MODULAR PRODUCE DRYING TUNNEL AND METHODS OF USE

Abstract

A modular produce drying tunnel system comprising a loading module, at least one drying module, an end module, and a conveyor. The drying module may comprise at least one gullwing style access door which houses an independent heating element and a blower and which opens upwardly to provide broad access to the interior of the tunnel. The system may be customizable for different types and volumes of produce, comprising a plurality of drying modules, each having at least one access door, and each access door having an independent heating element and blower.

Claims

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22. A method of drying produce, comprising: a. loading at least one piece of produce in a loading module at a proximal end of a modular tunnel; b. using a conveyor to advance said at least one piece of produce through at least one module having at least one access door that can be opened to allow access to an interior of said drying module; and c. passing a fluid through a coil in said at least one module to change a temperature in said at least one module. d. an end module operable to discharge said produce; e. at least one conveyor passing through said modules; and f. a controller operable to control individual environmental conditions of each of said modules.

23. The method of claim 22, further comprising passing air through said at least one module using a blower mounted therein.

24. The method of claim 22, wherein said at least one access door further comprises a heat transfer chamber, said heat transfer chamber housing said temperature control element and said blower.

25. The method of claim 22, wherein opening said at least one access door uncovers approximately half of an interior of said at least one module when opened.

26. The method of claim 22, wherein opening said at least one access door uncovers substantially all of an interior of said at least one module.

27. The method of claim 22, wherein the coil includes a fluid inlet conduit and a fluid outlet conduit, and a fluid valve controls a flow of fluid through a coil.

28. The method of claim 27, wherein said valve is in electronic communication with a controller.

29. The method of claim 22, wherein said at least one module comprises a plurality of blowers.

30. The method of claim 22, wherein said at least one module comprises a plurality of modules connected in series via a plurality of couplings.

31. The method of claim 28, wherein said at least one module comprises a plurality of modules.

32. The method of claim 31, further comprising adjusting a temperature in each of said plurality of modules individually using a control interface of said controller.

33. The method of claim 32, further comprising adjusting a speed of a plurality of blowers of in said plurality of modules, wherein said blowers are operable to be controlled independently through said control interface.

34. A method for drying produce including a modular tunnel, said modular tunnel comprising: a. loading produce into a loading module of said modular tunnel, said loading module comprising a first barrier for substantially blocking a first air flow while allowing said produce to pass into said modular tunnel; b. advancing said produce through a plurality of drying modules by conveyor; and c. drying the produce passing through the interior of said modular tunnel by applying air at adjustable temperatures and adjustable air flow, wherein said temperature is adjusted by changing a flow rate of a fluid through closed conduit located in said modular tunnel to said produce.

35. The method of claim 34, further comprising connecting said loading module to a first drying module of said modular tunnel via a first coupling, connecting a second drying module to said first drying module via a second coupling, and connecting an end module to said second drying module via a third coupling.

36. The method of claim 35, wherein said first and second drying modules each comprise a blower, and further comprising independently controlling a flow rate of air generated by each blower via a control interface in electronic communication with a controller.

37. Passing an item through a modular tunnel system, comprising: a. temperature treating said item while passing said item through a plurality of tunnel modules, each having independent temperature control coil; and b. modulating a temperature in each of said tunnel modules independently by passing a fluid at a pre-determined temperature through said coil in each of said tunnel modules.

38. The method of claim 37, wherein said modular tunnel system includes a controller operable to independently control the flow of said fluid through said temperature control coil in each of said plurality of tunnel modules.

39. The method of claim 38, wherein each said coil is in fluid communication with a fluid inlet conduit and a fluid outlet conduit.

40. The method of claim 39, wherein each of said coil is in fluid communication with a valve for controlling said flow of fluid therethrough, and said valve is in electronic communication with said controller.

41. The method of claim 38, using a control interface in electronic communication with said controller and operable to provide machine readable instructions to said controller to adjust a temperature in each of said plurality of modules individually using said control interface.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

[0053] FIG. 1A provides a perspective view of a modular produce drying tunnel system, according to an embodiment of the present invention.

[0054] FIG. 1B provides a perspective view of a modular produce drying tunnel system, according to an embodiment of the present invention.

[0055] FIG. 2A provides a perspective view of an access door of a modular produce drying tunnel system, according to an embodiment of the present invention.

[0056] FIG. 2B provides a perspective view of a heating element of a modular produce drying tunnel system, according to an embodiment of the present invention.

[0057] FIG. 2C provides a perspective view of a module support of a modular produce drying tunnel system, according to an embodiment of the present invention.

[0058] FIG. 2D provides a perspective view of a junction between drying modules of a modular produce drying tunnel system, according to an embodiment of the present invention.

[0059] FIG. 3A provides a perspective view of a loading module of a modular produce drying tunnel system, according to an embodiment of the present invention.

[0060] FIG. 3B provides a perspective view of elements of a loading module of a modular produce drying tunnel system, according to an embodiment of the present invention.

[0061] FIG. 4 provides a perspective view of an end module of a modular produce drying tunnel system, according to an embodiment of the present invention.

DETAILED DESCRIPTION

[0062] Reference will now be made in detail to certain embodiments of the invention, examples of which are illustrated in the accompanying drawings. While the invention will be described in reference to these embodiments, it will be understood that they are not intended to limit the invention. To the contrary, the invention is intended to cover alternatives, modifications, and equivalents that are included within the spirit and scope of the invention as defined by the claims. In the following disclosure, specific details are given to provide a thorough understanding of the invention. However, it will be apparent to one skilled in the art that the present invention may be practiced without these specific details.

[0063] Referring to the drawings wherein like reference characters designate like or corresponding parts throughout the several views, and referring to FIGS. 1-5B, it is seen that the present invention includes various embodiments of a modular produce drying tunnel system.

[0064] The present invention provides a modular tunnel system 100 for drying washed, fresh produce. The system 100 may comprise at least one drying module 101, a loading module 150, an end module 160, and a conveyor 170 (see FIG. 3A). The at least one drying module 101 may house a heating (or cooling) element 110 (a convoluted pipe operable to pass a fluid therethrough to radiate or absorb heat) and a blower 120. The system may further comprise a water inlet conduit 130 having an inlet coupling device 131, and a water outlet conduit 132 having an outlet coupling device 133. As shown in FIG. 1A, the system 100 may comprise a loading module 150, three drying modules 101 connected in series, and an end module 160. For clarity in showing the internal components of the three drying modules, FIG. 1A depicts the conveyor and various components of the access doors of the three drying modules as either transparent or not shown (e.g., the outer shell 107 of the access door 105 adjacent to the loading module 150 is shown, but no other outer shell 107 of an access door is fully visible). FIG. 1B depicts the same embodiment of the system 100 with all components of the access doors being fully visible.

[0065] The drying module 101 may comprise a module support 102 and an access door 105, the access door 105 having an outer shell 106 to protect and enclose the components of the access door 105, and a handle 107 for opening the access door 105. The access door may house a heating chamber 108 in which a heating element 110 and blower 120 are mounted, the blower 120 being disposed so as to blow heated air from the heating chamber 108 into an interior of the drying module 101. The access door 105 may comprise a gullwing style door which opens upwardly.

[0066] As seen most clearly in FIG. 2A, the access door 105 may house the heating chamber 108, the heating chamber 108 being an enclosed volume within the access door and positioned between the outer shell 106 (the outer shell 106 being shown as transparent in FIG. 2A for clarity) and the interior of the drying module 105. The heating chamber 108 may be positioned directly above the conveyor 170 (e.g., see 4) and may house at least one heating element 110 and a plurality of blowers 120, such that heated air may be blown directly down onto produce passing beneath the heating chamber 108 on the conveyor 170. The access door 105 may comprise a plurality of heating chambers 108, each heating chamber 108 housing at least one heating element 110 and a plurality of blowers 120. Each drying module 101 may comprise two access doors 105, each access door 105 comprising three heating chambers 108, and each heating chamber 108 comprising a heating element 110 and a plurality of blowers 120. Each access door may have a brace 116 to prop the access door open while a user inspects the interior of the drying module.

[0067] Each heating element 110 of the access door 105 may comprise a radiator heated via a flow of hot water, the heating element 110 heating the air in the heating chamber 108. The heating element 110 may comprise a water inlet pipe 111 and a water outlet pipe 112. The water inlet pipe 111 may be in fluid communication with an inlet 113 (see FIG. 2B) of the heating element 110 and a water inlet conduit 130, and the water outlet pipe 112 may be in fluid communication with an outlet 114 of the heating element 110 and a water outlet conduit 132. The system 100 may comprise a heating control interface (not shown), the heating control interface being operable to adjust the volume of hot water flowing through the heating element 110, and thus the level of heat radiated by the heating element 110.

[0068] The system 100 may comprise a single water inlet conduit 130 with an inlet coupling device 131 in fluid communication with a hot water source (not shown) and a single water outlet conduit 132 with an outlet coupling device 133 in fluid communication with at least one of a drain system or water return pipe (not shown) which leads back to the hot water source. The water inlet conduit 130 and the water outlet conduit 132 may each span the length of the drying tunnel such that the water inlet pipes 111 of each drying module 101 of the tunnel may hook up to the same water inlet conduit 130, and the water outlet pipes 112 of each drying module 101 may hook up to the same water outlet conduit 132.

[0069] Each blower 120 of the access door 105 may comprise an electric fan, the fan being disposed to blow heated air from the heating chamber 108 into the interior of the drying module 101. The fan may be mounted within a passage between the heating chamber 108 and an interior of the drying module 101. The system 100 may comprise a blower control interface (not shown). The blower control interface may be operable to control the speed of the blower(s) 120, and thus the volume of heated air blown from the heating chamber 108 into the interior of the drying module 101.

[0070] FIG. 2C provides a perspective view of a module support 102 of a drying module 101, the module support 102 comprising a central support 103, a plurality of couplings 104, a first end 101a, and a second end 101b. The first end may be the upstream end with respect to the movement of the conveyor, the second end 101b being the downstream end. The plurality of couplings 104 may comprise a first coupling 104a at the first end 101a of the module support 102, and a second coupling 104b at the second end 101b. Each access door 105 of the drying module 101 may be secured to an extension 103a of the central support 103 at the first end 101a, and an extension 103b of the central support 103 at the second end 101b. The central support 103 may run parallel with the direction of the conveyor 170 and positioned substantially directly above a central axis of the drying module 101, such that opening the access door 105 uncovers approximately half of the interior of the drying module 101.

[0071] As seen in FIG. 2D, each coupling 104a, 104b of the drying module 101 may be operable to securely connect in an airtight manner to a coupling of an adjacent drying module 101 (or loading module 150 or end module 160). The first end 101a may comprise the first coupling 104a and the second end 101b may comprise the second coupling 104b. The first coupling 104a may thus attach to a coupling of either an adjacent upstream drying module 101, or a loading module 150, and the second coupling 104b may attach to a coupling of either an adjacent downstream drying module 101 or an end module 160. The couplings 104a, 104b of adjacent drying modules 101 (or a drying module 101 and either a loading module 150 or an end module 160) may be secured together via at least one connector, the connector comprising a screw or a nut and bolt.

[0072] The water inlet conduit 130 and water outlet conduit 132 of the system 100 may each be modular, wherein each drying module 101 has a water inlet conduit module 130a and a water outlet conduit module 132a mounted to the central support 103. Each water inlet conduit module 130a may have a junction 134 operable to create a watertight seal with a junction 134 of an adjacent water inlet conduit module 130a mounted to an adjacent drying module 101, and each water outlet conduit module 132a may have a junction 135 operable to create a watertight seal with a junction 135 of an adjacent water outlet conduit module 132a mounted to an adjacent drying module 101.

[0073] Each drying module 101 may comprise at least one drip pan 109 mounted underneath the conveyor 170, the drip pan 109 being operable to catch droplets of moisture which fall from the produce and/or conveyor 170 as it passes through the drying module 101. Each drip pan 109 may comprise a drain hole 109a in fluid connection with a drain conduit 115 (see FIG. 2C) which leads to a waste water disposal system (i.e., a sewage pipe; not shown).

[0074] FIG. 3A provides a perspective view of a loading module 150. The loading module 150 may comprise an outer shell 151 having a coupling 104 operable to be secured to a coupling 104 of an adjacent drying module 101, a barrier 152 disposed between the outer shell 151 and the conveyor 170, and a drive shaft 153 in mechanical connection with a motor 154 for powering the conveyor 170. The barrier 152 may be operable to allow produce to pass into an adjacent drying module 101 while substantially blocking air flow from passing into or out of the interior of the adjacent drying module 101. The barrier 152 may comprise a row of plastic strips secured to the shell 151 and hanging above the conveyor 170. The loading module may further comprise a loading shelf 155 for catching washed produce being loaded into the drying tunnel from a separate washing or conveying device, or produce being loaded by a user, and directing the produce to the conveyor 170. The conveyor 170 may comprise a belt having narrow openings to allow air and moisture to pass through while supporting the produce, the belt being substantially equal in width to the length of the drive shaft 153, and may be wrapped about both the drive shaft 153 of the loading module 150 and the tail shaft 163 of the end module 160.

[0075] As shown in FIG. 3B, the motor 154 may comprise an electric motor and transmission 156 mechanically connected to the drive shaft 153 via an axle 157 (for clarity the transmission 156 is depicted as transparent and the conveyor 170 is not shown). The motor 154 may cause the drive shaft 153 to rotate, and the friction between an outer surface of the drive shaft 153 and an inner surface of the conveyor 170 may cause the conveyor to cycle (i.e., revolve) around the drive shaft 153 and tail shaft 163. The conveyor 170 may comprise a belt having widthwise ribs on an interior surface thereof, and the drive shaft 153 may comprise a plurality of cylindrical tubes arranged circumferentially about a longitudinal axis of the drive shaft 153, such that the ribs of the conveyor comprise a shape complementary to the spaces between the cylindrical tubes of the drive shaft 153, providing additional grip between the drive shaft 153 and the conveyor 170.

[0076] FIG. 4 provides a perspective view of an end module 160. The end module 160 may comprise an outer shell 161 having a coupling 104 operable to be secured to a coupling 104 of an adjacent drying module 101 (for clarity, the adjacent drying module 101 is shown without an access door 105 on one side and with a transparent access door shell 106 on the other side), a barrier 162 disposed between the outer shell 161 and the conveyor 170, and a free-spinning tail shaft 163 about which the conveyor 170 may be wrapped. The barrier 162 may be operable to allow produce to pass out of the drying tunnel while substantially blocking air flow from passing into or out of the interior of the adjacent drying module 101. The barrier 162 may comprise a row of plastic strips secured to the shell 161 and hanging above the conveyor 170.

[0077] The module 101 of the modular tunnel system 100 may be alternatively configured to apply various temperatures, including cooling temperatures to the interior of the module. For example, the element(s) 110 in at least one of the modules 101 in FIG. 1B may be connected to a cooled water source to allow cooled water to flow through the element to absorb heat present in the module 101 to dissipate heat from produce that had been dried by hotter conditions in upstream modules. In this manner, the tunnel system 100 may be used to both heat/dry and subsequently cool down produce passing therethrough.

[0078] It should be understood that the foregoing descriptions of specific embodiments of the present invention have been presented for purposes of illustration and description. They are not intended to be exhaustive or to limit the invention to the precise forms disclosed, and obviously many modifications and variations are possible in light of the above teachings. The embodiments were chosen and described in order to best explain the principles of the invention and its practical application, and to thereby enable others skilled in the art to best utilize the invention and various embodiments with various modifications as are suited to the particular use contemplated.