阅读说明：本技术 槽端自动齐面装置 (Automatic noodle aligning device for groove end ) 是由 柳先知 王新云 徐龙朝 高同绪 张硕 于 2020-06-17 设计创作，主要内容包括：一种槽端自动齐面装置,包括输送槽,在所述的输送槽的端口上的两侧上端分别安装第一固定板和第二固定板,两者之间通过连接杆相互连接；在该第一固定板与第二固定板之间转动支撑齐面摆架的后端轴的两端,在该齐面摆架前端铰接有齐面固定架顶端的摆臂轴,在该齐面固定架上装有齐面板；在该摆臂轴的一端固定有摆臂,该摆臂的顶端通过第二连杆与第一固定板铰接；该齐面摆架的一侧通过一凸轮传动机构与动力装置传动连接,驱动该齐面摆架的前端围绕后端轴上下摆动。本发明的优点是：此设备通过输送线传动主轴上固定的凸轮供给齐面装置动力,使齐面与物料输送同步进行,设备稳定性更强,且不用单独动力,节约成本。(A groove end automatic face aligning device comprises a conveying groove, wherein a first fixing plate and a second fixing plate are respectively arranged at the upper ends of two sides of a port of the conveying groove and are connected with each other through a connecting rod; the two ends of a rear end shaft of the flush swing frame are rotatably supported between the first fixing plate and the second fixing plate, a swing arm shaft at the top end of the flush fixing frame is hinged to the front end of the flush swing frame, and a flush plate is arranged on the flush fixing frame; a swing arm is fixed at one end of the swing arm shaft, and the top end of the swing arm is hinged with the first fixed plate through a second connecting rod; one side of the flush swing frame is in transmission connection with a power device through a cam transmission mechanism, and the front end of the flush swing frame is driven to swing up and down around a rear end shaft. The invention has the advantages that: the cam fixed on the transmission main shaft of the conveying line is used for supplying power to the noodle aligning device, so that noodle aligning and material conveying are carried out synchronously, the stability of the equipment is stronger, independent power is not needed, and the cost is saved.)

1. The automatic groove end face aligning device comprises a conveying groove and is characterized in that a first fixing plate (11) and a second fixing plate (20) are respectively installed at the upper ends of two sides of a port of the conveying groove and are connected with each other through a connecting rod (15); two ends of a rear end shaft (24) of the flush face swing frame (16) are rotatably supported between the first fixing plate (11) and the second fixing plate (20), a swing arm shaft (17) at the top end of the flush face fixing frame (18) is hinged to the front end of the flush face swing frame (16), and a flush face plate (19) is arranged on the flush face fixing frame (18); a tension spring is connected between the noodle aligning swing frame (16) and the noodle aligning fixed frame (18); a swing arm (25) is fixed at one end of the swing arm shaft (17), and the top end of the swing arm (25) is hinged with the first fixing plate (11) through a second connecting rod (14); one side of the flush pendulum frame (16) is in transmission connection with a power device through a cam transmission mechanism, and the front end of the flush pendulum frame (16) is driven to swing up and down around a rear end shaft (24).

2. The automatic flush device of groove end of claim 1, characterized in that, the cam transmission mechanism comprises a cam (7), a bearing (8), a rocker arm (9) and a first connecting rod (10), the cam (7) is fixed on the driving shaft (6), the driving shaft (6) is rotatably installed on the frame; the fulcrum of a lever-type rocker arm (9) is rotatably arranged on the frame, one end of the rocker arm (9) is provided with a bearing (8) and corresponds to the cam (7), and the other end of the rocker arm (9) is hinged with the flush rocker frame (16) through a first connecting rod (10).

3. The automatic noodle aligning device at the groove end according to claim 1 or 2, wherein the power device comprises a servo motor (1), a motor fixing plate (2), a driving chain wheel (3), a transmission chain (4) and a driven chain wheel (5), the servo motor (1) is fixed on the motor fixing plate (2), and the motor fixing plate (2) is fixed on a machine frame; the driving chain wheel (3) is arranged on an output shaft of the servo motor (1), the driven chain wheel (5) is fixed on the driving shaft (6), and the transmission chain (4) is connected between the driving chain wheel (3) and the driven chain wheel (5).

4. The automatic flush-mounting device for the slot end of the conveying trough of claim 1, wherein a guide rail (22) is respectively arranged at the upper ends of the two sides of the port of the conveying trough, and the first fixing plate (11) and the second fixing plate (20) are slidably arranged on the guide rail (22); the front end of the first fixing plate (11) is connected with a nut, the nut is screwed into the top end of an adjusting screw rod (12), the adjusting screw rod (12) is rotatably connected to a screw rod fixing plate (13), and the latter is connected with a rack; an adjusting hand wheel is arranged at the other end of the adjusting screw rod (12).

Technical Field

The invention relates to an automatic noodle aligning device at a groove end, which is mainly used for arranging fine dried noodles in a fine dried noodle packaging process and belongs to the technical field of food packaging machinery.

Background

The existing material conveying equipment is usually provided with an independent flush device around a groove or an independent equipment for material arrangement, the two methods need to be additionally provided with photoelectric and other sensing devices, signals are given by sensing, and the function of arranging materials is realized through an air cylinder, a servo motor and the like, so that the instability of the equipment is increased, the equipment cost is increased, and the occupied area of the equipment is increased.

Disclosure of Invention

The invention aims to provide an automatic groove end face aligning device to solve the problems of poor stability, high equipment cost and large occupied area in the prior art.

The technical scheme of the invention is as follows: the automatic groove end face aligning device comprises a conveying groove and is characterized in that a first fixing plate and a second fixing plate are respectively arranged at the upper ends of two sides of a port of the conveying groove and are connected with each other through a connecting rod; the two ends of a rear end shaft of the flush swing frame are rotatably supported between the first fixing plate and the second fixing plate, a swing arm shaft at the top end of the flush fixing frame is hinged to the front end of the flush swing frame, and a flush plate is arranged on the flush fixing frame; a tension spring is connected between the noodle aligning swing frame and the noodle aligning fixing frame; a swing arm is fixed at one end of the swing arm shaft, and the top end of the swing arm is hinged with the first fixed plate through a second connecting rod; one side of the flush swing frame is in transmission connection with a power device through a cam transmission mechanism, and the front end of the flush swing frame is driven to swing up and down around a rear end shaft.

The invention has the advantages that: the cam fixed on the transmission main shaft of the conveying line is used for supplying power to the noodle aligning device, so that noodle aligning and material conveying are carried out synchronously, the stability of the equipment is stronger, independent power is not needed, and the cost is saved.

Drawings

Fig. 1 is a schematic perspective view of an embodiment of the present invention.

Detailed Description

Referring to fig. 1, the automatic groove end noodle aligning device of the invention comprises a conveying groove 26, and a top plate 23 is arranged on the top end of one side of the conveying groove 26. A first fixing plate 11 and a second fixing plate 20 are respectively arranged at the upper ends of two sides of the port of the conveying groove and are connected with each other through two connecting rods 15; the two ends of a rear end shaft 24 of the flush face swing frame 16 are rotatably supported between the first fixing plate 11 and the second fixing plate 20, a swing arm shaft 17 at the top end of a flush face fixing frame 18 is hinged at the front end of the flush face swing frame 16, and a flush face plate 19 is arranged on the flush face fixing frame 18; a tension spring is connected between the noodle aligning swing frame 16 and the noodle aligning fixed frame 18; a swing arm 25 is fixed at one end of the swing arm shaft 17, and the top end of the swing arm 25 is hinged with the first fixing plate 11 through a second connecting rod 14; one side of the flush pendulum frame 16 is in transmission connection with a power device through a cam transmission mechanism, and the front end of the flush pendulum frame 16 is driven to swing up and down around a rear end shaft 24.

The cam transmission mechanism comprises a cam 7, a bearing 8, a rocker 9 and a first connecting rod 10, wherein the cam 7 is fixed on the driving shaft 6, and the driving shaft 6 is fixed on the rack through two bearings with seats. The fulcrum of a lever type rocker arm 9 is rotatably arranged on the frame, a bearing 8 is arranged at the shorter end (the left end in the figure) of the rocker arm 9 and corresponds to the cam 7, and the longer end (the right end in the figure) of the rocker arm 9 is hinged with an upper flush swing frame 16 through a first connecting rod 10.

The power device comprises a servo motor 1, a motor fixing plate 2, a driving chain wheel 3, a transmission chain 4 and a driven chain wheel 5, wherein the servo motor 1 is fixed on the motor fixing plate 2, and the motor fixing plate 2 is fixed on the rack through bolts; the driving chain wheel 3 is arranged on an output shaft of the servo motor 1, the driven chain wheel 5 is fixed on the driving shaft 6, and the transmission chain 4 is connected between the driving chain wheel 3 and the driven chain wheel 5.

The upper ends of two sides of the port of the conveying groove are respectively provided with a guide rail 22 (one guide rail 22 is arranged on the top plate 23), and one side of the first fixing plate 11 (the back of the first fixing plate 11 in the figure) is arranged on the corresponding guide rail 22 in a sliding way through a sliding block; the top end of the second fixing plate 20 is connected to a horizontally arranged third fixing plate 21 (both of which may be an integral structure), and the bottom end of the third fixing plate 21 is slidably mounted on the guide rail 22 through a slider. The front end of the first fixing plate 11 is connected with a nut, the nut is screwed into the top end of the adjusting screw rod 12, the adjusting screw rod 12 is rotatably connected to a screw rod fixing plate 13, and the screw rod fixing plate 13 is connected with the rack; an adjusting hand wheel is arranged at the other end of the adjusting screw rod 12. The distance between the screw rod fixing plate 13 and the first fixing plate 11 can be adjusted by rotating the adjusting screw rod 12, so that the effect of aligning the surfaces with different lengths is achieved.

The working process of the invention is as follows: when the servo motor 1 is powered on and operated, the driving chain wheel 3 provides power for the driven chain wheel 5 through the transmission chain 4, the driving shaft 6 rotates, the cam 7 is arranged on the driving shaft 6, and then the cam 7 rotates along with the driving shaft. A bearing 8 is arranged at the shorter end of the rocker arm 9, the bearing 8 is in contact with the cam 7, and the cam 7 drives the rocker arm 9 to swing up and down when rotating. The first connecting rod 10 is fixed at one longer end of the rocker arm 9, and the other end of the first connecting rod 10 is connected with the flush pendulum frame 16 through a joint bearing. When the rocker arm 9 swings up and down along with the rotation of the cam 7, the first connecting rod 10 drives the noodle aligning swing frame 16 to move up and down, the second connecting rod 14 is connected with the first fixing plate 11 and the swing arm shaft 17, the noodle aligning swing frame 16 is connected with the noodle aligning fixing frame 18 through a tension spring (the bottom end of the noodle aligning fixing frame 18 is subjected to the elasticity of the tension spring to the left side), when the noodle aligning swing frame 16 moves upwards, one end of the second connecting rod 14 is fixed at a certain position on the first fixing plate 11, the swing arm shaft 17 is pulled at the other end, the swing arm shaft 17 rotates, and the swing arm shaft 17 rotates and is limited to drive the noodle aligning fixing frame 18 and the noodle aligning plate 19 to rotate together counterclockwise by taking the swing arm shaft 17 as a central shaft to swing the lower end of the noodle aligning plate 19 rightwards, so; when the noodle aligning swing frame 16 is downward, one end of the second connecting rod 14 is fixed at a certain position on the first fixing plate 11, the other end pulls the swing arm shaft 17, so the swing arm shaft 17 rotates, and the noodle aligning fixing frame 18 and the noodle aligning panel 19 are driven by the rotation of the swing arm shaft 17 and the pulling force of the tension spring to rotate clockwise by taking the swing arm shaft 17 as a central shaft and reset to the state shown in figure 1, so the noodle aligning panel 19 is blocked at the notch of the groove for aligning materials.