阅读说明：本技术 一种双层电动式翻板装置 (Double-layer electric plate turnover device ) 是由 吕春蕾 丁春雨 彭敬忠 屈文庆 于 2019-03-28 设计创作，主要内容包括：本发明涉及一种双层电动式翻板装置,针对轮胎输送线中轮胎行进路线设计,属于轮胎输送机械领域。设在同一平面内有两条互相平行的输送线,双层电动翻板主体由辊道机、皮带机、接取辊道、驱动电机、双侧连接杆、双侧曲柄连杆装置等组成,辊道机及皮带机通过各自的转轴转动,各转轴通过轴承及紧固件组件安装于双层输送线的某一位置,双侧连接杆将辊道机及皮带机连接在一起,通过双侧曲柄连杆装置与驱动电机连接,接取辊道由气缸驱动,在需要的路线上实现与其他输送线的接取功能。驱动电机转动过程中通过位置开关控制双层翻板可实现三个位置,继而实现轮胎三条行进路线。本发明可实现多条轮胎行进路线,辊道机与皮带机同时动作,接取轮胎平稳,电机驱动平稳快速,结构简单。(The invention relates to a double-layer electric plate turnover device, which is designed for a tire advancing route in a tire conveying line and belongs to the field of tire conveying machinery. Establish and have two transfer chain that are parallel to each other in the coplanar, double-deck electronic board main part that turns over is by the roll table machine, the belt feeder, connect and get the roll table, driving motor, two side connecting rods, two side crank link device etc. constitute, roll table machine and belt feeder rotate through respective pivot, each pivot is installed in a certain position of double-deck transfer chain through bearing and fastener subassembly, two side connecting rods link together roll table machine and belt feeder, be connected with driving motor through two side crank link device, it is driven by the cylinder to connect and get the roll table, realize on the route that needs and connect with other transfer chain and get the function. The double-layer turning plate is controlled by the position switch in the rotation process of the driving motor to realize three positions, and then three advancing routes of the tire are realized. The invention can realize a plurality of tire advancing routes, the roller machine and the belt conveyor act simultaneously, the tire receiving and taking are stable, the motor drives stably and quickly, and the structure is simple.)

1. A double-layer electric flap device is characterized by comprising: the main body comprises a roller way machine (3), a belt conveyor (4), a receiving roller way (5) and the like, the roller way machine (3) comprises a roller way machine roller (3-2), a roller way machine frame (3-3) and is connected with a roller way machine rotating shaft (3-1) through a bearing assembly, the belt conveyor (4) comprises a belt conveyor motor (4-2), a belt conveyor carrier roller (4-3), a belt conveyor frame (4-4), a belt (4-5) and a belt conveyor roller (4-6), and is connected with the belt conveyor rotating shaft (4-1) through the bearing assembly, the roller way machine (3) and the belt conveyor (4) are fixed on a support piece (7) through bearings and fastening screw assemblies and are connected together through the bearing assembly by double-side connecting rods (11), the receiving roller way (5) comprises an air cylinder (5-1), the receiving roller way roller (5-, A receiving roller bed frame (5-3), a component, which is fixed on the belt conveyor frame (4-4) through a fastening screw component, one end of a bilateral connecting rod (8) is connected with the belt conveyor (4) through a bearing component, the other end of the bilateral connecting rod (8) is connected with a bilateral crank (9) through a bearing component, the bilateral crank (9) is connected with a driving motor (10) through a key, the driving motor (10) can realize three positions through controlling a double-layer turning plate through a position switch in the rotating process, thereby realizing three advancing routes of the tire, the roller bed machine (3) and the belt conveyor (4) rotate through a roller bed machine rotating shaft (3-1) and a belt conveyor rotating shaft (4-1), each rotating shaft is arranged at a certain position of the double-layer conveying line through a bearing and a fastening component, the roller bed machine (3) and the belt conveyor (4, is connected with a driving motor (10) through a bilateral crank (9) and a bilateral connecting rod (8); route one: the upper layer of tires (6) move on the upper layer of conveying line (1) through a roller machine (3), and the lower layer of tires (6) move on the lower layer of conveying line (2) through a belt conveyor (4); and a second route: the lower layer tire (6) travels to the upper layer conveying line (1) through the belt conveyor (4); and a third route: the upper layer tire (6) moves to the lower layer conveying line (2) through the roller way machine (3) and the receiving roller way (5).

2. The dual-layer electric flap device according to claim 1, wherein: the roller machine (3), the belt conveyor (4), the receiving roller bed (5), the bilateral connecting rods (8), the bilateral cranks (9), the driving motor (10) and the bilateral connecting rods (11) form a double-layer overturning main body.

3. The dual-layer electric flap device according to claim 1, wherein: the parallelism of the roller machine (3) and the belt conveyor (4) can be adjusted through the connecting rods (11) at the two sides to form a stable parallelogram.

4. The dual-layer electric flap device according to claim 1, wherein: the driving device is a motor (10) and drives the bilateral crank (9) and the bilateral connecting rod (8) mechanism to realize overturning.

5. The dual-layer electric flap device according to claim 1, wherein: the receiving roller way (5) is driven by the cylinder (5-1) to realize the receiving function.

Technical Field

The invention belongs to the field of tire conveying machinery, and particularly relates to a double-layer electric plate turnover device.

Background

Two or more layers can be designed according to requirements in the design of the tire conveying line so as to convey tires of different varieties to different positions such as detection or storehouses in the conveying process. Therefore, the traveling route of the tire needs to be changed through the turning plate or other devices during the conveying process so as to achieve the purpose that the tire travels in the correct route. When the plate turnover device is used, different advancing routes are usually realized by using a plurality of turnover plates at different positions, the number of the turnover plates is too large, and the tire cannot smoothly advance due to too much action.

Disclosure of Invention

According to the tire traveling route problem, the technical problem solved by the invention is as follows: provides a double-layer electric flap device which can quickly change the running route of a tire.

The technical scheme adopted by the invention is as follows: establish and have two transfer chain that are parallel to each other in the coplanar, double-deck electronic board main part that turns over is by the roll table machine, the belt feeder, connect and get the roll table, driving motor, two side connecting rods, two side crank link device etc. constitute, roll table machine and belt feeder rotate through respective pivot, each pivot is installed in a certain position of double-deck transfer chain through bearing and fastener subassembly, two side connecting rods link together roll table machine and belt feeder, be connected with driving motor through two side crank link device, it is driven by the cylinder to connect and get the roll table, realize on the route that needs and connect with other transfer chain and get the function. The double-layer turning plate is controlled by the limit switch in the rotation process of the driving motor to realize three positions, and then three advancing routes of the tire are realized. Route one: the upper layer of tires advance on the upper layer of conveying line through a roller machine, and the lower layer of tires advance on the lower layer of conveying line through a belt conveyor; and a second route: the upper layer tire enters a lower layer conveying line through a roller machine; and a third route: the lower layer tire enters the upper layer conveying line through the belt conveyor.

The tire taking device has the advantages that a set of device can realize multiple tire advancing routes, the roller machine and the belt conveyor act simultaneously, driving is reduced, tire taking is stable, motor driving is stable and rapid, and the structure is simple.

Drawings

FIG. 1 is a general diagram of the present invention, wherein: 1. the device comprises an upper layer conveying line, a lower layer conveying line, a roller way machine, a belt conveyor, a receiving roller way, a tire, a supporting piece, a connecting rod, a crank, a driving motor and a connecting rod, wherein the roller way machine is arranged at 3, the belt conveyor is arranged at 4, the receiving roller way is arranged at 5, the tire is arranged at 6, the supporting piece is arranged at 7, the connecting rod is arranged at 8, the connecting.

FIG. 2 is a diagram of the position of the invention, wherein 3-1. roller bed machine rotating shaft, 3-2. roller bed machine roller, 3-3. roller bed machine frame, 4-1. belt machine rotating shaft, 4-2. belt machine motor, 4-3. belt machine carrier roller, 4-4. belt machine frame, 4-5. belt, 4-6. belt machine roller, 5-1. cylinder, 5-2. receiving roller bed roller and 5-3. receiving roller bed frame.

Fig. 3 is a diagram of the position two of the present invention.

Fig. 4 is a position diagram of the present invention.

Detailed Description

In the drawings of fig. 1, fig. 2, fig. 3 and fig. 4, an upper layer conveying line (1) and a lower layer conveying line (2) are positioned on the same horizontal plane and arranged in parallel, and a roller machine (3) is formed by connecting a roller machine roller (3-2) and a roller machine frame (3-3) with a roller machine rotating shaft (3-1) through a bearing assembly. The belt conveyor (4) is formed by connecting a belt conveyor motor (4-2), a belt conveyor carrier roller (4-3), a belt conveyor frame (4-4), a belt (4-5) and a belt conveyor roller (4-6) with a belt conveyor rotating shaft (4-1) through a bearing assembly. The roller machine (3) and the belt conveyor (4) are fixed on the supporting piece (7) through a bearing and a fastening screw assembly and are connected together through a bearing assembly by a connecting rod (11) at two sides. The receiving roller way (5) consists of an air cylinder (5-1), a receiving roller way roller (5-2) and a receiving roller way rack (5-3), and is fixed on the belt conveyor rack (4-4) through a fastening screw assembly. One end of the double-side connecting rod (8) is connected with the belt conveyor (4) through a bearing assembly, the other end of the double-side connecting rod (8) is connected with the double-side crank (9) through the bearing assembly, and the double-side crank (9) is connected with the driving motor (10) through a key.

The double-layer electric turning plate is shown in the figure 2 as a first position, a driving motor (10) drives a double-side crank (9) and a double-side connecting rod (8) to rotate to the first position, a roller machine (3) and an upper conveying line (1) are at the same angle, a belt conveyor (4) and a lower conveying line (2) are at the same angle, a receiving roller way (5) is driven by a cylinder (5-1) to be located below the roller machine (3) at the first position, so that an upper tire (6) can advance on the upper conveying line (1), and a lower tire (6) can advance on the lower conveying line (2).

The position II of the double-layer electric turning plate is shown in figure 3, a driving motor (10) drives double-side cranks (9) and double-side connecting rods (8) to rotate to the position, the roller machine (3) and the belt conveyor (4) turn upwards, the belt conveyor (4) is bordered by the upper-layer conveying line (1), the position is provided with a receiving roller way (5) which is driven by a cylinder (5-1) to be positioned below the roller machine (3), and the belt conveyor (4) is driven by a belt conveyor motor (4-2) to convey a lower-layer tire (6) to the upper-layer conveying line (1) to advance.

The third position of the double-layer electric turning plate is shown in fig. 4, a driving motor (10) drives double-side cranks (9) and double-side connecting rods (8) to rotate to the third position, the roller machine (3) and the belt conveyor (4) turn downwards, the roller machine (3) is bordered by the lower-layer conveying line (2), the receiving roller way (5) at the third position is driven by a cylinder (5-1) to be located in front of the roller machine (3), and an upper-layer tire (6) travels to the lower-layer conveying line (2) through the roller machine (3) and the receiving roller way (5).