A solid object feeder according to the present invention includes a rotary disk including a plurality of storing holes of storing solid objects, a supporting member disposed below the rotary disk, and a guide member disposed above a peripheral portion of the rotary disk. The supporting member includes a step region continuing from an upstream side to a downstream side with respect to the guide member, and another region located upstream of the step region. A gap between the supporting member and a lower surface of the rotary disk in the step region is defined so that the solid object can move a space below the guide member from the upstream side to the downstream side. The gap is larger than a gap between the supporting member and the lower surface of the rotary disk in the other region.

A computer numerically controlled flow resistance system based on container features and properties of food ingredients comprises a mixing chamber, a stirring element, a pushing plate and a resetting element. The mixing chamber is communicated to sources of food ingredients of various colors, and the stirring element is disposed in the mixing chamber for stirring the food ingredients of various colors, so that the food ingredients after mixing have a desired color. The pushing plate is used to extrude the stirred food ingredients in the mixing chamber to a pastry tip of a pastry extrusion head. The resetting element makes a piston cylinder move to an extruding position according to an extrusion signal of a controller, and when the pushing plate stops displacing, the resetting element makes the piston cylinder move to a flow resistance position according to a flow resistance signal of the controller.

A computer numerically controlled flow resistance system based on container features and properties of food ingredients comprises a mixing chamber, a stirring element, a pushing plate and a resetting element. The mixing chamber is communicated to sources of food ingredients of various colors, and the stirring element is disposed in the mixing chamber for stirring the food ingredients of various colors, so that the food ingredients after mixing have a desired color. The pushing plate is used to extrude the stirred food ingredients in the mixing chamber to a pastry tip of a pastry extrusion head. The resetting element makes a piston cylinder move to an extruding position according to an extrusion signal of a controller, and when the pushing plate stops displacing, the resetting element makes the piston cylinder move to a flow resistance position according to a flow resistance signal of the controller.

A crimping and cutting assembly includes a first roller engaged with a second roller including a honeycomb pattern of polygonal crimping and cutting members. Various transversely spaced, internally filled dough ropes are fed between the first and second rollers, causing each rope to be continuously crimped and cut at longitudinally spaced locations to create multi-sided food products, specifically polygonal food products having two to six crimped and cut sides. The ropes can permissibly shift or wander laterally during production, resulting in slightly different size or shape food products, while the honeycomb pattern acts to re-align the ropes so as to be tolerant to the ropes wandering while still preventing puncturing of the ropes which could lead to loss of filling and extended production downtime.

Filled roll dough products, such as pizza rolls, are made with an outer dough shell with an internal filling material. Versus a conventional pizza roll, pizza rolls in accordance with the invention employs a filling material having a lower viscosity upon heating due to the removal of a majority of a viscosity altering additive (e.g., methyl cellulose) used in a conventional filling and an outer dough shell formed with spaced internal ridges which increase the structural integrity of the outer shell while not at all changing the external appearance. While removal of the viscosity altering additive from the filling material increases a blow-out rate for the product, the inclusion of the ridges decreases the blow-out rate to the extent that either a reduction or no significant change in product blow-rates is produced.

The present invention provides a soft material forming apparatus, which comprises a forming mold assembly and a detaching assembly. The forming mold assembly comprises a first roller and a second roller, for extruding a product. There is a specific interval between the detaching assembly and the first roller. The product comprises a release portion which is the earliest part of the product that contacts the detaching assembly. With the specific interval and the rotatability of the detaching assembly, the product can be released from the forming mold assembly.

A stuffing and molding mechanism of a dough food product processing machine includes a stationary structure inside which first and second mold rollers are arranged. At least one demolding rotary disc includes a disc body formed with a shaft hole by which a retention key is provided. The demolding rotary disc is fit to an end of a molding cutter of one of the mold rollers by means of the shaft hole for synchronous rotation therewith. At least one demolding pawl is raised from one side of the disc body that is adjacent to the molding cutter. A tubular dough skin filled with stuffing is supplied between the two molding cutters to be pressed and cut and then sealed to form a dumpling. Demolding of the dumpling is achieved by having the demolding pawl that is provided on the demolding rotary disc contact and push one side of the dumpling.

A rotating nozzle assembly for a die machine connectable to a dough extruder has a stationary sleeve with a first end having internal and external annular recesses and an annular stepped seating surface and a second end mountable in the die machine mounting plate. A nozzle has a first end rotatably disposed in the stationary-sleeve first-end internal annular recess, a second end and a radially outwardly-protruding annular ring between the first and second nozzle ends. A ring seal is disposed between the stationary-sleeve first-end annular stepped seating surface and the radially outwardly-protruding annular nozzle ring. A nozzle cap is fixedly attached to the stationary-sleeve first end. The nozzle is rotatably disposed in the nozzle cap. The nozzle second end extends beyond the nozzle cap. An annular stepped axial thrust bearing surface in the nozzle cap prevents relative axial movement of the nozzle while allowing rotation of the nozzle.

A stuffing filling and gas charging system of a dough food product machine is arranged between a stuffing feeding unit and a dough feeding unit of the dough food product machine and includes a stuffing conveyance pipe, and a shaft sleeve, a dough driving rod, and a screw rod support enclosure sleeved over the stuffing conveyance pipe. A first passage is formed between the shaft sleeve and the stuffing conveyance pipe; a second passage is formed between the dough driving rod and the stuffing conveyance pipe; and a third passage is formed between the screw rod support enclosure and the stuffing conveyance pipe. The passages are in communication with each other and are connected to a gas supply unit, so that air flow is introduced into a dough skin during the dough skin being shaped to prevent the dough skin from wrinkling and collapsing before being properly shaped.

A dough extrusion machine (10). The machine has a first extrusion unit (1) and a second extrusion unit (2) mounted to a platform (3), wherein the first extrusion unit (1) comprises combining means (12) for combining dough discharged from the first extrusion unit (1) and dough discharged from the second extrusion unit (2), characterized in that the first extrusion unit (1) has a plurality of inlet openings (7) upstream of combining means (12), and that the second extrusion unit (2) has a plurality of outlet openings (4), wherein the outlet openings (4) of the second extrusion unit (2) are coupled to the inlet openings (7) of the first extrusion unit (1) by an array (5) of tubes (6) detachably mounted to the first and second extrusion unit (1, 2).