and a sliding wire table connected with the supporting table through a driving device;

The supporting table is fixedly connected with the track bracket and is separated from the vehicle body running track to form a power supply channel corresponding to the vehicle body conductive contact part;

The driving device comprises an air cylinder and at least one connecting arm, the air cylinder is fixedly or rotatably connected to the supporting table, the driving end of the air cylinder is connected with the sliding wire table, and two ends of the connecting arm are rotatably connected to the supporting table and the sliding wire table respectively;

The sliding wire platform is provided with a power supply contact corresponding to the conductive contact part of the vehicle body towards one side of the power supply channel, and the sliding wire platform starts or closes through the cylinder to execute swinging displacement to stretch into the power supply channel or retract out of the power supply channel.

Further, the driving device further comprises a connecting spring matched with the connecting arm, two ends of the connecting spring are respectively and rotatably connected to the supporting table and the sliding wire table, the connecting spring stretches when swinging along with the sliding wire table and stretching into the power supply channel, and the connecting spring preloads pulling force when the sliding wire table contracts from the power supply channel and withdraws to a default position.

Further, the driving device comprises two parallel connecting arms which are arranged at intervals.

Further, the supporting table is fixedly connected with the track bracket through the support.

The beneficial effects of the utility model are as follows:

By adopting the movable power supply system applied to the roller coaster body for supplying power, active depth displacement of the conductive contact part of the relative vehicle body is realized by adding the movable sliding wire table. When the car body moves relative to the track, the sliding wire table contracts to enable the power supply system not to be in contact with the conductive contact part of the car body; when the car body is stationary at a designated position, the slide wire table extends out to enable the power supply system to be in normal contact connection with the conductive contact part of the car body, so that extra impact on the power supply system caused by movement of the car body is avoided, and the working stability of the power supply system is improved.

Drawings

Fig. 1 is a schematic view of a preferred embodiment of the mobile power supply system of the present utility model applied to a roller coaster body for power supply.

Fig. 2 is a schematic diagram illustrating the operation of a preferred embodiment of the present utility model.

Description of the drawings: 1-supporting table, 11-power supply channel, 12-support, 21-cylinder, 22-connecting arm, 23-connecting spring, 3-slide wire table, 31-power supply contact, 41-track support, 42-track, 5-car body conductive contact

Detailed Description

For a clearer understanding of the present utility model, reference will be made to the following detailed description taken in conjunction with the accompanying drawings and examples.

A preferred embodiment of the utility model, shown in fig. 1, for a mobile power supply system for supplying power to a roller coaster body, comprises a support table 1 and a slide table 3 connected to said support table 1 by means of a drive device. Wherein, the supporting table 1 is fixedly connected with the track bracket 41 through the support 12, and the power supply channel 11 corresponding to the conductive contact part of the vehicle body is formed by the width of the support 12 and the vehicle body running track 42. The slide wire table 3 is provided with a power supply contact 31 corresponding to the vehicle body conductive contact part 5 on the side facing the power supply channel 11 for supplying power to the vehicle body. The driving device comprises an air cylinder 21 and two parallel connecting arms 22 which are arranged at intervals, wherein the air cylinder 21 is rotatably connected to the supporting table 1, meanwhile, the driving end of the air cylinder 21 is connected with the sliding wire table 3, and two ends of the connecting arms 22 are rotatably connected to the supporting table 1 and the sliding wire table 3 respectively. When the cylinder 21 is in the closed state, the sliding wire platform 3 is retracted from the power supply channel 11, so that the sliding wire platform 3 (the power supply contact 31) is not contacted with the conductive contact part 5 of the vehicle body (as shown in the working state of fig. 2), and the corresponding roller coaster vehicle body is still in the state of moving, so that the power supply system is not collided with the vehicle body, and the power supply system is prevented from being damaged by impact. When the cylinder 21 is in the on state, the sliding wire platform 3 swings and stretches into the power supply channel 11, so that the sliding wire platform 3 (the power supply contact 31) is in contact with the vehicle body conductive contact part 5 and supplies power to the vehicle body, so that the tourist safety device is opened and closed, and signals are transmitted, and at the moment, the state when the roller coaster vehicle body stops at the appointed position of the platform corresponds to the state that the power supply system contacts the vehicle body, and no worry about vehicle body impact is needed. When the power supply of the vehicle body is finished and before the vehicle body needs to be started again, the air cylinder 21 is turned into a closed state, and the sliding wire table 3 is retracted and withdrawn from the power supply channel 11 in a swinging manner, so that the normal operation of the vehicle body is not affected.

Preferably, the driving device further comprises a connecting spring 23 matched with the connecting arm 22, and the connecting spring 23 is preloaded with a tensile force, so that a certain tensile force can be provided when the sliding wire table 3 is retracted and withdrawn from the power supply channel 11 to a default position, and the sliding wire table 3 is prevented from accidentally invading into the power supply channel 11 to influence the normal operation of the vehicle body.

The foregoing is only a preferred embodiment of the present utility model, but the scope of the present utility model is not limited thereto, and any changes or substitutions easily contemplated by those skilled in the art within the scope of the present utility model should be included in the scope of the present utility model. Therefore, the protection scope of the present utility model should be subject to the protection scope of the claims.

Claims

1. The movable power supply system for supplying power to the roller coaster body is characterized by comprising a supporting table and a sliding wire table connected with the supporting table through a driving device;

2. The mobile power supply system of claim 1, wherein the drive means further comprises a connecting spring matching the connecting arm, the connecting spring is rotatably connected to the support table and the slide table at both ends, respectively, the connecting spring stretches as the slide table swings and stretches into the power supply channel, and the connecting spring preloads a pulling force when the slide table is retracted from the power supply channel to a default position.

3. The mobile power supply system of claim 1, wherein the drive means comprises two parallel spaced apart connecting arms.

4. The mobile power supply system of claim 1, wherein the support table is fixedly connected to the track bracket via a mount.