Patent Application
20180186025
This disclosure relates to the use of exposed load cells integrated into food processing machines.
Food processing machines are used to process food in order to slice and package food products. Some food processing machines do not weigh the sliced food products directly, and instead utilize off-line weighing devices to ensure that the sliced food products are acceptable. This produces inefficiencies and is timely and costly. Other food processing machines utilize load cells which are protected in a housing to weigh the food products. These load cells are inefficient to clean, as the load cells have to be removed from their protective housing prior to cleaning, which is timely and costly. Still other food processing machines do not weigh the sliced food products until the sliced food products have advanced into the packaging device of the food processing machine. This produces additional inefficiencies and is timely and costly.
A food processing machine, and method of its use, is needed to overcome one or more of the issues associated with one or more of the existing food processing machines.
In one embodiment, a food processing machine includes a slicing device, a slicing conveyor, a classifier device, and an exposed load cell device. The slicing device is adapted to slice a food product. The slicing conveyor is adapted to move the food product sliced by the slicing device. The classifier device is adapted to classify the food product sliced by the slicing device. The exposed load cell device is adapted to weigh the food product sliced by the slicing device. The exposed load cell device is located between the slicing conveyor and the classifier device. The exposed load cell device is permanently exposed providing accessible cleaning.
In one embodiment, a food processing machine includes a slicing device, a slicing conveyor, a classifier device, and an exposed load cell device. The slicing device is adapted to slice a food product. The slicing conveyor is adapted to move the food product sliced by the slicing device. The classifier device is adapted to classify the food product sliced by the slicing device. The exposed load cell device is adapted to weigh the food product sliced by the slicing device. The exposed load cell device comprises an exposed load cell conveyor, an exposed load cell, and a base. The exposed load cell conveyor is located between the slicing conveyor and the classifier device. The exposed load cell device is permanently exposed providing accessible cleaning.
In another embodiment, a method of operating a food processing machine is disclosed. In one step, a food product is sliced with a slicing device. In another step, the food product sliced by the slicing device is moved from the slicing device towards an exposed load cell device with a slicing conveyor. In an additional step, the food product sliced by the slicing device is weighed with the exposed load cell device, wherein the exposed load cell device is permanently exposed providing accessible cleaning. In another step, the food product sliced by the slicing device is moved from the exposed load cell device to a classifier device using the exposed load cell device, wherein the exposed load cell device is located between the slicing conveyor and the classifier device. In still another step, the food product sliced by the slicing device is classified with the classifier device.
The scope of the present disclosure is defined solely by the appended claims and is not affected by the statements within this summary.
The disclosure can be better understood with reference to the following drawings and description. The components in the figures are not necessarily to scale, emphasis instead being placed upon illustrating the principles of the disclosure.
As shown collectively in
The control system 22, comprising at least one processor, is adapted to control the entire food processing machine 10 including all of its components identified herein. As such, all movements or actions of any components of the food processing machine 10 described herein are controlled by the control system 22. The product tray lift 24 is adapted to rotate around pivot point 40 in counter-clockwise and clockwise directions 42 and 44 in order to respectfully raise and lower the product tray 14. Initially, the food product 12 is loaded in the product tray 14 while the product tray lift 24 has the product tray 14 disposed in a horizontal position (not shown) with the gate 16 holding the food product 12 in the product tray 14. After the food product 12 is loaded in the product tray 14, the product tray lift 24 is rotated in counter-clockwise direction 42 to dispose the product tray 14, the gate 16, and the food product 12 held within the product tray 14 by the gate 16 in the position of
Next, the upper infeed 26 is rotated clockwise 44 and the lower infeed 28 is rotated counter-clockwise 42 while the gripper device 18 is moved further in direction 46 to gradually move the food product 12 into the slicing device 30. The slicing device 30 slices the food product 12 which then falls onto the slicing conveyor 32 which is located directly underneath the slicing device 30. The slicing conveyor 32 rotates counter-clockwise 42 to move the sliced food product 12 to and onto the transfer conveyor 34 which is disposed next to the slicing conveyor 32. The transfer conveyor 34 rotates counter-clockwise to move the sliced food product 12 to and onto an exposed load cell conveyor 48 of the exposed load cell device 36 which is next to the transfer conveyor 34. It is noted that the transfer conveyor 34 is located between the slicing conveyor 32 and the exposed load cell conveyor 48 of the exposed load cell device 36.
As illustrated in
It is noted that the exposed load cell conveyor 48 of the exposed load cell device 36 is located between the slicing conveyor 32 and the classifier device 38, and more particularly the exposed load cell conveyor 48 of the exposed load cell device 36 is located between the transfer conveyor 34 and the classifier device 38. The classifier device 38 classifies the weighed and sliced food product 12 by determining whether the weighed and sliced food product 12 meets an acceptable criteria in part based on the determined weight of the weighed and sliced food product 12, as determined by the exposed load cell device 36. The weighed and sliced food product 12 which is determined by the classifier device 38 to meet the acceptable criteria is then packaged. The weighed and sliced food product 12 which is determined by the classifier device to not meet the acceptable criteria can then be discarded or used for other purposes.
In step 66, the food product sliced by the slicing device is weighed with an exposed load cell of the exposed load cell device, wherein the exposed load cell of the exposed load cell device is permanently exposed providing accessible cleaning. In step 68, the food product sliced by the slicing device is moved from the exposed load cell device to a classifier device using the exposed load cell device, wherein the exposed load cell device is located between the slicing conveyor and the classifier device. In one embodiment, step 68 comprises moving the food product sliced by the slicing device with an exposed load cell conveyor of the exposed load cell device. In step 70, the food product sliced by the slicing device is classified with the classifier device. In one embodiment, step 70 comprises determining whether the food product meets an acceptable criteria in part based on a weight of the food product determined by the exposed load cell device.
In step 72, food product which is classified by the classifier device as meeting the acceptable criteria is packaged, and food product which is classified as not meeting the acceptable criteria is discarded of or used for other purposes. In step 74, an exposed load cell of the exposed load cell device is sprayed with a liquid to clean the exposed load cell of the exposed load cell device without having to remove the exposed load cell of the exposed load cell device from a protective housing. In another embodiment, step 74 comprises cleaning the exposed load cell of the exposed load cell device with any cleaning medium without having to remove the exposed load cell of the exposed load cell device from a protective housing. In other embodiments, any steps of the method 60 may be modified in substance or in order, any steps of the method 60 may not be followed, or one or more additional steps may be added to the method 60.
The Abstract is provided to allow the reader to quickly ascertain the nature of the technical disclosure. It is submitted with the understanding that it will not be used to interpret or limit the scope or meaning of the claims. In addition, in the foregoing Detailed Description, it can be seen that various features are grouped together in various embodiments for the purpose of streamlining the disclosure. This method of disclosure is not to be interpreted as reflecting an intention that the claimed embodiments require more features than are expressly recited in each claim. Rather, as the following claims reflect, inventive subject matter lies in less than all features of a single disclosed embodiment. Thus the following claims are hereby incorporated into the Detailed Description, with each claim standing on its own as a separately claimed subject matter.
While particular aspects of the present subject matter described herein have been shown and described, it will be apparent to those skilled in the art that, based upon the teachings herein, changes and modifications may be made without departing from the subject matter described herein and its broader aspects and, therefore, the appended claims are to encompass within their scope all such changes and modifications as are within the true scope of the subject matter described herein. Furthermore, it is to be understood that the disclosure is defined by the appended claims. Accordingly, the disclosure is not to be restricted except in light of the appended claims and their equivalents.
