FLUID CONVECTION FRYER AND FLUID CONVECTION METHOD

Abstract

A substantially closed loop filtration and convection system is configured to move fluid/oil volume within a fryer vat. The vat has a flow directed inlet, which directs flow of cooking fluid in a direction across the bottom of the vat directing the flow of oil and crumbs/debris across the vat, up and across a flow separation portion toward and into a cleaning zone portion of the vat. A crumb tray or crumb/debris catch system is disposed in the cleaning zone adjacent to the vat.

Claims

1. A deep fryer system, comprising: a cooking vat including a cooking portion, and a cleaning zone portion; a flow separation portion disposed within the cooking vat, substantially separating the cooking portion and the cleaning zone portion of the cooking vat, the flow separation portion having a gap at a top portion thereof to permit cooking fluid to flow between the gap from the cooking portion of the vat to the cleaning zone portion of the vat; an inlet introducing cooking fluid into the cooking vat, the inlet directing a flow of cooking fluid in a downward direction into the cooking vat to direct the flow of cooking fluid from the cooking portion of the vat to the cleaning zone portion of the vat; a cleaning tray disposed in the cleaning zone portion of the vat, the cleaning tray having a perforated portion receiving the flow of cooking fluid and filtering debris from a volume of the flow of cooking fluid passing over the cleaning tray.

2. The deep fryer system of claim 1 wherein the flow separation portion disposed within the cooking vat substantially separating the cooking portion and the cleaning zone portion of the cooking vat is an integral portion of a unitary cooking vat comprising the cooking portion and the cleaning zone portion of the cooking vat with the flow separation portion disposed between the cooking portion and the cleaning zone portion of the cooking vat.

3. The deep fryer system of claim 1 wherein the cleaning tray disposed in the cleaning zone portion further comprises a pivot holding the cleaning tray in position for actuation between a first position and a second position; and the deep fryer system further comprises an actuator actuating the cleaning tray, relative to the pivot, between the first position and the second position.

4. The deep fryer system of claim 1 wherein the cooking vat has rounded interior corners.

5. A cooking system, comprising: a cooking vat including a cooking portion, and a cleaning zone portion; a flow separation portion disposed within the cooking vat, substantially separating the cooking portion and the cleaning zone portion of the cooking vat; an inlet introducing a flow of cooking fluid into the cooking vat, and directing the flow of cooking fluid from the cooking portion of the vat to the cleaning zone portion of the vat; a cleaning mechanism disposed in the cleaning zone portion of the vat, the cleaning mechanism receiving the flow of cooking fluid and filtering debris from a volume of the flow of cooking fluid passing over the cleaning mechanism.

6. The cooking system of claim 5 wherein the system is a deep fryer and the cooking fluid is cooking oil.

7. The cooking system of claim 5 wherein, the flow separation portion has a gap at a top portion thereof to permit cooking fluid to flow between the gap from the cooking portion of the vat to the cleaning zone portion of the vat.

8. The cooking system of claim 5 wherein, the inlet directs the flow of cooking fluid in a downward direction into the cooking vat.

9. The cooking system of claim 5 wherein, the inlet comprises at least one inlet along a back wall and along a side will distal from the cleaning zone portion of the vat.

10. The cooking system of claim 5 wherein, the inlet comprises one of a flow jet or a nozzle.

11. The cooking system of claim 5 wherein, the cleaning mechanism includes a cleaning tray having a perforated portion receiving the flow of cooking fluid and filtering debris from the volume of the flow of cooking fluid passing over the cleaning tray.

12. The cooking system of claim 5 wherein, the cleaning mechanism includes a cleaning conveyor receiving the flow of cooking fluid and conveying filtered debris from the volume of the flow of cooking fluid into a debris disposal mechanism.

13. A method of implementing closed-loop cooking fluid flow in a cooking system, the method comprising the steps of: pumping cooking fluid into a burner and heat exchange heating assembly and heating the cooking fluid to a cooking temperature; directing a flow of the cooking fluid into a cooking portion of a cooking vat at one or more inlets at an end of the cooking vat and directing the flow of cooking fluid toward a cleaning zone portion of the cooking system; cleaning an amount of crumbs and food debris from the cooking fluid in the cleaning zone portion of the cooking system; and receiving the cooking fluid from the cleaning zone portion of the cooking system and pumping the cooking fluid into the burner and heat exchange heating assembly and heating the cooking fluid to the cooking temperature.

14. The method of implementing closed-loop cooking fluid flow of claim 13, wherein the cooking system is a deep fryer and the cooking fluid is cooking oil.

15. The method of implementing closed-loop cooking fluid flow of claim 13, wherein the step of directing the flow of the cooking fluid into the cooking portion of the cooking vat involves directing the flow of cooking fluid toward a flow separator portion proximate to the cleaning zone portion of the cooking system.

16. The method of implementing closed-loop cooking fluid flow of claim 15, wherein the step of directing the flow of the cooking fluid toward the flow separator portion involves directing the flow of cooking fluid up an inclined wall of the cooking vat and through a gap in the flow separator portion.

17. The method of implementing closed-loop cooking fluid flow of claim 15, wherein the step of directing the flow of the cooking fluid into the cooking portion of the cooking vat involves directing the flow of the cooking fluid from at least one inlet disposed along at least one of a back wall and a side wall distal from the cleaning zone portion of the vat.

18. The method of implementing closed-loop cooking fluid flow of claim 15, wherein the step of directing the flow of the cooking fluid into the cooking portion of the cooking vat involves directing the flow of the cooking fluid in a downward direction across the bottom of the vat. is picked up and moved with the flow of oil.

19. The method of implementing closed-loop cooking fluid flow of claim 13, wherein the step of cleaning an amount of crumbs and food debris from the cooking fluid in the cleaning zone portion of the cooking system involves using a crumb catch to catch the food debris.

20. The method of implementing closed-loop cooking fluid flow of claim 19, wherein the step of cleaning an amount of crumbs and food debris from the cooking fluid in the cleaning zone portion of the cooking system using a crumb catch to catch the food debris involves using a crumb catch in the form of one of a crumb tray or a conveyor.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

[0014] FIG. 1 is a perspective view of a fryer for implementing aspects of the disclosure.

[0015] FIG. 2A is a perspective and schematic view of a fryer closed-loop oil flow configuration, showing a deep drawn tank with minimized unswept volumes according to an aspect of the disclosure, partially in section.

[0016] FIG. 2B is a perspective view of an alternative crumb catch mechanism in the form of a crumb catch conveyor.

[0017] FIG. 3 is a top down view of a fryer according to the disclosure.

[0018] FIG. 4. is a front view of a fryer according to the disclosure, showing a Section line A-A.

[0019] FIG. 5. is a sectioned view, taken along line A-A of FIG. 4, of a fryer according to the disclosure.

[0020] FIG. 6 is a flow diagram of a method implementing oil flow and convection for removing crumbs/debris from cooking oil in a system according to the disclosure.

DETAILED DESCRIPTION

[0021] FIG. 1 illustrates a deep fryer 10, which could be a reduced oil volume (ROV) fryer, that includes at least one fryer vat 100, configured to receive fryer baskets 102, for frying food that may be disposed in the fryer baskets 102. Two fryer vats 100 are illustrated in FIG. 1, each having two fryer baskets 102 such that four fryer baskets are shown, however, it should be appreciated that other configurations and number of baskets may be implemented in a system according to the disclosure. The deep fryer 10 may also have electrical/electronic control components 104 disposed on a front side of the deep fryer 10. Each fryer vat 100 has corresponding electrical/electronic control so that each fryer vat may be separately controlled, e.g., for frying different foods according to different parameters. The fryer vat(s) can be used to efficiently heat and maintain a temperature of a cooking oil that is contained within the vat (also known as a frypot) of the deep fryer 10.

[0022] As illustrated in FIGS. 2 through 5, the deep fryer 10 configuration according to the disclosure provides a closed-loop fryer fluid circulation or convection configuration that may eliminate the need for an open filter pan, and provides a substantially closed loop filtration and convection system. The system generally may include a deep drawn cooking vat 200, e.g., a reduced oil volume (ROV) vat. A pump 202 moves cooking fluid, e.g., oil, through the system.

[0023] The suction side of the pump 202 pulls cooking oil from a portion of the cooking vat 200 and pumps it into a heat exchanger 206 that provides efficient heating of the oil in conjunction with a burner assembly 208. An illustrative heat exchanger/burner configuration may be one as disclosed in U.S. Provisional Patent Application No. 62/667,835, Filed: May 7, 2018, titled REDUCED OIL VOLUME DEEP FRYER BURNER SYSTEM, which is incorporated herein by reference in its entirety.

[0024] Rather than having an open filtration pan and an open fryer vat, the system's open fluid component is the deep drawn cooking vat 200 (e.g., the reduced oil volume (ROV vat), in the system illustrated in FIGS. 1, 3, 4 and 5 two cooking vats 200 are shown). Each cooking vat 200 (best illustrated in FIG. 2), is fabricated with minimized unswept volumes facilitated by elimination of sharp corners within the fryer vat. The vat 200, according to the disclosure, may be stamped from stainless steel, sheet metal, or welded, to have interior corners 204 of the vat 200 that are rounded to avoid crumbs and debris settling into and sticking in sharp corners of the fryer cooking vat.

[0025] The deep drawn cooking vat, which does not house burners or heating elements within the vat, is comprised of a cooking portion 210 and an adjacent cleaning zone 212. A weir or gap 214 on a flow separator portion 216 is disposed between the cooking portion and adjacent cleaning zone. Although illustrated as a unitary structure, it should be appreciated that the cooking portion 210 and adjacent cleaning zone 212 could be configured as a plurality of structures, for example two tanks or vats side-by-side, with adjacent walls forming the flow separator portion 216 disposed therebetween. The closed loop oil flow system according to the disclosure is configured to direct a flow of cooking fluid or oil (represented by arrows in FIG. 2) from the cooking portion 210 of the vat, across the flow separator portion 216 through the weir 214, and into the cleaning zone 212. The flow separator portion 216 may be implemented as an angled wall with an upward tilt from a bottom portion of the cooking portion of the vat toward the cleaning portion. The weir 214 may be a gap or gaps in an upper portion or a relatively low section of the angled wall of the flow separator portion 216 between the cooking portion 210 and the cleaning zone 212.

[0026] According to an aspect of the disclosure, cooking fluid is introduced into the vat at one or more inlets 220 at a steep wall 222 of the vat distal to the weir 214 and flow separator portion 216. The inlet(s) 220, which may be integrated in the back wall and/or side walls distal to the flow separator portion 216, may be in the form of a flow jet or directed nozzle. The flow jet(s) or nozzle(s) may be configured to direct the flow of oil in a downward direction across the bottom of the vat 200 from the steep distal wall 222 of the cooking portion 210 of the vat 200 toward the weir 214 and cleaning zone 212 of the vat 200. One or more of the inlets 220 may direct flow other than downwardly to assist in directing flow and sweeping debris in the oil toward the cleaning portion 212 of the system. The directed flow of cooking oil, e.g., into the reduced oil volume deep drawn cooking vat with minimized unswept volumes (resulting from rounded interior surfaces), results in a substantial amount of any crumbs and food debris (which tends to gravitate toward the bottom of the vat) being picked up and moved with the flow of oil (again, represented as the arrows in FIG. 2). A downward orientation of the directed flow of the cooking oil will sweep crumbs or other particles away from the steep distal wall 222 toward and up the angled wall of the flow separator portion 216, through the weir 214 and into the cleaning zone 212 portion of the vat 200.

[0027] The cleaning zone 212 of the vat 200 may include a crumb tray 218 or trap or other filter mechanisms to catch the food debris. The food debris may be periodically automatically or manually eliminated from the system. In an embodiment, an automated crumb tray 218 may be implemented in the cleaning zone 212 to periodically eliminate crumbs and food debris that has been swept into the cleaning zone 212 from the cooking vat 200. In one embodiment, a crumb tray is configured as disclosed in U.S. Provisional Patent Application No. 62/666,971, Filed: May 4, 2018, titled AUTOMATED FRYER CRUMB CATCH, which is incorporated herein by reference, in its entirety. Alternatively, a crumb or debris conveyor may be configured as disclosed in U.S. Provisional Patent Application No. 62/740,680, Filed: Oct. 3, 2018, titled Automated Fryer Crumb Catch Conveyor, which is incorporated herein by reference, in its entirety.

[0028] The crumb tray 218, in one embodiment, is disposed at an upper portion of the oil cleaning zone 212, and is comprised of a first portion 230 that is slotted, mesh or otherwise perforated screen to facilitate catching crumbs/debris from the oil. A second part 232 of the crumb tray 218 is substantially imperforate and is disposed over a chute. The chute 234 is a disposal chute into which the crumbs fall, or may be driven down. The crumb tray 218 is configured on a pivot 236 to pivot between an open and a closed position and may be actuated to dispose crumbs/debris filtered from the oil down the disposal chute 234.

[0029] In the closed position the crumb tray 218 perforated portion 230 catches crumbs/debris 238 from the oil, and the second part 232 of the crumb tray 218 is substantially imperforate and acts as a closure disposed over the disposal chute 234. In the open position, the first and second portions are tilted downward into the chute to dispose of crumbs that have collected on the crumb tray. In an embodiment, a secondary filter media tray 240, such as a removable filter medium, may be disposed at a bottom portion of the cleaning zone 212 beneath the automated crumb tray 218.

[0030] Alternatively, a crumb filter may be implemented at an upper portion of the oil cleaning zone, and is comprised of a small conveyor 219 with a belt that is made of a filtering mesh that allows the cooking oil to pass through, to facilitate catching crumbs/debris from the oil. The crumbs and debris will travel on the conveyor belt to the discharge end where the crumbs will be expelled into a disposal chute. The chute will deposit the crumbs into a holding pan.

[0031] In the closed-loop oil flow system, as described, and illustrated in FIG. 5, the suction side of the pump 202 pulls cooking oil from a portion of the cooking vat 200 and pumps it into a heat exchanger 206 that provides efficient heating of the oil in conjunction with a burner assembly 208. Heated oil from the burner and heat exchanger is directed into the vat 200, and along the bottom and/or sides of the vat 200 by the by a plurality of inlet(s) 220 (e.g., flow jets or directed nozzles) integrated in the back wall and/or side walls distal to the flow separator portion 216. The flow of oil is directed across the vat 200 toward the weir 214 and cleaning zone 212 of the vat 200. In the cleaning zone 212 the oil is filtered by one or more of a crumb catch mechanism and filter media, and the oil is pulled from the cleaning zone 212, e.g., at the underside of the cleaning zone beneath filter media at the suction side of the pump 202. The filtered oil in the convection fluid system is then pumped back into the burner and heat exchanger assembly for efficient heating and is directed back into the vat 200. The closed loop system as described results in efficient heating and cleaning of the oil in the deep fryer system and provides more uniform and efficient cooking of food by the heated oil as it is more uniformly heated and circulated within the system.

[0032] In a method implementing closed-loop oil flow according to the disclosure, as illustrated in FIG. 6, a deep drawn tank or vat with minimized unswept volumes is provided, depicted as box 610. Cooking fluid, e.g. oil, that has been pumped into a burner and heat exchange heating assembly, is introduced into the vat at one or more inlets at an end of the cooking vat distal to a flow separator portion and cleaning zone portion of the of the system. Oil is directed away from the distal wall of the vat in a downward direction, box 612. The inlet(s), which may be in the form of a flow jet, nozzle or directed nozzle, direct the flow of oil in the downward direction across the bottom of the vat directing the flow of oil and crumbs/debris across the vat toward and into a cleaning zone of the vat, box 614. A substantial amount of any crumbs and food debris is picked up and moved with the flow of oil. The flow of the cooking oil will sweep crumbs or other particles away from the end wall where the oil is jetted from, toward and up the angled wall of a flow separator wall as the crumbs/debris are subjected to convection currents, box 616. As the crumbs/debris move up the flow separator wall, they flow into a cleaning zone portion of the vat, e.g., through a weir, and are substantially maintained in the cleaning portion by the weir and continued flow/convection of oil, box 618. The cleaning zone portion of the vat may include a crumb catch in the form of a crumb tray, conveyor or trap or other filter mechanisms to catch the food debris. The crumb catch may be used to manually or automatically, periodically, remove crumbs/debris from the cooking oil and system, box 620. The sweeping of the oil across the vat, as the oil flow directs crumbs/debris toward the cleaning zone, creates convection currents within the oil that facilitate greater uniformity of heating of the oil in the vat, and enhances the cooking properties of the vat and convection system according to the disclosure.

[0033] Although a deep drawn vat configuration is described herein comprising a cooking portion and a cleaning zone, it should be appreciated that the two zones may be configured in a single, integrated vat construction, such as may be stamped and/or welded into a unitary structure, with the separating weir portion as a part of that unitary structure. Similarly, it should be appreciated that the same structure could be implemented by attaching the multiple components, as separate components, into an integrated structure without departing from the disclosure.

[0034] While a deep drawn fryer vat is described herein, having rounded corners and flow angles that facilitate minimized unswept volumes within the tank, it should be appreciated that alternative tank embodiments may be implemented with different geometric aspects that still result in a flow of fluid from a first portion of the tank to a second portion of the tank.

[0035] Although a gap or weir on a flow separator portion disposed between the cooking portion and adjacent cleaning zone is described and illustrated herein as a single gap at the top portion of the flow separator portion, it should be appreciated that more than a single gap or weir could be implemented (for example, 2, 3, 4 or more), and the gaps/weirs could be implemented below the top of the flow separator portion as well as at the top, as well as combinations thereof (e.g. some at the top and some below the top). Furthermore, the weir itself could be a wall portion that is lower than other walls of the vat.

[0036] In some embodiments, a controller may be programmed to provide an error message to the user (by way of a message board, digital readout, warning light, audible signal, or the like when the crumb tray and/or disposal pan are filled with a quantity of crumbs/debris that necessitates removal. Sensors, e.g., optical sensor(s) may be implemented for crumb detection. The error message may prompt the user to investigate the cause of excess collection of crumbs, and to take steps to cure the same, e.g. mechanically cleaning the crumb tray and/or disposal pan to try to clear the error message.

[0037] Although illustrative control processing as described in embodiments herein may be implemented by microcontroller in program code, it should be appreciated by those skilled in the art that discrete control electronics, large scale integrated circuitry or other control technologies may be used to implement the functionality described herein.

[0038] While various embodiments are disclosed herein, it should be understood that the disclosure is not so limited and modifications may be made without departing from the disclosure. The scope of the disclosure is defined by the appended claims, and all devices that come within the meaning of the claims, either literally or by equivalence, are intended to be embraced therein.