One-out two-mask machine shunt mechanism manufacturing method

- Jun 17, 2020-

Background technique:


After the product is produced, the traditional conveying device conveys the product in the same direction. If the speed is too fast, it will be difficult to keep up with the conveying rhythm of the product. Usually, the phenomenon is improved by using a diverter device. The product of the direction is divided into multiple directions, thereby increasing the number of corresponding points that can be followed by subsequent operations. Not only can multiple operations be performed at the same time, to prevent the phenomenon of accumulation, but also to improve work efficiency.


Most of the shunting mechanisms in the prior art are more complicated and not simple enough, and the shunting effect is poor, and the shunting and conveying cannot be realized quickly. At the same time, the failure rate caused by the operation is high, so it is urgent to develop a Two mask machine shunt mechanism.


Technical realization elements:


The purpose of the utility model is to provide a one-out two mask machine shunt mechanism to solve the problems that the one-out two mask machine shunt mechanism proposed in the above-mentioned background technology is inconvenient to realize shunt processing and has high operating failure characteristics.


In order to achieve the above object, the present invention provides the following technical solutions: A one-out two mask machine shunt mechanism, including a mask machine, a shunt device is provided on the left side of the mask machine, and a lower side is provided on the left side of the shunt device Conveying device, an upper conveying device is provided above the left side of the diverter device, the diverter device includes a diverter plate, a baffle plate, a pallet, a pressing wheel and a feeding mechanism, the diverter plate is located in the lower conveying device and the upper conveying device At the boundary of At the bottom, a feeding mechanism is installed on the left side of the mask machine, a pressing wheel is provided on the upper surface of the feeding mechanism, a rotating shaft is provided on the left side of the middle of the manifold, and a movable side is provided on the rear side of the manifold A slot, a motor is provided on the rear side of the movable slot, a motor shaft is provided at the power output end of the motor, the motor shaft is fixedly connected with a rotating rod, and the rotating rod is located in the inner cavity of the movable slot.

automatic mask making machine

Compared with the prior art, the beneficial effect of the utility model is that the utility model provides a shunt mechanism for a two-mask machine, a feeding mechanism is installed on the left side of the mask machine, and a pressure is provided above the feeding mechanism The tight wheel is convenient for the mask to fit the surface of the feeding mechanism. The motor realizes the rotation of the rotating rod on the inner wall of the movable groove through the motor shaft, so as to realize the up and down operation of the manifold around the rotating shaft. The masks are conveyed to the surface of the lower conveying device and the upper conveying device respectively, which is convenient for the realization of split processing, the device is more simplified, and the operation failure is low.

Technical characteristics:

1. A shunt mechanism for a one-out two-mask machine, including a mask machine, characterized in that: a shunt device is provided on the left side of the mask machine, and a lower conveying device is provided below the left side of the shunt device, the shunt device An upper conveying device is provided on the upper left side of the device. The diverter device includes a diverter plate, a baffle, a pallet, a pressing wheel, and a feeding mechanism. The diverter plate is located at the junction of the lower conveying device and the upper conveying device. The right side end of the conveying device is provided with a baffle plate, the baffle plate is located above the manifold, the right end of the lower conveying device is provided with a pallet, the pallet is located at the bottom of the manifold plate, the mask machine A feed mechanism is installed on the left end, a pressure wheel is provided on the upper surface of the feed mechanism, a rotating shaft is provided on the left side of the middle of the splitter plate, and a movable groove is provided on the rear side of the divider plate. The rear side is provided with a motor, and the power output end of the motor is provided with a motor shaft, the motor shaft is fixedly connected with a rotating rod, and the rotating rod is located in the inner cavity of the movable groove.


2. The shunt mechanism of a one-out two-mask machine according to claim 1, characterized in that: a motor frame is provided at the bottom of the motor.


3. The one-out two-mask machine shunt mechanism according to claim 1, wherein the outer end of the mask machine shunt device is an arc-shaped round head.


4. The split mechanism of a one-out two-mask machine according to claim 1, wherein the movable groove is a fan-shaped groove.

Technical summary

The utility model discloses a shunting mechanism for a two-mask machine, which includes a mask machine. A shunt device is provided on the left side of the mask machine, and a lower conveying device is provided below the left side of the shunt device. An upper conveying device is provided on the upper left side. The diverting device includes a diverter plate, a baffle, a pallet, a pressing wheel, and a feeding mechanism. The diverter plate is located at the junction of the lower conveying device and the upper conveying device. A baffle is provided on the right end of the device, the baffle is located above the diverter plate, a pallet is provided on the right end of the lower conveying device, the pallet is located on the bottom of the diverter plate, and the left side of the mask machine A feeding mechanism is installed on the side end, a pressing wheel is arranged on the upper surface of the feeding mechanism, a rotating shaft is arranged on the left side of the middle of the splitter plate, and a movable groove is arranged on the rear side of the splitter plate. Processing, the device is more simplified, and the overall effect of low operating failures.