The utility model discloses a double conveyor belt device, which comprises a front-end conveyor belt and a rear-end conveyor belt installed on the support frame, a front retaining component is installed between the front-end conveyor belt and the rear-end conveyor belt, a rear retaining component is installed at the end of the rear-end conveyor belt, the front retaining component and the rear retaining component are installed on the support frame and move up and down under the action of the lifting mechanism, and the bottom of the support frame is fixed Fixed on the slider, the slider slides on the linear guide rail and is connected with the top bar of the moving cylinder. The front baffle assembly includes a photoelectric sensor and a baffle installed in the middle slot of the front conveyor belt. The baffle is connected with the lifting movement of the front baffle cylinder. The support frame is respectively fixed with a limited position plate on both sides of the transmission direction. The rear baffle assembly includes a V-shaped baffle and an induction optical fiber fixed on the V-shaped baffle Type a baffle is connected, and the baffle cylinder moves up and down. The device is designed with double conveyor belts to adjust the time interval of conveying products. The products in this time period are located on the back-end conveyor belt and can be operated in the next process. The two do not interfere with each other and the overall transmission efficiency is high.
【技术实现步骤摘要】
一种双传送带装置
本技术涉及自动化输送设备设计
,特别是涉及一种双传送带装置。
技术介绍
在现有技术中,产品的输送一般是经过传送带,由于传送带的运转速度稳定,在产品传送过程中,如果需要对产品进行下道工序的加工,则需要将产品暂停输送,这就涉及到传送带的启停问题以及由此带来的整个系统的动作执行进程快慢的问题,难度高且整个系统的效率会下降,对此,需要针对传送中的产品限位问题进行解决,使之在不影响传送带正常工作的情况下,可以正常进行下道工序加工,不会起到干扰作用。
技术实现思路
本技术的目的在于克服现有技术的不足,提供一种双传送带装置,该装置克服传统单一传送带在自身输送与产品在输送过程中需要进行下道工序加工之间相互干扰的难题,有效提高整体加工的效率。为了达到上述目的,本技术采用的技术方案是:一种双传送带装置,包括安装于支撑架上直线方向排列的前端传送带和后端传送带,前端传送带与后端传送带之间安装前挡料组件,后端传送带末端安装有后挡料组件,前挡料组件和后挡料组件安装于支撑架上并在升降机构的作用下上下移动,所述的支撑架的底部固定于滑块上,滑块滑动于直线导轨上且滑块与移动气缸的顶杆连接。进一步的,如上所述的前挡料组件包括光电感应器和安装于前端传送带中缝的挡板,该挡板连接前挡料气缸升降运动,支撑架在传送方向两侧分别固定有限位板。进一步的,如上所述的后挡料组件包括V型挡板和固定于V型挡板上的感应光纤,V型挡板连接后挡料气缸升降运动。进一步的,如上所述的前端传送带通过前端电机驱动,后端传送带通过后端电机驱动。进一步的,如上所述的支撑架底部还连接调节螺杆。进一步的,如上所述的光电感 ...
【技术保护点】
1.一种双传送带装置,其特征在于,包括安装于支撑架上直线方向排列的前端传送带和后端传送带,前端传送带与后端传送带之间安装前挡料组件,后端传送带末端安装有后挡料组件,前挡料组件和后挡料组件安装于支撑架上并在升降机构的作用下上下移动,所述的支撑架的底部固定于滑块上,滑块滑动于直线导轨上且滑块与移动气缸的顶杆连接。
【技术特征摘要】
1.一种双传送带装置,其特征在于,包括安装于支撑架上直线方向排列的前端传送带和后端传送带,前端传送带与后端传送带之间安装前挡料组件,后端传送带末端安装有后挡料组件,前挡料组件和后挡料组件安装于支撑架上并在升降机构的作用下上下移动,所述的支撑架的底部固定于滑块上,滑块滑动于直线导轨上且滑块与移动气缸的顶杆连接。2.根据权利要求1所述的双传送带装置,其特征在于,所述的前挡料组件包括光电感应器和安装于前端传送带中缝的挡板,该挡板连接前挡料气缸升降运动,支撑架在传送方向两侧分别固定有限位板。3...
【专利技术属性】
技术研发人员:余鹏,
申请(专利权)人:广东诺巴特智能设备有限公司,
类型:新型
国别省市:广东,44
还没有人留言评论。发表了对其他浏览者有用的留言会获得科技券。